https://wiki.pine64.org/api.php?action=feedcontributions&feedformat=atom&user=AmosbattoPINE64 - User contributions [en]2026-04-21T12:45:05ZUser contributionsMediaWiki 1.37.1https://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9679PinePhone component list2021-04-01T13:50:28Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] in the PinePhone Beta Edition with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed. Presumably U1200 will be unpopulated and U1203 will be populated in the Beta Edition, since they appear to be alternatives.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' These parts appear to be alternatives to be used if the LIS3MDL is unavailable, so U1203 was probably unpopulated in BraveHeart and the Community Editions, but will be populated in the Beta Edition.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the TDK InvenSense MPU6050, in case it isn't available or costs too much.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 24† || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''627''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''654''' || '''48'''<br />
|}<br />
&nbsp;<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/ED''xxx'') || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CON''xxx'') || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/F''xxx'') || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FB''xxx'') || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TV''xxx'') || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 65 || 2 || 24† || 2<br />
|-<br />
| Crystal oscillators (Y/X''xxx'') || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total without test points''' ||'''1133'''||'''41'''||'''627'''||'''45'''<br />
|-<br />
| '''Total with test points''' ||'''1259'''||'''45'''||'''654'''||'''48'''<br />
|}<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
† There are 26 U/DU''xxx'' listed in the PinePhone schematic, but the two extra are for an alternative magnetometer (U1200 / U1203) and an alternative gyroscope and accelerometer (U1202 / U1204) which are unpopulated. <br />
<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9678PinePhone component list2021-04-01T13:46:41Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] in the PinePhone Beta Edition with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed. Presumably U1200 will be unpopulated and U1203 will be populated in the Beta Edition, since they appear to be alternatives.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' These parts appear to be alternatives to be used if the LIS3MDL is unavailable, so U1203 was probably unpopulated in BraveHeart and the Community Editions, but will be populated in the Beta Edition.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the TDK InvenSense MPU6050, in case it isn't available or costs too much.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 24† || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''627''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''654''' || '''48'''<br />
|}<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/ED''xxx'') || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CON''xxx'') || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/F''xxx'') || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FB''xxx'') || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TV''xxx'') || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 65 || 2 || 24† || 2<br />
|-<br />
| Crystal oscillators (Y/X''xxx'') || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total without test points''' ||'''1133'''||'''41'''||'''627'''||'''45'''<br />
|-<br />
| '''Total with test points''' ||'''1259'''||'''45'''||'''654'''||'''48'''<br />
|}<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
† There are 26 U/DU''xxx'' listed in the PinePhone schematic, but the two extra are for an alternative magnetometer and an alternative gyroscope which are unpopulated. <br />
<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9673PinePhone component list2021-04-01T13:41:47Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] in the PinePhone Beta Edition with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed. Presumably U1200 will be unpopulated and U1203 will be populated in the Beta Edition, since they appear to be alternatives.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' These parts appear to be alternatives to be used if the LIS3MDL is unavailable, so U1203 was probably unpopulated in BraveHeart and the Community Editions, but will be populated in the Beta Edition.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the TDK InvenSense MPU6050, in case it isn't available or costs too much.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 24† || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''627''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''654''' || '''48'''<br />
|}<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 24† || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total without test points'''|| '''1133''' || '''41''' || '''627''' || '''45'''<br />
<br />
|-<br />
| '''Total with test points''' || '''1259''' || '''45''' || '''654''' || '''48'''<br />
|}<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
† There are 26 U/DU''xxx'' listed in the PinePhone schematic, but the two extra are for an alternative magnetometer and an alternative gyroscope which are unpopulated. <br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9667PinePhone component list2021-04-01T13:29:07Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] in the PinePhone Beta Edition with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed. Presumably U1200 will be unpopulated and U1203 will be populated in the Beta Edition, since they appear to be alternatives.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' These parts appear to be alternatives to be used if the LIS3MDL is unavailable, so U1203 was probably unpopulated in BraveHeart and the Community Editions, but will be populated in the Beta Edition.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the TDK InvenSense MPU6050, in case it isn't available or costs too much.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 24* || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''627''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''654''' || '''48'''<br />
|}<br />
\* There are 26 U/DU''xxx'' listed in the schematic, but the two extra are for an alternative magnetometer and an alternative gyroscope which are unpopulated. <br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 24* || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total''' || '''1259''' || '''45''' || '''654''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9654PinePhone component list2021-04-01T12:43:42Z<p>Amosbatto: /* P.12 SENSORS/MT/KEY */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] in the PinePhone Beta Edition with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed. Presumably U1200 will be unpopulated and U1203 will be populated in the Beta Edition, since they appear to be alternatives.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' These parts appear to be alternatives to be used if the LIS3MDL is unavailable, so U1203 was probably unpopulated in BraveHeart and the Community Editions, but will be populated in the Beta Edition.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the TDK InvenSense MPU6050, in case it isn't available or costs too much.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total''' || '''1259''' || '''45''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9652PinePhone component list2021-04-01T12:32:23Z<p>Amosbatto: /* P.12 SENSORS/MT/KEY */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] in the PinePhone Beta Edition with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed. Presumably U1200 will be unpopulated and U1203 will be populated in the Beta Edition, since they appear to be alternatives.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' These parts appear to be alternatives to be used if the LIS3MDL is unavailable, so U1203 was probably unpopulated in BraveHeart and the Community Editions, but will be populated in the Beta Edition.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total''' || '''1259''' || '''45''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9651PinePhone component list2021-04-01T12:23:32Z<p>Amosbatto: /* P.12 SENSORS/MT/KEY */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br><font color=dimgrey>'''''Note:''''' The LIS3MDL is currently unavailable, so in the PinePhone Beta, it [https://www.pine64.org/2021/03/15/march-update/#comment-4273 has been replaced] with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [http://www.voltafield.com/products01.html AF8133J] is listed.</font> <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total''' || '''1259''' || '''45''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9650PinePhone component list2021-04-01T10:22:39Z<p>Amosbatto: /* P.12 SENSORS/MT/KEY */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [https://filebin.net/oqpbo2mvnyjerbnc/datasheet.pdf?t=dp9odukm AP3127B] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br>Note: The LIS3MDL is currently unavailable, so in the PinePhone Beta, it [has been replaced](https://www.pine64.org/2021/03/15/march-update/#comment-4273) with the Voltafield AF8133L e-Compass, which is unlisted on the Voltafield web site, but the [AF8133J](http://www.voltafield.com/products01.html) is listed. <br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total''' || '''1259''' || '''45''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9349PinePhone component list2021-02-25T15:44:35Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| '''Total''' || '''1259''' || '''45''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9348PinePhone component list2021-02-25T15:43:38Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) || 126 || 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
| **Total** || **1259** || **45** || **656** || **48**<br />
|}<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9347PinePhone component list2021-02-25T15:42:20Z<p>Amosbatto: /* Component Counts */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
Source: [https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Amos Batto]<br />
<br />
Here is how the PinePhone compares with the Librem 5 in terms of components:<br />
<br />
{| class="wikitable"<br />
! Type of component !! Librem 5 main !! Librem 5 USB !! PinePhone main !! PinePhone USB<br />
|-<br />
| Antenna connectors (ANTxxx) || 3 || 2 || 6 || 4<br />
|-<br />
| Capacitors (Cxxx) || 521 || 11 || 296 || 16<br />
|-<br />
| Diodes (D/TVS/EDxxx) || 59 || 1 || 22 || 0<br />
|-<br />
| Connectors (J/CONxxx) || 26 || 10 || 14 || 4<br />
|-<br />
| Resistors (R/Fxxx) || 348 || 8 || 222 || 0<br />
|-<br />
| Inductors (L/FBxxx) || 79 || 7 || 21 || 0<br />
|-<br />
| Transistors (Qxxx) || 17 || 0 || 16 || 19*<br />
|-<br />
| Switches (SWxxx) || 5 || 0 || 1 || 0<br />
|-<br />
| Test points (T/TC/TP/TS/TVxxx) 126 4 || 27 || 3<br />
|-<br />
| Integrated circuits (U/DUxxx) || 65 || 2 || 26 || 2<br />
|-<br />
| Crystal oscillators (Y/Xxxx) || 10 || 0 || 5 || 0<br />
|-<br />
! Total !! 1259 !! 45 !! 656 !! 48<br />
|}<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9346PinePhone component list2021-02-25T15:33:40Z<p>Amosbatto: /* P.7 NAND/eMMC */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but [https://xnux.eu/devices/photos/pp-1.1.html these photos] show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
[https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Source]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=9345PinePhone component list2021-02-25T15:32:03Z<p>Amosbatto: /* P.7 NAND/eMMC */</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.</font><br>'''''Note 3:''''' The schematic lists the part as KM110SS0016GxA-DDD00WT, but these photos show that its variant, the KM111SS0016GxA-DDD00WT, is being used in the 16GB PinePhone.<br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
[https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Source]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone&diff=8411PinePhone2020-12-15T03:53:33Z<p>Amosbatto: /* PinePhone board information, schematics and certifications */</p>
<hr />
<div>The PinePhone is a smartphone created by Pine64, capable of running mainline Linux and supported by many partner projects. The BraveHeart Edition was the first publicly-available version of the phone, though it came without a fully functional OS (factory test image) and was geared specifically towards tinkerers and hackers. Its successor is the Community Edition, the first Community Edition started to ship in June 2020. The phone will be available for at least five years.<br />
<br />
== First time installation ==<br />
<br />
{{Hint|The default PIN for the Manjaro Community Edition is '''123456'''.}}<br />
<br />
[[File:PinePhone-3.jpg|400px|thumb|right|PinePhone is capable of running a multitude of different Linux mobile OSes]]<br />
<br />
[[File:Pinephone_rendering_blank.png|400px|thumb|right|Rendering of the back and front of PinePhone]]<br />
<br />
From the factory the battery has a sticker on it that isolates the battery from the phone. The battery '''will not''' charge until this is removed.<br />
<br />
[[File:Pinephone_warning.png|none|left|400px]]<br />
<br />
After unboxing remove the back panel using the notch in the corner of the back panel. Then remove the battery and peel off the clear plastic sticker below it that isolates the charging contact. Then replace the battery, see [[PinePhone#Battery|Battery]] for more information.<br />
<br />
The SIM card has to be placed in the lower slot, while the microSD has to be placed in the upper slot, as pictured here:<br />
<br />
[[File:Pinephone_backside.png|none|left|400px]]<br />
<br />
== Specifications ==<br />
<br />
'''Dimensions:''' 160.5 x 76.6 x 9.2mm <br><br />
'''Weight:''' Between 180-200 grams <br><br />
'''SIM Card:''' Micro-SIM <br><br />
'''Display:'''<br />
: '''Size:''' 5.95 inches (151mm) diagonal<br />
: '''Type:''' HD IPS capacitive touchscreen, 16M colors<br />
: '''Resolution:''' 1440x720, 18:9 ratio <br><br />
'''System on Chip:''' [https://linux-sunxi.org/A64 Allwinner A64] <br><br />
'''RAM:''' 2GB or 3GB LPDDR3 SDRAM<br><br />
'''Internal Storage:''' 16GB or 32GB eMMC, extendable up to 2TB via microSD, supports SDHC and SDXC <br><br />
'''Back Camera:''' Single 5MP, 1/4", LED Flash <br><br />
'''Selfie Camera:''' Single 2MP, f/2.8, 1/5" <br><br />
'''Sound:''' Loudspeaker, 3.5mm jack & mic (jack doubles as hardware UART if killswitch 6 is deactivated) <br><br />
'''Communication: G25-G'''<br />
: '''LTE:''' B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B38, B39, B40, B41<br />
: '''WCDMA:''' B1, B2, B4, B5, B6, B8, B19<br />
: '''GSM:''' 850, 900, 1800, 1900 (MHz)<br />
: '''WLAN:''' Wi-Fi 802.11 b/g/n, single-band, hotspot<br />
: '''Bluetooth:''' 4.0, A2DP<br />
: '''GNSS:''' GPS/GLONASS/BeiDou/Galileo/QZSS, with A-GPS<br />
'''Sensors:''' Accelerometer, gyro, proximity, ambient light, compass <br><br />
'''Killswitches:''' Modem, WiFi & Bluetooth, Microphone, Cameras <br><br />
'''Battery:''' Lithium-ion, rated capacity 2800mAh (10.64Wh), typical capacity 3000mAh (11.40Wh) (nominally replaceable with any Samsung J7 form-factor battery) <br><br />
'''I/O:''' USB Type-C, USB Host, DisplayPort Alternate Mode output, 15W 5V 3A Quick Charge, follows USB PD specification<br />
<br />
== Components ==<br />
{| class="wikitable"<br />
! Component<br />
! Model<br />
|-<br />
| Touchscreen<br />
| Goodix GT917S<br />
|-<br />
| Rear camera<br />
| OmniVision OV5640<br />
|-<br />
| Camera flash<br />
| SGMICRO SGM3140<br />
|-<br />
| Front camera<br />
| GalaxyCore GC2145<br />
|-<br />
| LCD<br />
| Xingbangda XBD599<br />
|-<br />
| WiFi<br />
| Realtek RTL8723CS<br />
|-<br />
| Bluetooth<br />
| Realtek RTL8723CS<br />
|-<br />
| Modem<br />
| Quectel EG25-G<br />
|-<br />
| GNSS/GPS<br />
| Quectel EG25-G<br />
|-<br />
| Magnetometer<br />
| ST LIS3MDL<br />
|-<br />
| Ambient light / Proximity<br />
| SensorTek STK3335<br />
|-<br />
| Sixaxis<br />
| InvenSense MPU-6050<br />
|-<br />
| Vibration motor<br />
| Unknown model<br />
|-<br />
| Notification LED<br />
| LED0603RGB<br />
|-<br />
| Volume buttons<br />
| Buttons connected to the KEYADC<br />
|-<br />
| Power button<br />
| X-Powers AXP803<br />
|-<br />
| Battery fuel gauge<br />
| X-Powers AXP803<br />
|}<br />
<br />
See the [[PinePhone_component_list|PinePhone Component List]].<br />
<br />
== Hardware revisions ==<br />
<br />
# [[Project Anakin]]<br />
# [[Project Don't be evil|"Project Don't Be Evil" devkit]]<br />
# [[PinePhone v1.0 - Dev|PinePhone v1.0 - Developer batch]]<br />
# [[PinePhone v1.1 - Braveheart]]<br />
# [[PinePhone v1.2]] - Ubports Community Edition<br />
# [[PinePhone v1.2a]] - postmarketOS Community Edition<br />
# [[PinePhone v1.2b]] - Manjaro Community Edition<br />
<br />
== Swapping in a new mainboard revision ==<br />
<br />
The mainboard can be replaced, for example for upgrading to a newer hardware revision or if it is faulty. The replacement board does not have an OS preinstalled, to test if everything is working after swapping the mainboard a flashed SD card is required. The mainboard also comes with a non-functional firmware on the ANX chip, a newer firmware version has to be flashed as explained below to get certain USB functionality to work.<br />
<br />
=== Replacing the mainboard ===<br />
<br />
Prior to replacing your PinePhone’s mainboard please read the steps outlined in bullet points below and watch the attached video.<br />
<br />
# You’ll need a small Phillip’s screwdriver and a prying tool to swap out the PinePhone’s mainboard.<br />
# Remove the PinePhone’s back cover. See your quick start guide for details.<br />
# Remove the battery as well as any inserted SD and SIM cards.<br />
# Unscrew all 15 Phillip’s head screws around the midframe of the phone.<br />
# Gently pry up the midframe using a guitar pick or credit card corner. It is easiest to separate the midframe at one of the bottom edges. Work your way around all the sides of the phone until the midframe separates from the phone’s body.<br />
# Detach all ribbon cables and “Lego” connectors. List of things to detach: 1) two “Lego” connects at the bottom of the mainboard. 2) u.FL antenna connect and touchscreen digitizer on PCD left side. 3) LCD ribbon cable top of mainboard, next to audio/ UART jack.<br />
# Pry the mainboard up gently from the left-hand side.<br />
# Remove front and main cameras and reset them into the new mainboard.<br />
# Check that the rubber proximity sensor housing is in the chassis, not stuck to the removed mainboard.<br />
# Place the new mainboard in the chassis, hooking in on the plastic tabs on left side and pressing down firmly on opposite side, and follow the steps (7-2) in reverse. When reattaching the midframe take care that no cables are out of place or trapped, as they may be damaged when tightening screws.<br />
<br />
After swapping the mainboard the phone won't boot as there is no OS on the replacement board's eMMC preinstalled. To boot an OS insert a flashed SD card.<br />
<br />
A video tutorial can be found here:<br />
[[File:Pinephone_martijn_pcb_replacement.png|thumb|none|600px|link=https://www.youtube.com/watch?v=5GbMoZ_zuZs|Watch Martijn Braam's video tutorial here: https://www.youtube.com/watch?v=5GbMoZ_zuZs.<br><br> Alternatively user bridadan uploaded a video tutorial of the swap procedure including camera swap and proximity sensor housing here: https://www.youtube.com/watch?v=J3AJEF7akkw.]]<br />
<br />
=== Flashing the ANX firmware ===<br />
<br />
After swapping the mainboard the ANX chip has to be flashed for full USB functionality.<br />
<br />
Download the latest ANX firmware image on the phone:<br />
<br />
wget https://xff.cz/git/linux-firmware/plain/anx7688-fw.bin<br />
<br />
Execute as root ("sudo su") on the phone:<br />
<br />
cp anx7688-fw.bin /lib/firmware/<br />
echo 1 > /sys/class/typec/port0/device/flash_eeprom<br />
<br />
== Hardware accessory ==<br />
<br />
=== PinePhone hardware accessory compatibility ===<br />
See [[PinePhone Hardware Accessory Compatibility]] for a list of devices working with the PinePhone (depending on their OS support).<br />
<br />
=== USB-C connector ===<br />
<br />
The USB-C can be used to power the device, and offers USB2 host and OTG possibilities, and also can make use of the USB-C capability to integrate HDMI signals. Some USB-C hubs are available that offer power throughput, USB connection, HDMI port and Ethernet connection. The driver that would make this connection available is not supported at this time.<br />
<br />
=== Pogo pins ===<br />
<br />
The PinePhone has 6 pogo pins on the back allowing for custom hardware extensions such as wireless charging, an IR blaster, a keyboard extension or extended battery case. The pogo pins provide access to an interrupt line, power input to charge the battery, power source and an I2C interface.<br />
<br />
[[File:Pinephone pogo.png|none|400px]]<br />
<br />
{| class="wikitable"<br />
| Interrupt<br />
| SDA<br />
| SCL<br />
|-<br />
| 5V / VBUS<br />
| VBAT<br />
| GND<br />
|}<br />
<br />
The VBUS pin is powered by USB and is 5V. The second power pin is VBAT, which connects to the battery voltage. The I2C and interrupt lines have pull-ups on the phone side. The I2C lines are pulled up to 3V3 by the phone.<br />
<br />
For a breakout board see [https://github.com/SMR404/PinephonePogoBreakout here]. For an example project see Martijn's blog post [https://blog.brixit.nl/making-a-backcover-extension-for-the-pinephone/ <i>"Making a backcover extension for the PinePhone"</i>].<br />
<br />
=== Back cover ===<br />
A step file for the back cover for creating custom cases is freely available [https://files.pine64.org/doc/PinePhone/PinePhone%20Back%20Cover%20ver%200.5.stp here].<br />
<br />
=== Serial console ===<br />
<br />
The PinePhone has a serial port in the headphone connector, it's activated by the 6th contact on the dipswitch. If the switch is set to "on", the headphone connector is in audio mode, if it is set to "off" it's in UART mode. The UART serial connection can also be used for communication with other devices from the PinePhone.<br />
<br />
The UART is 115200n8.<br />
<br />
The pinout for the serial connector is:<br />
<br />
* Tip: RX<br />
* Ring: TX<br />
* Sleeve: GND<br />
<br />
[[File:PinePhone_Serial_Cable.png|none|400px]]<br />
<br />
You can buy a serial debug cable from the [https://pine64.com/product/pinebook-pinephone-pinetab-serial-console/ Pine64 Store]. The store cable uses a 4 ring plug, as seen in the [https://files.pine64.org/doc/pinebook/guide/Pinebook_Earphone_Serial_Console_Developer_Guide.pdf here], but a 3 ring plug works just as well. The cable uses a CH340 chipset based serial to USB converter, but any 3.3v serial connection can be used. Because it is a "host"/DTE it means that you need a ''cross modem cable'' ([https://en.wikipedia.org/wiki/Null_modem Null Modem]) with TX on Tip to be connected to RX. A cable like e.g. [https://www.ftdichip.com/Products/Cables/USBTTLSerial.htm FTDI TTL-232R-3V3-AJ] which has TX on Tip and RX on Ring fits perfectly.<br />
<br />
== Killswitch configuration ==<br />
<br />
[[File:PinePhone Kill Interruptors de Maquinari del PinePhone 4529.jpg|320px|thumb|right|Detail of DIP switch]]<br />
<br />
The PinePhone features six switches that can be used to configure its hardware. They are numbered 1-6, with switch 1 located nearest to the modem. Their "on" position is toward the top of the phone.<br />
<br />
{| class="wikitable"<br />
|-<br />
! Number<br />
! Name<br />
! Explanation<br />
! Description<br />
|-<br />
| 1<br />
| Modem<br />
| Pulls Q1501 gate up (FET killing modem power)<br />
| "On" enables 2G/3G/4G communication and GNSS hardware, "off" disables it.<br />
|-<br />
| 2<br />
| WiFi / Bluetooth<br />
| Pulls up CHIP_EN<br />
| "On" enables WiFi and Bluetooth communication hardware, "off" disables it.<br />
|-<br />
| 3<br />
| Microphone<br />
| Breaks microphone bias voltage from the SoC<br />
| "On" enables audio input from on-board microphones (not 3.5mm jack), "off" disables it.<br />
|-<br />
| 4<br />
| Rear camera<br />
| Pulls up PWDN on OV5640 <br />
| "On" enables the rear camera, "off" disables it.<br />
|-<br />
| 5<br />
| Front camera<br />
| Pulls up PWDN on GC2145<br />
| "On" enables the front camera, "off" disables it.<br />
|-<br />
| 6<br />
| Headphone<br />
| Pulls up IN2 on analog switch BCT4717ETB<br />
| "On" enables audio input and output via the 3.5mm audio jack, "off" switches the jack to hardware UART mode.<br />
|}<br />
<br />
== Camera ==<br />
<br />
The PinePhone has two cameras, OmniVision OV5640 with 5MP (up to 2592 x 1944 pixels) as rear camera and GalaxyCore GC2145 with 2MP (up to 1600 x 1200 pixels) as front camera.<br />
<br />
[[File:Rose.jpg|400px|thumb|none|Example picture taken on the PinePhone's rear camera by Martijn Braam using his app ''Megapixels''.]]<br />
<br />
Further details regarding the camera and the Megapixels camera app can be found on [https://blog.brixit.nl/tag/phones/ Martijn's blog].<br />
<br />
== Battery ==<br />
<br />
{{Hint|The EG25 modem and RTL8723CS WiFi/bluetooth do not work without battery power, even if you are supplying enough power to the PinePhone with USB-C.}}<br />
<br />
The phone ships with a plastic sticker between the battery and the phone. You need to open the back cover (gently), then remove the battery and finally remove the sticker and check that the pins aren't bent. This is to protect the device from turning on during shipping.<br />
<br />
The [https://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf supplied battery] is [https://forum.pine64.org/showthread.php?tid=8120&pid=53307#pid53307 meant to be] compatible with Samsung part number EB-BJ700BBC / BBE / CBE from the 2015 J7 phone. <br />
* The extended life aftermarket BBU does fit, although it is a tight fit.<br />
* There is [https://forum.pine64.org/showthread.php?tid=8563&pid=55053#pid55053 a report] that the EB-BJ700CBE isn't quite the same size, causing the back not to fit the BraveHeart Edition properly.<br />
<br />
The battery terminals, in order from nearest the edge to nearest the middle, are:<br />
<br />
# +ve<br />
# thermistor<br />
# -ve<br />
# not connected<br />
<br />
The battery includes a protection circuit that isolates it in a number of fault conditions, including if it is discharged too far. The fully discharged battery [https://forum.pine64.org/showthread.php?tid=8563&pid=55377#pid55377 can be recharged] by connecting the phone to a charger. Once it has charged sufficiently you will be able to boot the phone.<br />
<br />
If your battery is hard to remove from the phone, try loosening the screws around it. Possibly cutting up a piece of plastic and sliding it under the battery as a pull tab can work too.<br />
<br />
<gallery mode="packed", heights=300px><br />
Image:PinePhone battery1.png|Photo of Brave Heart case from OSAKANA TARO on Twitter<br />
Image:PinePhone battery3.jpeg|Photo of Brave Heart battery sticker from OSAKANA TARO on Twitter<br />
</gallery><br />
<br />
== Modem and carrier support ==<br />
=== APN settings ===<br />
<br />
The APN setting is only required for a public Internet connection ("data") on the phone. For tested APN settings and how to apply them see [[PinePhone APN Settings]].<br />
<br />
=== Carrier support ===<br />
The page [[PinePhone Carrier Support]] contains information about the frequency support of different carriers and hints on setting up cellular network connectivity.<br />
<br />
=== Documents ===<br />
<br />
Detailed information about the modem can be found on the [https://xnux.eu/devices/feature/modem-pp.html#toc-modem-on-pinephone page of the developer megi], including reverse-engineered parts of the firmware and its functions. There is also a document about using the modem from January 18th 2020 by megi [https://megous.com/dl/tmp/modem.txt here]. A script at the end of the document showcases a way to poweroff the modem before powering off the phone, which is integrated into most of the available OSes.<br />
<br />
=== Firmware modifications ===<br />
<br />
See [[PineModems]] for more information regarding modem bootloader unlocking, building a custom modem firmware and modem recovery.<br />
<br />
=== Voice mail ===<br />
<br />
Some phone operating systems may not have support for accessing your voicemail by holding down the 1 key. If you are in Canada and using rogers or a rogers associated carrier (such as ''Chatr''), you can access your voice mail by calling an external number, see: https://www.howardforums.com/showthread.php/913346-Rogers-GSM-Voicemail-Retrieval-Numbers<br />
<br />
In America, AT&T also has support for accessing your voicemail via an external phone number: https://www.att.com/support/article/wireless/KM1009101/<br />
<br />
== Operating Systems ==<br />
<br />
The PinePhone will automatically boot from microSD if a bootable card is inserted. Although it is technically possible to use any ARM distribution (because the PinePhone uses the mainline kernel), there are a few that are designed specifically for mobile use on devices like the PinePhone.<br />
<br />
=== Software releases ===<br />
<br />
The [[PinePhone Software Releases]] page has a complete list of currently supported phone-optimized Operating System images that work with the PinePhone as well as other related software information. As soon as more patches get mainlined and distributions ship with the updated kernel, they will also be able to run unmodified on the device.<br />
<br />
=== Installation instructions ===<br />
<br />
For instructions on how to install the operating systems to the eMMC or SD card see [[PinePhone Installation Instructions]].<br />
<br />
=== Flashing eMMC using Jumpdrive ===<br />
<br />
[[File:jumpdrive.jpg|400px|thumb|right|Jumpdrive running on the PinePhone]]<br />
The internal eMMC flash storage can be flashed using the Jumpdrive utility by Danct12 and Martijn from postmarketOS.<br />
This utility boots from micro SD and exposes the internal eMMC flash storage when the PinePhone is connected to a computer.<br />
The process of flashing an OS to the exposed and mounted eMMC is identical to that of any other storage medium - e.g. a SD card. You can use the 'DD' command or a utility such as Etcher or Gnome Disks, etc.<br />
<br />
Latest Jumpdrive can be found [https://github.com/dreemurrs-embedded/Jumpdrive/releases/ here].<br />
<br />
==== Detailed usage instructions ====<br />
<br />
# Download the Jumpdrive image<br />
# Flash the Jumpdrive image to a micro SD card<br />
# Boot the PinePhone from the Jumpdrive micro SD card<br />
# Connect the PinePhone to your computer using USB-A -> USB-C cable<br />
# Flash the exposed PinePhone drive (e.g. /dev/mm..., check for the right device in dmesg, GNOME disks, or similar, and make sure it's unmounted) with your chosen OS image<br />
# Once the flashing process is complete, disconnect the PinePhone from your PC, power it down and remove the Jumpdrive SD card<br />
# The process is now finished, and you can boot from eMMC<br />
<br />
Jumpdrive also acts as a rescue image in case if you messed up your installation. To do so, you can telnet to '''172.16.42.1''', mount rootfs and fix it!<br />
<br />
==== Resize file system ====<br />
<br />
If you flash a 4GB image distribution (such as phosh+debian) to your eMMC, your eMMC will only have a 3.7GB partition on it. To use the entire 14.7GB on the eMMC, run the following commands:<br />
<br />
# sudo cfdisk /dev/sdX<br />
# Change to [Resize] in the ncurses program, resize the 3.7GB partition to 14.7GB, and [Write]<br />
# sudo resize2fs /dev/sdXY<br />
<br />
Replace X with your drive's name. Replace Y with the partition you resized in cfdisk.<br />
<br />
==== Feedback ====<br />
<br />
If you've found an issue or want to improve the tool consider these sites:<br />
<br />
* Issues: https://github.com/dreemurrs-embedded/Jumpdrive/issues<br />
* Pull Requests: https://github.com/dreemurrs-embedded/Jumpdrive/pulls<br />
<br />
== Frequently asked questions ==<br />
<br />
For a list of frequently asked questions (including information regarding the shipping) see [[PinePhone FAQ]].<br />
<br />
== Replacing the screen ==<br />
<br />
Before attempting to replace the screen be sure to review the section on [[#Swapping in a new mainboard revision|replacing the mainboard]] since that will get you most of the way there. Be aware that the replacement screen is actually the entire front frame of the phone and there are components that will need to be swapped from your old screen.<br />
<br />
* Make sure you have a precision screwdriver set that has the correct size Philips tip. The screws are very small and the heads can easily be stripped if the screwdriver is not correct - if you feel your screwdriver slipping, stop what you are doing and try one that is a better fit. A magnetized screwdriver will help in not losing screws, as will a magnetic parts holder to keep them in while working.<br />
<br />
* There are a number of components and cables as well as the insulator sheet under the battery that are glued in place. A hair dryer will loosen the glue and make them much easier to remove. You may want to order extra cables along with the screen just in case.<br />
<br />
* The vibrator motor, which is part of the USB-C board assembly and glued into place, will come apart easily and be damaged if you pry it up in the wrong place. Make sure you pry from underneath the complete part, not midway on its housing. The ribbon cable attaching this to the USB-C board is small, thin, and fragile so be careful with that as well.<br />
<br />
* The new screen comes with new side switches and insulator sheet but there are a number of parts that need to be transferred from the old screen, like the thin coax cable running up the side, the phone ear speaker, proximity sensor gasket, and a gold-colored mesh glued in place that needs to be transferred to a flexible circuit included on the new screen. If you don't swap over the proximity sensor rubber gasket the screen will immediately turn off after logging in. Be careful when routing the coax cable that it goes around the screw holes or you may drive a screw right through the cable.<br />
<br />
Take your time, use the right tools, be careful and you should be rewarded with success.<br />
<br />
== Press ==<br />
<br />
For an overview about media of the PinePhone you can use for the news, blogs, or similar see [[PinePhone Press]].<br />
<br />
== PinePhone board information, schematics and certifications ==<br />
* PinePhone mainboard schematic:<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2b]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2a]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2]<br />
** [[PinePhone_v1.2|PinePhone schematic ver 1.2 change list]]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20Schematic%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard Schematic ver 1.1]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20top%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component top placement drawing ver 1.1]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20bottom%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component bottom placement drawing ver 1.1]<br />
** [[PinePhone component list]]<br />
* PinePhone USB-C small board schematic:<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20schematic%20v1.0%2020190730.pdf PinePhone USB-C small board Schematic ver 1.0]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20top%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component top placement drawing ver 1.0]<br />
** [https://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20bottom%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component bottom placement drawing ver 1.0]<br />
* PinePhone certifications:<br />
** [https://files.pine64.org/doc/cert/PinePhone%20FCC%20SDOC%20Certificate-S19112602605001.pdf PinePhone FCC Certificate]<br />
** [https://fcc.report/FCC-ID/2AWAG-PINEPHONE RF Exposure SAR Information from FCC ID site]<br />
** [https://files.pine64.org/doc/cert/PinePhone%20CE%20RED%20Certificate-S19112602602.pdf PinePhone CE RED Certificate]<br />
** [https://files.pine64.org/doc/cert/PinePhone%20ROHS%20Report.pdf PinePhone ROHS Report]<br />
** PinePhone's GSMA TAC (Type Allocation Code) is 86769804<br />
<br />
== Datasheets for components and peripherals ==<br />
<br />
* Allwinner A64 SoC information:<br />
** [https://files.pine64.org/doc/datasheet/pine64/A64%20brief%20v1.0%2020150323.pdf Allwinner A64 SoC brief introduction]<br />
** [https://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf Allwinner A64 SoC Data Sheet V1.1 (Official Released Version)]<br />
** [https://files.pine64.org/doc/datasheet/pine64/Allwinner_A64_User_Manual_V1.0.pdf Allwinner A64 SoC User Manual V1.0 (Official Release Version)]<br />
<br />
* X-Powers AXP803 PMU (Power Management Unit) information:<br />
** [https://files.pine64.org/doc/datasheet/pine64/AXP803_Datasheet_V1.0.pdf AXP803 PMIC datasheet]<br />
<br />
* LPDDR3 (178 Balls) SDRAM:<br />
** [https://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf Artmem LPDDR3 datasheet]<br />
<br />
* eMMC information:<br />
** [https://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf Kimtigo eMMC datasheet]<br />
<br />
* CMOS camera module information:<br />
** [https://files.pine64.org/doc/datasheet/pinephone/QZ01-rear-2019-0717(HW)%20Model.pdf PinePhone 5M Pixel Real CMOS Image Sensor Module]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV5640 5MP CMOS Image Sensor SoC for Rear Module datasheet]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/QZ01-front-2019-0717(HW)%20Model.pdf PinePhone 2M Pixel Front CMOS Image Sensor Module]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145 2MP CMOS Image Sensor SoC for Front Module datasheet]<br />
<br />
* LCD touch screen panel information:<br />
** [https://files.pine64.org/doc/datasheet/pinephone/PinePhone%20LCD-QZ01.pdf 5.99" 1440x720 LCD IPS Panel specification]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703 LCD Controller datasheet]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GOODiX GT917S Capacitive Touch Controller datasheet]<br />
<br />
* Lithium battery information:<br />
** [https://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf PinePhone Lithium Battery specification]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20ZCV%20Curve%20Chart.xlsx PinePhone Lithium Battery ZCV curve chart]<br />
<br />
* WiFi/BT module information:<br />
** [https://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723BS/RTL8723CS specification]<br />
<br />
* LTE module information:<br />
** [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Standard_Specification_V1.2.pdf Quectel EG25-G LTE Module specification v1.2]<br />
** [[Media:Quectel EC25EC21 AT Commands Manual V1.2.pdf|EC25&EC21 AT Commands Manual]]<br />
** [https://www.quectel.com/UploadImage/Downlad/Quectel_EC2x&EG25-G&EG9x&EM05_FILE_AT_Commands_Manual_V1.0.pdf Quectel EC2x EG25-G EG9x EM05 FILE AT Commands Manual v1.0]<br />
** [https://sixfab.com/wp-content/uploads/2018/09/Quectel_EC25EC21_GNSS_AT_Commands_Manual_V1.1.pdf Quectel EC25 EC21 GNSS AT Commands Manual v1.1]<br />
<br />
* Sensors:<br />
** [https://www.st.com/en/mems-and-sensors/lis3mdl.html ST LIS3MDL 3-axis Magnetomater Datasheet]<br />
** [https://www.invensense.com/products/motion-tracking/6-axis/mpu-6050/ InvenSense MPU-6050 Six-Axis (Gyro + Accelerometer) MEMS datasheet]<br />
** [https://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html SensorTek STK3335 Ambient Light Sensor and Proximity Sensor]<br />
<br />
* Digital video to USB-C bridge:<br />
** [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief.pdf ANX7688 product brief]<br />
<br />
* Case information:<br />
** [https://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Exploded%20Diagram%20ver%201.0.pdf PinePhone case exploded diagram]<br />
** [https://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Back%20Cover.stp PinePhone back cover 3D file]<br />
<br />
* Other components:<br />
** See links in the [[PinePhone_component_list|Component List]]<br />
<br />
== Developer works ==<br />
=== Megous ===<br />
<br />
* [https://xnux.eu/howtos/pine64-pinephone-getting-started.html Getting start with PinePhone Hardware]<br />
* [https://xnux.eu/devices/pine64-pinephone.html State of development progress]<br />
* [https://xnux.eu/news.html PinePhone Technical News and Update, also applies to other Allwinner devices including PINE A64 SBC]<br />
* [https://xnux.eu/contribute.html Contributions to the kernel development]<br />
<br />
== External links == <br />
* [https://pine64.com/product-category/pinephone/ The PinePhone on the official Pine store]<br />
* [https://pine64.com/product-category/smarphone-spare-parts/ PinePhone spare parts on the official Pine store]<br />
* [https://pine64.com/product-category/smartphone-accessories/ PinePhone accessories on the official Pine store]<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=8410PinePhone component list2020-12-15T03:50:00Z<p>Amosbatto: Add component count table</p>
<hr />
<div>The following list of components are found in the [https://files.pine64.org/doc/PinePhone/PinePhone%20v1.2b%20Released%20Schematic.pdf schematic] for the PinePhone 1.2b.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Component Counts===<br />
<br />
{| class="wikitable"<br />
! Type of component !! Main PCB !! USB PCB<br />
|-<br />
| Antenna connectors (ANT''xxx'') || 6 || 4<br />
|-<br />
| Capacitors (C''xxx'') || 296 || 16<br />
|-<br />
| Diodes (D''xxx'') || 5 || 0<br />
|-<br />
| Zener diodes (ED''xxx'') || 17 || 0<br />
|-<br />
| Ferrite beads (FB''xxx'') || 6 || 0<br />
|-<br />
| Wire links / connectors (J''xxx'') || 14 || 4<br />
|-<br />
| Resistors (R''xxx'') || 222 || 0<br />
|-<br />
| Inductors (L''xxx'') || 15 || 0<br />
|-<br />
| Transistors (Q''xxx'') || 16 || 19*<br />
|-<br />
| Switches (SW''xxx'') || 1 || 0<br />
|-<br />
| Test points (T''xxx'') || 27 || 3<br />
|-<br />
| Integrated circuits (U/DU''xxx'') || 26 || 2<br />
|-<br />
| Crystal oscillators (X''xxx'') || 5 || 0<br />
|-<br />
| '''Total without test points''' || '''629''' || '''45'''<br />
|-<br />
| '''Total with test points''' || '''656''' || '''48'''<br />
|}<br />
[https://forums.puri.sm/t/component-counts-in-the-librem-5-and-pinephone/11240 Source]<br />
<br />
<nowiki>*</nowiki> 18 parts for the PinePhone USB-C port are labeled as T''xxx'' in the schematic with the image of transistors, but it is possible that these are resistors and capacitors.<br />
<br />
<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=8409PinePhone component list2020-12-15T03:02:26Z<p>Amosbatto: /* Abreviations used in schematic */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''T''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=SOEDGE&diff=8401SOEDGE2020-12-13T11:38:39Z<p>Amosbatto: Add description of what is the SOEdge at the top of the page.</p>
<hr />
<div>The SOEdge is a 3TOPS compute module that can be paired with the SOPine base board or USB 3.0 and PCIe adapters for development. It can connect to a SBC, such as the ROCKPro64 or a regular PC. <br />
<br />
== Software and OS Image Downloads ==<br />
=== SOEdge Software Release ===<br />
<br />
The SOEdge software releases can be found in the article [[SOEdge Software Release]].<br />
<br />
== Accessories Step-by-Step Guides ==<br />
Under [[Accessories_Step_by_Step_Guides|'Guides for model A baseboard accessories']] you can find instructions and guides concerning:<br />
* Enclosures<br />
* Bluetooth and WiFi module<br />
* Real Time Clock (RTC) battery<br />
* Real Time Clock (RTC) battery holder<br />
* First and third party cases<br />
* Featured 3D printed cases (and more)<br />
<br />
== SoC and Memory Specification ==<br />
* Based on [https://www.rock-chips.com/a/en/products/RK18_Series/2019/0529/989.html Rockchip RK1808]<br />
[[File:RK1808_icon.png|right]]<br />
<br />
=== CPU Architecture ===<br />
* [https://developer.arm.com/ip-products/processors/cortex-a/cortex-a35 Dual-core ARM Cortex-A35 Processor@1600-2000Mhz]<br />
* A power-efficient ARM 64-Bit Armv8-A architecture<br />
* AArch32 for full backward compatibility with Armv7<br />
* Support NEON Advanced SIMD (Single Instruction Multiple Data) instruction for acceleration of media and signal processing function<br />
* Support Large Physical Address Extensions(LPAE)<br />
* VFPv4 Floating Point Unit<br />
* 32KB L1 Instruction cache and 32KB L1 Data cache<br />
* AArch64 for 64-bit support and new architectural features<br />
* TrustZone security technology<br />
* Neon Advanced SIMD<br />
* DSP and SIMD extensions<br />
* VFPv4 Floating point<br />
* Hardware virtualization support<br />
* 128KB L2 cache<br />
<br />
<br />
=== Neural Process Unit NPU Capability ===<br />
* [https://www.verisilicon.com/en/IPPortfolio/VivanteNPUIP NPU IP from Verisilicon Vivante]<br />
* Support max 1920 Int8 MAC operation per cycle<br />
* Support max192 Int16 MAC operation per cycle<br />
* Support max 64 FP16 MAC operation per cycle<br />
* 512KB internal buffer<br />
* One isolated voltage domain to support DVFS<br />
* [https://github.com/VeriSilicon/acuity-models Acuity models Github]<br />
<br />
[[File:Vivante_Acuity_SDK.jpg]]<br />
<br />
=== System Memory ===<br />
* RAM Memory Variants: 2GB DDR4.<br />
* Storage Memory: SPI Flash and optional eMMC module from 16GB up to 128GB<br />
<br />
== SOEdge Baseboard Features ==<br />
<br />
=== Network ===<br />
* 10/100/1000Mbps Etherne<br />
* WiFi 802.11 b/g/n with Bluetooth 4.0 (optional)<br />
<br />
=== Storage ===<br />
* microSD - bootable, support SDHC and SDXC, storage up to 256GB<br />
* USB - 2 USB2.0 Host port<br />
<br />
=== Expansion Ports ===<br />
* DSI - Display Serial Interface, 4 lanes MiPi, up to 1080P<br />
* CSI - CMOS Camera Interface up to 5 mega pixel<br />
* TP - Touch Panel Port, SPI with interrupt<br />
* RTC - Real Time Clock Battery Connector<br />
* VBAT - Lithium Battery Connector with temperature sensor input<br />
* Wifi/BT Module Header - SDIO 3.0 and UART<br />
* 2x20 pins "Pi2" GPIO Header<br />
* PCIe 2x open ended slot<br />
<br />
== SOEdge Module and Baseboard Information, Schematics, and Certifications ==<br />
* Model "A" Baseboard Dimensions: 133mm x 80mm x 19mm<br />
* Input Power: DC 12V @ 3A 5.5OD/2.1ID Barrel DC Jack connector<br />
<br />
* SOEdge Module Schematic:<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge-Schematic-v2.0-190919.pdf SOEdge Module ver 2.0 20190919 Schematic]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-topplace.pdf SOEdge Module ver 2.0 20190919 PCB Component Placement Top PDF file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-bottomplace.pdf SOEdge Module ver 2.0 20190919 PCB Component Placement Bottom PDF file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-topplace.dxf SOEdge Module ver 2.0 20190919 PCB Component Placement Top Drawing file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-bottomplace.dxf SOEdge Module ver 2.0 20190919 PCB Component Placement Bottom Drawing file]<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge%20Pin%20Assignments%20ver%201.00.xlsx SOEdge Module Pin Assignment ver 1.0 in Excel format(includes comparison chart to SOPine)]<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge%20Pin%20Assignments%20ver%201.00.ods SOEdge Module Pin Assignment ver 1.0 in Open Document format(includes comparison chart to SOPine)]<br />
* SOEdge Model "A" Baseboard Schematic and PCB Board Resource:<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge_Baseboard%20Schematic%20Model%20A-20200513.pdf SOEdge Model "A" Baseboard Schematic 20200513 PDF file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge_Baseboard_PCB_layout_Model_A2020-05-31.pdf SOEdge Model "A" Baseboard PCB Layout PDF file]<br />
* SOEdge Neural AI Stick Schematic:<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge%20Neural%20AI%20Stick%20Schematic_V10.pdf SOEdge Neural AI Stick PDF file]<br />
* SOEdge/SOPine/PINE A64 Wifi/BT module Schematic<br />
** [https://files.pine64.org/doc/Pine%20A64%20Schematic/A64-DB-WIFI-BT-REV%20B.pdf PINE A64 Wifi/BT Module Schematic]<br />
* SOEdge module together with model "A" baseboard Certification:<br />
** Disclaimer: Please note that SOEdge module is not a "final" product and in general certification is not necessary. However, SOEdge module still submits the mpdel A baseboard for FCC, CE, and ROHS certifications and obtain the certificates to prove that can pass the testing. Please note, a final commercial product needs to perform its own testing and obtain its own certificate.<br />
** Not yet available<br />
<br />
== Datasheets for Components and Peripherals ==<br />
* Rockchip RK1808 SoC information:<br />
** [https://opensource.rock-chips.com/images/4/43/Rockchip_RK1808_Datasheet_V1.2_20190527.pdf Rockchip RK1808 ver 1.2 datasheet]<br />
** [https://files.pine64.org/doc/datasheet/SOEdge/Rockchip%20RK1808%20TRM%20Part1%20V1.2--20190826%20open%20source.pdf Rockchip TK1808 Technical Reference Manual Part 1]<br />
* Rockchip RK809 PMU (Power Management Unit) information:<br />
** [https://rockchip.fr/RK809%20datasheet%20V1.01.pdf Rockchip RK809 PMIC Datasheet]<br />
* DDR4 information:<br />
** [https://files.pine64.org/doc/datasheet/SOEdge/Micron%208Gb_DDR4_SDRAM.pdf Micron DDR4 Datasheet]<br />
* eMMC information:<br />
** [https://files.pine64.org/doc/rock64/PINE64_eMMC_Module_20170719.pdf PINE64 eMMC module schematic]<br />
** [https://files.pine64.org/doc/rock64/usb%20emmc%20module%20adapter%20v2.pdf PINE64 USB adapter for eMMC module V2 schematic]<br />
** [https://files.pine64.org/doc/rock64/USB%20adapter%20for%20eMMC%20module%20PCB.tar PINE64 USB adapter for eMMC module PCB in JPEG]<br />
** [https://files.pine64.org/doc/datasheet/pine64/E-00517%20FORESEE_eMMC_NCEMAM8B-16G%20SPEC.pdf 16GB Foresee eMMC Datasheet]<br />
** [https://files.pine64.org/doc/datasheet/pine64/SDINADF4-16-128GB-H%20data%20sheet%20v1.13.pdf 32GB/64GB/128GB SanDisk eMMC Datasheet]<br />
* SPI NOR Flash information:<br />
** [https://files.pine64.org/doc/datasheet/pine64/w25q128jv%20spi%20revc%2011162016.pdf WinBond 128Mb SPI Flash Datasheet]<br />
** [https://files.pine64.org/doc/datasheet/pine64/GD25Q128C-Rev2.5.pdf GigaDevice 128Mb SPI Flash Datasheet]<br />
* '''SOEdge Related:'''<br />
** 5MPixel CMOS Camera module information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/YL-PINE64-4EC.pdf PINE64 YL-PINE64-4EC 5M Pixel CMOS Image Sensor Module (Description in Chinese)]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/S5K4EC%205M%208%205X8%205%20PLCC%20%20Data%20Sheet_V1.0.pdf S5K4EC 5MP CMOS Image Sensor SoC Module Datasheet]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/S5K4ECGX_EVT1_DataSheet_R005_20100816.pdf S5K4EC 5MP CMOS Image Sensor SoC Chip Datasheet]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/s5k4ec.c S5K4EC 5MP CMOS Image Sensor Driver Source Code in C language]<br />
** LCD Touch Screen Panel information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/FY07024DI26A30-D_feiyang_LCD_panel.pdf 7.0" 1200x600 TFT-LCD Panel Specification]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/HK70DR2459-PG-V01.pdf Touch Panel Specification]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/GT911%20Capacitive%20Touch%20Controller%20Datasheet.pdf GOODiX GT911 5-Point Capacitive Touch Controller Datasheet]<br />
** Ethernet PHY information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/rtl8211e(g)-vb(vl)-cg_datasheet_1.6.pdf Realtek RTL8211 10/100/1000M Ethernet Transceiver for SOEdge model A baseboard]<br />
** Wifi/BT module information:<br />
*** [https://files.pine64.org/doc/Pine%20A64%20Schematic/A64-DB-WIFI-BT-REV%20B.pdf SOEdge/SOPine/PINE A64 Wifi/BT Module Schematic]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf Realtek RTL8723BS WiFi with BT SDIO]<br />
** Enclosure information:<br />
*** [https://files.pine64.org/doc/datasheet/case/playbox_enclosure_20160426.stp Playbox Enclosure 3D file]<br />
*** [https://files.pine64.org/doc/datasheet/case/ABS_enclosure_20160426.stp ABS Enclosure 3D file]<br />
*** [https://files.pine64.org/doc/datasheet/case/pine64%20Die%20Cast%20casing-final.jpg Outdoor Aluminum Cast Dust-proof IP67 Enclosure Drawing]<br />
** Connector information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/ePH.pdf 2.0mm PH Type connector specification use in Lithium Battery (VBAT) port and RTC Battery port]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/0.5FPC%20Front%20Open%20Connector%20H=1.5.pdf 0.5mm Pitch cover type FPC connector specification use in DSI port, TP port and CSI port]<br />
<br />
== SOEdge/SOPine Cluster Board Resource ==<br />
* Cluster board is an hardware open source project and will be available at PINE64 store on late January 2018. <br />
* Please note that this project is not "OSH" compliance.:<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2.DSN Clusterboard version 2.2 Schematic Capture source file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2_Schematic.pdf Clusterboard version 2.2 Schematic Capture PDF file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2.brd Clusterboard version 2.2 PCB Job source file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD%20V2.2-gerber.rar Clusterboard version 2.2 PCB Gerber file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2_PCB.pdf Clusterboard version 2.2 PCB Layout PDF file]<br />
** [https://files.pine64.org/doc/clusterboard/clusterboard_20pins_header.jpg Clusterboard 20pins header definition]<br />
** [https://myhub.autodesk360.com/ue2b2f72e/g/shares/SH56a43QTfd62c1cd96840f4ec37c60bcf12 Clusterboard 3D drawing in Fusion360]<br />
** [https://myhub.autodesk360.com/ue2b2f72e/g/shares/SH56a43QTfd62c1cd968cd6bc203ac753401?viewState=NoIgbgDAdAjCA0ICGBmARgEwGZIOwGMBaDFADgFNCAWfAJi2o1IFZDmlTSIA2DW8-FTQgAukA Clusterboard PDF drawing]<br />
<br />
== Other Resources ==<br />
<br />
<br />
<br />
[[Category:SOEdge]] [[Category:SOPine Clusterboard]] [[Category:SOEdge Baseboard]] [[Category:Rockchip RK1808]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=SOEDGE&diff=8400SOEDGE2020-12-13T11:31:14Z<p>Amosbatto: /* Neural Process Unit NPU Capability */</p>
<hr />
<div>== Software and OS Image Downloads ==<br />
=== SOEdge Software Release ===<br />
<br />
The SOEdge software releases can be found in the article [[SOEdge Software Release]].<br />
<br />
== Accessories Step-by-Step Guides ==<br />
Under [[Accessories_Step_by_Step_Guides|'Guides for model A baseboard accessories']] you can find instructions and guides concerning:<br />
* Enclosures<br />
* Bluetooth and WiFi module<br />
* Real Time Clock (RTC) battery<br />
* Real Time Clock (RTC) battery holder<br />
* First and third party cases<br />
* Featured 3D printed cases (and more)<br />
<br />
== SoC and Memory Specification ==<br />
* Based on [https://www.rock-chips.com/a/en/products/RK18_Series/2019/0529/989.html Rockchip RK1808]<br />
[[File:RK1808_icon.png|right]]<br />
<br />
=== CPU Architecture ===<br />
* [https://developer.arm.com/ip-products/processors/cortex-a/cortex-a35 Dual-core ARM Cortex-A35 Processor@1600-2000Mhz]<br />
* A power-efficient ARM 64-Bit Armv8-A architecture<br />
* AArch32 for full backward compatibility with Armv7<br />
* Support NEON Advanced SIMD (Single Instruction Multiple Data) instruction for acceleration of media and signal processing function<br />
* Support Large Physical Address Extensions(LPAE)<br />
* VFPv4 Floating Point Unit<br />
* 32KB L1 Instruction cache and 32KB L1 Data cache<br />
* AArch64 for 64-bit support and new architectural features<br />
* TrustZone security technology<br />
* Neon Advanced SIMD<br />
* DSP and SIMD extensions<br />
* VFPv4 Floating point<br />
* Hardware virtualization support<br />
* 128KB L2 cache<br />
<br />
<br />
=== Neural Process Unit NPU Capability ===<br />
* [https://www.verisilicon.com/en/IPPortfolio/VivanteNPUIP NPU IP from Verisilicon Vivante]<br />
* Support max 1920 Int8 MAC operation per cycle<br />
* Support max192 Int16 MAC operation per cycle<br />
* Support max 64 FP16 MAC operation per cycle<br />
* 512KB internal buffer<br />
* One isolated voltage domain to support DVFS<br />
* [https://github.com/VeriSilicon/acuity-models Acuity models Github]<br />
<br />
[[File:Vivante_Acuity_SDK.jpg]]<br />
<br />
=== System Memory ===<br />
* RAM Memory Variants: 2GB DDR4.<br />
* Storage Memory: SPI Flash and optional eMMC module from 16GB up to 128GB<br />
<br />
== SOEdge Baseboard Features ==<br />
<br />
=== Network ===<br />
* 10/100/1000Mbps Etherne<br />
* WiFi 802.11 b/g/n with Bluetooth 4.0 (optional)<br />
<br />
=== Storage ===<br />
* microSD - bootable, support SDHC and SDXC, storage up to 256GB<br />
* USB - 2 USB2.0 Host port<br />
<br />
=== Expansion Ports ===<br />
* DSI - Display Serial Interface, 4 lanes MiPi, up to 1080P<br />
* CSI - CMOS Camera Interface up to 5 mega pixel<br />
* TP - Touch Panel Port, SPI with interrupt<br />
* RTC - Real Time Clock Battery Connector<br />
* VBAT - Lithium Battery Connector with temperature sensor input<br />
* Wifi/BT Module Header - SDIO 3.0 and UART<br />
* 2x20 pins "Pi2" GPIO Header<br />
* PCIe 2x open ended slot<br />
<br />
== SOEdge Module and Baseboard Information, Schematics, and Certifications ==<br />
* Model "A" Baseboard Dimensions: 133mm x 80mm x 19mm<br />
* Input Power: DC 12V @ 3A 5.5OD/2.1ID Barrel DC Jack connector<br />
<br />
* SOEdge Module Schematic:<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge-Schematic-v2.0-190919.pdf SOEdge Module ver 2.0 20190919 Schematic]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-topplace.pdf SOEdge Module ver 2.0 20190919 PCB Component Placement Top PDF file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-bottomplace.pdf SOEdge Module ver 2.0 20190919 PCB Component Placement Bottom PDF file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-topplace.dxf SOEdge Module ver 2.0 20190919 PCB Component Placement Top Drawing file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge-PCB-placement-v2.0-bottomplace.dxf SOEdge Module ver 2.0 20190919 PCB Component Placement Bottom Drawing file]<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge%20Pin%20Assignments%20ver%201.00.xlsx SOEdge Module Pin Assignment ver 1.0 in Excel format(includes comparison chart to SOPine)]<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge%20Pin%20Assignments%20ver%201.00.ods SOEdge Module Pin Assignment ver 1.0 in Open Document format(includes comparison chart to SOPine)]<br />
* SOEdge Model "A" Baseboard Schematic and PCB Board Resource:<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge_Baseboard%20Schematic%20Model%20A-20200513.pdf SOEdge Model "A" Baseboard Schematic 20200513 PDF file]<br />
** [https://files.pine64.org/doc/SOEdge/SoEdge_Baseboard_PCB_layout_Model_A2020-05-31.pdf SOEdge Model "A" Baseboard PCB Layout PDF file]<br />
* SOEdge Neural AI Stick Schematic:<br />
** [https://files.pine64.org/doc/SOEdge/SOEdge%20Neural%20AI%20Stick%20Schematic_V10.pdf SOEdge Neural AI Stick PDF file]<br />
* SOEdge/SOPine/PINE A64 Wifi/BT module Schematic<br />
** [https://files.pine64.org/doc/Pine%20A64%20Schematic/A64-DB-WIFI-BT-REV%20B.pdf PINE A64 Wifi/BT Module Schematic]<br />
* SOEdge module together with model "A" baseboard Certification:<br />
** Disclaimer: Please note that SOEdge module is not a "final" product and in general certification is not necessary. However, SOEdge module still submits the mpdel A baseboard for FCC, CE, and ROHS certifications and obtain the certificates to prove that can pass the testing. Please note, a final commercial product needs to perform its own testing and obtain its own certificate.<br />
** Not yet available<br />
<br />
== Datasheets for Components and Peripherals ==<br />
* Rockchip RK1808 SoC information:<br />
** [https://opensource.rock-chips.com/images/4/43/Rockchip_RK1808_Datasheet_V1.2_20190527.pdf Rockchip RK1808 ver 1.2 datasheet]<br />
** [https://files.pine64.org/doc/datasheet/SOEdge/Rockchip%20RK1808%20TRM%20Part1%20V1.2--20190826%20open%20source.pdf Rockchip TK1808 Technical Reference Manual Part 1]<br />
* Rockchip RK809 PMU (Power Management Unit) information:<br />
** [https://rockchip.fr/RK809%20datasheet%20V1.01.pdf Rockchip RK809 PMIC Datasheet]<br />
* DDR4 information:<br />
** [https://files.pine64.org/doc/datasheet/SOEdge/Micron%208Gb_DDR4_SDRAM.pdf Micron DDR4 Datasheet]<br />
* eMMC information:<br />
** [https://files.pine64.org/doc/rock64/PINE64_eMMC_Module_20170719.pdf PINE64 eMMC module schematic]<br />
** [https://files.pine64.org/doc/rock64/usb%20emmc%20module%20adapter%20v2.pdf PINE64 USB adapter for eMMC module V2 schematic]<br />
** [https://files.pine64.org/doc/rock64/USB%20adapter%20for%20eMMC%20module%20PCB.tar PINE64 USB adapter for eMMC module PCB in JPEG]<br />
** [https://files.pine64.org/doc/datasheet/pine64/E-00517%20FORESEE_eMMC_NCEMAM8B-16G%20SPEC.pdf 16GB Foresee eMMC Datasheet]<br />
** [https://files.pine64.org/doc/datasheet/pine64/SDINADF4-16-128GB-H%20data%20sheet%20v1.13.pdf 32GB/64GB/128GB SanDisk eMMC Datasheet]<br />
* SPI NOR Flash information:<br />
** [https://files.pine64.org/doc/datasheet/pine64/w25q128jv%20spi%20revc%2011162016.pdf WinBond 128Mb SPI Flash Datasheet]<br />
** [https://files.pine64.org/doc/datasheet/pine64/GD25Q128C-Rev2.5.pdf GigaDevice 128Mb SPI Flash Datasheet]<br />
* '''SOEdge Related:'''<br />
** 5MPixel CMOS Camera module information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/YL-PINE64-4EC.pdf PINE64 YL-PINE64-4EC 5M Pixel CMOS Image Sensor Module (Description in Chinese)]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/S5K4EC%205M%208%205X8%205%20PLCC%20%20Data%20Sheet_V1.0.pdf S5K4EC 5MP CMOS Image Sensor SoC Module Datasheet]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/S5K4ECGX_EVT1_DataSheet_R005_20100816.pdf S5K4EC 5MP CMOS Image Sensor SoC Chip Datasheet]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/s5k4ec.c S5K4EC 5MP CMOS Image Sensor Driver Source Code in C language]<br />
** LCD Touch Screen Panel information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/FY07024DI26A30-D_feiyang_LCD_panel.pdf 7.0" 1200x600 TFT-LCD Panel Specification]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/HK70DR2459-PG-V01.pdf Touch Panel Specification]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/GT911%20Capacitive%20Touch%20Controller%20Datasheet.pdf GOODiX GT911 5-Point Capacitive Touch Controller Datasheet]<br />
** Ethernet PHY information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/rtl8211e(g)-vb(vl)-cg_datasheet_1.6.pdf Realtek RTL8211 10/100/1000M Ethernet Transceiver for SOEdge model A baseboard]<br />
** Wifi/BT module information:<br />
*** [https://files.pine64.org/doc/Pine%20A64%20Schematic/A64-DB-WIFI-BT-REV%20B.pdf SOEdge/SOPine/PINE A64 Wifi/BT Module Schematic]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf Realtek RTL8723BS WiFi with BT SDIO]<br />
** Enclosure information:<br />
*** [https://files.pine64.org/doc/datasheet/case/playbox_enclosure_20160426.stp Playbox Enclosure 3D file]<br />
*** [https://files.pine64.org/doc/datasheet/case/ABS_enclosure_20160426.stp ABS Enclosure 3D file]<br />
*** [https://files.pine64.org/doc/datasheet/case/pine64%20Die%20Cast%20casing-final.jpg Outdoor Aluminum Cast Dust-proof IP67 Enclosure Drawing]<br />
** Connector information:<br />
*** [https://files.pine64.org/doc/datasheet/pine64/ePH.pdf 2.0mm PH Type connector specification use in Lithium Battery (VBAT) port and RTC Battery port]<br />
*** [https://files.pine64.org/doc/datasheet/pine64/0.5FPC%20Front%20Open%20Connector%20H=1.5.pdf 0.5mm Pitch cover type FPC connector specification use in DSI port, TP port and CSI port]<br />
<br />
== SOEdge/SOPine Cluster Board Resource ==<br />
* Cluster board is an hardware open source project and will be available at PINE64 store on late January 2018. <br />
* Please note that this project is not "OSH" compliance.:<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2.DSN Clusterboard version 2.2 Schematic Capture source file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2_Schematic.pdf Clusterboard version 2.2 Schematic Capture PDF file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2.brd Clusterboard version 2.2 PCB Job source file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD%20V2.2-gerber.rar Clusterboard version 2.2 PCB Gerber file]<br />
** [https://files.pine64.org/doc/clusterboard/PINE64%20CLUSTER%20BOARD_2_2_PCB.pdf Clusterboard version 2.2 PCB Layout PDF file]<br />
** [https://files.pine64.org/doc/clusterboard/clusterboard_20pins_header.jpg Clusterboard 20pins header definition]<br />
** [https://myhub.autodesk360.com/ue2b2f72e/g/shares/SH56a43QTfd62c1cd96840f4ec37c60bcf12 Clusterboard 3D drawing in Fusion360]<br />
** [https://myhub.autodesk360.com/ue2b2f72e/g/shares/SH56a43QTfd62c1cd968cd6bc203ac753401?viewState=NoIgbgDAdAjCA0ICGBmARgEwGZIOwGMBaDFADgFNCAWfAJi2o1IFZDmlTSIA2DW8-FTQgAukA Clusterboard PDF drawing]<br />
<br />
== Other Resources ==<br />
<br />
<br />
<br />
[[Category:SOEdge]] [[Category:SOPine Clusterboard]] [[Category:SOEdge Baseboard]] [[Category:Rockchip RK1808]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone&diff=7952PinePhone2020-10-20T22:47:24Z<p>Amosbatto: /* Datasheets for components and peripherals */</p>
<hr />
<div>The PinePhone is a smartphone created by Pine64, capable of running mainline Linux and supported by many partner projects. The BraveHeart Edition was the first publicly-available version of the phone, though it came without a fully functional OS (factory test image) and was geared specifically towards tinkerers and hackers. Its successor is the Community Edition, the first Community Edition started to ship in June 2020. The phone will be available for at least five years.<br />
<br />
== First time installation ==<br />
<br />
[[File:PinePhone-3.jpg|400px|thumb|right|PinePhone is capable of running a multitude of different Linux mobile OSes]]<br />
<br />
[[File:Pinephone_rendering_blank.png|400px|thumb|right|Rendering of the back and front of PinePhone]]<br />
<br />
From the factory the battery has a sticker on it that isolates the battery from the phone. The battery '''will not''' charge until this is removed.<br />
<br />
[[File:Pinephone_warning.png|none|left|400px]]<br />
<br />
After unboxing remove the back panel using the notch in the corner of the back panel. Then remove the battery and peel off the clear plastic sticker below it that isolates the charging contact. Then replace the battery, see [[PinePhone#Battery|Battery]] for more information.<br />
<br />
The SIM card has to be placed in the lower slot, while the microSD has to be placed in the upper slot, as pictured here:<br />
<br />
[[File:Pinephone_backside.png|none|left|400px]]<br />
<br />
== Specifications ==<br />
<br />
'''Dimensions:''' 160.5 x 76.6 x 9.2mm <br><br />
'''Weight:''' Between 180-200 grams <br><br />
'''SIM Card:''' Micro-SIM <br><br />
'''Display:'''<br />
: '''Size:''' 5.95 inches (151mm) diagonal<br />
: '''Type:''' HD IPS capacitive touchscreen, 16M colors<br />
: '''Resolution:''' 1440x720, 18:9 ratio <br><br />
'''System on Chip:''' [https://linux-sunxi.org/A64 Allwinner A64] <br><br />
'''RAM:''' 2GB or 3GB LPDDR3 SDRAM<br><br />
'''Internal Storage:''' 16GB or 32GB eMMC, extendable up to 2TB via microSD, supports SDHC and SDXC <br><br />
'''Back Camera:''' Single 5MP, 1/4", LED Flash <br><br />
'''Selfie Camera:''' Single 2MP, f/2.8, 1/5" <br><br />
'''Sound:''' Loudspeaker, 3.5mm jack & mic (jack doubles as hardware UART if killswitch 6 is deactivated) <br><br />
'''Communication: G25-G'''<br />
: '''LTE:''' B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B38, B39, B40, B41<br />
: '''WCDMA:''' B1, B2, B4, B5, B6, B8, B19<br />
: '''GSM:''' 850, 900, 1800, 1900 (MHz)<br />
: '''WLAN:''' Wi-Fi 802.11 b/g/n, single-band, hotspot<br />
: '''Bluetooth:''' 4.0, A2DP<br />
: '''GNSS:''' GPS/GLONASS/BeiDou/Galileo/QZSS, with A-GPS<br />
'''Sensors:''' Accelerometer, gyro, proximity, ambient light, compass <br><br />
'''Killswitches:''' Modem, WiFi & Bluetooth, Microphone, Cameras <br><br />
'''Battery:''' Lithium-ion, rated capacity 2800mAh (10.64Wh), typical capacity 3000mAh (11.40Wh) (nominally replaceable with any Samsung J7 form-factor battery) <br><br />
'''I/O:''' USB Type-C, USB Host, DisplayPort Alternate Mode output, 15W 5V 3A Quick Charge, follows USB PD specification<br />
<br />
== Components ==<br />
{| class="wikitable"<br />
! Component<br />
! Model<br />
|-<br />
| Touchscreen<br />
| Goodix GT917S<br />
|-<br />
| Rear camera<br />
| OmniVision OV5640<br />
|-<br />
| Camera flash<br />
| SGMICRO SGM3140<br />
|-<br />
| Front camera<br />
| GalaxyCore GC2145<br />
|-<br />
| LCD<br />
| Xingbangda XBD599<br />
|-<br />
| WiFi<br />
| Realtek RTL8723CS<br />
|-<br />
| Bluetooth<br />
| Realtek RTL8723CS<br />
|-<br />
| Modem<br />
| Quectel EG25-G<br />
|-<br />
| GNSS/GPS<br />
| Quectel EG25-G<br />
|-<br />
| Magnetometer<br />
| ST LIS3MDL<br />
|-<br />
| Ambient light / Proximity<br />
| SensorTek STK3335<br />
|-<br />
| Sixaxis<br />
| InvenSense MPU-6050<br />
|-<br />
| Vibration motor<br />
| Unknown model<br />
|-<br />
| Notification LED<br />
| LED0603RGB<br />
|-<br />
| Volume buttons<br />
| Buttons connected to the KEYADC<br />
|-<br />
| Power button<br />
| X-Powers AXP803<br />
|-<br />
| Battery fuel gauge<br />
| X-Powers AXP803<br />
|}<br />
<br />
See the [[PinePhone_component_list|PinePhone Component List]].<br />
<br />
== Hardware revisions ==<br />
<br />
# [[Project Anakin]]<br />
# [[Project Don't be evil|"Project Don't Be Evil" devkit]]<br />
# [[PinePhone v1.0 - Dev|PinePhone v1.0 - Developer batch]]<br />
# [[PinePhone v1.1 - Braveheart]]<br />
# [[PinePhone v1.2]] - Ubports Community Edition<br />
# [[PinePhone v1.2a]] - Community Editions<br />
<br />
== Hardware accessory ==<br />
<br />
=== PinePhone hardware accessory compatibility ===<br />
See [[PinePhone Hardware Accessory Compatibility]] for a list of devices working with the PinePhone (depending on their OS support).<br />
<br />
=== USB-C connector ===<br />
<br />
The USB-C can be used to power the device, and offers USB2 host and OTG possibilities, and also can make use of the USB-C capability to integrate HDMI signals. Some USB-C hubs are available that offer power throughput, USB connection, HDMI port and Ethernet connection. The driver that would make this connection available is not supported at this time.<br />
<br />
=== Pogo pins ===<br />
<br />
The PinePhone has 6 pogo pins on the back allowing for custom hardware extensions such as wireless charging, an IR blaster, a keyboard extension or extended battery case. The pogo pins provide access to an interrupt line, power input to charge the battery, power source and an I2C interface.<br />
<br />
[[File:Pinephone pogo.png|none|400px]]<br />
<br />
{| class="wikitable"<br />
| Interrupt<br />
| SDA<br />
| SCL<br />
|-<br />
| 5V / VBUS<br />
| VBAT<br />
| GND<br />
|}<br />
<br />
The VBUS pin is powered by USB and is 5V. The second power pin is VBAT, which connects to the battery voltage. The I2C and interrupt lines have pull-ups on the phone side. The I2C lines are pulled up to 3V3 by the phone.<br />
<br />
For a breakout board see [https://github.com/SMR404/PinephonePogoBreakout here]. For an example project see Martijn's blog post [https://blog.brixit.nl/making-a-backcover-extension-for-the-pinephone/ <i>"Making a backcover extension for the PinePhone"</i>].<br />
<br />
=== Back cover ===<br />
A step file for the back cover for creating custom cases is freely available [http://files.pine64.org/doc/PinePhone/PinePhone%20Back%20Cover%20ver%200.5.stp here].<br />
<br />
=== Serial console ===<br />
<br />
The PinePhone has a serial port in the headphone connector, it's activated by the 6th contact on the dipswitch. If the switch is set to "on", the headphone connector is in audio mode, if it is set to "off" it's in UART mode. The UART serial connection can also be used for communication with other devices from the PinePhone.<br />
<br />
The UART is 115200n8.<br />
<br />
The pinout for the serial connector is:<br />
<br />
* Tip: RX<br />
* Ring: TX<br />
* Sleeve: GND<br />
<br />
[[File:PinePhone_Serial_Cable.png|none|400px]]<br />
<br />
You can buy a serial debug cable from the [https://store.pine64.org/product/pinebook-serial-console/ Pine64 Store]. The store cable uses a 4 ring plug, as seen in the [http://files.pine64.org/doc/pinebook/guide/Pinebook_Earphone_Serial_Console_Developer_Guide.pdf here], but a 3 ring plug works just as well. The cable uses a CH340 chipset based serial to USB converter, but any 3.3v serial connection can be used. Because it is a "host"/DTE it means that you need a ''cross modem cable'' ([https://en.wikipedia.org/wiki/Null_modem Null Modem]) with TX on Tip to be connected to RX. A cable like e.g. [https://www.ftdichip.com/Products/Cables/USBTTLSerial.htm FTDI TTL-232R-3V3-AJ] which has TX on Tip and RX on Ring fits perfectly.<br />
<br />
== Killswitch configuration ==<br />
<br />
[[File:PinePhone Kill Interruptors de Maquinari del PinePhone 4529.jpg|320px|thumb|right|Detail of DIP switch]]<br />
<br />
The PinePhone features six switches that can be used to configure its hardware. They are numbered 1-6, with switch 1 located nearest to the modem. Their "on" position is toward the top of the phone.<br />
<br />
{| class="wikitable"<br />
|-<br />
! Number<br />
! Name<br />
! Explanation<br />
! Description<br />
|-<br />
| 1<br />
| Modem<br />
| Pulls Q1501 gate up (FET killing modem power)<br />
| "On" enables 2G/3G/4G communication and GNSS hardware, "off" disables it.<br />
|-<br />
| 2<br />
| WiFi / Bluetooth<br />
| Pulls up CHIP_EN<br />
| "On" enables WiFi and Bluetooth communication hardware, "off" disables it.<br />
|-<br />
| 3<br />
| Microphone<br />
| Breaks microphone bias voltage from the SoC<br />
| "On" enables audio input from on-board microphones (not 3.5mm jack), "off" disables it.<br />
|-<br />
| 4<br />
| Rear camera<br />
| Pulls up PWDN on OV5640 <br />
| "On" enables the rear camera, "off" disables it.<br />
|-<br />
| 5<br />
| Front camera<br />
| Pulls up PWDN on GC2145<br />
| "On" enables the front camera, "off" disables it.<br />
|-<br />
| 6<br />
| Headphone<br />
| Pulls up IN2 on analog switch BCT4717ETB<br />
| "On" enables audio input and output via the 3.5mm audio jack, "off" switches the jack to hardware UART mode.<br />
|}<br />
<br />
== Battery ==<br />
<br />
{{Hint|The EG25 modem and RTL8723CS WiFi/bluetooth do not work without battery power, even if you are supplying enough power to the PinePhone with USB-C.}}<br />
<br />
The phone ships with a plastic sticker between the battery and the phone. You need to open the back cover (gently), then remove the battery and finally remove the sticker and check that the pins aren't bent. This is to protect the device from turning on during shipping.<br />
<br />
The [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf supplied battery] is [https://forum.pine64.org/showthread.php?tid=8120&pid=53307#pid53307 meant to be] compatible with Samsung part number EB-BJ700BBC / BBE / CBE from the 2015 J7 phone. <br />
* The extended life aftermarket BBU does fit, although it is a tight fit.<br />
* There is [https://forum.pine64.org/showthread.php?tid=8563&pid=55053#pid55053 a report] that the EB-BJ700CBE isn't quite the same size, causing the back not to fit the BraveHeart Edition properly.<br />
<br />
The battery terminals, in order from nearest the edge to nearest the middle, are:<br />
<br />
# +ve<br />
# thermistor<br />
# -ve<br />
# not connected<br />
<br />
The battery includes a protection circuit that isolates it in a number of fault conditions, including if it is discharged too far. The fully discharged battery [https://forum.pine64.org/showthread.php?tid=8563&pid=55377#pid55377 can be recharged] by connecting the phone to a charger. Once it has charged sufficiently you will be able to boot the phone.<br />
<br />
If your battery is hard to remove from the phone, try loosening the screws around it. Possibly cutting up a piece of plastic and sliding it under the battery as a pull tab can work too.<br />
<br />
<gallery mode="packed", heights=300px><br />
Image:PinePhone battery1.png|Photo of Brave Heart case from OSAKANA TARO on Twitter<br />
Image:PinePhone battery3.jpeg|Photo of Brave Heart battery sticker from OSAKANA TARO on Twitter<br />
</gallery><br />
<br />
== Modem and carrier support ==<br />
=== APN settings ===<br />
<br />
For tested APN settings and how to apply them see [[PinePhone APN Settings]].<br />
<br />
=== Carrier support ===<br />
The page [[PinePhone Carrier Support]] contains information about the frequency support of different carriers and hints on setting up cellular network connectivity.<br />
<br />
=== Documents ===<br />
<br />
There is a document about using the modem from January 18th 2020 by user ''megi'' [https://megous.com/dl/tmp/modem.txt here]. The script at the end to disable the modem before power off is pretty essential to avoid corrupting your modem's flash memory.<br />
<br />
=== Firmware modifications ===<br />
<br />
See [[PineModems]] for more information regarding modem bootloader unlocking, building a custom modem firmware and modem recovery.<br />
<br />
=== Voice mail ===<br />
<br />
Some phone operating systems may not have support for accessing your voicemail by holding down the 1 key. If you are in Canada and using rogers or a rogers associated carrier (such as ''Chatr''), you can access your voice mail by calling an external number, see: https://www.howardforums.com/showthread.php/913346-Rogers-GSM-Voicemail-Retrieval-Numbers<br />
<br />
In America, AT&T also has support for accessing your voicemail via an external phone number: https://www.att.com/support/article/wireless/KM1009101/<br />
<br />
== Operating Systems ==<br />
<br />
The PinePhone will automatically boot from microSD if a bootable card is inserted. Although it is technically possible to use any ARM distribution (because the PinePhone uses the mainline kernel), there are a few that are designed specifically for mobile use on devices like the PinePhone.<br />
<br />
=== Software releases ===<br />
<br />
The [[PinePhone Software Releases]] page has a complete list of currently supported phone-optimized Operating System images that work with the PinePhone as well as other related software information. As soon as more patches get mainlined and distributions ship with the updated kernel, they will also be able to run unmodified on the device.<br />
<br />
=== Installation instructions ===<br />
<br />
For instructions on how to install the operating systems to the eMMC or SD card see [[PinePhone Installation Instructions]].<br />
<br />
=== Flashing eMMC using Jumpdrive ===<br />
<br />
[[File:jumpdrive.jpg|400px|thumb|right|Jumpdrive running on the PinePhone]]<br />
The internal eMMC flash storage can be flashed using the Jumpdrive utility by Danct12 and Martijn from postmarketOS.<br />
This utility boots from micro SD and exposes the internal eMMC flash storage when the PinePhone is connected to a computer.<br />
The process of flashing an OS to the exposed and mounted eMMC is identical to that of any other storage medium - e.g. a SD card. You can use the 'DD' command or a utility such as Etcher or Gnome Disks, etc.<br />
<br />
Latest Jumpdrive can be found [https://github.com/dreemurrs-embedded/Jumpdrive/releases/ here].<br />
<br />
==== Detailed usage instructions ====<br />
<br />
# Download the Jumpdrive image<br />
# Flash the Jumpdrive image to a micro SD card<br />
# Boot the PinePhone from the Jumpdrive micro SD card<br />
# Connect the PinePhone to your computer using USB-A -> USB-C cable<br />
# Flash the exposed PinePhone drive (e.g. /dev/mm..., check for the right device in dmesg, GNOME disks, or similar, and make sure it's unmounted) with your chosen OS image<br />
# Once the flashing process is complete, disconnect the PinePhone from your PC, power it down and remove the Jumpdrive SD card<br />
# The process is now finished, and you can boot from eMMC<br />
<br />
Jumpdrive also acts as a rescue image in case if you messed up your installation. To do so, you can telnet to '''172.16.42.1''', mount rootfs and fix it!<br />
<br />
==== Resize file system ====<br />
<br />
If you flash a 4GB image distribution (such as phosh+debian) to your eMMC, your eMMC will only have a 3.7GB partition on it. To use the entire 14.7GB on the eMMC, run the following commands:<br />
<br />
# sudo cfdisk /dev/sdX<br />
# Change to [Resize] in the ncurses program, resize the 3.7GB partition to 14.7GB, and [Write]<br />
# sudo resize2fs /dev/sdXY<br />
<br />
Replace X with your drive's name. Replace Y with the partition you resized in cfdisk.<br />
<br />
==== Feedback ====<br />
<br />
If you've found an issue or want to improve the tool consider these sites:<br />
<br />
* Issues: https://github.com/dreemurrs-embedded/Jumpdrive/issues<br />
* Pull Requests: https://github.com/dreemurrs-embedded/Jumpdrive/pulls<br />
<br />
== Frequently asked questions ==<br />
<br />
For a list of frequently asked questions (including information regarding the shipping) see [[PinePhone FAQ]].<br />
<br />
== Press ==<br />
<br />
For an overview about media of the PinePhone you can use for the news, blogs, or similar see [[PinePhone Press]].<br />
<br />
== PinePhone board information, schematics and certifications ==<br />
* PinePhone mainboard schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2a]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2]<br />
** [[PinePhone_v1.2|PinePhone schematic ver 1.2 change list]]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20Schematic%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard Schematic ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20top%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component top placement drawing ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20bottom%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component bottom placement drawing ver 1.1]<br />
* PinePhone USB-C small board schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20schematic%20v1.0%2020190730.pdf PinePhone USB-C small board Schematic ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20top%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component top placement drawing ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20bottom%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component bottom placement drawing ver 1.0]<br />
* PinePhone certifications:<br />
** [http://files.pine64.org/doc/cert/PinePhone%20FCC%20SDOC%20Certificate-S19112602605001.pdf PinePhone FCC Certificate]<br />
** [https://fcc.report/FCC-ID/2AWAG-PINEPHONE RF Exposure SAR Information from FCC ID site]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20CE%20RED%20Certificate-S19112602602.pdf PinPhone CE RED Certificate]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20ROHS%20Report.pdf PinePhone ROHS Report]<br />
** PinePhone's GSMA TAC (Type Allocation Code) is 86769804<br />
<br />
== Datasheets for components and peripherals ==<br />
<br />
* Allwinner A64 SoC information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64%20brief%20v1.0%2020150323.pdf Allwinner A64 SoC brief introduction]<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf Allwinner A64 SoC Data Sheet V1.1 (Official Released Version)]<br />
** [http://files.pine64.org/doc/datasheet/pine64/Allwinner_A64_User_Manual_V1.0.pdf Allwinner A64 SoC User Manual V1.0 (Official Release Version)]<br />
<br />
* X-Powers AXP803 PMU (Power Management Unit) information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/AXP803_Datasheet_V1.0.pdf AXP803 PMIC datasheet]<br />
<br />
* LPDDR3 (178 Balls) SDRAM:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf Artmem LPDDR3 datasheet]<br />
<br />
* eMMC information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf Kimtigo eMMC datasheet]<br />
<br />
* CMOS camera module information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-rear-2019-0717(HW)%20Model.pdf PinePhone 5M Pixel Real CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV5640 5MP CMOS Image Sensor SoC for Rear Module datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-front-2019-0717(HW)%20Model.pdf PinePhone 2M Pixel Front CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145 2MP CMOS Image Sensor SoC for Front Module datasheet]<br />
<br />
* LCD touch screen panel information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20LCD-QZ01.pdf 5.99" 1440x720 LCD IPS Panel specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703 LCD Controller datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GOODiX GT917S Capacitive Touch Controller datasheet]<br />
<br />
* Lithium battery information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf PinePhone Lithium Battery specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20ZCV%20Curve%20Chart.xlsx PinePhone Lithium Battery ZCV curve chart]<br />
<br />
* WiFi/BT module information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723BS/RTL8723CS specification]<br />
<br />
* LTE module information:<br />
** [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Standard_Specification_V1.2.pdf Quectel EG25-G LTE Module specification]<br />
** [[Media:Quectel EC25EC21 AT Commands Manual V1.2.pdf|EC25&EC21 AT Commands Manual]]<br />
<br />
* Sensors:<br />
** [https://www.st.com/en/mems-and-sensors/lis3mdl.html ST LIS3MDL 3-axis Magnetomater Datasheet]<br />
** [https://www.invensense.com/products/motion-tracking/6-axis/mpu-6050/ InvenSense MPU-6050 Six-Axis (Gyro + Accelerometer) MEMS datasheet]<br />
** [http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html SensorTek STK3335 Ambient Light Sensor and Proximity Sensor]<br />
<br />
* Digital video to USB-C bridge:<br />
** [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief.pdf ANX7688 product brief]<br />
<br />
* Case information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Exploded%20Diagram%20ver%201.0.pdf PinePhone case exploded diagram]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Back%20Cover.stp PinePhone back cover 3D file]<br />
<br />
* Other components:<br />
** See links in the [[PinePhone_component_list|Component List]]<br />
<br />
== Developer works ==<br />
=== Megous ===<br />
<br />
* [https://xnux.eu/howtos/pine64-pinephone-getting-started.html Getting start with PinePhone Hardware]<br />
* [https://xnux.eu/devices/pine64-pinephone.html#toc-pine64-pinephone State of development progress]<br />
* [https://xnux.eu/news.html PinePhone Technical News and Update, also applies to other Allwinner devices including PINE A64 SBC]<br />
* [https://xnux.eu/contribute.html#toc-contributing-to-pinephone-kernel-development Contributions to the kernel development]<br />
<br />
== External links == <br />
* [https://store.pine64.org/?post_type=product Pine64 shop]<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone&diff=7951PinePhone2020-10-20T22:45:15Z<p>Amosbatto: /* Components */</p>
<hr />
<div>The PinePhone is a smartphone created by Pine64, capable of running mainline Linux and supported by many partner projects. The BraveHeart Edition was the first publicly-available version of the phone, though it came without a fully functional OS (factory test image) and was geared specifically towards tinkerers and hackers. Its successor is the Community Edition, the first Community Edition started to ship in June 2020. The phone will be available for at least five years.<br />
<br />
== First time installation ==<br />
<br />
[[File:PinePhone-3.jpg|400px|thumb|right|PinePhone is capable of running a multitude of different Linux mobile OSes]]<br />
<br />
[[File:Pinephone_rendering_blank.png|400px|thumb|right|Rendering of the back and front of PinePhone]]<br />
<br />
From the factory the battery has a sticker on it that isolates the battery from the phone. The battery '''will not''' charge until this is removed.<br />
<br />
[[File:Pinephone_warning.png|none|left|400px]]<br />
<br />
After unboxing remove the back panel using the notch in the corner of the back panel. Then remove the battery and peel off the clear plastic sticker below it that isolates the charging contact. Then replace the battery, see [[PinePhone#Battery|Battery]] for more information.<br />
<br />
The SIM card has to be placed in the lower slot, while the microSD has to be placed in the upper slot, as pictured here:<br />
<br />
[[File:Pinephone_backside.png|none|left|400px]]<br />
<br />
== Specifications ==<br />
<br />
'''Dimensions:''' 160.5 x 76.6 x 9.2mm <br><br />
'''Weight:''' Between 180-200 grams <br><br />
'''SIM Card:''' Micro-SIM <br><br />
'''Display:'''<br />
: '''Size:''' 5.95 inches (151mm) diagonal<br />
: '''Type:''' HD IPS capacitive touchscreen, 16M colors<br />
: '''Resolution:''' 1440x720, 18:9 ratio <br><br />
'''System on Chip:''' [https://linux-sunxi.org/A64 Allwinner A64] <br><br />
'''RAM:''' 2GB or 3GB LPDDR3 SDRAM<br><br />
'''Internal Storage:''' 16GB or 32GB eMMC, extendable up to 2TB via microSD, supports SDHC and SDXC <br><br />
'''Back Camera:''' Single 5MP, 1/4", LED Flash <br><br />
'''Selfie Camera:''' Single 2MP, f/2.8, 1/5" <br><br />
'''Sound:''' Loudspeaker, 3.5mm jack & mic (jack doubles as hardware UART if killswitch 6 is deactivated) <br><br />
'''Communication: G25-G'''<br />
: '''LTE:''' B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B38, B39, B40, B41<br />
: '''WCDMA:''' B1, B2, B4, B5, B6, B8, B19<br />
: '''GSM:''' 850, 900, 1800, 1900 (MHz)<br />
: '''WLAN:''' Wi-Fi 802.11 b/g/n, single-band, hotspot<br />
: '''Bluetooth:''' 4.0, A2DP<br />
: '''GNSS:''' GPS/GLONASS/BeiDou/Galileo/QZSS, with A-GPS<br />
'''Sensors:''' Accelerometer, gyro, proximity, ambient light, compass <br><br />
'''Killswitches:''' Modem, WiFi & Bluetooth, Microphone, Cameras <br><br />
'''Battery:''' Lithium-ion, rated capacity 2800mAh (10.64Wh), typical capacity 3000mAh (11.40Wh) (nominally replaceable with any Samsung J7 form-factor battery) <br><br />
'''I/O:''' USB Type-C, USB Host, DisplayPort Alternate Mode output, 15W 5V 3A Quick Charge, follows USB PD specification<br />
<br />
== Components ==<br />
{| class="wikitable"<br />
! Component<br />
! Model<br />
|-<br />
| Touchscreen<br />
| Goodix GT917S<br />
|-<br />
| Rear camera<br />
| OmniVision OV5640<br />
|-<br />
| Camera flash<br />
| SGMICRO SGM3140<br />
|-<br />
| Front camera<br />
| GalaxyCore GC2145<br />
|-<br />
| LCD<br />
| Xingbangda XBD599<br />
|-<br />
| WiFi<br />
| Realtek RTL8723CS<br />
|-<br />
| Bluetooth<br />
| Realtek RTL8723CS<br />
|-<br />
| Modem<br />
| Quectel EG25-G<br />
|-<br />
| GNSS/GPS<br />
| Quectel EG25-G<br />
|-<br />
| Magnetometer<br />
| ST LIS3MDL<br />
|-<br />
| Ambient light / Proximity<br />
| SensorTek STK3335<br />
|-<br />
| Sixaxis<br />
| InvenSense MPU-6050<br />
|-<br />
| Vibration motor<br />
| Unknown model<br />
|-<br />
| Notification LED<br />
| LED0603RGB<br />
|-<br />
| Volume buttons<br />
| Buttons connected to the KEYADC<br />
|-<br />
| Power button<br />
| X-Powers AXP803<br />
|-<br />
| Battery fuel gauge<br />
| X-Powers AXP803<br />
|}<br />
<br />
See the [[PinePhone_component_list|PinePhone Component List]].<br />
<br />
== Hardware revisions ==<br />
<br />
# [[Project Anakin]]<br />
# [[Project Don't be evil|"Project Don't Be Evil" devkit]]<br />
# [[PinePhone v1.0 - Dev|PinePhone v1.0 - Developer batch]]<br />
# [[PinePhone v1.1 - Braveheart]]<br />
# [[PinePhone v1.2]] - Ubports Community Edition<br />
# [[PinePhone v1.2a]] - Community Editions<br />
<br />
== Hardware accessory ==<br />
<br />
=== PinePhone hardware accessory compatibility ===<br />
See [[PinePhone Hardware Accessory Compatibility]] for a list of devices working with the PinePhone (depending on their OS support).<br />
<br />
=== USB-C connector ===<br />
<br />
The USB-C can be used to power the device, and offers USB2 host and OTG possibilities, and also can make use of the USB-C capability to integrate HDMI signals. Some USB-C hubs are available that offer power throughput, USB connection, HDMI port and Ethernet connection. The driver that would make this connection available is not supported at this time.<br />
<br />
=== Pogo pins ===<br />
<br />
The PinePhone has 6 pogo pins on the back allowing for custom hardware extensions such as wireless charging, an IR blaster, a keyboard extension or extended battery case. The pogo pins provide access to an interrupt line, power input to charge the battery, power source and an I2C interface.<br />
<br />
[[File:Pinephone pogo.png|none|400px]]<br />
<br />
{| class="wikitable"<br />
| Interrupt<br />
| SDA<br />
| SCL<br />
|-<br />
| 5V / VBUS<br />
| VBAT<br />
| GND<br />
|}<br />
<br />
The VBUS pin is powered by USB and is 5V. The second power pin is VBAT, which connects to the battery voltage. The I2C and interrupt lines have pull-ups on the phone side. The I2C lines are pulled up to 3V3 by the phone.<br />
<br />
For a breakout board see [https://github.com/SMR404/PinephonePogoBreakout here]. For an example project see Martijn's blog post [https://blog.brixit.nl/making-a-backcover-extension-for-the-pinephone/ <i>"Making a backcover extension for the PinePhone"</i>].<br />
<br />
=== Back cover ===<br />
A step file for the back cover for creating custom cases is freely available [http://files.pine64.org/doc/PinePhone/PinePhone%20Back%20Cover%20ver%200.5.stp here].<br />
<br />
=== Serial console ===<br />
<br />
The PinePhone has a serial port in the headphone connector, it's activated by the 6th contact on the dipswitch. If the switch is set to "on", the headphone connector is in audio mode, if it is set to "off" it's in UART mode. The UART serial connection can also be used for communication with other devices from the PinePhone.<br />
<br />
The UART is 115200n8.<br />
<br />
The pinout for the serial connector is:<br />
<br />
* Tip: RX<br />
* Ring: TX<br />
* Sleeve: GND<br />
<br />
[[File:PinePhone_Serial_Cable.png|none|400px]]<br />
<br />
You can buy a serial debug cable from the [https://store.pine64.org/product/pinebook-serial-console/ Pine64 Store]. The store cable uses a 4 ring plug, as seen in the [http://files.pine64.org/doc/pinebook/guide/Pinebook_Earphone_Serial_Console_Developer_Guide.pdf here], but a 3 ring plug works just as well. The cable uses a CH340 chipset based serial to USB converter, but any 3.3v serial connection can be used. Because it is a "host"/DTE it means that you need a ''cross modem cable'' ([https://en.wikipedia.org/wiki/Null_modem Null Modem]) with TX on Tip to be connected to RX. A cable like e.g. [https://www.ftdichip.com/Products/Cables/USBTTLSerial.htm FTDI TTL-232R-3V3-AJ] which has TX on Tip and RX on Ring fits perfectly.<br />
<br />
== Killswitch configuration ==<br />
<br />
[[File:PinePhone Kill Interruptors de Maquinari del PinePhone 4529.jpg|320px|thumb|right|Detail of DIP switch]]<br />
<br />
The PinePhone features six switches that can be used to configure its hardware. They are numbered 1-6, with switch 1 located nearest to the modem. Their "on" position is toward the top of the phone.<br />
<br />
{| class="wikitable"<br />
|-<br />
! Number<br />
! Name<br />
! Explanation<br />
! Description<br />
|-<br />
| 1<br />
| Modem<br />
| Pulls Q1501 gate up (FET killing modem power)<br />
| "On" enables 2G/3G/4G communication and GNSS hardware, "off" disables it.<br />
|-<br />
| 2<br />
| WiFi / Bluetooth<br />
| Pulls up CHIP_EN<br />
| "On" enables WiFi and Bluetooth communication hardware, "off" disables it.<br />
|-<br />
| 3<br />
| Microphone<br />
| Breaks microphone bias voltage from the SoC<br />
| "On" enables audio input from on-board microphones (not 3.5mm jack), "off" disables it.<br />
|-<br />
| 4<br />
| Rear camera<br />
| Pulls up PWDN on OV5640 <br />
| "On" enables the rear camera, "off" disables it.<br />
|-<br />
| 5<br />
| Front camera<br />
| Pulls up PWDN on GC2145<br />
| "On" enables the front camera, "off" disables it.<br />
|-<br />
| 6<br />
| Headphone<br />
| Pulls up IN2 on analog switch BCT4717ETB<br />
| "On" enables audio input and output via the 3.5mm audio jack, "off" switches the jack to hardware UART mode.<br />
|}<br />
<br />
== Battery ==<br />
<br />
{{Hint|The EG25 modem and RTL8723CS WiFi/bluetooth do not work without battery power, even if you are supplying enough power to the PinePhone with USB-C.}}<br />
<br />
The phone ships with a plastic sticker between the battery and the phone. You need to open the back cover (gently), then remove the battery and finally remove the sticker and check that the pins aren't bent. This is to protect the device from turning on during shipping.<br />
<br />
The [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf supplied battery] is [https://forum.pine64.org/showthread.php?tid=8120&pid=53307#pid53307 meant to be] compatible with Samsung part number EB-BJ700BBC / BBE / CBE from the 2015 J7 phone. <br />
* The extended life aftermarket BBU does fit, although it is a tight fit.<br />
* There is [https://forum.pine64.org/showthread.php?tid=8563&pid=55053#pid55053 a report] that the EB-BJ700CBE isn't quite the same size, causing the back not to fit the BraveHeart Edition properly.<br />
<br />
The battery terminals, in order from nearest the edge to nearest the middle, are:<br />
<br />
# +ve<br />
# thermistor<br />
# -ve<br />
# not connected<br />
<br />
The battery includes a protection circuit that isolates it in a number of fault conditions, including if it is discharged too far. The fully discharged battery [https://forum.pine64.org/showthread.php?tid=8563&pid=55377#pid55377 can be recharged] by connecting the phone to a charger. Once it has charged sufficiently you will be able to boot the phone.<br />
<br />
If your battery is hard to remove from the phone, try loosening the screws around it. Possibly cutting up a piece of plastic and sliding it under the battery as a pull tab can work too.<br />
<br />
<gallery mode="packed", heights=300px><br />
Image:PinePhone battery1.png|Photo of Brave Heart case from OSAKANA TARO on Twitter<br />
Image:PinePhone battery3.jpeg|Photo of Brave Heart battery sticker from OSAKANA TARO on Twitter<br />
</gallery><br />
<br />
== Modem and carrier support ==<br />
=== APN settings ===<br />
<br />
For tested APN settings and how to apply them see [[PinePhone APN Settings]].<br />
<br />
=== Carrier support ===<br />
The page [[PinePhone Carrier Support]] contains information about the frequency support of different carriers and hints on setting up cellular network connectivity.<br />
<br />
=== Documents ===<br />
<br />
There is a document about using the modem from January 18th 2020 by user ''megi'' [https://megous.com/dl/tmp/modem.txt here]. The script at the end to disable the modem before power off is pretty essential to avoid corrupting your modem's flash memory.<br />
<br />
=== Firmware modifications ===<br />
<br />
See [[PineModems]] for more information regarding modem bootloader unlocking, building a custom modem firmware and modem recovery.<br />
<br />
=== Voice mail ===<br />
<br />
Some phone operating systems may not have support for accessing your voicemail by holding down the 1 key. If you are in Canada and using rogers or a rogers associated carrier (such as ''Chatr''), you can access your voice mail by calling an external number, see: https://www.howardforums.com/showthread.php/913346-Rogers-GSM-Voicemail-Retrieval-Numbers<br />
<br />
In America, AT&T also has support for accessing your voicemail via an external phone number: https://www.att.com/support/article/wireless/KM1009101/<br />
<br />
== Operating Systems ==<br />
<br />
The PinePhone will automatically boot from microSD if a bootable card is inserted. Although it is technically possible to use any ARM distribution (because the PinePhone uses the mainline kernel), there are a few that are designed specifically for mobile use on devices like the PinePhone.<br />
<br />
=== Software releases ===<br />
<br />
The [[PinePhone Software Releases]] page has a complete list of currently supported phone-optimized Operating System images that work with the PinePhone as well as other related software information. As soon as more patches get mainlined and distributions ship with the updated kernel, they will also be able to run unmodified on the device.<br />
<br />
=== Installation instructions ===<br />
<br />
For instructions on how to install the operating systems to the eMMC or SD card see [[PinePhone Installation Instructions]].<br />
<br />
=== Flashing eMMC using Jumpdrive ===<br />
<br />
[[File:jumpdrive.jpg|400px|thumb|right|Jumpdrive running on the PinePhone]]<br />
The internal eMMC flash storage can be flashed using the Jumpdrive utility by Danct12 and Martijn from postmarketOS.<br />
This utility boots from micro SD and exposes the internal eMMC flash storage when the PinePhone is connected to a computer.<br />
The process of flashing an OS to the exposed and mounted eMMC is identical to that of any other storage medium - e.g. a SD card. You can use the 'DD' command or a utility such as Etcher or Gnome Disks, etc.<br />
<br />
Latest Jumpdrive can be found [https://github.com/dreemurrs-embedded/Jumpdrive/releases/ here].<br />
<br />
==== Detailed usage instructions ====<br />
<br />
# Download the Jumpdrive image<br />
# Flash the Jumpdrive image to a micro SD card<br />
# Boot the PinePhone from the Jumpdrive micro SD card<br />
# Connect the PinePhone to your computer using USB-A -> USB-C cable<br />
# Flash the exposed PinePhone drive (e.g. /dev/mm..., check for the right device in dmesg, GNOME disks, or similar, and make sure it's unmounted) with your chosen OS image<br />
# Once the flashing process is complete, disconnect the PinePhone from your PC, power it down and remove the Jumpdrive SD card<br />
# The process is now finished, and you can boot from eMMC<br />
<br />
Jumpdrive also acts as a rescue image in case if you messed up your installation. To do so, you can telnet to '''172.16.42.1''', mount rootfs and fix it!<br />
<br />
==== Resize file system ====<br />
<br />
If you flash a 4GB image distribution (such as phosh+debian) to your eMMC, your eMMC will only have a 3.7GB partition on it. To use the entire 14.7GB on the eMMC, run the following commands:<br />
<br />
# sudo cfdisk /dev/sdX<br />
# Change to [Resize] in the ncurses program, resize the 3.7GB partition to 14.7GB, and [Write]<br />
# sudo resize2fs /dev/sdXY<br />
<br />
Replace X with your drive's name. Replace Y with the partition you resized in cfdisk.<br />
<br />
==== Feedback ====<br />
<br />
If you've found an issue or want to improve the tool consider these sites:<br />
<br />
* Issues: https://github.com/dreemurrs-embedded/Jumpdrive/issues<br />
* Pull Requests: https://github.com/dreemurrs-embedded/Jumpdrive/pulls<br />
<br />
== Frequently asked questions ==<br />
<br />
For a list of frequently asked questions (including information regarding the shipping) see [[PinePhone FAQ]].<br />
<br />
== Press ==<br />
<br />
For an overview about media of the PinePhone you can use for the news, blogs, or similar see [[PinePhone Press]].<br />
<br />
== PinePhone board information, schematics and certifications ==<br />
* PinePhone mainboard schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2a]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2]<br />
** [[PinePhone_v1.2|PinePhone schematic ver 1.2 change list]]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20Schematic%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard Schematic ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20top%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component top placement drawing ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20bottom%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component bottom placement drawing ver 1.1]<br />
* PinePhone USB-C small board schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20schematic%20v1.0%2020190730.pdf PinePhone USB-C small board Schematic ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20top%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component top placement drawing ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20bottom%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component bottom placement drawing ver 1.0]<br />
* PinePhone certifications:<br />
** [http://files.pine64.org/doc/cert/PinePhone%20FCC%20SDOC%20Certificate-S19112602605001.pdf PinePhone FCC Certificate]<br />
** [https://fcc.report/FCC-ID/2AWAG-PINEPHONE RF Exposure SAR Information from FCC ID site]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20CE%20RED%20Certificate-S19112602602.pdf PinPhone CE RED Certificate]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20ROHS%20Report.pdf PinePhone ROHS Report]<br />
** PinePhone's GSMA TAC (Type Allocation Code) is 86769804<br />
<br />
== Datasheets for components and peripherals ==<br />
<br />
* Allwinner A64 SoC information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64%20brief%20v1.0%2020150323.pdf Allwinner A64 SoC brief introduction]<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf Allwinner A64 SoC Data Sheet V1.1 (Official Released Version)]<br />
** [http://files.pine64.org/doc/datasheet/pine64/Allwinner_A64_User_Manual_V1.0.pdf Allwinner A64 SoC User Manual V1.0 (Official Release Version)]<br />
<br />
* X-Powers AXP803 PMU (Power Management Unit) information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/AXP803_Datasheet_V1.0.pdf AXP803 PMIC datasheet]<br />
<br />
* LPDDR3 (178 Balls) SDRAM:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf Artmem LPDDR3 datasheet]<br />
<br />
* eMMC information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf Kimtigo eMMC datasheet]<br />
<br />
* CMOS camera module information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-rear-2019-0717(HW)%20Model.pdf PinePhone 5M Pixel Real CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV5640 5MP CMOS Image Sensor SoC for Rear Module datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-front-2019-0717(HW)%20Model.pdf PinePhone 2M Pixel Front CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145 2MP CMOS Image Sensor SoC for Front Module datasheet]<br />
<br />
* LCD touch screen panel information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20LCD-QZ01.pdf 5.99" 1440x720 LCD IPS Panel specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703 LCD Controller datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GOODiX GT917S Capacitive Touch Controller datasheet]<br />
<br />
* Lithium battery information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf PinePhone Lithium Battery specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20ZCV%20Curve%20Chart.xlsx PinePhone Lithium Battery ZCV curve chart]<br />
<br />
* WiFi/BT module information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723BS/RTL8723CS specification]<br />
<br />
* LTE module information:<br />
** [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Standard_Specification_V1.2.pdf Quectel EG25-G LTE Module specification]<br />
** [[Media:Quectel EC25EC21 AT Commands Manual V1.2.pdf|EC25&EC21 AT Commands Manual]]<br />
<br />
* Sensors:<br />
** [https://www.st.com/en/mems-and-sensors/lis3mdl.html ST LIS3MDL 3-axis Magnetomater Datasheet]<br />
** [https://www.invensense.com/products/motion-tracking/6-axis/mpu-6050/ InvenSense MPU-6050 Six-Axis (Gyro + Accelerometer) MEMS datasheet]<br />
** [http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html SensorTek STK3335 Ambient Light Sensor and Proximity Sensor]<br />
<br />
* Digital video to USB-C bridge:<br />
** [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief.pdf ANX7688 product brief]<br />
<br />
* Case information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Exploded%20Diagram%20ver%201.0.pdf PinePhone case exploded diagram]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Back%20Cover.stp PinePhone back cover 3D file]<br />
<br />
== Developer works ==<br />
=== Megous ===<br />
<br />
* [https://xnux.eu/howtos/pine64-pinephone-getting-started.html Getting start with PinePhone Hardware]<br />
* [https://xnux.eu/devices/pine64-pinephone.html#toc-pine64-pinephone State of development progress]<br />
* [https://xnux.eu/news.html PinePhone Technical News and Update, also applies to other Allwinner devices including PINE A64 SBC]<br />
* [https://xnux.eu/contribute.html#toc-contributing-to-pinephone-kernel-development Contributions to the kernel development]<br />
<br />
== External links == <br />
* [https://store.pine64.org/?post_type=product Pine64 shop]<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone&diff=7950PinePhone2020-10-20T22:44:51Z<p>Amosbatto: /* Components */</p>
<hr />
<div>The PinePhone is a smartphone created by Pine64, capable of running mainline Linux and supported by many partner projects. The BraveHeart Edition was the first publicly-available version of the phone, though it came without a fully functional OS (factory test image) and was geared specifically towards tinkerers and hackers. Its successor is the Community Edition, the first Community Edition started to ship in June 2020. The phone will be available for at least five years.<br />
<br />
== First time installation ==<br />
<br />
[[File:PinePhone-3.jpg|400px|thumb|right|PinePhone is capable of running a multitude of different Linux mobile OSes]]<br />
<br />
[[File:Pinephone_rendering_blank.png|400px|thumb|right|Rendering of the back and front of PinePhone]]<br />
<br />
From the factory the battery has a sticker on it that isolates the battery from the phone. The battery '''will not''' charge until this is removed.<br />
<br />
[[File:Pinephone_warning.png|none|left|400px]]<br />
<br />
After unboxing remove the back panel using the notch in the corner of the back panel. Then remove the battery and peel off the clear plastic sticker below it that isolates the charging contact. Then replace the battery, see [[PinePhone#Battery|Battery]] for more information.<br />
<br />
The SIM card has to be placed in the lower slot, while the microSD has to be placed in the upper slot, as pictured here:<br />
<br />
[[File:Pinephone_backside.png|none|left|400px]]<br />
<br />
== Specifications ==<br />
<br />
'''Dimensions:''' 160.5 x 76.6 x 9.2mm <br><br />
'''Weight:''' Between 180-200 grams <br><br />
'''SIM Card:''' Micro-SIM <br><br />
'''Display:'''<br />
: '''Size:''' 5.95 inches (151mm) diagonal<br />
: '''Type:''' HD IPS capacitive touchscreen, 16M colors<br />
: '''Resolution:''' 1440x720, 18:9 ratio <br><br />
'''System on Chip:''' [https://linux-sunxi.org/A64 Allwinner A64] <br><br />
'''RAM:''' 2GB or 3GB LPDDR3 SDRAM<br><br />
'''Internal Storage:''' 16GB or 32GB eMMC, extendable up to 2TB via microSD, supports SDHC and SDXC <br><br />
'''Back Camera:''' Single 5MP, 1/4", LED Flash <br><br />
'''Selfie Camera:''' Single 2MP, f/2.8, 1/5" <br><br />
'''Sound:''' Loudspeaker, 3.5mm jack & mic (jack doubles as hardware UART if killswitch 6 is deactivated) <br><br />
'''Communication: G25-G'''<br />
: '''LTE:''' B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B38, B39, B40, B41<br />
: '''WCDMA:''' B1, B2, B4, B5, B6, B8, B19<br />
: '''GSM:''' 850, 900, 1800, 1900 (MHz)<br />
: '''WLAN:''' Wi-Fi 802.11 b/g/n, single-band, hotspot<br />
: '''Bluetooth:''' 4.0, A2DP<br />
: '''GNSS:''' GPS/GLONASS/BeiDou/Galileo/QZSS, with A-GPS<br />
'''Sensors:''' Accelerometer, gyro, proximity, ambient light, compass <br><br />
'''Killswitches:''' Modem, WiFi & Bluetooth, Microphone, Cameras <br><br />
'''Battery:''' Lithium-ion, rated capacity 2800mAh (10.64Wh), typical capacity 3000mAh (11.40Wh) (nominally replaceable with any Samsung J7 form-factor battery) <br><br />
'''I/O:''' USB Type-C, USB Host, DisplayPort Alternate Mode output, 15W 5V 3A Quick Charge, follows USB PD specification<br />
<br />
== Components ==<br />
{| class="wikitable"<br />
! Component<br />
! Model<br />
|-<br />
| Touchscreen<br />
| Goodix GT917S<br />
|-<br />
| Rear camera<br />
| OmniVision OV5640<br />
|-<br />
| Camera flash<br />
| SGMICRO SGM3140<br />
|-<br />
| Front camera<br />
| GalaxyCore GC2145<br />
|-<br />
| LCD<br />
| Xingbangda XBD599<br />
|-<br />
| WiFi<br />
| Realtek RTL8723CS<br />
|-<br />
| Bluetooth<br />
| Realtek RTL8723CS<br />
|-<br />
| Modem<br />
| Quectel EG25-G<br />
|-<br />
| GNSS/GPS<br />
| Quectel EG25-G<br />
|-<br />
| Magnetometer<br />
| ST LIS3MDL<br />
|-<br />
| Ambient light / Proximity<br />
| SensorTek STK3335<br />
|-<br />
| Sixaxis<br />
| InvenSense MPU-6050<br />
|-<br />
| Vibration motor<br />
| Unknown model<br />
|-<br />
| Notification LED<br />
| LED0603RGB<br />
|-<br />
| Volume buttons<br />
| Buttons connected to the KEYADC<br />
|-<br />
| Power button<br />
| X-Powers AXP803<br />
|-<br />
| Battery fuel gauge<br />
| X-Powers AXP803<br />
|}<br />
<br />
See the [PinePhone_component_list|PinePhone Component List].<br />
<br />
== Hardware revisions ==<br />
<br />
# [[Project Anakin]]<br />
# [[Project Don't be evil|"Project Don't Be Evil" devkit]]<br />
# [[PinePhone v1.0 - Dev|PinePhone v1.0 - Developer batch]]<br />
# [[PinePhone v1.1 - Braveheart]]<br />
# [[PinePhone v1.2]] - Ubports Community Edition<br />
# [[PinePhone v1.2a]] - Community Editions<br />
<br />
== Hardware accessory ==<br />
<br />
=== PinePhone hardware accessory compatibility ===<br />
See [[PinePhone Hardware Accessory Compatibility]] for a list of devices working with the PinePhone (depending on their OS support).<br />
<br />
=== USB-C connector ===<br />
<br />
The USB-C can be used to power the device, and offers USB2 host and OTG possibilities, and also can make use of the USB-C capability to integrate HDMI signals. Some USB-C hubs are available that offer power throughput, USB connection, HDMI port and Ethernet connection. The driver that would make this connection available is not supported at this time.<br />
<br />
=== Pogo pins ===<br />
<br />
The PinePhone has 6 pogo pins on the back allowing for custom hardware extensions such as wireless charging, an IR blaster, a keyboard extension or extended battery case. The pogo pins provide access to an interrupt line, power input to charge the battery, power source and an I2C interface.<br />
<br />
[[File:Pinephone pogo.png|none|400px]]<br />
<br />
{| class="wikitable"<br />
| Interrupt<br />
| SDA<br />
| SCL<br />
|-<br />
| 5V / VBUS<br />
| VBAT<br />
| GND<br />
|}<br />
<br />
The VBUS pin is powered by USB and is 5V. The second power pin is VBAT, which connects to the battery voltage. The I2C and interrupt lines have pull-ups on the phone side. The I2C lines are pulled up to 3V3 by the phone.<br />
<br />
For a breakout board see [https://github.com/SMR404/PinephonePogoBreakout here]. For an example project see Martijn's blog post [https://blog.brixit.nl/making-a-backcover-extension-for-the-pinephone/ <i>"Making a backcover extension for the PinePhone"</i>].<br />
<br />
=== Back cover ===<br />
A step file for the back cover for creating custom cases is freely available [http://files.pine64.org/doc/PinePhone/PinePhone%20Back%20Cover%20ver%200.5.stp here].<br />
<br />
=== Serial console ===<br />
<br />
The PinePhone has a serial port in the headphone connector, it's activated by the 6th contact on the dipswitch. If the switch is set to "on", the headphone connector is in audio mode, if it is set to "off" it's in UART mode. The UART serial connection can also be used for communication with other devices from the PinePhone.<br />
<br />
The UART is 115200n8.<br />
<br />
The pinout for the serial connector is:<br />
<br />
* Tip: RX<br />
* Ring: TX<br />
* Sleeve: GND<br />
<br />
[[File:PinePhone_Serial_Cable.png|none|400px]]<br />
<br />
You can buy a serial debug cable from the [https://store.pine64.org/product/pinebook-serial-console/ Pine64 Store]. The store cable uses a 4 ring plug, as seen in the [http://files.pine64.org/doc/pinebook/guide/Pinebook_Earphone_Serial_Console_Developer_Guide.pdf here], but a 3 ring plug works just as well. The cable uses a CH340 chipset based serial to USB converter, but any 3.3v serial connection can be used. Because it is a "host"/DTE it means that you need a ''cross modem cable'' ([https://en.wikipedia.org/wiki/Null_modem Null Modem]) with TX on Tip to be connected to RX. A cable like e.g. [https://www.ftdichip.com/Products/Cables/USBTTLSerial.htm FTDI TTL-232R-3V3-AJ] which has TX on Tip and RX on Ring fits perfectly.<br />
<br />
== Killswitch configuration ==<br />
<br />
[[File:PinePhone Kill Interruptors de Maquinari del PinePhone 4529.jpg|320px|thumb|right|Detail of DIP switch]]<br />
<br />
The PinePhone features six switches that can be used to configure its hardware. They are numbered 1-6, with switch 1 located nearest to the modem. Their "on" position is toward the top of the phone.<br />
<br />
{| class="wikitable"<br />
|-<br />
! Number<br />
! Name<br />
! Explanation<br />
! Description<br />
|-<br />
| 1<br />
| Modem<br />
| Pulls Q1501 gate up (FET killing modem power)<br />
| "On" enables 2G/3G/4G communication and GNSS hardware, "off" disables it.<br />
|-<br />
| 2<br />
| WiFi / Bluetooth<br />
| Pulls up CHIP_EN<br />
| "On" enables WiFi and Bluetooth communication hardware, "off" disables it.<br />
|-<br />
| 3<br />
| Microphone<br />
| Breaks microphone bias voltage from the SoC<br />
| "On" enables audio input from on-board microphones (not 3.5mm jack), "off" disables it.<br />
|-<br />
| 4<br />
| Rear camera<br />
| Pulls up PWDN on OV5640 <br />
| "On" enables the rear camera, "off" disables it.<br />
|-<br />
| 5<br />
| Front camera<br />
| Pulls up PWDN on GC2145<br />
| "On" enables the front camera, "off" disables it.<br />
|-<br />
| 6<br />
| Headphone<br />
| Pulls up IN2 on analog switch BCT4717ETB<br />
| "On" enables audio input and output via the 3.5mm audio jack, "off" switches the jack to hardware UART mode.<br />
|}<br />
<br />
== Battery ==<br />
<br />
{{Hint|The EG25 modem and RTL8723CS WiFi/bluetooth do not work without battery power, even if you are supplying enough power to the PinePhone with USB-C.}}<br />
<br />
The phone ships with a plastic sticker between the battery and the phone. You need to open the back cover (gently), then remove the battery and finally remove the sticker and check that the pins aren't bent. This is to protect the device from turning on during shipping.<br />
<br />
The [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf supplied battery] is [https://forum.pine64.org/showthread.php?tid=8120&pid=53307#pid53307 meant to be] compatible with Samsung part number EB-BJ700BBC / BBE / CBE from the 2015 J7 phone. <br />
* The extended life aftermarket BBU does fit, although it is a tight fit.<br />
* There is [https://forum.pine64.org/showthread.php?tid=8563&pid=55053#pid55053 a report] that the EB-BJ700CBE isn't quite the same size, causing the back not to fit the BraveHeart Edition properly.<br />
<br />
The battery terminals, in order from nearest the edge to nearest the middle, are:<br />
<br />
# +ve<br />
# thermistor<br />
# -ve<br />
# not connected<br />
<br />
The battery includes a protection circuit that isolates it in a number of fault conditions, including if it is discharged too far. The fully discharged battery [https://forum.pine64.org/showthread.php?tid=8563&pid=55377#pid55377 can be recharged] by connecting the phone to a charger. Once it has charged sufficiently you will be able to boot the phone.<br />
<br />
If your battery is hard to remove from the phone, try loosening the screws around it. Possibly cutting up a piece of plastic and sliding it under the battery as a pull tab can work too.<br />
<br />
<gallery mode="packed", heights=300px><br />
Image:PinePhone battery1.png|Photo of Brave Heart case from OSAKANA TARO on Twitter<br />
Image:PinePhone battery3.jpeg|Photo of Brave Heart battery sticker from OSAKANA TARO on Twitter<br />
</gallery><br />
<br />
== Modem and carrier support ==<br />
=== APN settings ===<br />
<br />
For tested APN settings and how to apply them see [[PinePhone APN Settings]].<br />
<br />
=== Carrier support ===<br />
The page [[PinePhone Carrier Support]] contains information about the frequency support of different carriers and hints on setting up cellular network connectivity.<br />
<br />
=== Documents ===<br />
<br />
There is a document about using the modem from January 18th 2020 by user ''megi'' [https://megous.com/dl/tmp/modem.txt here]. The script at the end to disable the modem before power off is pretty essential to avoid corrupting your modem's flash memory.<br />
<br />
=== Firmware modifications ===<br />
<br />
See [[PineModems]] for more information regarding modem bootloader unlocking, building a custom modem firmware and modem recovery.<br />
<br />
=== Voice mail ===<br />
<br />
Some phone operating systems may not have support for accessing your voicemail by holding down the 1 key. If you are in Canada and using rogers or a rogers associated carrier (such as ''Chatr''), you can access your voice mail by calling an external number, see: https://www.howardforums.com/showthread.php/913346-Rogers-GSM-Voicemail-Retrieval-Numbers<br />
<br />
In America, AT&T also has support for accessing your voicemail via an external phone number: https://www.att.com/support/article/wireless/KM1009101/<br />
<br />
== Operating Systems ==<br />
<br />
The PinePhone will automatically boot from microSD if a bootable card is inserted. Although it is technically possible to use any ARM distribution (because the PinePhone uses the mainline kernel), there are a few that are designed specifically for mobile use on devices like the PinePhone.<br />
<br />
=== Software releases ===<br />
<br />
The [[PinePhone Software Releases]] page has a complete list of currently supported phone-optimized Operating System images that work with the PinePhone as well as other related software information. As soon as more patches get mainlined and distributions ship with the updated kernel, they will also be able to run unmodified on the device.<br />
<br />
=== Installation instructions ===<br />
<br />
For instructions on how to install the operating systems to the eMMC or SD card see [[PinePhone Installation Instructions]].<br />
<br />
=== Flashing eMMC using Jumpdrive ===<br />
<br />
[[File:jumpdrive.jpg|400px|thumb|right|Jumpdrive running on the PinePhone]]<br />
The internal eMMC flash storage can be flashed using the Jumpdrive utility by Danct12 and Martijn from postmarketOS.<br />
This utility boots from micro SD and exposes the internal eMMC flash storage when the PinePhone is connected to a computer.<br />
The process of flashing an OS to the exposed and mounted eMMC is identical to that of any other storage medium - e.g. a SD card. You can use the 'DD' command or a utility such as Etcher or Gnome Disks, etc.<br />
<br />
Latest Jumpdrive can be found [https://github.com/dreemurrs-embedded/Jumpdrive/releases/ here].<br />
<br />
==== Detailed usage instructions ====<br />
<br />
# Download the Jumpdrive image<br />
# Flash the Jumpdrive image to a micro SD card<br />
# Boot the PinePhone from the Jumpdrive micro SD card<br />
# Connect the PinePhone to your computer using USB-A -> USB-C cable<br />
# Flash the exposed PinePhone drive (e.g. /dev/mm..., check for the right device in dmesg, GNOME disks, or similar, and make sure it's unmounted) with your chosen OS image<br />
# Once the flashing process is complete, disconnect the PinePhone from your PC, power it down and remove the Jumpdrive SD card<br />
# The process is now finished, and you can boot from eMMC<br />
<br />
Jumpdrive also acts as a rescue image in case if you messed up your installation. To do so, you can telnet to '''172.16.42.1''', mount rootfs and fix it!<br />
<br />
==== Resize file system ====<br />
<br />
If you flash a 4GB image distribution (such as phosh+debian) to your eMMC, your eMMC will only have a 3.7GB partition on it. To use the entire 14.7GB on the eMMC, run the following commands:<br />
<br />
# sudo cfdisk /dev/sdX<br />
# Change to [Resize] in the ncurses program, resize the 3.7GB partition to 14.7GB, and [Write]<br />
# sudo resize2fs /dev/sdXY<br />
<br />
Replace X with your drive's name. Replace Y with the partition you resized in cfdisk.<br />
<br />
==== Feedback ====<br />
<br />
If you've found an issue or want to improve the tool consider these sites:<br />
<br />
* Issues: https://github.com/dreemurrs-embedded/Jumpdrive/issues<br />
* Pull Requests: https://github.com/dreemurrs-embedded/Jumpdrive/pulls<br />
<br />
== Frequently asked questions ==<br />
<br />
For a list of frequently asked questions (including information regarding the shipping) see [[PinePhone FAQ]].<br />
<br />
== Press ==<br />
<br />
For an overview about media of the PinePhone you can use for the news, blogs, or similar see [[PinePhone Press]].<br />
<br />
== PinePhone board information, schematics and certifications ==<br />
* PinePhone mainboard schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2a]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2]<br />
** [[PinePhone_v1.2|PinePhone schematic ver 1.2 change list]]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20Schematic%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard Schematic ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20top%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component top placement drawing ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20bottom%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component bottom placement drawing ver 1.1]<br />
* PinePhone USB-C small board schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20schematic%20v1.0%2020190730.pdf PinePhone USB-C small board Schematic ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20top%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component top placement drawing ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20bottom%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component bottom placement drawing ver 1.0]<br />
* PinePhone certifications:<br />
** [http://files.pine64.org/doc/cert/PinePhone%20FCC%20SDOC%20Certificate-S19112602605001.pdf PinePhone FCC Certificate]<br />
** [https://fcc.report/FCC-ID/2AWAG-PINEPHONE RF Exposure SAR Information from FCC ID site]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20CE%20RED%20Certificate-S19112602602.pdf PinPhone CE RED Certificate]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20ROHS%20Report.pdf PinePhone ROHS Report]<br />
** PinePhone's GSMA TAC (Type Allocation Code) is 86769804<br />
<br />
== Datasheets for components and peripherals ==<br />
<br />
* Allwinner A64 SoC information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64%20brief%20v1.0%2020150323.pdf Allwinner A64 SoC brief introduction]<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf Allwinner A64 SoC Data Sheet V1.1 (Official Released Version)]<br />
** [http://files.pine64.org/doc/datasheet/pine64/Allwinner_A64_User_Manual_V1.0.pdf Allwinner A64 SoC User Manual V1.0 (Official Release Version)]<br />
<br />
* X-Powers AXP803 PMU (Power Management Unit) information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/AXP803_Datasheet_V1.0.pdf AXP803 PMIC datasheet]<br />
<br />
* LPDDR3 (178 Balls) SDRAM:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf Artmem LPDDR3 datasheet]<br />
<br />
* eMMC information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf Kimtigo eMMC datasheet]<br />
<br />
* CMOS camera module information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-rear-2019-0717(HW)%20Model.pdf PinePhone 5M Pixel Real CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV5640 5MP CMOS Image Sensor SoC for Rear Module datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-front-2019-0717(HW)%20Model.pdf PinePhone 2M Pixel Front CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145 2MP CMOS Image Sensor SoC for Front Module datasheet]<br />
<br />
* LCD touch screen panel information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20LCD-QZ01.pdf 5.99" 1440x720 LCD IPS Panel specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703 LCD Controller datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GOODiX GT917S Capacitive Touch Controller datasheet]<br />
<br />
* Lithium battery information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf PinePhone Lithium Battery specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20ZCV%20Curve%20Chart.xlsx PinePhone Lithium Battery ZCV curve chart]<br />
<br />
* WiFi/BT module information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723BS/RTL8723CS specification]<br />
<br />
* LTE module information:<br />
** [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Standard_Specification_V1.2.pdf Quectel EG25-G LTE Module specification]<br />
** [[Media:Quectel EC25EC21 AT Commands Manual V1.2.pdf|EC25&EC21 AT Commands Manual]]<br />
<br />
* Sensors:<br />
** [https://www.st.com/en/mems-and-sensors/lis3mdl.html ST LIS3MDL 3-axis Magnetomater Datasheet]<br />
** [https://www.invensense.com/products/motion-tracking/6-axis/mpu-6050/ InvenSense MPU-6050 Six-Axis (Gyro + Accelerometer) MEMS datasheet]<br />
** [http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html SensorTek STK3335 Ambient Light Sensor and Proximity Sensor]<br />
<br />
* Digital video to USB-C bridge:<br />
** [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief.pdf ANX7688 product brief]<br />
<br />
* Case information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Exploded%20Diagram%20ver%201.0.pdf PinePhone case exploded diagram]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Back%20Cover.stp PinePhone back cover 3D file]<br />
<br />
== Developer works ==<br />
=== Megous ===<br />
<br />
* [https://xnux.eu/howtos/pine64-pinephone-getting-started.html Getting start with PinePhone Hardware]<br />
* [https://xnux.eu/devices/pine64-pinephone.html#toc-pine64-pinephone State of development progress]<br />
* [https://xnux.eu/news.html PinePhone Technical News and Update, also applies to other Allwinner devices including PINE A64 SBC]<br />
* [https://xnux.eu/contribute.html#toc-contributing-to-pinephone-kernel-development Contributions to the kernel development]<br />
<br />
== External links == <br />
* [https://store.pine64.org/?post_type=product Pine64 shop]<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=7949PinePhone component list2020-10-20T22:41:57Z<p>Amosbatto: /* P.4 LPDDR3 FPGA178 */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower, since the Allwinner A64 only supports up to 3GB DDR3-1333 (666.5MHz) and doesn't specify the top supported LPDDR3 speed.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass<br />
<br />
[[Category:PinePhone]] [[Category:Allwinner A64]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone&diff=7324PinePhone2020-09-26T06:27:10Z<p>Amosbatto: /* Battery */</p>
<hr />
<div>The PinePhone is a smartphone created by Pine64, capable of running mainline Linux and supported by many partner projects. The BraveHeart Edition was the first publicly-available version of the phone, though it came without a fully functional OS (factory test image) and was geared specifically towards tinkerers and hackers. Its successor is the Community Edition, the first Community Edition started to ship in June 2020. The phone will be available for at least five years.<br />
<br />
== First time installation ==<br />
<br />
[[File:PinePhone-3.jpg|400px|thumb|right|PinePhone is capable of running a multitude of different Linux mobile OSes]]<br />
<br />
[[File:PinePhoneSides.svg|400px|thumb|right|Backward and front of PinePhone UBPorts Edition]]<br />
<br />
From the factory the battery has a sticker on it that isolates the battery from the phone. The battery '''will not''' charge until this is removed.<br />
<br />
[[File:Pinephone_warning.png|none|left|400px]]<br />
<br />
After unboxing remove the back panel using the notch in the corner of the back panel. Then remove the battery and peel off the clear plastic sticker below it that isolates the charging contact. Then replace the battery. See [[PinePhone#Battery|Battery]] for more information.<br />
<br />
== Specifications ==<br />
<br />
'''Dimensions:''' 160.5 x 76.6 x 9.2mm <br><br />
'''Weight:''' Between 180-200 grams <br><br />
'''SIM Card:''' Micro-SIM <br><br />
'''Display:'''<br />
: '''Size:''' 5.95 inches (151mm) diagonal<br />
: '''Type:''' HD IPS capacitive touchscreen, 16M colors<br />
: '''Resolution:''' 1440x720, 18:9 ratio <br><br />
'''System on Chip:''' [https://linux-sunxi.org/A64 Allwinner A64] <br><br />
'''RAM:''' 2GB or 3GB LPDDR3 SDRAM<br><br />
'''Internal Storage:''' 16GB or 32GB eMMC, extendable up to 2TB via microSD, supports SDHC and SDXC <br><br />
'''Back Camera:''' Single 5MP, 1/4", LED Flash <br><br />
'''Selfie Camera:''' Single 2MP, f/2.8, 1/5" <br><br />
'''Sound:''' Loudspeaker, 3.5mm jack & mic (jack doubles as hardware UART if killswitch 6 is deactivated) <br><br />
'''Communication: G25-G'''<br />
: '''LTE:''' B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B38, B39, B40, B41<br />
: '''WCDMA:''' B1, B2, B4, B5, B6, B8, B19<br />
: '''GSM:''' 850, 900, 1800, 1900 (MHz)<br />
: '''WLAN:''' Wi-Fi 802.11 b/g/n, single-band, hotspot<br />
: '''Bluetooth:''' 4.0, A2DP<br />
: '''GNSS:''' GPS/GLONASS/BeiDou/Galileo/QZSS, with A-GPS<br />
'''Sensors:''' Accelerometer, gyro, proximity, ambient light, compass <br><br />
'''Killswitches:''' Modem, WiFi & Bluetooth, Microphone, Cameras <br><br />
'''Battery:''' Lithium-ion, rated capacity 2800mAh (10.64Wh), typical capacity 3000mAh (11.40Wh) (nominally replaceable with any Samsung J7 form-factor battery) <br><br />
'''I/O:''' USB Type-C, USB Host, DisplayPort Alternate Mode output, 15W 5V 3A Quick Charge, follows USB PD specification<br />
<br />
== Components ==<br />
{| class="wikitable"<br />
! Component<br />
! Model<br />
|-<br />
| Touchscreen<br />
| Goodix GT917S<br />
|-<br />
| Rear camera<br />
| OmniVision OV5640<br />
|-<br />
| Camera flash<br />
| SGMICRO SGM3140<br />
|-<br />
| Front camera<br />
| GalaxyCore GC2145<br />
|-<br />
| LCD<br />
| Xingbangda XBD599<br />
|-<br />
| WiFi<br />
| Realtek RTL8723CS<br />
|-<br />
| Bluetooth<br />
| Realtek RTL8723CS<br />
|-<br />
| Modem<br />
| Quectel EG25-G<br />
|-<br />
| GNSS/GPS<br />
| Quectel EG25-G<br />
|-<br />
| Magnetometer<br />
| ST LIS3MDL<br />
|-<br />
| Ambient light / Proximity<br />
| SensorTek STK3335<br />
|-<br />
| Sixaxis<br />
| InvenSense MPU-6050<br />
|-<br />
| Vibration motor<br />
| Yes, unknown model<br />
|-<br />
| Notification LED<br />
| LED0603RGB<br />
|-<br />
| Volume buttons<br />
| Buttons connected to the KEYADC<br />
|-<br />
| Power button<br />
| <br />
|-<br />
| Battery fuel gauge<br />
| X-Powers AXP803<br />
|}<br />
<br />
== Hardware revisions ==<br />
<br />
# [[Project Anakin]]<br />
# [[Project Don't be evil|"Project Don't Be Evil" devkit]]<br />
# [[PinePhone v1.0 - Dev|PinePhone v1.0 - Developer batch]]<br />
# [[PinePhone v1.1 - Braveheart]]<br />
# [[PinePhone v1.2]] - Community Edition<br />
<br />
While the 1.2a Pinephones (postmarketOS CE, Manjaro CE) do not have any changes to the PCB besides the CC fix (which fixes USB OTG functionality and HDMI out), they do include multiple improvements in the overall hardware. Besides of course the convergence edition with extra ram and storage, Pine64 has added a thermal pad to the SOC, improved antennas, thermal foil to the back cover alongside a improved back cover plastic, and have fixed the touchscreen deadspot which affected a small rectangular area under the speaker grill.<br />
<br />
== Hardware accessory ==<br />
<br />
=== PinePhone hardware accessory compatibility ===<br />
See [[PinePhone Hardware Accessory Compatibility]] for a list of devices working with the PinePhone (depending on their OS support).<br />
<br />
=== USB-C connector ===<br />
<br />
The USB-C can be used to power the device, and offers USB2 host and OTG possibilities, and also can make use of the USB-C capability to integrate HDMI signals. Some USB-C hubs are available that offer power throughput, USB connection, HDMI port and Ethernet connection. The driver that would make this connection available is not supported at this time.<br />
<br />
=== Pogo pins ===<br />
<br />
The PinePhone has 6 pogo pins on the back allowing for custom hardware extensions such as wireless charging, an IR blaster, a keyboard extension or extended battery case. The pogo pins provide access to an interrupt line, power input to charge the battery, power source and an I2C interface.<br />
<br />
[[File:Pinephone pogo.png|none|400px]]<br />
<br />
{| class="wikitable"<br />
| Interrupt<br />
| SDA<br />
| SCL<br />
|-<br />
| 5V / VBUS<br />
| VBAT<br />
| GND<br />
|}<br />
<br />
The VBUS pin is powered by USB and is 5V. The second power pin is VBAT, which connects to the battery voltage. The I2C and interrupt lines have pull-ups on the phone side. The I2C lines are pulled up to 3V3 by the phone.<br />
<br />
For a breakout board see [https://github.com/SMR404/PinephonePogoBreakout here]. For an example project see Martijn's blog post [https://blog.brixit.nl/making-a-backcover-extension-for-the-pinephone/ <i>Making a backcover extension for the PinePhone</i>].<br />
<br />
=== Back cover ===<br />
A step file for the back cover for creating custom cases is freely available [http://files.pine64.org/doc/PinePhone/PinePhone%20Back%20Cover%20ver%200.5.stp here].<br />
<br />
=== Serial console ===<br />
<br />
The PinePhone has a serial port in the headphone connector, it's activated by the 6th contact on the dipswitch. If the switch is set to "on", the headphone connector is in audio mode, if it is set to "off" it's in UART mode. The UART serial connection can also be used for communication with other devices from the PinePhone.<br />
<br />
The UART is 115200n8.<br />
<br />
The pinout for the serial connector is:<br />
<br />
* Tip: RX<br />
* Ring: TX<br />
* Sleeve: GND<br />
<br />
[[File:PinePhone_Serial_Cable.png|none|400px]]<br />
<br />
You can buy a serial debug cable from the [https://store.pine64.org/product/pinebook-serial-console/ Pine64 Store]. The store cable uses a 4 ring plug, as seen in the [http://files.pine64.org/doc/pinebook/guide/Pinebook_Earphone_Serial_Console_Developer_Guide.pdf here], but a 3 ring plug works just as well. The cable uses a CH340 chipset based serial to USB converter, but any 3.3v serial connection can be used. Because it is a "host"/DTE it means that you need a ''cross modem cable'' ([https://en.wikipedia.org/wiki/Null_modem Null Modem]) with TX on Tip to be connected to RX. A cable like e.g. [https://www.ftdichip.com/Products/Cables/USBTTLSerial.htm FTDI TTL-232R-3V3-AJ] which has TX on Tip and RX on Ring fits perfectly.<br />
<br />
== Killswitch configuration ==<br />
<br />
[[File:PinePhone switches.jpeg|400px|thumb|right|Photo of BraveHeart switches from OSAKANA TARO on Twitter]]<br />
<br />
The PinePhone features six switches that can be used to configure its hardware. They are numbered 1-6, with switch 1 located nearest to the modem. Their "on" position is toward the top of the phone.<br />
<br />
{| class="wikitable"<br />
|-<br />
! Number<br />
! Name<br />
! Explanation<br />
! Description<br />
|-<br />
| 1<br />
| Modem<br />
| Pulls Q1501 gate up (FET killing modem power)<br />
| "On" enables 2G/3G/4G communication and GNSS hardware, "off" disables it.<br />
|-<br />
| 2<br />
| WiFi / Bluetooth<br />
| Pulls up CHIP_EN<br />
| "On" enables WiFi and Bluetooth communication hardware, "off" disables it.<br />
|-<br />
| 3<br />
| Microphone<br />
| Breaks microphone bias voltage from the SoC<br />
| "On" enables audio input from on-board microphones (not 3.5mm jack), "off" disables it.<br />
|-<br />
| 4<br />
| Rear camera<br />
| Pulls up PWDN on OV5640 <br />
| "On" enables the rear camera, "off" disables it.<br />
|-<br />
| 5<br />
| Front camera<br />
| Pulls up PWDN on GC2145<br />
| "On" enables the front camera, "off" disables it.<br />
|-<br />
| 6<br />
| Headphone<br />
| Pulls up IN2 on analog switch BCT4717ETB<br />
| "On" enables audio input and output via the 3.5mm audio jack, "off" switches the jack to hardware UART mode.<br />
|}<br />
<br />
== Battery ==<br />
<br />
{{Hint|The EG25 modem and RTL8723CS WiFi/bluetooth do not work without battery power, even if you are supplying enough power to the PinePhone with USB-C.}}<br />
<br />
The [https://wiki.pine64.org/images/0/04/PinePhone_Battery_model_QZ01-396172-2750.pdf supplied battery] is [https://forum.pine64.org/showthread.php?tid=8120&pid=53307#pid53307 meant to be] compatible with Samsung part number EB-BJ700BBC / BBE / CBE from the 2015 J7 phone. <br />
* The extended life aftermarket BBU does fit, although it is a tight fit.<br />
* There is [https://forum.pine64.org/showthread.php?tid=8563&pid=55053#pid55053 a report] that the EB-BJ700CBE isn't quite the same size, causing the back not to fit properly.<br />
<br />
The battery terminals, in order from nearest the edge to nearest the middle, are:<br />
<br />
# +ve<br />
# thermistor<br />
# -ve<br />
# not connected<br />
<br />
The battery includes a protection circuit that isolates it in a number of fault conditions, including if it is discharged too far. The fully discharged battery [https://forum.pine64.org/showthread.php?tid=8563&pid=55377#pid55377 can be recharged] by connecting the phone to a charger. Once it has charged sufficiently you will be able to boot the phone.<br />
<br />
If your battery is hard to remove from the phone, try loosening the screws around it. Possibly cutting up a piece of plastic and sliding it under the battery as a pull tab can work too.<br />
<br />
{{Note|The phone ships with a plastic sticker between the battery and the phone. You need to open the back cover (gently), then remove the battery and finally remove the sticker and check that the pins aren't bent. This is to protect the device from turning on during shipping.}}<br />
<br />
If using an aftermarket battery on the CE edition phones, removing the lower tabs is not necessary as there is space supplied in the compartment.<br />
<br />
<gallery mode="packed", heights=300px><br />
Image:PinePhone battery1.png|Photo of Brave Heart case from OSAKANA TARO on Twitter<br />
Image:PinePhone battery3.jpeg|Photo of Brave Heart battery sticker from OSAKANA TARO on Twitter<br />
</gallery><br />
<br />
== Modem and carrier support ==<br />
To check if the PinePhone is supported on your carrier:<br />
<br />
Search for your carrier on [https://www.frequencycheck.com/ frequencycheck.com] and compare the carrier's LTE/GSM/WCDMA frequencies to the PinePhone's supported frequencies (listed under the [[#Specifications|specifications]] section).<br />
<br />
It is likely that there will be a few frequencies that your carrier uses which are not supported by the PinePhone. Not all of the carrier's frequencies need to be supported by the PinePhone for it to work - as long as ''most'' of them are supported, you will still get good coverage.<br />
<br />
=== Voice mail ===<br />
<br />
Some phone operating systems may not have support for accessing your voicemail by holding down the 1 key. If you are in Canada and using rogers or a rogers associated carrier (such as ''Chatr''), you can access your voice mail by calling an external number, see: https://www.howardforums.com/showthread.php/913346-Rogers-GSM-Voicemail-Retrieval-Numbers<br />
<br />
In America, AT&T also has support for accessing your voicemail via an external phone number: https://www.att.com/support/article/wireless/KM1009101/<br />
<br />
=== APN settings ===<br />
<br />
For tested APN settings and how to apply them see [[PinePhone APN Settings]].<br />
<br />
=== Carrier support ===<br />
The page [[PinePhone Carrier Support]] contains information about the frequency support of different carriers and hints on setting up cellular network connectivity.<br />
<br />
=== Documents ===<br />
<br />
There is a document about using the modem from January 18th 2020 by user ''megi'' [https://megous.com/dl/tmp/modem.txt here]. The script at the end to disable the modem before power off is pretty essential to avoid corrupting your modem's flash memory.<br />
<br />
=== Firmware modifications ===<br />
<br />
See [[PineModems]] for more information regarding bootloader unlocking, building a custom firmware and recovery<br />
<br />
== Operating Systems ==<br />
<br />
The PinePhone will automatically boot from microSD if a bootable card is inserted. Although it is technically possible to use any ARM distribution (because the PinePhone uses the mainline kernel), there are a few that are designed specifically for mobile use on devices like the PinePhone.<br />
<br />
The [[PinePhone Software Releases]] page has a complete list of currently supported phone-optimized Operating System images that work with the PinePhone as well as other related software information. As soon as more patches get mainlined and distributions ship with the updated kernel, they will also be able to run unmodified on the device.<br />
<br />
=== Installation instructions ===<br />
<br />
For instructions on how to install the operating systems to the eMMC or SD card see [[PinePhone Installation Instructions]].<br />
<br />
=== Flashing eMMC using Jumpdrive ===<br />
<br />
[[File:jumpdrive.jpg|400px|thumb|right|Jumpdrive running on the PinePhone]]<br />
The internal eMMC flash storage can be flashed using the Jumpdrive utility by Danct12 and Martijn from postmarketOS.<br />
This utility boots from micro SD and exposes the internal eMMC flash storage when the PinePhone is connected to a computer.<br />
The process of flashing an OS to the exposed and mounted eMMC is identical to that of any other storage medium - e.g. a SD card. You can use the 'DD' command or a utility such as Etcher or Gnome Disks, etc.<br />
<br />
Latest Jumpdrive can be found [https://github.com/dreemurrs-embedded/Jumpdrive/releases/ here].<br />
<br />
==== Detailed usage instructions ====<br />
<br />
# Download the Jumpdrive image<br />
# Flash the Jumpdrive image to a micro SD card<br />
# Boot the PinePhone from the Jumpdrive micro SD card<br />
# Connect the PinePhone to your computer using USB-A -> USB-C cable<br />
# Flash the exposed PinePhone drive (e.g. /dev/mm..., check for the right device in dmesg, GNOME disks, or similar, and make sure it's unmounted) with your chosen OS image<br />
# Once the flashing process is complete, disconnect the PinePhone from your PC, power it down and remove the Jumpdrive SD card<br />
# The process is now finished, and you can boot from eMMC<br />
<br />
Jumpdrive also acts as a rescue image in case if you messed up your installation. To do so, you can telnet to '''172.16.42.1''', mount rootfs and fix it!<br />
<br />
==== Resize file system ====<br />
<br />
If you flash a 4GB image distribution (such as phosh+debian) to your eMMC, your eMMC will only have a 3.7GB partition on it. To use the entire 14.7GB on the eMMC, run the following commands:<br />
<br />
# sudo cfdisk /dev/sdX<br />
# Change to [Resize] in the ncurses program, resize the 3.7GB partition to 14.7GB, and [Write]<br />
# sudo resize2fs /dev/sdXY<br />
<br />
Replace X with your drive's name. Replace Y with the partition you resized in cfdisk.<br />
<br />
==== Feedback ====<br />
<br />
If you've found an issue or want to improve the tool consider these sites:<br />
<br />
* Issues: https://github.com/dreemurrs-embedded/Jumpdrive/issues<br />
* Pull Requests: https://github.com/dreemurrs-embedded/Jumpdrive/pulls<br />
<br />
== Frequently asked questions ==<br />
<br />
For a list of frequently asked questions (including information regarding the shipping) see [[PinePhone FAQ]].<br />
<br />
== PinePhone board information, schematics and certifications ==<br />
* PinePhone mainboard schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2a]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2]<br />
** [[PinePhone_v1.2|PinePhone schematic ver 1.2 change list]]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20Schematic%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard Schematic ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20top%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component top placement drawing ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20bottom%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component bottom placement drawing ver 1.1]<br />
* PinePhone USB-C small board schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20schematic%20v1.0%2020190730.pdf PinePhone USB-C small board Schematic ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20top%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component top placement drawing ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20bottom%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component bottom placement drawing ver 1.0]<br />
* PinePhone certifications:<br />
** [http://files.pine64.org/doc/cert/PinePhone%20FCC%20SDOC%20Certificate-S19112602605001.pdf PinePhone FCC Certificate]<br />
** [https://fcc.report/FCC-ID/2AWAG-PINEPHONE RF Exposure SAR Information from FCC ID site]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20CE%20RED%20Certificate-S19112602602.pdf PinPhone CE RED Certificate]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20ROHS%20Report.pdf PinePhone ROHS Report]<br />
* [[PinePhone component list]]<br />
<br />
== Datasheets for components and peripherals ==<br />
<br />
* Allwinner A64 SoC information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64%20brief%20v1.0%2020150323.pdf Allwinner A64 SoC brief introduction]<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf Allwinner A64 SoC Data Sheet V1.1 (Official Released Version)]<br />
** [http://files.pine64.org/doc/datasheet/pine64/Allwinner_A64_User_Manual_V1.0.pdf Allwinner A64 SoC User Manual V1.0 (Official Release Version)]<br />
<br />
* X-Powers AXP803 PMU (Power Management Unit) information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/AXP803_Datasheet_V1.0.pdf AXP803 PMIC datasheet]<br />
<br />
* LPDDR3 (178 Balls) SDRAM:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf Artmem LPDDR3 datasheet]<br />
<br />
* eMMC information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf Kimtigo eMMC datasheet]<br />
<br />
* CMOS camera module information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-rear-2019-0717(HW)%20Model.pdf PinePhone 5M Pixel Real CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV5640 5MP CMOS Image Sensor SoC for Rear Module datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-front-2019-0717(HW)%20Model.pdf PinePhone 2M Pixel Front CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145 2MP CMOS Image Sensor SoC for Front Module datasheet]<br />
<br />
* LCD touch screen panel information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20LCD-QZ01.pdf 5.99" 1440x720 LCD IPS Panel specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703 LCD Controller datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GOODiX GT917S Capacitive Touch Controller datasheet]<br />
<br />
* Lithium battery information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf PinePhone Lithium Battery specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20ZCV%20Curve%20Chart.xlsx PinePhone Lithium Battery ZCV curve chart]<br />
<br />
* WiFi/BT module information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723BS/RTL8723CS specification]<br />
<br />
* LTE module information:<br />
** [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Standard_Specification_V1.2.pdf Quectel EG25-G LTE Module specification]<br />
** [[Media:Quectel EC25EC21 AT Commands Manual V1.2.pdf|EC25&EC21 AT Commands Manual]]<br />
<br />
* Sensors:<br />
** [https://www.st.com/en/mems-and-sensors/lis3mdl.html ST LIS3MDL 3-axis Magnetomater Datasheet]<br />
** [https://www.invensense.com/products/motion-tracking/6-axis/mpu-6050/ InvenSense MPU-6050 Six-Axis (Gyro + Accelerometer) MEMS datasheet]<br />
** [http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html SensorTek STK3335 Ambient Light Sensor and Proximity Sensor]<br />
<br />
* Digital video to USB-C bridge:<br />
** [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief.pdf ANX7688 product brief]<br />
<br />
* Case information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Exploded%20Diagram%20ver%201.0.pdf PinePhone case exploded diagram]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Back%20Cover.stp PinePhone back cover 3D file]<br />
<br />
== Developer works ==<br />
=== Megous ===<br />
<br />
* [https://xnux.eu/howtos/pine64-pinephone-getting-started.html Getting start with PinePhone Hardware]<br />
* [https://xnux.eu/devices/pine64-pinephone.html#toc-pine64-pinephone State of development progress]<br />
* [https://xnux.eu/news.html PinePhone Technical News and Update, also applies to other Allwinner devices including PINE A64 SBC]<br />
<br />
== External links == <br />
* [https://store.pine64.org/?post_type=product Pine64 shop]<br />
<br />
<br />
[[Category:PinePhone]]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6593PinePhone component list2020-08-14T12:03:55Z<p>Amosbatto: </p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</font></div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br><font color=dimgrey>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.</font><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br><font color=dimgrey>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.</font><br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br><font color=dimgrey>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]</font><br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br><font color=dimgrey>'''''Note:''''' This part is marked as optional in the schematic and may not be included.</font><br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br><font color=dimgrey>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins.</font> [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br><font color=dimgrey>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU].</font><br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br><font color=dimgrey>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.</font><br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].</font><br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br><font color=dimgrey>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].</font><br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px"><font color=dimgrey>'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</font></div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br><font color=dimgrey>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.</font><br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br><font color=dimgrey>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.</font><br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br><font color=dimgrey>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.</font><br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br><font color=dimgrey>'''''Note:''''' Presumably this is a vibration motor.</font><br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br><font color=dimgrey>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.</font><br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br><font color=dimgrey>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.</font><br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br><font color=dimgrey>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.</font><br />
&nbsp;<br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br><font color=dimgrey>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.</font><br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6592PinePhone component list2020-08-14T11:53:36Z<p>Amosbatto: /* Other components not in the schematics */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px">'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px">'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br>'''''Note:''''' The [[PinePhone#Components|PinePhone page]] lists the SGM3140, but the schematics contain the U1000: awinic AW3641EDNR, so it is unclear why the SGM3140 is needed.<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6591PinePhone component list2020-08-14T09:50:39Z<p>Amosbatto: /* P.4 LPDDR3 FPGA178 */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
<div style="margin-left:20px">'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).</div><br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px">'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6590PinePhone component list2020-08-14T09:48:57Z<p>Amosbatto: /* P.11 LCM/CTP */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
<div style="margin-left:20px">'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.</div><br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6589PinePhone component list2020-08-14T09:47:52Z<p>Amosbatto: /* P.11 LCM/CTP */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
&nbsp;&nbsp;&nbsp;'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6588PinePhone component list2020-08-14T09:46:58Z<p>Amosbatto: /* P.11 LCM/CTP */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br />
<br />
'''''Note:''''' "LCM/CTP" means "liquid crystal display monitor/capacitive touch panel". An LCM generally includes an LCD screen + LED backlight + PCB with the LCD controller + frame.<br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6587PinePhone component list2020-08-14T09:34:38Z<p>Amosbatto: /* P.13 DIGITAL VIDEO */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br>'''''Note:''''' This part is probably produced by Shenzhen Yaqi Technology Co., which is part of OCN in Taiwan, and uses the Archie brand name.<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6586PinePhone component list2020-08-14T09:26:56Z<p>Amosbatto: /* P.8 AUDIO */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead in a [https://www.electronics-notes.com/articles/electronic_components/surface-mount-technology-smd-smt/packages.php 0402] package ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6585PinePhone component list2020-08-14T09:20:17Z<p>Amosbatto: /* P.15 MODEM-4G */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4 mm<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6584PinePhone component list2020-08-14T09:13:09Z<p>Amosbatto: /* P.11 LCM/CTP */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI-DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6583PinePhone component list2020-08-14T09:10:27Z<p>Amosbatto: /* P.4 LPDDR3 FPGA178 */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''''Note:''''' The title of this schematic page should be changed from "LPDDR3 FPGA178" to "LPDDR3 FBGA178", because the RAM chip is a 178-pin fine pitch ball grid array (FBGA), not a field-programmable gate array (FPGA).<br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6582PinePhone component list2020-08-14T08:46:49Z<p>Amosbatto: /* P.8 AUDIO */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br />
* FB800, FB801:<br>600ohm at 100MHz ferrite bead ([https://uk.farnell.com/c/passive-components/emc-rfi-suppression/ferrites-ferrite-assortments/ferrite-beads?impedance-100mhz=600ohm examples])<br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6581PinePhone component list2020-08-14T08:29:33Z<p>Amosbatto: /* Abreviations used in schematic */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : Only used in the "DU1", which is an integrated circuit for memory<br />
* '''ED''' : Zener diode to protect against electrostatic discharge<br />
* '''FB''' : [https://en.wikipedia.org/wiki/Ferrite_bead ferrite bead]<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6580PinePhone component list2020-08-14T07:28:13Z<p>Amosbatto: /* P.11 LCM/CTP */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : "U" is for an integrated circuit, but not sure what the "D" means. (e.g. DU1)<br />
* '''ED''' : "D" is for a diode, but not sure what "E" means. (e.g. ED600)<br />
* '''FB''' : ? (e.g. FB804, FB805)<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br>'''''Note:''''' The label says that the connector has 6-pins, but the schematic shows 8-pins.<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6565PinePhone component list2020-08-13T14:54:18Z<p>Amosbatto: /* Abreviations used in schematic */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : "U" is for an integrated circuit, but not sure what the "D" means. (e.g. DU1)<br />
* '''ED''' : "D" is for a diode, but not sure what "E" means. (e.g. ED600)<br />
* '''FB''' : ? (e.g. FB804, FB805)<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6564PinePhone component list2020-08-13T14:50:54Z<p>Amosbatto: /* Abreviations used in schematic */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations] are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php capacitor]<br />
* '''D''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php diode]<br />
* '''DU''' : "U" is for an integrated circuit, but not sure what the "D" means. <br />
* '''FB''' : ? (e.g. FB804, FB805)<br />
* '''J''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php wire link] (i.e. a connector)<br />
* '''R''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php resistor]<br />
* '''L''' : [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php inductor]<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6563PinePhone component list2020-08-13T14:48:35Z<p>Amosbatto: /* P.4 LPDDR3 FPGA178 */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===Abreviations used in schematic===<br />
<br />
The following [https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/electronics-circuit-symbols-overview.php abbreviations) are used as the starting letter(s) to identify the components in the PinePhone schematics:<br />
<br />
* '''ANT''': antenna<br />
* '''C''' : [capacitor](https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/capacitors-polar-nonpolar-variable.php)<br />
* '''D''' : [diode](https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/diode-semiconductor.php)<br />
* '''DU''' : "U" is for an integrated circuit, but not sure what the "D" means. <br />
* '''FB''' : ? (e.g. FB804, FB805)<br />
* '''J''' : [wire link](https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/wires-switches-connectors.php) (i.e. a connector)<br />
* '''R''' : [r](https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php)[esistor](https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/resistors-fixed-variable.php)<br />
* '''L''' : [inductor](https://www.electronics-notes.com/articles/analogue_circuits/circuits-symbols-diagrams/inductors-chokes-coils-transformers.php)<br />
* '''NC/''' : not connected (i.e. the part probably isn't placed on the board, but there are circuits in the PCB for it) <br />
* '''Q''' : transistor<br />
* '''SW''' : switch<br />
* '''TP''' : test point<br />
* '''U''' : integrated circuit (i.e. a silicon chip)<br />
* '''X''' : crystal oscillator (used for clocks)<br />
<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6562PinePhone component list2020-08-13T14:26:44Z<p>Amosbatto: /* P.6 POWER */</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* U600:<br>X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:<br>IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:<br>LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* D600:<br>On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6553PinePhone component list2020-08-13T06:05:58Z<p>Amosbatto: </p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
===P.4 LPDDR3 FPGA178===<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
===P.5 CPU===<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
===P.6 POWER===<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
===P.7 NAND/eMMC===<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
===P.8 AUDIO===<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
===P.9 T-CADD/USB===<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
===P.10 CAMERA===<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
===P.11 LCM/CTP===<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
===P.12 SENSORS/MT/KEY===<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
===P.13 DIGITAL VIDEO===<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
===P.14 WIFI+BT===<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
===P.15 MODEM-4G===<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
===Other components not in the schematics===<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6552PinePhone component list2020-08-13T06:01:58Z<p>Amosbatto: </p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
'''P.4 LPDDR3 FPGA178'''<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB 800MHz LPDDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''P.5 CPU'''<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
'''P.6 POWER'''<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
'''P.7 NAND/eMMC'''<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
'''P.8 AUDIO'''<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
'''P.9 T-CADD/USB'''<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
'''P.10 CAMERA'''<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
'''P.11 LCM/CTP'''<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
'''P.12 SENSORS/MT/KEY'''<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
'''P.13 DIGITAL VIDEO'''<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
'''P.14 WIFI+BT'''<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
'''P.15 MODEM-4G'''<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
'''Other components not mentioned in the schematics:'''<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_component_list&diff=6551PinePhone component list2020-08-13T05:48:13Z<p>Amosbatto: Created page with "The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a. '''P...."</p>
<hr />
<div>The following list of components are found in the [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf schematic] for the PinePhone 1.2a.<br />
<br />
'''P.4 LPDDR3 FPGA178'''<br />
<br />
* DU1:<br>Artmem [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf ATL3A1632H12A] 2GB DDR3-1600 SDRAM, FBGA-178 11.0x11.5x0.93 mm<br>'''''Note:''''' RAM will be clocked slower at 667MHz, because the Allwinner A64 only supports up to 3GB LPDDR3-1333.<br><br />
<br />
'''P.5 CPU'''<br />
<br />
* U1:<br>Allwinner [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf A64] 1.2Ghz 4x Cortex-A53, 64-bit, superscalar, 32KB instruction & 32KB data L1 cache per core, 512KB L2 shared cache, ARM Mali-400 MP2 (Utgard) GPU, HDMI 1.4 (up to 4K@30), USB 2.0 with OTG, MIPI CSI, 4 channels in/out, 24-bit, 8-48 KHz audio, video encode: H.264 1080p@60, video decode: H.265 4K@30, H.265 1080p@120, H.264, MPEG1/2/4 / VP8 / AVS / AVS+ 1080p@60, FBGA-396 15x15 mm<br>'''''Note:''''' Clocked at 1.152Ghz on the PinePhone.<br />
* X501:<br>Axtal [https://pdf1.alldatasheet.com/datasheet-pdf/view/228815/AXTAL/AXX3225/+Q2J83JVYUyCLcEbcvvzE+/datasheet.pdf AXX3225] 24MHz ±10ppm quartz crystal oscillator in SMD package, 3.2x2.5 mm<br />
* D500:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* X500:<br>Seiko Instruments Inc. (SII) [https://www.sii.co.jp/en/quartz/files/2013/03/SC-32S_Leaflet_e20151217.pdf SC32S] 32.768KHz crystal oscillator<br>'''''Note:''''' Not clear if using the [https://www.mouser.com/ProductDetail/Seiko-Instruments-Micro-Energy/SC32S-125PF20PPM?qs=3CPZD7qAgihedyqH7awUjg%3D%3D SC32S-12.5PF20PPM] or the [https://www.mouser.com/ProductDetail/Seiko-Semiconductors/SC32S-7PF20PPM?qs=3CPZD7qAgigZSR1ASVAS6w%3D%3D SC32S-7PF20PPM]<br><br />
<br />
'''P.6 POWER'''<br />
<br />
* ED600:<br>Will Semiconductor (WILLSEMI) [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br>'''''Note:''''' This part is marked as optional in the schematic and may not be included.<br />
* X-Powers [https://raw.githubusercontent.com/OLIMEX/OLINUXINO/master/DOCUMENTS/A64-PDFs/AXP803_Datasheet_V1.0.pdf AXP803] power management integrated circuit (PMIC) optimized for multi-core systems, li-ion battery fuel gauge, USB charger (up to 2.8A), QFN 68-pin, 8x8 mm<br />
* Q600:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br />
* J600:<br>BA5924211-R battery connector<br>'''''Note:''''' [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html Picture] shows this part as having 8 pins, but the schematic shows 6 pins. [http://biz.everychina.com/ddream-r/z2eb2904-lateralpressure_ba5924211_r.html One page] says that it is made by LateralPressure, but [https://www.worldwayelec.com/pro/rohm-semiconductor/ba5924211-r/3528348 another] says it is made by ROHM.<br />
* L606:IND_252010 2.2uH-2A inductor<br>'''''Note:''''' Maybe this is the TDK [https://product.tdk.com/info/en/catalog/datasheets/inductor_commercial_power_vls252010hbu_en.pdf VLS252010HBU]<br />
* U601:LowPowerSemi [https://datasheet.lcsc.com/szlcsc/2004281203_LOWPOWER-LP6226CB6F_C517054.pdf LP6226CB6F] high efficiency boost DC/DC converter with 33V, 1.5A power MOSFET, SOT23-6 package<br />
* On semiconductor [https://www.onsemi.com/pub/Collateral/SS24-D.PDF SS24] Schottky power rectifier, [https://www.nexperia.com/packages/SOD123.html SOD123] package<br><br />
<br />
'''P.7 NAND/eMMC'''<br />
<br />
* U700:<br>Kimtigo [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf KM110SS0016GxA-DDD00WT] 16GB eMMC 5.1 TLC NAND Flash memory, FBGA-153 11.5×13.0×1.0 mm.<br>'''''Note 1:''''' The schematic says the package is BGA-169, but the Kimtigo documentation says it is FBGA-153.<br>'''''Note 2:''''' The A64 only supports up to eMMC 5.0.<br><br />
<br />
'''P.8 AUDIO'''<br />
<br />
* ED800, ED801, ED802, ED803, ED804, ED805, ED806:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U801:<br>Broadchip [http://www.broadchip.com/upLoad/product/month_2003/202003191750413832.pdf BCT4717ETB-TR] 4.0Ω, 300MHz bandwidth, dual bi-directional SPDT (single-pole/double-throw) analog switch<br />
* J800:<br>EAROUTN-A64 receiver<br />
* J801:<br>JA-3606-001AA 3.5mm audio jack<br />
* Q801:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U800:<br>Shanghai awinic technology [https://www.awinic.com/Cn/Index/pageView/catid/107/id/45.html AW8737SCSR] high efficiency (80%), low noise (53μV), ultra-low distortion (0.008%), constant large volume, 7th generation class K audio amplifier, 1.6×1.68 mm CSP-14 package, 0.4mm pitch [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147555/AWINIC/AW8737SCSR/+014J7J8XvUpOKG+Gc..whdxee+/datasheet.pdf [datasheet]]<br><br />
<br />
'''P.9 T-CADD/USB'''<br />
<br />
* Q901, Q902, Q903:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* ED900, ED901, ED902:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* J901:<br>SA-2202-112 25-pin microSD and TF slot<br><br />
<br />
'''P.10 CAMERA'''<br />
<br />
* J1000:<br>T03-1025-FG01 27-pin connector to the rear camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the OmniVision [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV6540].<br />
* J1001:<br>T03-1025-FG01 27-pin connector to the front camera.<br>'''''Note:''''' The schematic says “GC2035-200W”, which is a mistake because the rear camera is the GalaxyCore [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145], not the GalaxyCore [https://g2g9w6w7.stackpathcdn.com/pdf-down/G/C/2/GC2035-GalaxyCore.pdf GC2035].<br />
* U1000:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147538/AWINIC/AW3641EDNR/+014J75AXvUpOKG+GczEDzOOae+/datasheet.pdf AW3641EDNR] flash LED driver with programmable timer and PWM dimming torch mode, 1A, 8 current levels.<br><br />
<br />
'''P.11 LCM/CTP'''<br />
<br />
* J1100:<br>FPC24-PT05B, OK-24F-04 28-pin connector to the MIPI DSI LCD<br />
* LED2:<br>RGB LED<br />
* J1101:<br>CON6-0.5, TP_6PIN-ZQ01 8-pin connector to the capacitive touch panel controller<br />
* ED1100, ED1101, ED1102, ED1103:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1100:<br>Chipown [http://www.datasheet39.com/download.php?id=924200 AP3127B025] step-up DC/DC converter series, white LED backlight driver, 6-pin SOT-23-6L package.<br><br />
<br />
'''P.12 SENSORS/MT/KEY'''<br />
<br />
* J1200:<br>8-pin connector to test points<br />
* ED1200, ED1201:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1136979/WILLSEMI/ESD5451X/+01_7-9BXuHlLuHRMflaL..hDk+/datasheet.pdf ESD5451X] 1-line, bi-directional, transient voltage suppressor, EDS protection up to ±30kV and 8A.<br />
* U1200:<br>STmicroelectronics [https://www.st.com/en/mems-and-sensors/lis3mdl.html LIS3MDL] ultra-low-power three-axis magnetometer, LGA-12 2.0x2.0x1.0 mm [https://www.st.com/resource/en/datasheet/lis3mdl.pdf [datasheet]]<br />
* U1201:<br>SensorTek [https://web.archive.org/web/20190601120915/http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html STK3311-A] proximity and ambient light sensor (large gap) with built-in infrared LED, DFN-8 3.94x2.36x1.35 mm [https://cdn.datasheetspdf.com/pdf-down/S/T/K/STK3310-Sensortek.pdf [datasheet]]<br />
* U1202:<br>TDK InvenSense [https://invensense.tdk.com/products/motion-tracking/6-axis/mpu-6050/ MPU6050] six-axis, low-power MEMS gyroscope and accelerometer, QFN-24 4x4x0.9 mm [https://invensense.tdk.com/wp-content/uploads/2015/02/MPU-6000-Datasheet1.pdf [datasheet]]<br />
* U1203:<br>Asahi Kasei Microdevices (AKM) [https://static6.arrow.com/aropdfconversion/19f6bc6e0891877d596c7b1da69df3d2ea4388a5/31ak09911.pdf AK09911] 3-axis electronic compass IC with Hall sensor, 8-pin WL-CSP (BGA), 1.2×1.2×0.5 mm<br>'''''or'''''<br>Voltafield Technology Corp. (VTC) [http://www.winforcetek.com/pdf/PD-DST-0011-00%20AF8133J%20V03.pdf AF8133J] 3-axis electronic compass with proprietary anisotropic magneto resistive (AMR) technology, 8-pin WLCSP 1.2x1.2x0.5 mm<br>'''''Note:''''' Both parts are listed, so have to check PCB to see which was used. It is not clear why this part is needed when the device already has the LIS3MDL.<br />
* U1204:<br>Bosch Sensortek [https://datasheet.lcsc.com/szlcsc/1912111437_Bosch-Sensortec-BMI120_C437657.pdf BMI120] 3-axis gyroscope and accelerometer, LGA-14 2.5x3.0x0.83 mm<br>'''''Note:''''' Listed as “NC/BMI120”, where “NC” probably means “not connected”, so there may be circuits in the PCB for the part, but it is not placed on the board. This is probably an alternative to the MPU6050.<br />
* Q1200:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* D1200:<br>Torex [https://www.torexsemi.com/file/xbs104s14r/XBS104S14R.pdf XBS104S14] Schottky barrier diode, 1A, 40V, SOD-123A package<br />
* J1201:<br>2-pin connector to a motor, 1x1.8 mm<br>'''''Note:''''' Presumably this is a vibration motor.<br><br />
<br />
'''P.13 DIGITAL VIDEO'''<br />
<br />
* J1300:<br>OK-50F-04 40-pin connector<br />
* U1304:<br>Analogix [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief_0.pdf ANX7688] HDMI to USB-C bridge with MUX, converts HDMI 2.0 to DisplayPort Alternate Mode, USB-C Power Delivery (PD), BGA-64.<br>'''''Note 1:''''' The schematic lists this part as “ANX7688S”, but it is unclear what the “S” at the end stands for.<br>'''''Note 2:''''' xnux.eu provides [https://xnux.eu/devices/feature/anx7688.html more info] on the ANX7688, including flashing the firmware.<br />
* U1300:<br>America Techcode Semiconductor [http://techcodesemi.com/datasheet/TD6817.pdf TD6817] 1.5MHz 2A synchronous step-down regulator dropout, SOT23-5 package<br>'''''or'''''<br>Diodes Incorporated [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf AP3406K-ADJTRG1] buck switching regulator IC positive adjustable 0.6V 650mA [https://media.digikey.com/pdf/Data%20Sheets/Diodes%20PDFs/AP3406.pdf [datasheet]]<br />
* U1302:<br>LowPowerSemi [https://cdn.datasheetspdf.com/pdf-down/L/P/W/LPW5206-LowPowerSemi.pdf LPW5206H] USB power loading switch, N-channel MOSFET, SOT23-5 package<br />
* U1303:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1300, Q1301, Q1302, Q1304, Q1305:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* U1305, U1309:<br>Will Semiconductor [https://pdf1.alldatasheet.com/datasheet-pdf/view/1140651/WILLSEMI/WS4621C/+014QJJ4XuHlLuHRMfdaDGDwO+/datasheet.pdf WS4621C-1X1] 2A, 38 mΩ, 290nA quiescent current and 70nA standby current load switch, CSP-4L 1x1 mm.<br />
* U1308:<br>Shanghai awinic technology [https://pdf1.alldatasheet.com/datasheet-pdf/view/1147535/AWINIC/AW3632/+014J758XvUpOKG+GczEww+/datasheet.pdf AW3632] high efficiency, low profile, fixed 5V output pump power supply, QFN-8 package<br />
* X1300:<br>Mercury United Electronics [https://rf.cdiweb.com/products/detail/x322500018p3020207060r-mercury-united-electronics-inc/71942/ X3225] 27.000 MHz crystal oscillator<br><br />
<br />
'''P.14 WIFI+BT'''<br />
<br />
* U1400:<br>Realtek [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723CS] 802.11 b/g/n, single-band (2.4 GHz), Bluetooth 4.0, with SDIO for WiFi and UART for Bluetooth, LGA-40 12x12x1.6 mm.<br />
* X1400:<br>24Mhz ±10ppm crystal oscillator <br />
* D1400:<br>SXSEMI [http://sxsemi.com/upfile/AU0511P1.pdf AU0511P1] low capacitance ESD protection diode, SOD-882<br />
* ANT1400<br>Antenna<br><br />
<br />
'''P.15 MODEM-4G'''<br />
<br />
* U1500:<br>Quectel [https://www.quectel.com/UploadFile/Product/Quectel_EG25-G_LTE_Specification_V1.1.pdf EG25-G] GSM/UMTS/LTE cellular modem and GNSS (GPS/Galileo/GLONASS/BeiDou/QZSS, with A-GPS), LGA-144 9.0x32.0x2.4<br />
* U1502, 1503, 1504:<br>Texas Instruments [https://www.ti.com/lit/ds/symlink/txb0104.pdf TXB0104YZT] 4-bit bidirectional voltage-level translator with automatic direction sensing and ±15-kV ESD protection, 12-pin DSBGA 1.40×1.90 mm<br />
* Q1501, Q1503, Q1504, Q1505:<br>Toshiba [https://toshiba.semicon-storage.com/info/docget.jsp?did=10004&prodName=SSM3K35MFV SSM3K35MFV] field-effect transistor, silicon N-channel MOS type<br />
* J1500, J1502:<br>MRF004-P01A 4-pin connector<br />
* Q1500:<br>Will Semiconductor [http://monitor.espec.ws/files/wpm1481_186.pdf WPM1481] single P-channel, -12V, -5.5A, power MOSFET<br>'''''Note:''''' The documentation shows 6 pins, but the schematic shows 8 pins.<br><br />
<br />
'''Other components not mentioned in the schematics:'''<br />
<br />
* SGMICRO [http://www.sg-micro.com/uploads/soft/20190829/1567071622.pdf SGM3140] 500mA buck/boost charge pump LED driver for camera flash and torch, TDFN-10 3x3x0.75 mm<br />
* Goodix [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GT917S] touch controller<br />
* Sitronix [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703] MIPI LCD driver<br />
* Xingbangda [https://lkml.org/lkml/2020/6/16/1654 XBD599] 5.99″ IPS LCD, 720x1440 pixels, 16.7M colors, hardened glass</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone&diff=6548PinePhone2020-08-13T04:48:29Z<p>Amosbatto: /* PinePhone board information, schematics and certifications */</p>
<hr />
<div>The PinePhone is a smartphone created by Pine64, capable of running mainline Linux and supported by many partner projects. The BraveHeart Edition was the first publicly-available version of the phone, though it came without a fully functional OS (factory test image) and was geared specifically towards tinkerers and hackers. Its successor is the Community Edition, the first Community Edition started to ship in June 2020. The phone will be available for at least five years.<br />
<br />
== First time installation ==<br />
<br />
[[File:PinePhone-3.jpg|400px|thumb|right|PinePhone is capable of running a multitude of different Linux mobile OSes]]<br />
<br />
[[File:PinePhoneSides.svg|400px|thumb|right|Backward and front of PinePhone UBPorts Edition]]<br />
<br />
From the factory the battery has a sticker on it that isolates the battery from the phone. The battery '''will not''' charge until this is removed.<br />
<br />
After unboxing remove the back panel using the notch in the corner of the back panel. Then remove the battery and peel off the clear plastic sticker below it that isolates the charging contact. Then replace the battery. See [[PinePhone#Battery|Battery]] for more information.<br />
<br />
== Specifications ==<br />
<br />
'''Dimensions:''' 160.5 x 76.6 x 9.2mm <br><br />
'''Weight:''' Between 180-200 grams <br><br />
'''SIM Card:''' Micro-SIM <br><br />
'''Display:'''<br />
: '''Size:''' 5.95 inches (151mm) diagonal<br />
: '''Type:''' HD IPS capacitive touchscreen, 16M colors<br />
: '''Resolution:''' 1440x720, 18:9 ratio <br><br />
'''System on Chip:''' [https://linux-sunxi.org/A64 Allwinner A64] <br><br />
'''RAM:''' 2GB LPDDR3 SDRAM <br><br />
'''Internal Storage:''' 16GB eMMC, extendable up to 2TB via microSD, supports SDHC and SDXC <br><br />
'''Back Camera:''' Single 5MP, 1/4", LED Flash <br><br />
'''Selfie Camera:''' Single 2MP, f/2.8, 1/5" <br><br />
'''Sound:''' Loudspeaker, 3.5mm jack & mic (jack doubles as hardware UART if killswitch 6 is deactivated) <br><br />
'''Communication: G25-G'''<br />
: '''LTE:''' B1, B2, B3, B4, B5, B7, B8, B12, B13, B18, B19, B20, B25, B26, B28, B38, B39, B40, B41<br />
: '''WCDMA:''' B1, B2, B4, B5, B6, B8, B19<br />
: '''GSM:''' 850, 900, 1800, 1900 (MHz)<br />
: '''WLAN:''' Wi-Fi 802.11 b/g/n, single-band, hotspot<br />
: '''Bluetooth:''' 4.0, A2DP<br />
: '''GNSS:''' GPS/GLONASS/BeiDou/Galileo/QZSS, with A-GPS<br />
'''Sensors:''' Accelerometer, gyro, proximity, ambient light, compass <br><br />
'''Killswitches:''' Modem, WiFi & Bluetooth, Microphone, Cameras <br><br />
'''Battery:''' Lithium-ion, rated capacity 2800mAh (10.64Wh), typical capacity 3000mAh (11.40Wh) (nominally replaceable with any Samsung J7 form-factor battery) <br><br />
'''I/O:''' USB Type-C, USB Host, DisplayPort Alternate Mode output, 15W 5V 3A Quick Charge, follows USB PD specification<br />
<br />
== Components ==<br />
{| class="wikitable"<br />
! Component<br />
! Model<br />
|-<br />
| Touchscreen<br />
| Goodix GT917S<br />
|-<br />
| Rear camera<br />
| OmniVision OV5640<br />
|-<br />
| Camera flash<br />
| SGMICRO SGM3140<br />
|-<br />
| Front camera<br />
| GalaxyCore GC2145<br />
|-<br />
| LCD<br />
| Xingbangda XBD599<br />
|-<br />
| WiFi<br />
| Realtek RTL8723CS<br />
|-<br />
| Bluetooth<br />
| Realtek RTL8723CS<br />
|-<br />
| Modem<br />
| Quectel EC25-E<br />
|-<br />
| GNSS/GPS<br />
| Quectel EC25-G<br />
|-<br />
| Magnetometer<br />
| ST LIS3MDL<br />
|-<br />
| Ambient light / Proximity<br />
| SensorTek STK3335<br />
|-<br />
| Sixaxis<br />
| InvenSense MPU-6050<br />
|-<br />
| Vibration motor<br />
| Yes, unknown model<br />
|-<br />
| Notification LED<br />
| LED0603RGB<br />
|-<br />
| Volume buttons<br />
| Buttons connected to the KEYADC<br />
|-<br />
| Power button<br />
| <br />
|-<br />
| Battery fuel gauge<br />
| X-Powers AXP803<br />
|}<br />
<br />
== Hardware revisions ==<br />
<br />
# [[Project Anakin]]<br />
# [[Project Don't be evil|"Project Don't Be Evil" devkit]]<br />
# [[PinePhone v1.0 - Dev|PinePhone v1.0 - Developer batch]]<br />
# [[PinePhone v1.1 - Braveheart]]<br />
# [[PinePhone v1.2]] - Community Edition<br />
<br />
== Hardware accessory ==<br />
<br />
=== PinePhone hardware accessory compatibility ===<br />
See [[PinePhone Hardware Accessory Compatibility]] for a list of devices working with the PinePhone (depending on their OS support)<br />
<br />
=== USB-C connector ===<br />
<br />
The USB-C can be used to power the device, and offers USB2 host and OTG possibilities, and also can make use of the USB-C capability to integrate HDMI signals. Some USB-C hubs are available that offer power throughput, USB connection, HDMI port and Ethernet connection. The driver that would make this connection available is not supported at this time.<br />
<br />
=== Pogo pins ===<br />
<br />
The PinePhone has 6 pogo pins on the back allowing for custom hardware extensions such as wireless charging, an IR blaster, a keyboard extension or extended battery case. The pogo pins provide access to an interrupt line, power input to charge the battery, power source and an I2C interface.<br />
<br />
{| class="wikitable"<br />
| Interrupt<br />
| SDA<br />
| SCL<br />
|-<br />
| 3V3<br />
| USB-5V<br />
| GND<br />
|}<br />
<br />
The USB-5V line is for charging the phone and the 3V3 power source for powering peripherals to the phone. The I2C and interrupt lines have pull-ups on the phone side.<br />
<br />
=== Back cover ===<br />
A step file for the back cover for creating custom cases is freely available [http://files.pine64.org/doc/PinePhone/PinePhone%20Back%20Cover%20ver%200.5.stp here].<br />
<br />
=== Serial console ===<br />
<br />
The PinePhone has a serial port in the headphone connector, it's activated by the 6th contact on the dipswitch. If the switch is set to "on", the headphone connector is in audio mode, if it is set to "off" it's in UART mode. The UART serial connection can also be used for communication with other devices from the PinePhone.<br />
<br />
The UART is 115200n8.<br />
<br />
The pinout for the serial connector is:<br />
<br />
* Tip: RX<br />
* Ring: TX<br />
* Sleeve: GND<br />
<br />
[[File:PinePhone_Serial_Cable.png|none|400px]]<br />
<br />
You can buy a serial debug cable from the [https://store.pine64.org/product/pinebook-serial-console/ Pine64 Store]. The store cable uses a 4 ring plug, as seen in the [http://files.pine64.org/doc/pinebook/guide/Pinebook_Earphone_Serial_Console_Developer_Guide.pdf here], but a 3 ring plug works just as well. The cable uses a CH340 chipset based serial to USB converter, but any 3.3v serial connection can be used. Because it is a "host"/DTE it means that you need a ''cross modem cable'' ([https://en.wikipedia.org/wiki/Null_modem Null Modem]) with TX on Tip to be connected to RX. A cable like e.g. [https://www.ftdichip.com/Products/Cables/USBTTLSerial.htm FTDI TTL-232R-3V3-AJ] which has TX on Tip and RX on Ring fits perfectly.<br />
<br />
== Killswitch configuration ==<br />
<br />
[[File:PinePhone switches.jpeg|400px|thumb|right|Photo of BraveHeart switches from OSAKANA TARO on Twitter]]<br />
<br />
The PinePhone features six switches that can be used to configure its hardware. They are numbered 1-6, with switch 1 located nearest to the modem. Their "on" position is toward the top of the phone.<br />
<br />
{| class="wikitable"<br />
|-<br />
! Number<br />
! Name<br />
! Explanation<br />
! Description<br />
|-<br />
| 1<br />
| Modem<br />
| Pulls Q1501 gate up (FET killing modem power)<br />
| "On" enables 2G/3G/4G communication and GNSS hardware, "off" disables it.<br />
|-<br />
| 2<br />
| WiFi / Bluetooth<br />
| Pulls up CHIP_EN<br />
| "On" enables WiFi and Bluetooth communication hardware, "off" disables it.<br />
|-<br />
| 3<br />
| Microphone<br />
| Breaks microphone bias voltage from the SoC<br />
| "On" enables audio input from on-board microphones (not 3.5mm jack), "off" disables it.<br />
|-<br />
| 4<br />
| Rear camera<br />
| Pulls up PWDN on OV5640 <br />
| "On" enables the rear camera, "off" disables it.<br />
|-<br />
| 5<br />
| Front camera<br />
| Pulls up PWDN on GC2145<br />
| "On" enables the front camera, "off" disables it.<br />
|-<br />
| 6<br />
| Headphone<br />
| Pulls up IN2 on analog switch BCT4717ETB<br />
| "On" enables audio input and output via the 3.5mm audio jack, "off" switches the jack to hardware UART mode.<br />
|}<br />
<br />
== Battery ==<br />
<br />
{{Hint|The EG25 modem and RTL8723CS WiFi/bluetooth do not work without battery power, even if you are supplying enough power to the PinePhone with USB-C.}}<br />
<br />
The [https://wiki.pine64.org/images/0/04/PinePhone_Battery_model_QZ01-396172-2750.pdf supplied battery] is [https://forum.pine64.org/showthread.php?tid=8120&pid=53307#pid53307 meant to be] compatible with Samsung part number EB-BJ700BBC / BBE / CBE from the 2015 J7 phone. <br />
The extended life aftermarket BBU do fit, however, somewhat firmly.<br />
There is [https://forum.pine64.org/showthread.php?tid=8563&pid=55053#pid55053 a report] that the EB-BJ700CBE isn't quite the same size, causing the back not to fit properly.<br />
<br />
The battery terminals, in order from nearest the edge to nearest the middle, are:<br />
<br />
# +ve<br />
# thermistor<br />
# -ve<br />
# not connected<br />
<br />
The battery includes a protection circuit that isolates it in a number of fault conditions, including if it is discharged too far. The fully discharged battery [https://forum.pine64.org/showthread.php?tid=8563&pid=55377#pid55377 can be recharged] by connecting the phone to a charger. Once it has charged sufficiently you will be able to boot the phone.<br />
<br />
If your battery is hard to remove from the phone, try loosening the screws around it. Possibly cutting up a piece of plastic and sliding it under the battery as a pull tab can work too.<br />
<br />
{{Note|The phone ships with a plastic sticker between the battery and the phone. You need to open the back cover (gently), then remove the battery and finally remove the sticker and check that the pins aren't bent. This is to protect the device from turning on during shipping.}}<br />
<br />
If using an aftermarket battery on the CE edition phones, removing the lower tabs is not necessary as there is space supplied in the compartment.<br />
<br />
<gallery mode="packed", heights=300px><br />
Image:PinePhone battery1.png|Photo of Brave Heart case from OSAKANA TARO on Twitter<br />
Image:PinePhone battery3.jpeg|Photo of Brave Heart battery sticker from OSAKANA TARO on Twitter<br />
</gallery><br />
<br />
== Modem and carrier support ==<br />
To check if the PinePhone is supported on your carrier:<br />
<br />
Search for your carrier on [https://www.frequencycheck.com/ frequencycheck.com] and compare the carrier's LTE/GSM/WCDMA frequencies to the PinePhone's supported frequencies (listed under the [[#Specifications|specifications]] section).<br />
<br />
It is likely that there will be a few frequencies that your carrier uses which are not supported by the PinePhone. Not all of the carrier's frequencies need to be supported by the PinePhone for it to work - as long as ''most'' of them are supported, you will still get good coverage.<br />
<br />
=== Voice mail ===<br />
<br />
Some phone operating systems may not have support for accessing your voicemail by holding down the 1 key. If you are in Canada and using rogers or a rogers associated carrier (such as ''Chatr''), you can access your voice mail by calling an external number, see: https://www.howardforums.com/showthread.php/913346-Rogers-GSM-Voicemail-Retrieval-Numbers<br />
<br />
In America, AT&T also has support for accessing your voicemail via an external phone number: https://www.att.com/support/article/wireless/KM1009101/<br />
<br />
=== APN settings ===<br />
<br />
For tested APN settings and how to apply them see [[PinePhone APN Settings]].<br />
<br />
=== Carrier support ===<br />
The page [[PinePhone Carrier Support]] contains information about the frequency support of different carriers and hints on setting up cellular network connectivity.<br />
<br />
=== Documents ===<br />
<br />
There is a document about using the modem from January 18th 2020 by user ''megi'' [https://megous.com/dl/tmp/modem.txt here]. The script at the end to disable the modem before power off is pretty essential to avoid corrupting your modem's flash memory.<br />
<br />
== Operating Systems ==<br />
<br />
The PinePhone will automatically boot from microSD if a bootable card is inserted. Although it is technically possible to use any ARM distribution (because the PinePhone uses the mainline kernel), there are a few that are designed specifically for mobile use on devices like the PinePhone.<br />
<br />
The [[PinePhone Software Releases]] page has a complete list of currently supported phone-optimized Operating System images that work with the PinePhone as well as other related software information. As soon as more patches get mainlined and distributions ship with the updated kernel, they will also be able to run unmodified on the device.<br />
<br />
=== Installation instructions ===<br />
<br />
For instructions on how to install the operating systems to the eMMC or SD card see [[PinePhone Installation Instructions]].<br />
<br />
=== Flashing eMMC using Jumpdrive ===<br />
<br />
[[File:jumpdrive.jpg|400px|thumb|right|Jumpdrive running on the PinePhone]]<br />
The internal eMMC flash storage can be flashed using the Jumpdrive utility by Danct12 and Martijn from postmarketOS.<br />
This utility boots from micro SD and exposes the internal eMMC flash storage when the PinePhone is connected to a computer.<br />
The process of flashing an OS to the exposed and mounted eMMC is identical to that of any other storage medium - e.g. a SD card. You can use the 'DD' command or a utility such as Etcher or Gnome Disks, etc.<br />
<br />
Latest Jumpdrive can be found [https://github.com/dreemurrs-embedded/Jumpdrive/releases/ here].<br />
<br />
==== Detailed usage instructions ====<br />
<br />
# Download the Jumpdrive image<br />
# Flash the Jumpdrive image to a micro SD card<br />
# Boot the PinePhone from the Jumpdrive micro SD card<br />
# Connect the PinePhone to your computer using USB-A -> USB-C cable<br />
# Flash the exposed PinePhone drive (e.g. /dev/mm..., check for the right device in dmesg, GNOME disks, or similar, and make sure it's unmounted) with your chosen OS image<br />
# Once the flashing process is complete, disconnect the PinePhone from your PC, power it down and remove the Jumpdrive SD card<br />
# The process is now finished, and you can boot from eMMC<br />
<br />
Jumpdrive also acts as a rescue image in case if you messed up your installation. To do so, you can telnet to '''172.16.42.1''', mount rootfs and fix it!<br />
<br />
==== Resize file system ====<br />
<br />
If you flash a 4GB image distribution (such as phosh+debian) to your eMMC, your eMMC will only have a 3.7GB partition on it. To use the entire 14.7GB on the eMMC, run the following commands:<br />
<br />
# sudo cfdisk /dev/sdX<br />
# Change to [Resize] in the ncurses program, resize the 3.7GB partition to 14.7GB, and [Write]<br />
# sudo resize2fs /dev/sdXY<br />
<br />
Replace X with your drive's name. Replace Y with the partition you resized in cfdisk.<br />
<br />
==== Feedback ====<br />
<br />
If you've found an issue or want to improve the tool consider these sites:<br />
<br />
* Issues: https://github.com/dreemurrs-embedded/Jumpdrive/issues<br />
* Pull Requests: https://github.com/dreemurrs-embedded/Jumpdrive/pulls<br />
<br />
== Frequently asked questions ==<br />
<br />
For a list of frequently asked questions (including information regarding the shipping) see [[PinePhone FAQ]].<br />
<br />
== PinePhone board information, schematics and certifications ==<br />
* PinePhone mainboard schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2a]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf PinePhone mainboard Released Schematic ver 1.2]<br />
** [[PinePhone_v1.2|PinePhone schematic ver 1.2 change list]]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20Schematic%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard Schematic ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20top%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component top placement drawing ver 1.1]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20mainboard%20bottom%20placement%20v1.1%2020191031.pdf "Braveheart" PinePhone mainboard component bottom placement drawing ver 1.1]<br />
* PinePhone USB-C small board schematic:<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20schematic%20v1.0%2020190730.pdf PinePhone USB-C small board Schematic ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20top%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component top placement drawing ver 1.0]<br />
** [http://files.pine64.org/doc/PinePhone/PinePhone%20USB-C%20small%20board%20bottom%20placement%20v1.0%2020190730.pdf PinePhone USB-C small board component bottom placement drawing ver 1.0]<br />
* PinePhone certifications:<br />
** [http://files.pine64.org/doc/cert/PinePhone%20FCC%20SDOC%20Certificate-S19112602605001.pdf PinePhone FCC Certificate]<br />
** [https://fcc.report/FCC-ID/2AWAG-PINEPHONE RF Exposure SAR Information from FCC ID site]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20CE%20RED%20Certificate-S19112602602.pdf PinPhone CE RED Certificate]<br />
** [http://files.pine64.org/doc/cert/PinePhone%20ROHS%20Report.pdf PinePhone ROHS Report]<br />
* [[PinePhone component list]]<br />
<br />
== Datasheets for components and peripherals ==<br />
<br />
* Allwinner A64 SoC information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64%20brief%20v1.0%2020150323.pdf Allwinner A64 SoC brief introduction]<br />
** [http://files.pine64.org/doc/datasheet/pine64/A64_Datasheet_V1.1.pdf Allwinner A64 SoC Data Sheet V1.1 (Official Released Version)]<br />
** [http://files.pine64.org/doc/datasheet/pine64/Allwinner_A64_User_Manual_V1.0.pdf Allwinner A64 SoC User Manual V1.0 (Official Release Version)]<br />
<br />
* X-Powers AXP803 PMU (Power Management Unit) information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/AXP803_Datasheet_V1.0.pdf AXP803 PMIC datasheet]<br />
<br />
* LPDDR3 (178 Balls) SDRAM:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ATL3A1632H12A_mobile_lpddr3_11x11.5_v1.0_1600.pdf Artmem LPDDR3 datasheet]<br />
<br />
* eMMC information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/Kimtigo_fbga153_16_32_64_eMMC_datasheet_v1.3.pdf Kimtigo eMMC datasheet]<br />
<br />
* CMOS camera module information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-rear-2019-0717(HW)%20Model.pdf PinePhone 5M Pixel Real CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/OV5640_datasheet.pdf OV5640 5MP CMOS Image Sensor SoC for Rear Module datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/QZ01-front-2019-0717(HW)%20Model.pdf PinePhone 2M Pixel Front CMOS Image Sensor Module]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GC2145%20CSP%20DataSheet%20release%20V1.0_20131201.pdf GC2145 2MP CMOS Image Sensor SoC for Front Module datasheet]<br />
<br />
* LCD touch screen panel information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20LCD-QZ01.pdf 5.99" 1440x720 LCD IPS Panel specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/ST7703_DS_v01_20160128.pdf ST7703 LCD Controller datasheet]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/GT917S-Datasheet.pdf GOODiX GT917S Capacitive Touch Controller datasheet]<br />
<br />
* Lithium battery information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20Specification.pdf PinePhone Lithium Battery specification]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20QZ01%20Battery%20ZCV%20Curve%20Chart.xlsx PinePhone Lithium Battery ZCV curve chart]<br />
<br />
* WiFi/BT module information:<br />
** [http://files.pine64.org/doc/datasheet/pine64/RTL8723BS.pdf RTL8723BS/RTL8723CS specification]<br />
<br />
* LTE module information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/Quectel_EG25-G_LTE_Specification_V1.0.pdf Quectel EG25-G LTE Module specification]<br />
** [[Media:Quectel EC25EC21 AT Commands Manual V1.2.pdf|EC25&EC21 AT Commands Manual]]<br />
<br />
* Sensors:<br />
** [https://www.st.com/en/mems-and-sensors/lis3mdl.html ST LIS3MDL 3-axis Magnetomater Datasheet]<br />
** [https://www.invensense.com/products/motion-tracking/6-axis/mpu-6050/ InvenSense MPU-6050 Six-Axis (Gyro + Accelerometer) MEMS datasheet]<br />
** [http://www.sensortek.com.tw/en/product/Proximity_Sensor_with_ALS.html SensorTek STK3335 Ambient Light Sensor and Proximity Sensor]<br />
<br />
* Digital video to USB-C bridge:<br />
** [https://www.analogix.com/en/system/files/AA-002281-PB-6-ANX7688_Product_Brief.pdf ANX7688 product brief]<br />
<br />
* Case information:<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Exploded%20Diagram%20ver%201.0.pdf PinePhone case exploded diagram]<br />
** [http://files.pine64.org/doc/datasheet/pinephone/PinePhone%20Back%20Cover.stp PinePhone back cover 3D file]<br />
<br />
== Developer works ==<br />
=== Megous ===<br />
<br />
* [https://xnux.eu/howtos/pine64-pinephone-getting-started.html Getting start with PinePhone Hardware]<br />
* [https://xnux.eu/devices/pine64-pinephone.html#toc-pine64-pinephone State of development progress]<br />
* [https://xnux.eu/news.html PinePhone Technical News and Update, also applies to other Allwinner devices including PINE A64 SBC]<br />
<br />
== External links == <br />
* [https://store.pine64.org/?post_type=product Pine64 shop]</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_v1.2&diff=6545PinePhone v1.22020-08-12T11:57:23Z<p>Amosbatto: /* Schematics */</p>
<hr />
<div>The PinePhone v1.2 is a hardware revision of the PinePhone that shipped in 2020.<br />
<br />
This page contains information and resources which are specific to the v1.2 revision of the PinePhone. For other revisions or for resources related to all PinePhone revisions, see [[PinePhone]].<br />
<br />
== Schematics ==<br />
<br />
* [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf Hardware schematic v1.2] (2020-03-10, for Community Edition: UBports)<br />
* [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf Hardware schematic v1.2a] (2020-06-08, for Community Edition: postmarketOS)<br />
<br />
== Changes from v1.1 ==<br />
<br />
The v1.2 mainboard revision changes the routing of several GPIOs to fix bugs and to improve power management. Therefore, it needs an updated device tree. The state of PL6 at boot can be used to distinguish between v1.1 (it can be pulled high) and v1.2 (it will remain low).<br />
<br />
# The WiFi module's <tt>CHIP_EN</tt> input (connected to the kill switch) is now pulled down, so the WiFi will turn off reliably when the switch is off.<br />
# PL2 is now connected to the WiFi module's reset pin, allowing the WiFi to be turned off or reset in software.<br />
# The magnetometer's <tt>DRDY</tt> pin is now connected to PB1, allowing interrupt-driven periodic sensor readings.<br />
# <tt>LINEOUTP</tt> is again connected to the speaker amplifier's INP input (like in v1.0), increasing the SNR of the rear speaker.<br />
# PH7 is now connected to the modem's <tt>AP_READY</tt> input (instead of <tt>WAKEUP_IN</tt>), allowing the modem to buffer URCs (interrupts) while the phone is asleep.<br />
# The modem's <tt>RI</tt> output and <tt>DTR</tt> input had their GPIOs swapped between PL6 and PB2, so the <tt>RI</tt> signal can be detected without powering the main pin controller.<br />
# Both PL9 and <tt>VBUS_CTRL</tt> (from the ANX7688) are now connected to <tt>N_VBUSEN</tt> on the PMIC. This causes the PMIC to automatically stop drawing power from the USB port when supplying power to a USB-OTG peripheral. It also allows the ANX7688 to automatically control the direction of current flowing through the USB port.<br />
# As part of the previous change, the ANX7688's reset input was moved to PD6; this pin previously controlled the USB OTG power.<br />
# Some of the regulators supplying the ANX7688 were rearranged, to reduce power consumption when the USB port is not connected and not being used to transmit video.<br />
# As part of the previous change, PD11 now controls the ANX7688's 1v0 digital power domain.<br />
# The modem's <tt>STATUS</tt> output is now connected to PH9, allowing the modem on/off state to be visible in software (note: this only works while the modem is powered). Since it is no longer connected to PB3, reading <tt>STATUS</tt> no longer turns the modem on.<br />
# The modem no longer has access to the I2C bus containing the sensors.<br />
# <tt>HBIAS</tt> is now connected to the headphone jack.<br />
<br />
== Quirks ==<br />
<br />
=== Backlight ===<br />
<br />
Backlight LED current regulation depends on gpio0-ldo voltage stability due to feedback voltage from current sensing resistor being modified via SoC's PWM pin and pullup resistor to gpio0-ldo. gpio0-ldo also powers the CTP controller and light/proximity sensor, among other things. When backlight brightness is very low and the CTP controller actively communicates on the I2C bus the backlight blinks heavily. It's not a very good idea to tie boost converter's current regulating feedback circuit to the potential source of noise, especially since the noise will have much larger effect when the backlight LED current is low. It's possible this can be mitigated if C1110 can be raised to 22-47uF range, or by changing the resistor values in the feedback circuit.<br />
<br />
PWM duty cycle for the lowest brightness of the backlight is also not very predictable, varying from 7-20% (tested with a small sample size of 2 devices). Therefore it's not possible to come up with a single device tree brightness settings that will work for everyone, requiring per-device calibration.<br />
<br />
On PinePhone 1.0, this was not the case, PWM signal was directly fed to the CE pin of the regulator, and lowest brightness setting seems more stable. On the other hand, the lowest achievable brightness was brighter than on 1.1+.<br />
<br />
=== USB ===<br />
<br />
[[PinePhone_v1.1_-_Braveheart#USB-C_CC_pins_are_pulled_to_the_GND_by_AW3512_.28VCONN_switches.29_when_VCONN_is_off|USB-C CC pin issues from BraveHeart]] are still present in the original 1.2 revision boards, since they were discovered after production of 1.2. Revision 1.2a fixes these.</div>Amosbattohttps://wiki.pine64.org/index.php?title=PinePhone_v1.2&diff=6544PinePhone v1.22020-08-12T11:55:10Z<p>Amosbatto: Added schematics for v1.2a</p>
<hr />
<div>The PinePhone v1.2 is a hardware revision of the PinePhone that shipped in 2020.<br />
<br />
This page contains information and resources which are specific to the v1.2 revision of the PinePhone. For other revisions or for resources related to all PinePhone revisions, see [[PinePhone]].<br />
<br />
== Schematics ==<br />
<br />
* [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2%20Released%20Schematic.pdf Hardware schematic v1.2] (2020-03-10, for CE: UBports)<br />
* [http://files.pine64.org/doc/PinePhone/PinePhone%20v1.2a%20Released%20Schematic.pdf Hardware schematic v1.2a] (2020-06-08, for CE: postmarketOS) <br />
<br />
== Changes from v1.1 ==<br />
<br />
The v1.2 mainboard revision changes the routing of several GPIOs to fix bugs and to improve power management. Therefore, it needs an updated device tree. The state of PL6 at boot can be used to distinguish between v1.1 (it can be pulled high) and v1.2 (it will remain low).<br />
<br />
# The WiFi module's <tt>CHIP_EN</tt> input (connected to the kill switch) is now pulled down, so the WiFi will turn off reliably when the switch is off.<br />
# PL2 is now connected to the WiFi module's reset pin, allowing the WiFi to be turned off or reset in software.<br />
# The magnetometer's <tt>DRDY</tt> pin is now connected to PB1, allowing interrupt-driven periodic sensor readings.<br />
# <tt>LINEOUTP</tt> is again connected to the speaker amplifier's INP input (like in v1.0), increasing the SNR of the rear speaker.<br />
# PH7 is now connected to the modem's <tt>AP_READY</tt> input (instead of <tt>WAKEUP_IN</tt>), allowing the modem to buffer URCs (interrupts) while the phone is asleep.<br />
# The modem's <tt>RI</tt> output and <tt>DTR</tt> input had their GPIOs swapped between PL6 and PB2, so the <tt>RI</tt> signal can be detected without powering the main pin controller.<br />
# Both PL9 and <tt>VBUS_CTRL</tt> (from the ANX7688) are now connected to <tt>N_VBUSEN</tt> on the PMIC. This causes the PMIC to automatically stop drawing power from the USB port when supplying power to a USB-OTG peripheral. It also allows the ANX7688 to automatically control the direction of current flowing through the USB port.<br />
# As part of the previous change, the ANX7688's reset input was moved to PD6; this pin previously controlled the USB OTG power.<br />
# Some of the regulators supplying the ANX7688 were rearranged, to reduce power consumption when the USB port is not connected and not being used to transmit video.<br />
# As part of the previous change, PD11 now controls the ANX7688's 1v0 digital power domain.<br />
# The modem's <tt>STATUS</tt> output is now connected to PH9, allowing the modem on/off state to be visible in software (note: this only works while the modem is powered). Since it is no longer connected to PB3, reading <tt>STATUS</tt> no longer turns the modem on.<br />
# The modem no longer has access to the I2C bus containing the sensors.<br />
# <tt>HBIAS</tt> is now connected to the headphone jack.<br />
<br />
== Quirks ==<br />
<br />
=== Backlight ===<br />
<br />
Backlight LED current regulation depends on gpio0-ldo voltage stability due to feedback voltage from current sensing resistor being modified via SoC's PWM pin and pullup resistor to gpio0-ldo. gpio0-ldo also powers the CTP controller and light/proximity sensor, among other things. When backlight brightness is very low and the CTP controller actively communicates on the I2C bus the backlight blinks heavily. It's not a very good idea to tie boost converter's current regulating feedback circuit to the potential source of noise, especially since the noise will have much larger effect when the backlight LED current is low. It's possible this can be mitigated if C1110 can be raised to 22-47uF range, or by changing the resistor values in the feedback circuit.<br />
<br />
PWM duty cycle for the lowest brightness of the backlight is also not very predictable, varying from 7-20% (tested with a small sample size of 2 devices). Therefore it's not possible to come up with a single device tree brightness settings that will work for everyone, requiring per-device calibration.<br />
<br />
On PinePhone 1.0, this was not the case, PWM signal was directly fed to the CE pin of the regulator, and lowest brightness setting seems more stable. On the other hand, the lowest achievable brightness was brighter than on 1.1+.<br />
<br />
=== USB ===<br />
<br />
[[PinePhone_v1.1_-_Braveheart#USB-C_CC_pins_are_pulled_to_the_GND_by_AW3512_.28VCONN_switches.29_when_VCONN_is_off|USB-C CC pin issues from BraveHeart]] are still present in the original 1.2 revision boards, since they were discovered after production of 1.2. Revision 1.2a fixes these.</div>Amosbatto