151 lines
3.8 KiB
C++
151 lines
3.8 KiB
C++
/* Hamshield
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* Example: HandyTalkie
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* This is a simple example to demonstrate HamShield receive
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* and transmit functionality.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Plug a pair of headphones into
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* the HamShield. Connect the Arduino to wall power and then
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* to your computer via USB. After uploading this program to
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* your Arduino, open the Serial Monitor. Press the button on
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* the HamShield to begin setup. After setup is complete, type
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* your desired Tx/Rx frequency, in hertz, into the bar at the
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* top of the Serial Monitor and click the "Send" button.
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* To test with another HandyTalkie (HT), key up on your HT
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* and make sure you can hear it through the headphones
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* attached to the HamShield. Key up on the HamShield by
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* holding the button.
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*/
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#include <HamShield.h>
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// create object for radio
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HamShield radio;
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// To use non-standard pins, use the following initialization
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//HamShield radio(ncs_pin, clk_pin, dat_pin);
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#define LED_PIN 13
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#define RSSI_REPORT_RATE_MS 5000
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#define MIC_PIN 3
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#define RESET_PIN A3
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#define SWITCH_PIN 2
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bool blinkState = false;
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bool currently_tx;
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uint32_t freq;
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unsigned long rssi_timeout;
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void setup() {
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// NOTE: if not using PWM out, it should be held low to avoid tx noise
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pinMode(MIC_PIN, OUTPUT);
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digitalWrite(MIC_PIN, LOW);
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// prep the switch
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pinMode(SWITCH_PIN, INPUT_PULLUP);
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// set up the reset control pin
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pinMode(RESET_PIN, OUTPUT);
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digitalWrite(RESET_PIN, LOW);
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// initialize serial communication
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Serial.begin(9600);
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Serial.println("press the switch or send any character to begin...");
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while (digitalRead(SWITCH_PIN) && !Serial.available());
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Serial.read(); // flush
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// let the AU ot of reset
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digitalWrite(RESET_PIN, HIGH);
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delay(5); // wait for device to come up
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Serial.println("beginning radio setup");
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// verify connection
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Serial.println("Testing device connections...");
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Serial.println(radio.testConnection() ? "radio connection successful" : "radio connection failed");
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// initialize device
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Serial.println("Initializing radio device...");
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radio.initialize(); // initializes automatically for UHF 12.5kHz channel
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Serial.println("setting default Radio configuration");
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// set frequency
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Serial.println("changing frequency");
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radio.setSQOff();
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freq = 432100; // 70cm calling frequency
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radio.frequency(freq);
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// set to receive
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radio.setModeReceive();
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currently_tx = false;
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Serial.print("config register is: ");
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Serial.println(radio.readCtlReg());
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Serial.println(radio.readRSSI());
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/*
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// set to transmit
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radio.setModeTransmit();
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// maybe set PA bias voltage
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Serial.println("configured for transmit");
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radio.setTxSourceMic();
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*/
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radio.setRfPower(0);
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// configure Arduino LED for
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pinMode(LED_PIN, OUTPUT);
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rssi_timeout = 0;
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}
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void loop() {
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if (!digitalRead(SWITCH_PIN))
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{
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if (!currently_tx)
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{
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currently_tx = true;
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// set to transmit
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radio.setModeTransmit();
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Serial.println("Tx");
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//radio.setTxSourceMic();
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//radio.setRfPower(1);
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}
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} else if (currently_tx) {
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radio.setModeReceive();
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currently_tx = false;
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Serial.println("Rx");
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}
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if (Serial.available()) {
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if (Serial.peek() == 'r') {
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Serial.read();
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digitalWrite(RESET_PIN, LOW);
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delay(1000);
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digitalWrite(RESET_PIN, HIGH);
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radio.initialize(); // initializes automatically for UHF 12.5kHz channel
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} else {
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Serial.setTimeout(40);
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freq = Serial.parseInt();
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Serial.flush();
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radio.frequency(freq);
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Serial.print("set frequency: ");
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Serial.println(freq);
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}
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}
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if (!currently_tx && (millis() - rssi_timeout) > RSSI_REPORT_RATE_MS)
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{
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Serial.println(radio.readRSSI());
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rssi_timeout = millis();
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}
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}
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