4a323f8b80
As EasyDMA variant of SPI(M) might clock out an additional byte in single byte transactions this patch moves the nrf52832 to use SPI and not SPIM to get more stable data transactions. Ref: nrf52832 rev2 errata v1.1, suggested workaround is: "Use the SPI module (deprecated but still available) or use the following workaround with SPIM ..." Current nrfx SPIM driver does not contain this workaround, and in the meanwhile moving back to SPI fixes the issue. Also, tabbing the nrfx_config.h a bit to make it more readable. |
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.. | ||
boards | ||
device | ||
drivers | ||
examples | ||
freeze | ||
modules | ||
.gitignore | ||
Makefile | ||
README.md | ||
bluetooth_conf.h | ||
fatfs_port.c | ||
gccollect.c | ||
gccollect.h | ||
help.c | ||
main.c | ||
mpconfigport.h | ||
mphalport.c | ||
mphalport.h | ||
nrf51_af.csv | ||
nrf52_af.csv | ||
nrfx_config.h | ||
nrfx_glue.h | ||
nrfx_log.h | ||
pin_defs_nrf5.h | ||
pin_named_pins.c | ||
qstrdefsport.h |
README.md
MicroPython Port To The Nordic Semiconductor nRF Series
This is a port of MicroPython to the Nordic Semiconductor nRF series of chips.
Supported Features
- UART
- SPI
- LEDs
- Pins
- ADC
- I2C
- PWM (nRF52 only)
- Temperature
- RTC (Real Time Counter. Low-Power counter)
- BLE support including:
- Peripheral role on nrf51 targets
- Central role and Peripheral role on nrf52 targets
- REPL over Bluetooth LE (optionally using WebBluetooth)
- ubluepy: Bluetooth LE module for MicroPython
- 1 non-connectable advertiser while in connection
Tested Hardware
- nRF51
- micro:bit
- PCA10000 (dongle)
- PCA10001
- PCA10028
- PCA10031 (dongle)
- WT51822-S4AT
- nRF52832
- nRF52840
Compile and Flash
Prerequisite steps for building the nrf port:
git clone <URL>.git micropython
cd micropython
git submodule update --init
make -C mpy-cross
By default, the PCA10040 (nrf52832) is used as compile target. To build and flash issue the following command inside the ports/nrf/ folder:
make
make flash
Alternatively the target board could be defined:
make BOARD=pca10040
make flash
Compile and Flash with Bluetooth Stack
First prepare the bluetooth folder by downloading Bluetooth LE stacks and headers:
./drivers/bluetooth/download_ble_stack.sh
If the Bluetooth stacks has been downloaded, compile the target with the following command:
make BOARD=pca10040 SD=s132
The make sd will trigger a flash of the bluetooth stack before that application is flashed. Note that make sd will perform a full erase of the chip, which could cause 3rd party bootloaders to also be wiped.
make BOARD=pca10040 SD=s132 sd
Note: further tuning of features to include in bluetooth or even setting up the device to use REPL over Bluetooth can be configured in the bluetooth_conf.h
.
Compile with frozen modules
Frozen modules are Python modules compiled to bytecode and added to the firmware
image, as part of MicroPython. They can be imported as usual, using the import
statement. The advantage is that frozen modules use a lot less RAM as the
bytecode is stored in flash, not in RAM like when importing from a filesystem.
Also, frozen modules are available even when no filesystem is present to import
from.
To use frozen modules, put them in a directory (e.g. freeze/
) and supply
make
with the given directory. For example:
make BOARD=pca10040 FROZEN_MPY_DIR=freeze
Target Boards and Make Flags
Target Board (BOARD) | Bluetooth Stack (SD) | Bluetooth Support | Flash Util |
---|---|---|---|
microbit | s110 | Peripheral | PyOCD |
pca10000 | s110 | Peripheral | Segger |
pca10001 | s110 | Peripheral | Segger |
pca10028 | s110 | Peripheral | Segger |
pca10031 | s110 | Peripheral | Segger |
wt51822_s4at | s110 | Peripheral | Manual, see datasheet for pinout |
pca10040 | s132 | Peripheral and Central | Segger |
feather52 | s132 | Peripheral and Central | UART DFU |
arduino_primo | s132 | Peripheral and Central | PyOCD |
pca10056 | Segger |
Segger Targets
Install the necessary tools to flash and debug using Segger:
note: On Linux it might be required to link SEGGER's libjlinkarm.so
inside nrfjprog's folder.
PyOCD/OpenOCD Targets
Install the necessary tools to flash and debug using OpenOCD:
sudo apt-get install openocd
sudo pip install pyOCD
DFU Targets
sudo apt-get install build-essential libffi-dev pkg-config gcc-arm-none-eabi git python python-pip
git clone https://github.com/adafruit/Adafruit_nRF52_Arduino.git
cd Adafruit_nRF52_Arduino/tools/nrfutil-0.5.2/
sudo pip install -r requirements.txt
sudo python setup.py install
make flash and make sd will not work with DFU targets. Hence, dfu-gen and dfu-flash must be used instead.
- dfu-gen: Generates a Firmware zip to be used by the DFU flash application.
- dfu-flash: Triggers the DFU flash application to upload the firmware from the generated Firmware zip file.
Example on how to generate and flash feather52 target:
make BOARD=feather52 SD=s132
make BOARD=feather52 SD=s132 dfu-gen
make BOARD=feather52 SD=s132 dfu-flash
Bluetooth LE REPL
The port also implements a BLE REPL driver. This feature is disabled by default, as it will deactivate the UART REPL when activated. As some of the nRF devices only have one UART, using the BLE REPL free's the UART instance such that it can be used as a general UART peripheral not bound to REPL.
The configuration can be enabled by editing the bluetooth_conf.h
and set MICROPY_PY_BLE_NUS
to 1.
When enabled you have different options to test it:
- NUS Console for Linux (recommended)
- WebBluetooth REPL (experimental)
Other:
- nRF UART application for IPhone/Android
WebBluetooth mode can also be configured by editing bluetooth_conf.h
and set BLUETOOTH_WEBBLUETOOTH_REPL
to 1. This will alternate advertisement between Eddystone URL and regular connectable advertisement. The Eddystone URL will point the phone or PC to download WebBluetooth REPL (experimental), which subsequently can be used to connect to the Bluetooth REPL from the PC or Phone browser.