U110

Zigbee SKU:U110 Description Zigbee is a Zigbee ad hoc network communication module launched by M5Stack. The module adopts the CC2630F128 solution, internally integrates the Zigbee protocol stack, and opens the serial communication interface. Integrated external antenna, single node stable communication distance up to 1km, 200-level router depth, through the MESH networking mode, you can extend your IoT application in a wide range, with both ultra-low power consumption and high sensitivity. The Zigbee network can support hundreds of nodes and has enhanced security features. Can provide complete and interoperable IoT solutions for home and building automation. Product Features CC2630F128 (dual ARM core-32 bit) Serial communication Low power consumption (module working current: 25mA, sleep 5uA) Dynamic routing maintenance, supporting 200-level routing depth Transmission speed 250Kbps Node communication distance 1km UART transparent transmission/broadcasting/P2P Include 1x Zigbee Unit 1x SMA antenna Applications Smart Home IoT collection node Building Automation Specification Resources Parameter CC2630F128 ARM Cortex-M3 32bit communication UART 38400bps 8N1(default) Communication distance 1km (Open area) working frequency 2.4GHZ (2405MHz-2480MHz, step:5MHz) Net weight 24g Gross weight 50g Product Size 71.5*24*8mm Package Size 95*65*25mm PinMap Core TX(GPIO 17) RX(GPIO 16) 5V GND Zigbee Unit RX TX VIN GND Schematic Example Zigbee P2P CHAT ROOM Zigbee RSSI TEST EasyLoader Zigbee P2P CHAT ROOM Zigbee RSSI TEST Coordinator End Device Related Link CC2630 Datasheet Module User Manual Instructions for use of the host computer PC debugging tool Video DRFZigbee.h - API //Initialize the serial port of the module void begin(HardwareSerial & uart){ _uartp = &uart;} //Connect the module. After execution, the module will disconnect the wireless link and enter the configuration mode. int linkMoudle(); //Read and write module configuration parameters int readModuleparm(zigbee_arg_t *parm); int setModuleparm(zigbee_arg_t &parm); //Get network topology int getNetworksTopology(); //After completing the configuration, you need to execute the program to restart the module and restore the wireless connection int rebootModule(); //Get module signal quality int8_t getModuleRSSI(nodeRSSI_t *nodeRSSIPtr = nullptr); //Receive data int reviceData(reviceData_t *revice,uint8_t type = kP2PCustomIDMode,size_t timeout = 1000); //send data void sendData(uint8_t cmd, const std::initializer_list args); int sendCMDAndWaitRevice(uint8_t cmd, byteArray &array, byteArray *reviceArray = nullptr, size_t timeout = 1000); int sendCMDAndWaitRevice(uint8_t cmd, const std::initializer_list args, byteArray *reviceArray = nullptr, size_t timeout = 1000); int sendDataP2P(uint8_t mode,uint16_t addr,uint8_t *dataptr,size_t length); int sendDataP2P(uint8_t mode,uint16_t addr,byteArray &array); int sendDataP2P(uint8_t mode,uint16_t addr,const std::initializer_list args); -------------------------------------------------------------- //Module configuration parameter item DRFZigbee::zigbee_arg_t *arg = new DRFZigbee::zigbee_arg_t; uint8_t main_pointType; uint16_t main_PANID; uint8_t main_channel; uint8_t main_transmissionMode; uint16_t main_customID; uint16_t main_res0; uint8_t main_uartBaud; uint8_t main_uartBit; uint8_t main_uatrtStop; uint8_t main_uartCheck; uint16_t main_res1; uint8_t main_ATN; uint8_t main_mac[8]; //Configure preset parameters-complete configuration preset parameters can be used to quickly access the network from the node without settings uint8_t uint16_t preset_pointType; preset_PANID; uint8_t preset_channel; uint8_t preset_transmissionMode; uint16_t preset_customID; //reserved uint16_t preset_res0; uint8_t preset_uartBaud; uint8_t preset_uartBit; uint8_t preset_uatrtStop; uint8_t preset_uartCheck; //reserved uint16_t preset_res1; uint8_t uint16_t preset_ATN; shortAddr; uint8_t res3; uint8_t encryption; uint8_t password[4];