| Supported Targets | ESP32-H2 | | ----------------- | -------- | # Light Coordinator Example (See the `README.md` file in the upper level 'examples' directory for more information about examples.) This test code shows how to configure Zigbee coordinator device. ## Hardware Required * One development board with ESP32-H2 SoC acting as Zigbee coordinator (loaded with light coordinator example) * A USB cable for power supply and programming * Choose another ESP32-H2 as Zigbee router (see [light bulb example](../light_bulb)) * Choose another ESP32-H2 as Zigbee end-device (see [light switch example](../light_switch)) ## Configure the project [**Mandatory**] Download esp-zboss-lib packages from [Espressif's component serivce](https://components.espressif.com/). You can add them to your project via `idf.py add-dependency espressif/esp-zboss-lib==0.0.2` Before project configuration and build, make sure to set the correct chip target using `idf.py set-target esp32h2`. ## Build and Flash Build the project, flash it to the board, and start the monitor tool to view the serial output by running `idf.py -p PORT flash monitor`. (To exit the serial monitor, type ``Ctrl-]``.) ## Example Output As you run the example, you will see the following log: light coodrinator: I (9556) ESP_ZB_COORDINATOR: status: -1 I (9556) ESP_ZB_COORDINATOR: Zigbee stack initialized I (9556) ESP_ZB_COORDINATOR: Start network formation I (10066) ESP_ZB_COORDINATOR: Joined network successfully (Extended PAN ID: f9:54:2d:01:a0:03:f7:84, PAN ID: 0xf5b5) I (10526) ESP_ZB_COORDINATOR: Network steering started I (11306) ESP_ZB_COORDINATOR: status: 0 I (11806) ESP_ZB_COORDINATOR: status: 0 I (11886) ESP_ZB_COORDINATOR: New device commissioned or rejoined (short: 0x434a) I (12386) ESP_ZB_COORDINATOR: status: 0 I (12486) ESP_ZB_COORDINATOR: status: 0 I (12896) ESP_ZB_COORDINATOR: status: 0 I (12946) ESP_ZB_COORDINATOR: New device commissioned or rejoined (short: 0x09c2) I (13516) ESP_ZB_COORDINATOR: status: 0 I (26686) ESP_ZB_COORDINATOR: status: 0 ## Light Control Functions * By toggling the switch button (BOOT) on the ESP32-H2 board loaded with `light switch` example, the LED on the board loaded with `light bulb` example will be on and off. ## Troubleshooting For any technical queries, please open an [issue](https://github.com/espressif/esp-idf/issues) on GitHub. We will get back to you soon.