#include "EEPROM.h" #include "cc1101.h" //Arduino GND <-> CC1101 GND //Arduino VCC (+5v ou 3,3 ?<-> CC1101 VCC //Arduino 10 <-> CC1101 CSN (SS) //Arduino 11 <-> CC1101 SI (MOSI) //Arduino 12 <-> CC1101 SO (MISO) //Arduino 13 <-> CC1101 SCK //Arduino 02 <-> CC1101 GD0 CC1101 cc1101; // The LED is wired to the Arduino Output 4 (physical panStamp pin 19) #define LEDOUTPUT 7 // counter to get increment in each loop byte counter; byte b; //byte syncWord = 199; byte syncWord[2] = {199, 0}; void blinker(){ digitalWrite(LEDOUTPUT, HIGH); delay(100); digitalWrite(LEDOUTPUT, LOW); delay(100); } void setup() { Serial.begin(9600); Serial.println("start"); // setup the blinker output pinMode(LEDOUTPUT, OUTPUT); digitalWrite(LEDOUTPUT, LOW); // blink once to signal the setup blinker(); // reset the counter counter=0; Serial.println("initializing..."); // initialize the RF Chip cc1101.init(); //cc1101.setSyncWord(&syncWord, false); cc1101.setSyncWord(syncWord, false); cc1101.setCarrierFreq(CFREQ_433); cc1101.disableAddressCheck(); //cc1101.setTxPowerAmp(PA_LowPower); delay(1000); Serial.print("CC1101_PARTNUM "); //cc1101=0 Serial.println(cc1101.readReg(CC1101_PARTNUM, CC1101_STATUS_REGISTER)); Serial.print("CC1101_VERSION "); //cc1101=4 Serial.println(cc1101.readReg(CC1101_VERSION, CC1101_STATUS_REGISTER)); Serial.print("CC1101_MARCSTATE "); Serial.println(cc1101.readReg(CC1101_MARCSTATE, CC1101_STATUS_REGISTER) & 0x1f); Serial.println("device initialized"); //Serial.println("done"); } void send_data() { CCPACKET data; data.length=10; byte blinkCount=counter++; data.data[0]=5; data.data[1]=blinkCount;data.data[2]=0; data.data[3]=1;data.data[4]=0; //cc1101.flushTxFifo (); Serial.print("CC1101_MARCSTATE "); Serial.println(cc1101.readReg(CC1101_MARCSTATE, CC1101_STATUS_REGISTER) & 0x1f); if(cc1101.sendData(data)){ Serial.print(blinkCount,HEX); Serial.println(" sent ok :)"); blinker(); }else{ Serial.println("sent failed :("); blinker(); blinker(); } } void loop() { send_data(); delay(4000); }