/* RadioLib CC1101 Receive with Interrupts Example This example listens for FSK transmissions and tries to receive them. Once a packet is received, an interrupt is triggered. To successfully receive data, the following settings have to be the same on both transmitter and receiver: - carrier frequency - bit rate - frequency deviation - sync word For full API reference, see the GitHub Pages https://jgromes.github.io/RadioLib/ */ // include the library #include // CC1101 has the following connections: // CS pin: 10 // GDO0 pin: 2 // RST pin: unused // GDO2 pin: 3 (optional) CC1101 cc = new Module(10, 2, RADIOLIB_NC, 3); // or using RadioShield // https://github.com/jgromes/RadioShield //CC1101 cc = RadioShield.ModuleA; void setup() { Serial.begin(9600); // initialize CC1101 with default settings Serial.print(F("[CC1101] Initializing ... ")); // carrier frequency: 868.0 MHz // bit rate: 4.8 kbps // frequency deviation: 48.0 kHz // Rx bandwidth: 325.0 kHz // sync word: 0xD391 int state = cc.begin(); if (state == ERR_NONE) { Serial.println(F("success!")); } else { Serial.print(F("failed, code ")); Serial.println(state); while (true); } // set the function that will be called // when new packet is received cc.setGdo0Action(setFlag); // start listening for packets Serial.print(F("[CC1101] Starting to listen ... ")); state = cc.startReceive(); if (state == ERR_NONE) { Serial.println(F("success!")); } else { Serial.print(F("failed, code ")); Serial.println(state); while (true); } // if needed, 'listen' mode can be disabled by calling // any of the following methods: // // cc.standby() // cc.sleep() // cc.transmit(); // cc.receive(); // cc.readData(); } // flag to indicate that a packet was received volatile bool receivedFlag = false; // disable interrupt when it's not needed volatile bool enableInterrupt = true; // this function is called when a complete packet // is received by the module // IMPORTANT: this function MUST be 'void' type // and MUST NOT have any arguments! void setFlag(void) { // check if the interrupt is enabled if(!enableInterrupt) { return; } // we got a packet, set the flag receivedFlag = true; } void loop() { // check if the flag is set if(receivedFlag) { // disable the interrupt service routine while // processing the data enableInterrupt = false; // reset flag receivedFlag = false; // you can read received data as an Arduino String String str; int state = cc.readData(str); // you can also read received data as byte array /* byte byteArr[8]; int state = cc.readData(byteArr, 8); */ if (state == ERR_NONE) { // packet was successfully received Serial.println(F("[CC1101] Received packet!")); // print data of the packet Serial.print(F("[CC1101] Data:\t\t")); Serial.println(str); // print RSSI (Received Signal Strength Indicator) // of the last received packet Serial.print(F("[CC1101] RSSI:\t\t")); Serial.print(cc.getRSSI()); Serial.println(F(" dBm")); // print LQI (Link Quality Indicator) // of the last received packet, lower is better Serial.print(F("[CC1101] LQI:\t\t")); Serial.println(cc.getLQI()); } else if (state == ERR_CRC_MISMATCH) { // packet was received, but is malformed Serial.println(F("CRC error!")); } else { // some other error occurred Serial.print(F("failed, code ")); Serial.println(state); } // put module back to listen mode cc.startReceive(); // we're ready to receive more packets, // enable interrupt service routine enableInterrupt = true; } }