| TOP | BOTTOM |
 |
 |
"Sub-G Smart Agriculture" uses AxDen's Aggregator Platform to collect key sensor information necessary for Smart Agriculture such as temperature, barometric pressure, and illuminance.
This is an example that provides quick testing of various service scenarios that require long-distance communication of 1Km or more.
Related hardware kits can be purchased from the Naver Smart Store.
Purchase Link : naver smart store
You can purchase it by contacting [email protected]
| MCU | Description |
|---|---|
| CC1312R1 | TI ROTS, EasyLink |
* Low-power technology with TI Sensor Controller is available in the Production version family.
| Sensor | Description |
|---|---|
| BME280 | Air pressure, temperature sensor |
| HDC1080 | Humidity, temperature sensor |
| VCNL4040 | ToF distance, ambient light sensor |
| Soil moisture sensor | On board |
"Sub-G Smart Agriculture" example collects key sensor information required in Smart Agriculture such as temperature, barometric pressure, and illuminance, and transmits it using Sub-G long-distance communication. In conjunction with the AxDen Aggregator Platform, you can check sensor information on the web and mobile without building infrastructure such as servers and DBs, and use the stored sensor information to learn Edge AI.
If you have an adapter board, you can check the communication through the terminal.
After connecting the adapter board and the Sub-G Smart Agriculture sensor to the PC, check through serial programs such as screen and putty. (Baudrate is 9600)
| RF rx example terminal | RF tx example terminal |
 |
 |
Enter COMPANY ID nad DEVCIE ID provided on the AXDEN Aggregator Platform website into COMPANY_ID and DEVCIE_ID in the Protocol.h header file.
#define COMPANY_ID 0
#define DEVICE_TYPE 0
Complie and flash.
Check whether COMPANY_ID and DEVICE_ID are applied correctly through the terminal
Sensor information can be found on the Web or Mobile as shown in the image below
You can check in the board_define.h header file.