/* Hamshield * Example: DDS * This is a simple example to show how to transmit arbitrary * tones. In this case, the sketh alternates between 1200Hz * and 2200Hz at 1s intervals. * Connect the HamShield to your Arduino. Screw the antenna * into the HamShield RF jack. Connect the Arduino to wall * power and then to your computer via USB. Upload this program * to your Arduino. To test, set a HandyTalkie to 438MHz. You * should hear two alternating tones. */ #define DDS_REFCLK_DEFAULT 9600 #include #include #define PWM_PIN 3 #define RESET_PIN A3 #define SWITCH_PIN 2 #define TIMER2_PHASE_ADVANCE 24 HamShield radio; DDS dds; void setup() { // NOTE: if not using PWM out, it should be held low to avoid tx noise pinMode(PWM_PIN, OUTPUT); digitalWrite(PWM_PIN, LOW); // prep the switch pinMode(SWITCH_PIN, INPUT_PULLUP); // set up the reset control pin pinMode(RESET_PIN, OUTPUT); // turn on radio digitalWrite(RESET_PIN, HIGH); radio.initialize(); radio.setRfPower(0); radio.frequency(438000); radio.setModeTransmit(); dds.start(); dds.startPhaseAccumulator(false); dds.playWait(600, 3000); dds.on(); //dds.setAmplitude(31); } void loop() { dds.setFrequency(2200); delay(1000); dds.setFrequency(1200); delay(1000); } //Uncomment if using dds.startPhaseAccumulator(true); /*ISR(TIMER2_OVF_vect) { static unsigned char tcnt = 0; if(++tcnt == TIMER2_PHASE_ADVANCE) { tcnt = 0; dds.clockTick(); } }*/ //Comment if using dds.startPhaseAccumulator(true); ISR(ADC_vect) { if(false){ static unsigned char tcnt = 0; TIFR1 = _BV(ICF1); // Clear the timer flag if(++tcnt == 4) { tcnt = 0; } dds.clockTick(); } }