This repository contains the simple LoRaWAN library encapsulated to run in the generic platform, allowing using the SX1272, SX1276 transceivers and compatible modules (such as some HopeRF RFM9x modules).
This repository is all based on the library originally created by Ideetron B.V. This library is slightly modified and this repo, with the principal purpose to have an LoRaWAN MAC layer for arduino with an easy API.
The Arduino LoRaWAN library supports LoRaWAN Class A and Class C implementations operating in EU-868, AS-923, US-915 and AU-915 bands. Note that this library is fairly simple with the aim of demonstrating the LoRaWAN capabilities.
- Sending packets uplink, taking into account duty cycling.
- Custom frequencies and datarate settings.
- Receiving downlink packets in the RX1 window (EU-868, AS-923,US-915,AU-915).
- Over-the-air activation (OTAA / joining) (EU-868, AS-923).
- Class C operation.
- Receiving downlink packets in the RX1 window (US-915).
- Receiving downlink packets in the RX2 window.
- Over-the-air activation (OTAA / joining) (US-915).
- Receiving and processing MAC commands.
If you try one of these untested features and it works, be sure to let us know (creating a Github issue is probably the best way for that, also so you can submit a pull request to improve this repository).
Please refer to the wiki's first steps section for instructions on installing the library.
A number of features can be configured or disabled by editing the
config.h
file in the library folder. Unfortunately the Arduino
environment does not offer any way to do this (compile-time)
configuration from the sketch, so be careful to recheck your
configuration when you switch between sketches or update the library.
At the very least, you should set the right type of board in config.h, most other values should be fine at their defaults.
When using the US_915 you need to select which sub-band you will use, by default it is sub-band 6.
We have to manually set the frequency plan (EU_868, US_915, AS_923, AS_923_2...) in the Config.h of the library.
This library is intended to be used with plain LoRa transceivers, connecting to them using SPI. In particular, the SX1272 and SX1276 families are supported (which should include SX1273, SX1277, SX1278 and SX1279 which only differ in the available frequencies, bandwidths and spreading factors). It has been tested with both SX1272 and SX1276 chips, using the Semtech SX1272 evaluation board and the HopeRF RFM92 and RFM95 boards (which supposedly contain an SX1272 and SX1276 chip respectively).
Some of the supported pre-built board currently available in the market are:
- Electronic Cats BastWAN
- Electronic Cats CatWAN USB-Stick
- Electronic Cats CatWAN Relay Board
- Electronic Cats CatWAN Shield
- Cytron Shield LoRa-RFM
- Dragino
This library has been tested using:
- Arduino Uno
- WeMos D1 R2 (ESP8266 family board)
- ESP32
- Electronic Cats CatWAN USB-Stick
- Electronic Cats Bast-WAN (Based on SAMR34)
- NINA B302 is NRF52840 core
- STMDuino
- RENESAS compatible boards
To make this library work, your Arduino (or whatever Arduino-compatible board you are using) should be connected to the transceiver. The exact connections are a bit dependent on the transceiver board and Arduino used, so this section tries to explain what each connection is for and in what cases it is (not) required.
As described above, most connections can use arbitrary I/O pins on the Arduino side. To tell the arduino LoRaWAN library about these, a pin mapping struct is used in the sketch file.
For example, this could look like this:
sRFM_pins RFM_pins = {
.CS = SS,
.RST = RFM_RST,
.DIO0 = RFM_DIO0,
.DIO1 = RFM_DIO1,
.DIO2 = RFM_DIO2,
.DIO5 = RFM_DIO5
};
- See API.md.
- See Test Folder
Contributions are welcome!
Please read the document Contribution Manual which will show you how to contribute your changes to the project.
✨ Thanks to all our contributors! ✨
See Electronic Cats CLA for more information.
See the community code of conduct for a vision of the community we want to build and what we expect from it.
Electronic Cats invests time and resources providing this open source design, please support Electronic Cats and open-source hardware by purchasing products from Electronic Cats! Thanks Beelan
Most source files in this repository are made available under the MIT License. The examples which use a more liberal license. Some of the AES code is available under the LGPL. Refer to each individual source file for more details.