HamShield/examples/Morse/Morse.ino

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/* Hamshield
* Example: Morse Code Transceiver
*
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* Serial to Morse transceiver. Sends characters from the Serial
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* port over the air, and vice versa.
* 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. After uploading
* this program to your Arduino, open the Serial Monitor to
* monitor the status of the beacon. To test, set a HandyTalkie
* to 438MHz. You should hear the message " CALLSIGN HAMSHIELD"
* in morse code.
*/
#define DDS_REFCLK_DEFAULT 9600
#include <HamShield.h>
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#define MIC_PIN 3
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#define RESET_PIN A3
#define SWITCH_PIN 2
#define MORSE_FREQ 600
#define MORSE_DOT 100 // ms
// Note that all timing is defined in terms of MORSE_DOT relative durations
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// You may want to tweak those timings below
#define SYMBOL_END_TIME 5 //millis
#define CHAR_END_TIME (MORSE_DOT*2.3)
#define MESSAGE_END_TIME (MORSE_DOT*15)
#define MIN_DOT_TIME (MORSE_DOT*0.7)
#define MAX_DOT_TIME (MORSE_DOT*1.3)
#define MIN_DASH_TIME (MORSE_DOT*2.7)
#define MAX_DASH_TIME (MORSE_DOT*3.3)
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HamShield radio;
uint32_t last_tone_check; // track how often we check for morse tones
uint32_t tone_in_progress; // track how long the current tone lasts
uint32_t space_in_progress; // track how long since the last tone
uint8_t rx_morse_char;
uint8_t rx_morse_bit;
char rx_msg[128];
uint8_t rx_idx;
// Run our start up things here
void setup() {
// NOTE: if not using PWM out, it should be held low to avoid tx noise
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pinMode(MIC_PIN, OUTPUT);
digitalWrite(MIC_PIN, LOW);
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// prep the switch
pinMode(SWITCH_PIN, INPUT_PULLUP);
// set up the reset control pin
pinMode(RESET_PIN, OUTPUT);
digitalWrite(RESET_PIN, HIGH);
delay(5); // wait for device to come up
// Set up the serial port at 9600 Baud
Serial.begin(9600);
// Send a quick serial string
Serial.println("HamShield Morse Example Sketch");
Serial.print("Radio status: ");
int result = radio.testConnection();
Serial.println(result,DEC);
// Tell the HamShield to start up
radio.initialize();
// Set the transmit power level (0-8)
radio.setRfPower(0);
// Set the morse code characteristics
radio.setMorseFreq(MORSE_FREQ);
radio.setMorseDotMillis(MORSE_DOT);
radio.lookForTone(MORSE_FREQ);
// Configure the HamShield to operate on 438.000MHz
radio.frequency((uint32_t) 438000);
radio.setModeReceive();
Serial.println("Radio Configured.");
last_tone_check = millis();
space_in_progress = 0; // haven't checked yet
tone_in_progress = 0; // not currently listening to a tone
rx_morse_char = 0; // haven't found any tones yet
rx_idx = 0;
rx_morse_bit = 1;
}
void loop() {
// are we receiving anything
if (radio.toneDetected()) {
space_in_progress = 0;
if (tone_in_progress == 0) {
// start a new tone
tone_in_progress = millis();
}
} else {
// keep track of how long the silence is
if (space_in_progress == 0) space_in_progress = millis();
// we wait for a bit of silence before ending the last
// symbol in order to smooth out the detector
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if ((millis() - space_in_progress) > SYMBOL_END_TIME)
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{
if (tone_in_progress != 0) {
// end the last tone
uint16_t tone_time = millis() - tone_in_progress;
tone_in_progress = 0;
handleTone(tone_time);
}
}
// we might be done with a character if the space is long enough
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if ((millis() - space_in_progress) > CHAR_END_TIME) {
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char m = parseMorse();
if (m != 0) {
rx_msg[rx_idx++] = m;
}
}
// we might be done with a message if the space is long enough
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if ((millis() - space_in_progress) > MESSAGE_END_TIME) {
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if (rx_idx > 0) {
// we got a message, print it now
rx_msg[rx_idx] = '\0'; // null terminate
Serial.println(rx_msg);
rx_idx = 0; // reset message buffer
}
rx_morse_char = 0;
rx_morse_bit = 1;
}
}
// should we send anything
if (Serial.available()) {
Serial.println("checking channel");
// We'll wait up to 30 seconds for a clear channel, requiring that the channel is clear for 2 seconds before we transmit
if (radio.waitForChannel(30000,2000,-5)) {
// If we get here, the channel is clear.
// Start transmitting by putting the radio into transmit mode.
radio.setModeTransmit();
unsigned int MORSE_BUF_SIZE = 128;
char morse_buf[MORSE_BUF_SIZE];
unsigned int morse_idx;
morse_buf[morse_idx++] = ' '; // start with space to let PA come up
while (Serial.available() && morse_idx < MORSE_BUF_SIZE) {
morse_buf[morse_idx++] = Serial.read();
}
morse_buf[morse_idx] = '\0'; // null terminate
// Send a message out in morse code
radio.morseOut(morse_buf);
// We're done sending the message, set the radio back into recieve mode.
radio.setModeReceive();
Serial.println("sent");
} else {
// If we get here, the channel is busy. Let's also print out the RSSI.
Serial.print("The channel was busy. RSSI: ");
Serial.println(radio.readRSSI());
}
}
}
void handleTone(uint16_t tone_time) {
//Serial.println(tone_time);
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if (tone_time > MIN_DOT_TIME && tone_time < MAX_DOT_TIME) {
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// add a dot
//Serial.print(".");
//nothing to do for this bit position, since . = 0
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} else if (tone_time > MIN_DASH_TIME && tone_time < MAX_DASH_TIME) {
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// add a dash
//Serial.print("-");
rx_morse_char += rx_morse_bit;
}
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// prep for the next bit
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rx_morse_bit = rx_morse_bit << 1;
}
char parseMorse() {
// if morse_char is a valid morse character, return the character
// if morse_char is an invalid (incomplete) morse character, return 0
//if (rx_morse_bit != 1) Serial.println(rx_morse_char, BIN);
rx_morse_char += rx_morse_bit; // add the terminator bit
// if we got a char, then print it
char c = radio.morseReverseLookup(rx_morse_char);
rx_morse_char = 0;
rx_morse_bit = 1;
return c;
}
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