{"id":308,"date":"2018-09-14T15:58:27","date_gmt":"2018-09-14T14:58:27","guid":{"rendered":"https:\/\/computenodes.net\/?p=308"},"modified":"2025-01-17T16:03:47","modified_gmt":"2025-01-17T16:03:47","slug":"raspberry-pi-lorawan-gateway-pcb","status":"publish","type":"post","link":"https:\/\/computenodes.net\/2018\/09\/14\/raspberry-pi-lorawan-gateway-pcb\/","title":{"rendered":"Raspberry Pi LoRaWAN gateway PCB"},"content":{"rendered":"

As discussed in a previous blog post<\/a> the iC880a is a LoRaWAN concentrator that can be used to create a gateway. The iC880a only provides the LoRaWAN hardware, it does not provide any processing capabilities, for this we use a Raspberry Pi. However, the Raspberry Pi and the iC880a have different pin layouts for their connector. This means that an adapter is needed to convert between formats. One approach is to use simple jumper cables to link the two PCBs which was used for one of the earlier gateways. We have also tried using stripboard to create the converter board, but this did not cope very will with deploying outside (the tracks oxidised). The best approach is to use a purpose built PCB. There are already some open source adapter boards available, and we used one early on in our experiments but these did not have the features we wanted so we set about building our own.<\/p>\n

The features that we wanted the PCB to have are as follows:<\/p>\n