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254 lines
8.7 KiB
Markdown
254 lines
8.7 KiB
Markdown
Contiki for nRF52 Development Kit
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=================================
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This guide's aim is to help you with using Contiki for
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Nordic Semiconductor's nRF52 DK.
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The port depends on Nordic Semiconductor IoT SDK for nRF52.
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The IoT SDK contains source code and libraries which are
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required for successfull port compilation. It also contains
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SoftDevice binary driver which is required for BLE operation.
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See prerequisites section for details on how to set up the SDK.
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For more information about SoftDevice please refer to the SDK
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docummentation [nRF52 Datasheet and SDK documentation].
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This port supports DK versions PCA10040 and PCA10036.
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Port Features
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=============
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The following features have been implemented:
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* Support for IPv6 over BLE using Contiki 6LoWPAN implementation
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* Contiki system clock and rtimers (using 32kHz and 1MHz timers)
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* UART driver
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* Watchdog driver
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* Hardware RNG
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* Temperature sensor driver
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* DK LED driver
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* DK Buttons driver
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* Real Time Transfer (RTT) I/O support
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Note that this port supports only IPv6 network stack.
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The port is organized as follows:
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* nRF52832 CPU and BLE drivers are located in `cpu/nrf52832` folder
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* nRF52 Development Kit drivers are located in `platform/nrf52dk` folder
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* Platform examples are located in `examples/nrf52dk` folder
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Prerequisites and Setup
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=======================
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In order to compile for the nRF52 DK platform you'll need:
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* nRF5 IOT SDK
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https://developer.nordicsemi.com
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Download nRF5 IOT SDK, extract it to a folder of your choice,
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and point `NRF52_SDK_ROOT` environmental variable to it, e.g.,:
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```
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wget https://developer.nordicsemi.com/nRF5_IoT_SDK/nRF5_IoT_SDK_v0.9.x/nrf5_iot_sdk_3288530.zip
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unzip nrf5_iot_sdk_3288530.zip -d /path/to/sdk
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export NRF52_SDK_ROOT=/path/to/sdk
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```
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* An ARM compatible toolchain
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The port has been tested with GNU Tools for ARM Embedded Processors
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version 5.2.1.
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For Ubuntu you can use package version provided by your distribution:
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```
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sudo apt-get install gcc-arm-none-eabi
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```
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Alternatively, install the toolchain from PPA to get the latest version
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of the compiler: https://launchpad.net/~team-gcc-arm-embedded/+archive/ubuntu/ppa
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For other systems please download and install toolchain available at
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https://launchpad.net/gcc-arm-embedded
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* GNU make
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* Segger JLink Software for Linux
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https://www.segger.com/jlink-software.html
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This package contains tools necessary for programming and debugging nRF52 DK.
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For Ubuntu you can download and install a .deb package. Alternatively download
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tar.gz archive and extract it to a folder of your choice. In this case you
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need to set `NRF52_JLINK_PATH` environmental variable to point to the
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JLink tools location:
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```
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export NRF52_JLINK_PATH=/path/to/jlink/tools
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```
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To keep this variable set between sessions please add the above line to your
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`rc.local` file.
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In order to access the DK as a regular Linux user create a `99-jlink.rules`
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file in your udev rules folder (e.g., `/etc/udev/rules.d/`) and add the
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following line to it:
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```
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ATTRS{idProduct}=="1015", ATTRS{idVendor}=="1366", MODE="0666"
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```
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When installing from a deb package, the `99-jlink.rules` file is added
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automatically to /etc/udev/rules.d folder. However, the syntax of the file
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doesn't work on newer udev versions. To fix this problem edit this file and
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replace ATTR keyword with ATTRS.
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To fully use the platform a BLE enabled router device is needed. Please refer
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to `Preqrequisites` section in `README-BLE-6LoWPAN.md` for details.
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Getting Started
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===============
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Once all tools are installed it is recommended to start by compiling
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and flashing `examples/hello-word` application. This allows to verify
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that toolchain setup is correct.
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To compile the example, go to `examples/hello-world` and execute:
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make TARGET=nrf52dk
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If you haven't used the device with Contiki before we advise to
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erase the device and flash new SoftDevice:
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make TARGET=nrf52dk erase
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make TARGET=nrf52dk softdevice.flash
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If the compilation is completed without errors flash the board:
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make TARGET=nrf52dk hello-world.flash
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The device will start BLE advertising as soon as initialized. By
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default the device name is set to 'Contiki nRF52 DK'. To verify
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that the device is advertising properly run:
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sudo hcitool lescan
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And observe if the device name appears in the output. Also, observe
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if LED1 is blinking what indicates that device is waiting for a connection
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from BLE master.
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If device is functioning as expected you can test IPv6 connection
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to the device. Please refer to `README-BLE-6LoWPAN.md` on details how to do
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this.
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Examples
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========
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Examples specific for nRF52 DK can be found in `examples/nrf52dk` folder. Please
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refer to README.md in respective examples for detailed description.
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The DK has also been tested with the `examples/hello-world` and `examples/webserver-ipv6`
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generic examples.
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Compilation Options
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===================
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The Contiki TARGET name for this port is `nrf52dk`, so in order to compile
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an application you need to invoke GNU make as follows:
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make TARGET=nrf52dk
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In addition to this port supports the following variables which can be
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set on the compilation command line:
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* `NRF52_SDK_ROOT=<SDK PATH>`
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This variable allows to specify a path to the nRF52 SDK which should
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be used for the build.
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* `NRF52_WITHOUT_SOFTDEVICE={0|1}`
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Disables SoftDevice support if set to 1. By default, SoftDevice support
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is used. Note that SoftDevice must be present (flashed) in the device
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before you run an application that requires it's presence.
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* `NRF52_USE_RTT={0|1}`
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Enables RealTime Terminal I/O. See VCOM and RTT for details. By default,
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RTT is disabled and IO is done using Virtual COM port.
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* `NRF52_JLINK_SN=<serial number>`
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Allows to choose a particular DK by its serial number (printed on the
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label). This is useful if you have more than one DK connected to your
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PC and whish to flash a particular device.
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* `NRF52_DK_REVISION={pca10040|pca10036}`
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Allows to specify DK revision. By default, pca10040 is used.
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Compilation Targets
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===================
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Invoking make solely with the `TARGET` variable set will build all
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applications in a given folder. A particular application can be built
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by invoking make with its name as a compilation target:
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make TARGET=nrf52dk hello-world
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In order to flash the application binary to the device use `<application>.flash`
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as make target, e.g.:
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make TARGET=nrf52dk hello-world.flash
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In addition, the SoftDevice binary can be flashed to the DK by invoking:
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make TARGET=nrf52dk softdevice.flash
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To remove all build results invoke:
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make TARGET=nrf52dk clean
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The device memory can be erased using:
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make TARGET=nrf52dk erase
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Note, that once the device is erased, the SoftDevice must be programmed again.
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Virtual COM and Real Time Transfer
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==================================
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By default, the nRF52 DK uses a Virtual COM port to output logs. Once
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the DK is plugged in a `/tty/ACM<n>` or `/ttyUSB<n>` device should appear in
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your filesystem. A terminal emulator, such as picocom or minicom, can be
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used to connect to the device. Default serial port speed is 38400 bps.
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To connect to serial port using picocom invoke:
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picocom -fh -b 38400 --imap lfcrlf /dev/ttyACM0
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Note, that if you have not fixed file permissions for `/dev/ttyACM0`
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according to section `Segger JLink Software for Linux` you'll need to use
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root or sudo to open the port with `picocom`.
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In addition to Virtual COM the port supports SEGGER's Real Time Transfer
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for low overhead I/O support. This allows for outputting debugging information
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at much higher rate with significantly lower overhead than regular I/O.
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To compile an application with RTT rather that VCOM set `NRF52_USE_RTT` to 1 on
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the compilation command line:
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make TARGET=nrf52dk NRF52_USE_RTT=1 hello-world
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You can then connect to the device terminal using `JLinkRTTClient`. Note that
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a JLlink gdb or commander must be connected to the target for the RTT to work.
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More details regarding RTT can be found at https://www.segger.com/jlink-rtt.html
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Docummentation
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==============
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This port provides doxygen source code docummentation. To build the
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docummentation please run:
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sudo apt-get install doxygen
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cd <CONTIKI_ROOT>\doc
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make
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Support
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=======
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This port is officially supported by Nordic Semiconductor. Please send bug
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reports or/and suggestions to <wojciech.bober@nordicsemi.no>.
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License
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=======
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All files in the port are under BSD license. nRF52 SDK and SoftDevice are
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licensed on a separate terms.
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Resources
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=========
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* nRF52 Datasheet and SDK documentation (http://infocenter.nordicsemi.com)
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* nRF52 SDK Downloads (https://developer.nordicsemi.com/)
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* JLink Tools (https://www.segger.com/) |