Difference between revisions of "PinePhone v1.1 - Braveheart"
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This section lists problems known on the 1.1 revision hardware, possibly because they carried over from the 1.0 revision. | This section lists problems known on the 1.1 revision hardware, possibly because they carried over from the 1.0 revision. | ||
=== | === Excess power consumption using USB OTG === | ||
The | The <tt>N_VBUSEN/DRIVEVBUS</tt> input on the AXP803 PMIC, labeled <tt>USB-DRVVBUS</tt> on the schematic, is not connected to the USB OTG boost regulator enable input, because R1300 is marked "NC". This prevents the AXP803 from automatically detecting when the USB port is being powered from the battery. Thus, the PMIC continues to draw power from the USB port, and this doubles the drain on the battery (since the whole phone is being powered by the USB OTG boost regulator). | ||
This would be fixed by populating R1300. | This would be fixed by populating R1300. | ||
There is a possible (but less reliable) software workaround. | There is a possible (but less reliable) software workaround, by setting a control bit to temporarily disable drawing power from the USB bus. | ||
=== Modem Ring Indicator placement is not ideal === | === Modem Ring Indicator placement is not ideal === |
Revision as of 19:45, 12 January 2020
The PinePhone v1.1 "Braveheart" is a hardware revision of the PinePhone due to ship in January 2020.
This page contains resources which are exclusive to the 1.1 revision of the PinePhone. For other revisions, or for resources related to all PinePhone revisions, see PinePhone.
Schematic
Changes from 1.0
Braveheart is slightly different from the 1.0 revision of the Pinephone. These differences should not require creating different images.
- Added CPU shielding and cover plate
- Swap PC3 to FLASH_EN and PD24 to FLASH_TRIGOUT, where previously they were reversed
- Add pulldown resistor on PD24 (FLASH_TRIGOUT) so the flash LED does not light on boot
- Connect WiFi enable to VD33
- Set the EG25G's PWRKEY on by default (see resistor R1526)
- Add R630 resistor location, populate with 0K by default. Allows adjusting to different battery thermistors in case this is not possible in software.
- Add voltage shift to Pogo pins I2C-CLK, I2C-DATA, and INT. The Pogo Pin specified voltage is 3.3v while the A64's I2C is 2.8V.
Known issues
This section lists problems known on the 1.1 revision hardware, possibly because they carried over from the 1.0 revision.
Excess power consumption using USB OTG
The N_VBUSEN/DRIVEVBUS input on the AXP803 PMIC, labeled USB-DRVVBUS on the schematic, is not connected to the USB OTG boost regulator enable input, because R1300 is marked "NC". This prevents the AXP803 from automatically detecting when the USB port is being powered from the battery. Thus, the PMIC continues to draw power from the USB port, and this doubles the drain on the battery (since the whole phone is being powered by the USB OTG boost regulator).
This would be fixed by populating R1300.
There is a possible (but less reliable) software workaround, by setting a control bit to temporarily disable drawing power from the USB bus.
Modem Ring Indicator placement is not ideal
The EG25G's Ring Indicator pin is currently routed to GPIO pin PB2.
Ring Indicator is a configurable signaling pin capable of notifying the modem's host of incoming messages or calls. This makes it important to read the status of the pin during (ARISC / Super Standby) sleep, since incoming calls or text messages must wake the device.
Using the PB bank of GPIO on the A64 requires VCC-IO to be switched on. The only bank that does not have this requirement is the PL bank, at least as far as we can tell. Using information from the (related) A83T's manual:
"In the super standby mode,GPIO B/C/D/E/F/G/H of VDD_SYS domain can hold a particular output state through GPIO pad hold function,but VCC power of GPIO can not be closed at this time"
Ideally, Ring Indicator would be routed to somewhere on the PL bank because it stays active even when VCC-IO is switched off. In the current form, VCC-IO must stay on in Super Standby to allow the use of the Ring Indicator. The power usage difference between VCC-IO off and on is currently unknown, however, since crust is not able to disable peripherals or clock trees.
Re-routing Ring Indicator would require a new Device Tree for the system, so different images may need to be created.
Modem AP_READY signal is not connected
The modem's power management documentation describes how to implement modem power saving. The modem can wake up the host using either the Ring Indicator pin (section 4.5) or USB remote wakeup (section 4.3). Either way, it suggests the AP_READY signal needs to be connected. The modem needs that signal to know when the host is asleep (and the modem needs to queue its messages and wake it up), and when the host has finished waking up (and is ready to receive the queued messages).
Ideally, when the modem is communicating over USB, it can use the USB host suspend state to know when the host is active, and would not need the separate AP_READY signal. It is not known whether this is the case.
Modem UART flow control is broken
BB-TX and BB-RX are connected to UART3 (PD0/PD1). BB-RTS and BB-CTS are connected to UART4 (PD4/PD5). To use hardware flow control, TX/RX would need to be connected to UART4, swapping PD0/PD1 with the motor control and rear camera reset GPIOs at PD2/PD3. This would need a device tree change.
Hardware flow control can be disabled with the AT+IFC command, and USB can also be used for commands instead of the UART. So the impact of this problem is unclear.
Modem has access to sensors on I2C1
The modem is a master on the I2C1 bus. A malicious firmware on the modem would be able to read the phone's gravity/light/proximity sensors and prevent the main Linux OS from reading them. The modem's audio design note describes the AT+QIIC command which can be used to read and write registers on I2C devices.
According to the modem documentation, its I2C interface is only used for direct connection to a standalone audio codec. On the PinePhone, since the modem's audio is routed through the A64 SoC, the modem's I2C interface has no legitimate use.
The modem's I2C interface should be left floating. U1503 pins A1, A2, B1, and B2 can be disconnected, and R1527/R1528 can be removed.