- 1 Does PineTime run Linux?
- 2 Why are there two versions of the PineTime in the store?
- 3 Why can I only buy the closed version in a 3-pack, and the open version per one?
- 4 How long does it take to ship my PineTime?
- 5 How do I install new software on PineTime?
- 6 My PineTime arrived, now what?
- 7 What's the OS that's preinstalled on the PineTime by default?
- 8 Can we use this OS or its source code?
- 9 Why is the back exposed? Is it supposed to snap on?
- 10 What hardware should I use to flash code to the PineTime?
- 11 How do I connect the PineTime to a programmer?
- 12 How do I set the time on PineTime?
- 13 Is there a standard agreed method of pushing OTA updates so that one could seal the PineTime dev kit nicely?
- 14 My PineTime's screen shows garbage, how do I fix it?
- 15 I have experience developing on Arduino. How does the PineTime compare?
- 16 Can I code firmware for PineTime without an actual PineTime?
- 17 What do I need for building PineTime firmware locally on my computer?
- 18 Can I use Pinebook Pro for developing PineTime?
- 19 What is ARM Semihosting?
- 20 What is OpenOCD?
- 21 How do I remove flash protection?
- 22 Why can't you use ST-Link to remove nRF52 Flash Protection?
- 23 Since we need a low level SWD adapter like Raspberry Pi anyway, can we do everything on a Pi instead of ST-Link + Windows?
- 24 Is there a 3D model of PineTime available somewhere?
- 25 Are there any alternatives to the wrist band provided with the PineTime?
- 26 I'm stuck. How can I get help?
Does PineTime run Linux?
Why are there two versions of the PineTime in the store?
See the below question and answer
Why can I only buy the closed version in a 3-pack, and the open version per one?
TL:DR: The open PineTime is to develop on, The closed one only for production use, because of firmware uploads. That is why they are sold per 3.
In the current situation in development there are some reasons to want to be sure you only experiment with an open device. If you install the wrong firmware, your device could be bricked, until you find a way to open it, which will likely damage the device. The idea is that if you want to develop an application for the PineTime, you will be testing it out first, and only after you know for sure your new firmware is well tested, you will install it on deployment devices. If you are in the deploy stage, having more than one PineTime is likely the point. So to prevent people from locking themselves out at the first test, it was decided to sell the closed version only as a pack of 3. Development can be done on an open device, so any issues can be easily handled.
How long does it take to ship my PineTime?
That depends on whether you chose for Standard or Express shipping. Standard shipping for the dev kit may take up to a few weeks.
How do I install new software on PineTime?
The nRF Connect mobile app (Android and iOS) may also be used to update the firmware on your PineTime. See "Download and Test Our PineTime Firmware"
If you have a Sealed PineTime, flash only Certified PineTime Firmware to your PineTime. If you flash non-Certified PineTime Firmware, your Sealed PineTime may be bricked permanently.
The only Certified PineTime Firmware available today is InfiniTime 0.8.2. Download the file "dfu-0.8.2.zip" under "Assets" and flash to PineTime with nRF Connect. Refer to the instructions here: "Download and Test Our PineTime Firmware"
Remember to validate the firmware after flashing: Swipe up to show the menu, tap the Ticks icon, tap "Validate"
My PineTime arrived, now what?
You should start by testing out all the features of the watch, to make sure everything works. Power it on and check the display.
PineTime is shipped with InfiniTime firmware. Press the watch button to show the clock, then swipe up on the touchscreen to reveal the menu.
On your Android phone, install the nRF Connect mobile app to sync the date and time with PineTime. See "Set PineTime Date and Time with nRF Connect" (nRF Connect on iOS can't be used for setting the date and time, because it doesn't implement the GATT Time Service)
Download the latest Certified PineTime Firmware (see the previous question) and flash to PineTime with nRF Connect. Refer to the instructions here: "Download and Test Our PineTime Firmware"
Remember to validate the firmware after flashing: Swipe up to show the menu, tap the Ticks icon, tap "Validate"
What's the OS that's preinstalled on the PineTime by default?
PineTime ships with the open source InfiniTime firmware.
To support firmware update and rollback, PineTime includes the open source MCUBoot Bootloader.
Can we use this OS or its source code?
Why is the back exposed? Is it supposed to snap on?
The back cover of the PineTime dev kit is exposed so that you can flash and debug the device with the SWD pins. The main unit and cover does not snap (lock) together. If you want to attach the back cover anyway, you can use glue or tape.
What hardware should I use to flash code to the PineTime?
There are several ways you can do this, check out Reprogramming the PineTime
How do I connect the PineTime to a programmer?
Here's how: PineTime devkit wiring
How do I set the time on PineTime?
You can use either nRF Connect, custom GadgetBridge build or the proprietary Da Fit app. See "Set PineTime Date and Time with nRF Connect"
You can also set the time using your PinePhone or other Linux-based Bluetooth LE capable device with the Bluez software installed. Install the bluez package and make sure your PineTime is running and awake with InfiniTime 0.7.1 or later.
$ bluetoothctl [ bluetooth ]# scan on ... [NEW] Device D7:03:FB:6E:31:B2 Pinetime-JF ... [bluetooth]# pair D7:03:FB:6E:31:B2 Attempting to pair with D7:03:FB:6E:31:B2 ... [NEW] Characteristic (Handle 0xfd80) /org/bluez/hci0/dev_D7_03_FB_6E_31_B2/service0015/char0016 00002a2b-0000-1000-8000-00805f9b34fb Current Time ... [Pinetime-JF]# menu gatt ... [Pinetime-JF]# select-attribute /org/bluez/hci0/dev_D7_03_FB_6E_31_B2/service0015/char0016 [Pinetime-JF:/service0015/char0016]# read Attempting to read /org/bluez/hci0/dev_D7_03_FB_6E_31_B2/service0015/char0016 [CHG] Attribute /org/bluez/hci0/dev_D7_03_FB_6E_31_B2/service0015/char0016 Value: b2 07 01 01 00 04 15 00 00 ......... b2 07 01 01 00 04 15 00 00 ......... [Pinetime-JF:/service0015/char0016]# write "0xe4 0x07 0x0c 0x1f 0x0e 0x02 0x00 0x00 0x00"
This is the format for the current time as hex bytes:
<lsb of year> <msb of year> <month (1-12)> <day (1-31)> <hour (0-23)> <minute (0-59)> <seconds (0-59)> <weekday (1-7 where 1=Monday)> <fractions (1/256th of second)>
Is there a standard agreed method of pushing OTA updates so that one could seal the PineTime dev kit nicely?
InfiniTime supports firmware updates over Bluetooth LE with the nRF Connect mobile app. See "Download and Test Our PineTime Firmware"
My PineTime's screen shows garbage, how do I fix it?
This is usually caused by unplugging the device after it has booted, it needs to be reinitialised. To do so just restart the watch by removing power to it.
I have experience developing on Arduino. How does the PineTime compare?
To learn programming on PineTime, check out this article
Arduino provides the Arduino IDE (or you use the avr-gcc and avrdude command-line tools) which you can use to compile and upload code to an Arduino board. The PineTime and its ARM processor doesn't have this, so you'll have to familiarize yourself with tools like GCC for ARM, and OpenOCD. Some experience with Arduino does translate over to the PineTime, especially if you've worked with LCD's, or SPI. The PineTime is at least four times faster than an Arduino Uno (even faster at certain specific workloads due to hardware acceleration), and it has 32 times more RAM and 16 times more flash storage.
Can I code firmware for PineTime without an actual PineTime?
Yes, you may code PineTime Watch Faces and preview them in a web browser (thanks to WebAssembly)...
Then flash your firmware remotely to a real PineTime via Telegram, and watch your firmware run in a live video stream...
What do I need for building PineTime firmware locally on my computer?
Most flavours of PineTime firmware (InfiniTime, Hypnos, Klok, wasp-os) will build fine on Linux (x64, Arm32, Arm64) and macOS. Just follow the instructions provided.
Download version 9-2020-q2-update of the Arm Embedded Toolchain arm-none-eabi-gcc. Other versions of gcc may have problems building the firmware correctly.
On Windows, install Windows Subsystem for Linux (WSL) and execute the build steps inside the WSL Terminal (instead of the Windows Command Prompt). USB Programmers (like ST-Link and JLink) are not supported in WSL, so use the Windows Command Prompt to flash your built firmware to PineTime.
pinetime-rust-mynewt firmware for PineTime supports building and flashing via the Windows Command Prompt (no need for MinGW and Docker).
Can I use Pinebook Pro for developing PineTime?
Yes, use version 9-2020-q2-update of the Arm Embedded Toolchain arm-none-eabi-gcc. Other versions of gcc may have problems building the firmware correctly.
What is ARM Semihosting?
We use the SWD (Single Wire Debug) protocol created by ARM for flashing and debugging PineTime's nRF52832 microcontroller, which contains an ARM CPU. (SWD is derived from standard JTAG, but with fewer wires) With ARM CPUs you can trigger a software breakpoint, and allow the debugger (OpenOCD) to do something really nifty: Display a message, read console input, dump out a file, even read a file. That's called ARM Semihosting. More about ARM Semihosting
What is OpenOCD?
OpenOCD is Open On-Chip Debugger. It's the software that drives your microcontroller debugger/flasher. We need it for running any kind of flashing and debugging with Pi or ST-Link. gdb talks to OpenOCD for debugging firmware. gdb also works with VSCode for debugging firmware visually. More about OpenOCD
Please use xPack OpenOCD with PineTime. Other versions of OpenOCD seem to have problems with PineTime.
How do I remove flash protection?
PineTime watches shipped before 20 Sep 2020 have flash protection enabled.
The flash protection can be removed using multiple different methods. If you don't have anything except the PineTime, not even a Raspberry Pi, then you have to order a programmer online: you can use a J-Link, CMSIS-DAP dongle and various other programmers. See this page to see various methods of reprogramming the PineTime.
If your PineTime was shipped after 20 Sep 2020, you don't need to remove flash protection. They are shipped with flash protection disabled. You can flash and debug PineTime right away with ST-Link, JLink and Raspberry Pi.
Why can't you use ST-Link to remove nRF52 Flash Protection?
Because ST-Link is a High Level Adapter. It doesn't really implement all SWD functions, just a subset (probably to keep the price low). More details in the section "Why Visual Studio Code with ST-Link (instead of nRFgo Studio with J-LINK)" in the article "Coding nRF52 with Rust and Apache Mynewt on Visual Studio Code".
Since we need a low level SWD adapter like Raspberry Pi anyway, can we do everything on a Pi instead of ST-Link + Windows?
Yes, Raspberry Pi works for flashing and debugging PineTime, even for removing flash protection. We have a special version of OpenOCD called OpenOCD SPI that talks to PineTime's SWD port over SPI (without bit-banging). See PineTime Updater
Is there a 3D model of PineTime available somewhere?
Not yet. Someone did design a cover you can snap on to keep the back shut. More details
Are there any alternatives to the wrist band provided with the PineTime?
No, but PineTime accepts standard 20mm wrist band that is widely available by a third party.
Note that some sellers have a different point of view on what standard is. So you should always check the fitting to make sure it looks like the one used by PineTime.
I'm stuck. How can I get help?
Chat with the PineTime Community on Matrix / Discord / Telegram / IRC (They are bridged into a single chatroom)