- CMWX1ZZABZ-091 LoRa®
- Embedded ultra-low-power STM32L072CZ Series MCUs, based on ARM® Cortex® -M0+ core, with 192 Kbytes of Flash memory, 20 Kbytes of RAM, 20 Kbytes of EEPROM
- USB 2.0 FS
- 4-channel,12-bit ADC, 2xDAC
- 6-bit timers, LP-UART, I2 C and SPI
- Embedded SX1276 transceiver
- LoRa® , FSK, GFSK, MSK, GMSK and OOK modulations
- +14 dBm or +20 dBm selectable output power
- 157 dB maximum link budget
- Programmable bit rate up to 300 Kbit/s
- High sensitivity: down to -137 dBm
- Bullet-proof front end: IIP3 = -12.5 dBm
- 89 dB blocking immunity
- Low RX current of 10 mA, 200 nA register retention
- Fully integrated synthesizer with a resolution of 61 Hz
- Built-in bit synchronizer for clock recovery
- Sync word recognition
- Preamble detection
- 127 dB+ dynamic range RSSI
- SMA and U.FL RF interface connectors
- Including 50 Ohm SMA RF antenna
- On-board ST-LINK/V2-1 supporting USB re-enumeration capability
- USB ST-LINK functions:
- Board power supply:
- Through USB bus or external VIN /3.3 V supply voltage or batteries
- 3xAAA-type-battery holder for standalone operation
- 7 LEDs:
- 4 general-purpose LEDs
- A 5 V-power LED
- An ST-LINK-communication LED
- A fault-power LED
- 2 push-buttons (user and reset)
- Arduino™ Uno V3 connectors
- ARM® mbed™ (see http://mbed.org
So now: how to get it to work? Although there were several workshops on this subject during the conference, there weren't many people that actually got the board to work and connect. The instructors did their best, but the STMicro development stack just isn't as straightforward to install and set up as Arduino's. Each workshop left us struggling with a multitude of drivers to install, accounts to set up and a confusing number of choices on Development tools. A quick Google search revealed that we were not alone in this; countless discussions on forums are describing the same experience. Once home, I decided to take some time to find out what actually needs to be done to get the board to work and do a small tutorial, so here it is!
For this writeup I am going to assume that you already have a TheThingsNetwork account, and are familiar with LoraWAN. If not, please go to the TheThingsNetwork website and create an account (it's free), and read up on LoraWAN and TTN (This link is a good start).
Before downloading from the links below, you will also need to create an STMicro account (Click here). You will need it to access the downloads on their website.
What to get?
The Discovery board comes with a built-in ST-LINK programmer / debugger, for which you will need a driver. This can be downloaded here. Please install this FIRST, before plugging in the Discovery board.
I-CUBE-LRWAN (LoRaWAN software expansion for STM32Cube)
This package contains all libraries and demo projects. It can be downloaded here.
In this tutorial I've decided to use the Keil MDK IDE. You can download it here. Please take the time to create an account and register your version of MDK (it's free for STM32F0 and STM32L0 series processors). You will need to have a license in place to be able to successfully build the demo application.
Putting it all together
Set up communications
Once the driver is installed, you should be able to start communicating with the Discovery board. The board comes pre-loaded with firmware which will send the DevEUI, AppEUI andAppKey over a serial connection. So, let's make this happen!
First, Connect the board and then open your Device Manager. Your board should be listed in the ports list:
On my system the board COM port is COM5. Open a serial monitor program (I used the serial monitor in the Arduino IDE) and select COM5. Now press the Reset button on the board and something like this will appear:
Register your device
Now go to console.thethingsnetwork.org and register your device on the TTN. Never done this before? Not to worry; TheThingsNetwork has an excellent tutorial right here.
The DEVEui will need to be entered during registration; the AppEui and AppKey will be generated during device registration. These we will need to enter in our project.
Enter the keys in your Project
Now it's time to open the demo Project in Keil MDK. Start the program and open the demo project (Project -> Open Project...) located in the I-CUBE package you have downloaded. There is a separate demo project for each Discovery board and tools stack, which leads to a quite complicated directory structure. This is what it should look like:
Load the project file and build it to make sure that all components are OK.
Now it's time to enter the keys. This needs to be done in the file commissioning.h, which is located in the directory Lora\End_Node_inc:
Open the file in MDK and enter the AppEui and AppKey. Do not alter the DevEui; this is not used in OTAA activation. Save the file.
Build the Project and update the Discovery board
Now Rebuild the Project. If the build is successful, you will be able to load the generated firmware into the Discovery board. Use menu Flash -> Download to update the firmware in your device and then press the Reset button on the board.
The serial monitor should now list something like this: