/* SerialTransceiver is TTL Serial port "glue" to allow desktop or laptop control of the HAMShield Commands: Mode ASCII Description Implemented -------------- ----------- -------------------------------------------------------------------------------------------------------------------------------------------- ----------------- Transmit space Space must be received at least every 500 mS Yes Receive not space If space is not received and/or 500 mS timeout of space occurs, unit will go into receive mode Yes CTCSS In A; must be a numerical ascii value with decimal point indicating CTCSS receive tone required to unsquelch No CTCSS Out B; must be a numerical ascii value with decimal point indicating CTCSS transmit tone No CTCSS Enable C; Turns on CTCSS mode (analog tone) with 1, off with 0. No CDCSS Enable D; Turns on CDCSS mode (digital tone) with 1, off with 0. No Bandwidth E; for 12.5KHz mode is 0, for 25KHz, mode is 1 No Frequency F; Set the receive frequency in KHz, if offset is disabled, this is the transmit frequency No CDCSS In G; must be a valid CDCSS code No CDCSS Out H; must be a valid CDCSS code No Print tones I Prints out all configured tones and codes, coma delimited in format: CTCSS In, CTCSS Out, CDCSS In, CDCSS Out No Morse Out M; A small buffer for morse code (32 chars) Power level P; Set the power amp level, 0 = lowest, 15 = highest No Enable Offset R; 1 turns on repeater offset mode, 0 turns off repeater offset mode No Squelch S; Set the squelch level No TX Offset T; The absolute frequency of the repeater offset to transmit on in KHz No Volume V; Set the volume level of the receiver No Reset X Reset all settings to default No Sleep Z Sleep radio No Filters @; Set bit to enable, clear bit to disable: 0 = pre/de-emphasis, 1 = high pass filter, 2 = low pass filter (default: ascii 7, all enabled) No Vox mode $; 0 = vox off, >= 1 audio sensitivity. lower value more sensitive No Mic Channel *; Set the voice channel. 0 = signal from mic or arduino, 1 = internal tone generator No RSSI ? Respond with the current receive level in - dBm (no sign provided on numerical response) No Tone Gen % (notes) To send a tone, use the following format: Single tone: %1,,; Dual tone: %2,,,; DTMF: %3,,; No Voice Level ^ Respond with the current voice level (VSSI) Responses: Condition ASCII Description ------------ ---------- ----------------------------------------------------------------- Startup *; Startup and shield connection status Success !; Generic success message for command that returns no value Error X; Indicates an error code. The numerical value is the type of error Value :; In response to a query Status #; Unsolicited status message Debug Msg @; 32 character debug message */ #include "Wire.h" #include "HamShield.h" int state; int txcount = 0; long timer = 0; long freq = 144390; long tx = 0; char cmdbuff[32] = ""; int temp = 0; int repeater = 0; float ctcssin = 0; float ctcssout = 0; int cdcssin = 0; int cdcssout = 0; HamShield radio; void setup() { Serial.begin(115200); Serial.print(";;;;;;;;;;;;;;;;;;;;;;;;;;"); Wire.begin(); int result = radio.testConnection(); Serial.print("*"); Serial.print(result,DEC); Serial.print(";"); radio.initialize(); // initializes automatically for UHF 12.5kHz channel Serial.print("*START;"); radio.frequency(freq); radio.setVolume1(0xF); radio.setVolume2(0xF); radio.setModeReceive(); radio.setTxSourceMic(); radio.setRfPower(9); radio.setSQLoThresh(80); radio.setSQOn(); } void loop() { if(Serial.available()) { int text = Serial.read(); switch (state) { case 10: if(text == 32) { timer = millis();} break; case 0: switch(text) { case 32: // space - transmit if(repeater == 1) { radio.frequency(tx); } radio.setModeTransmit(); state = 10; Serial.print("#TX,ON;"); timer = millis(); break; case 63: // ? - RSSI Serial.print(":"); Serial.print(radio.readRSSI(),DEC); Serial.print(";"); break; case 65: // A - CTCSS In getValue(); ctcssin = atof(cmdbuff); radio.setCtcss(ctcssin); break; case 66: // B - CTCSS Out break; case 67: // C - CTCSS Enable break; case 68: // D - CDCSS Enable break; case 70: // F - frequency getValue(); freq = atol(cmdbuff); if(radio.frequency(freq) == true) { Serial.print("@"); Serial.print(freq,DEC); Serial.print(";!;"); } else { Serial.print("X1;"); } break; case 'M': getValue(); radio.setModeTransmit(); delay(300); radio.morseOut(cmdbuff); state = 10; break; case 80: // P - power level getValue(); temp = atol(cmdbuff); radio.setRfPower(temp); break; case 82: // R - repeater offset mode getValue(); temp = atol(cmdbuff); if(temp == 0) { repeater = 0; } if(temp == 1) { repeater = 1; } break; case 83: // S - squelch getValue(); temp = atol(cmdbuff); radio.setSQLoThresh(temp); break; case 84: // T - transmit offset getValue(); tx = atol(cmdbuff); break; case 94: // ^ - VSSI (voice) level Serial.print(":"); Serial.print(radio.readVSSI(),DEC); Serial.print(";"); } break; } } if(state == 10) { if(millis() > (timer + 500)) { Serial.print("#TX,OFF;");radio.setModeReceive(); if(repeater == 1) { radio.frequency(freq); } state = 0; txcount = 0; } } } void getValue() { int p = 0; char temp; for(;;) { if(Serial.available()) { temp = Serial.read(); if(temp == 59) { cmdbuff[p] = 0; Serial.print("@"); for(int x = 0; x < 32; x++) { Serial.print(cmdbuff[x]); } return; } cmdbuff[p] = temp; p++; if(p == 32) { Serial.print("@"); for(int x = 0; x < 32; x++) { Serial.print(cmdbuff[x]); } cmdbuff[0] = 0; Serial.print("X0;"); return; } // some sort of alignment issue? lets not feed junk into whatever takes this string in } } }