ubitx-v5d/ubitx_20/ubitx_menu.ino

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/** Menus
* The Radio menus are accessed by tapping on the function button.
* - The main loop() constantly looks for a button press and calls doMenu() when it detects
* a function button press.
* - As the encoder is rotated, at every 10th pulse, the next or the previous menu
* item is displayed. Each menu item is controlled by it's own function.
* - Eache menu function may be called to display itself
* - Each of these menu routines is called with a button parameter.
* - The btn flag denotes if the menu itme was clicked on or not.
* - If the menu item is clicked on, then it is selected,
* - If the menu item is NOT clicked on, then the menu's prompt is to be displayed
*/
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#define printLineF1(x) (printLineF(1, x))
#define printLineF2(x) (printLineF(0, x))
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void menuBand(int btn){
int knob = 0;
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int stepChangeCount = 0;
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byte btnPressCount = 0;
if (!btn){
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printLineF2(F("Band Select?"));
return;
}
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printLineF2(F("Press to confirm"));
//wait for the button menu select button to be lifted)
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while (btnDown()) {
delay(50);
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Check_Cat(0); //To prevent disconnections
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if (btnPressCount++ > 20) {
btnPressCount = 0;
if (tuneTXType > 0) { //Just toggle 0 <-> 2, if tuneTXType is 100, 100 -> 0 -> 2
tuneTXType = 0;
printLineF2(F("Full range mode"));
}
else {
tuneTXType = 2;
printLineF2(F("Ham band mode"));
}
delay_background(1000, 0);
printLine2ClearAndUpdate();
printLineF2(F("Press to confirm"));
}
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}
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char currentBandIndex = -1;
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//Save Band Information
if (tuneTXType == 2 || tuneTXType == 3 || tuneTXType == 102 || tuneTXType == 103) { //only ham band move
//Get Now Band Index
currentBandIndex = getIndexHambanBbyFreq(frequency);
if (currentBandIndex >= 0) {
//Save Frequency to Band Frequncy Record
saveBandFreqByIndex(frequency, modeToByte(), currentBandIndex);
}
}
delay(50);
ritDisable();
while(!btnDown()){
knob = enc_read();
if (knob != 0){
/*
if (band > 3 && knob < 0)
band--;
if (band < 30 && knob > 0)
band++;
if (band > 10)
isUSB = true;
else
isUSB = false;
setFrequency(((unsigned long)band * 1000000l) + offset); */
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if (tuneTXType == 2 || tuneTXType == 3 || tuneTXType == 102 || tuneTXType == 103) { //only ham band move
if (knob < 0) {
if (stepChangeCount-- < -3) {
setNextHamBandFreq(frequency, -1); //Prior Band
stepChangeCount = 0;
}
}
else if (knob > 0) {
if (stepChangeCount++ > 3) {
setNextHamBandFreq(frequency, 1); //Next Band
stepChangeCount = 0;
}
}
}
else { //original source
if (knob < 0 && frequency > 3000000l)
setFrequency(frequency - 200000l);
if (knob > 0 && frequency < 30000000l)
setFrequency(frequency + 200000l);
if (frequency > 10000000l)
isUSB = true;
else
isUSB = false;
}
updateDisplay();
}
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delay(20);
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Check_Cat(0); //To prevent disconnections
}
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while(btnDown()) {
delay(50);
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Check_Cat(0); //To prevent disconnections
}
delay(50);
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printLine2ClearAndUpdate();
menuOn = 0;
}
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//0: default, 1:not use, 2:LSB, 3:USB, 4:CW, 5:AM, 6:FM
byte modeToByte(){
if (isUSB)
return 3;
else
return 2;
}
void byteToMode(byte modeValue){
if (modeValue == 3)
isUSB = 1;
else
isUSB = 0;
}
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void byteWithFreqToMode(byte modeValue){
if (modeValue == 3)
isUSB = 1;
else if (modeValue == 0) //Not Set
isUSB = (frequency > 10000000l) ? true : false;
else
isUSB = 0;
}
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void menuVfoToggle(int btn, char isUseDelayTime)
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{
if (!btn){
if (vfoActive == VFO_A)
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printLineF2(F("Select VFO B?"));
else
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printLineF2(F("Select VFO A?"));
}
else {
if (vfoActive == VFO_B){
vfoB = frequency;
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vfoB_mode = modeToByte();
storeFrequencyAndMode(2); //vfoB -> eeprom
vfoActive = VFO_A;
frequency = vfoA;
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saveCheckFreq = frequency;
byteToMode(vfoA_mode);
printLineF2(F("Selected VFO A"));
}
else {
vfoA = frequency;
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vfoA_mode = modeToByte();
storeFrequencyAndMode(1); //vfoA -> eeprom
vfoActive = VFO_B;
frequency = vfoB;
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saveCheckFreq = frequency;
byteToMode(vfoB_mode);
printLineF2(F("Selected VFO B"));
}
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ritDisable();
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if (isUseDelayTime == 1) //Found Issue in wsjt-x Linux 32bit
delay_background(500, 0);
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printLine2ClearAndUpdate();
//exit the menu
menuOn = 0;
}
}
void menuRitToggle(int btn){
if (!btn){
if (ritOn == 1)
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printLineF2(F("RIT:On, Off?"));
else
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printLineF2(F("RIT:Off, On?"));
}
else {
if (ritOn == 0){
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printLineF2(F("RIT is ON"));
//enable RIT so the current frequency is used at transmit
ritEnable(frequency);
}
else{
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printLineF2(F("RIT is OFF"));
ritDisable();
}
menuOn = 0;
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delay_background(500, 0);
printLine2ClearAndUpdate();
}
}
void menuSidebandToggle(int btn){
if (!btn){
if (isUSB == true)
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printLineF2(F("Select LSB?"));
else
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printLineF2(F("Select USB?"));
}
else {
if (isUSB == true){
isUSB = false;
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printLineF2(F("LSB Selected"));
}
else {
isUSB = true;
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printLineF2(F("USB Selected"));
}
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setFrequency(frequency);
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
}
}
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void menuTxOnOff(int btn, byte optionType){
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if (!btn){
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if ((isTxType & optionType) == 0)
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printLineF2(F("TX OFF?"));
else
printLineF2(F("TX ON?"));
}
else {
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if ((isTxType & optionType) == 0){
isTxType |= optionType;
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printLineF2(F("TX OFF!"));
}
else {
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isTxType &= ~(optionType);
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printLineF2(F("TX ON!"));
}
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
}
}
/**
* The calibration routines are not normally shown in the menu as they are rarely used
* They can be enabled by choosing this menu option
*/
void menuSetup(int btn){
if (!btn){
if (!modeCalibrate)
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printLineF2(F("Setup On?"));
else
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printLineF2(F("Setup Off?"));
}else {
if (!modeCalibrate){
modeCalibrate = true;
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printLineF2(F("Setup:On"));
}
else {
modeCalibrate = false;
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printLineF2(F("Setup:Off"));
}
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delay_background(2000, 0);
printLine2Clear();
menuOn = 0;
}
}
void menuExit(int btn){
if (!btn){
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printLineF2(F("Exit Menu?"));
}
else{
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printLine2ClearAndUpdate();
menuOn = 0;
}
}
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void menuCWSpeed(int btn){
int knob = 0;
int wpm;
wpm = 1200/cwSpeed;
if (!btn){
strcpy(b, "CW:");
itoa(wpm,c, 10);
strcat(b, c);
strcat(b, "WPM Change?");
printLine2(b);
return;
}
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printLineF1(F("Press PTT to set"));
strcpy(b, "WPM:");
itoa(wpm,c, 10);
strcat(b, c);
printLine2(b);
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delay_background(300, 0);
while(!btnDown() && digitalRead(PTT) == HIGH){
knob = enc_read();
if (knob != 0){
if (wpm > 3 && knob < 0)
wpm--;
if (wpm < 50 && knob > 0)
wpm++;
strcpy(b, "WPM:");
itoa(wpm,c, 10);
strcat(b, c);
printLine2(b);
}
//abort if this button is down
if (btnDown())
//re-enable the clock1 and clock 2
break;
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Check_Cat(0); //To prevent disconnections
}
//save the setting
if (digitalRead(PTT) == LOW){
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printLineF2(F("CW Speed set!"));
cwSpeed = 1200/wpm;
EEPROM.put(CW_SPEED, cwSpeed);
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delay_background(2000, 0);
}
printLine2ClearAndUpdate();
menuOn = 0;
}
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void menuCWAutoKey(int btn){
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if (!btn){
printLineF2(F("CW AutoKey Mode?"));
return;
}
//Check CW_AUTO_MAGIC_KEY and CW Text Count
EEPROM.get(CW_AUTO_COUNT, cwAutoTextCount);
if (EEPROM.read(CW_AUTO_MAGIC_KEY) != 0x73 || cwAutoTextCount < 1)
{
printLineF2(F("Empty CW data"));
delay_background(2000, 0);
return;
}
printLineF1(F("Press PTT to Send"));
delay_background(500, 0);
updateDisplay();
beforeCWTextIndex = 255; //255 value is for start check
isCWAutoMode = 1;
menuOn = 0;
}
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void menuSetupCwDelay(int btn){
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int knob = 0;
int tmpCWDelay = cwDelayTime * 10;
if (!btn){
strcpy(b, "CW TX->RX Delay");
printLine2(b);
return;
}
printLineF1(F("Press PTT to set"));
strcpy(b, "DELAY:");
itoa(tmpCWDelay,c, 10);
strcat(b, c);
printLine2(b);
delay_background(300, 0);
while(!btnDown() && digitalRead(PTT) == HIGH){
knob = enc_read();
if (knob != 0){
if (tmpCWDelay > 3 && knob < 0)
tmpCWDelay -= 10;
if (tmpCWDelay < 2500 && knob > 0)
tmpCWDelay += 10;
strcpy(b, "DELAY:");
itoa(tmpCWDelay,c, 10);
strcat(b, c);
printLine2(b);
}
//abort if this button is down
if (btnDown())
break;
Check_Cat(0); //To prevent disconnections
}
//save the setting
if (digitalRead(PTT) == LOW){
printLineF2(F("CW Delay set!"));
cwDelayTime = tmpCWDelay / 10;
EEPROM.put(CW_DELAY, cwDelayTime);
delay_background(2000, 0);
}
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printLine2ClearAndUpdate();
menuOn = 0;
}
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void menuSetupTXCWInterval(int btn){
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int knob = 0;
int tmpTXCWInterval = delayBeforeCWStartTime * 2;
if (!btn){
strcpy(b, "CW Start Delay");
printLine2(b);
return;
}
printLineF1(F("Press PTT to set"));
strcpy(b, "Start Delay:");
itoa(tmpTXCWInterval,c, 10);
strcat(b, c);
printLine2(b);
delay_background(300, 0);
while(!btnDown() && digitalRead(PTT) == HIGH){
knob = enc_read();
if (knob != 0){
if (tmpTXCWInterval > 0 && knob < 0)
tmpTXCWInterval -= 2;
if (tmpTXCWInterval < 500 && knob > 0)
tmpTXCWInterval += 2;
strcpy(b, "Start Delay:");
itoa(tmpTXCWInterval,c, 10);
strcat(b, c);
printLine2(b);
}
//abort if this button is down
if (btnDown())
break;
Check_Cat(0); //To prevent disconnections
}
//save the setting
if (digitalRead(PTT) == LOW){
printLineF2(F("CW Start set!"));
delayBeforeCWStartTime = tmpTXCWInterval / 2;
EEPROM.put(CW_START, delayBeforeCWStartTime);
delay_background(2000, 0);
}
printLine2ClearAndUpdate();
menuOn = 0;
}
/**
* Take a deep breath, math(ematics) ahead
* The 25 mhz oscillator is multiplied by 35 to run the vco at 875 mhz
* This is divided by a number to generate different frequencies.
* If we divide it by 875, we will get 1 mhz signal
* So, if the vco is shifted up by 875 hz, the generated frequency of 1 mhz is shifted by 1 hz (875/875)
* At 12 Mhz, the carrier will needed to be shifted down by 12 hz for every 875 hz of shift up of the vco
*
*/
//this is used by the si5351 routines in the ubitx_5351 file
extern int32_t calibration;
extern uint32_t si5351bx_vcoa;
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void factoryCalibration(int btn){
int knob = 0;
//keep clear of any previous button press
while (btnDown())
delay(100);
delay(100);
if (!btn){
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printLineF2(F("Set Calibration?"));
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return;
}
calibration = 0;
isUSB = true;
//turn off the second local oscillator and the bfo
si5351_set_calibration(calibration);
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startTx(TX_CW, 1);
si5351bx_setfreq(2, 10000000l);
strcpy(b, "#1 10 MHz cal:");
ltoa(calibration/8750, c, 10);
strcat(b, c);
printLine2(b);
while (!btnDown())
{
if (digitalRead(PTT) == LOW && !keyDown)
cwKeydown();
if (digitalRead(PTT) == HIGH && keyDown)
cwKeyUp();
knob = enc_read();
if (knob > 0)
calibration += 875;
else if (knob < 0)
calibration -= 875;
else
continue; //don't update the frequency or the display
si5351_set_calibration(calibration);
si5351bx_setfreq(2, 10000000l);
strcpy(b, "#1 10 MHz cal:");
ltoa(calibration/8750, c, 10);
strcat(b, c);
printLine2(b);
}
cwTimeout = 0;
keyDown = 0;
stopTx();
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printLineF2(F("Calibration set!"));
EEPROM.put(MASTER_CAL, calibration);
initOscillators();
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setFrequency(frequency);
updateDisplay();
while(btnDown())
delay(50);
delay(100);
}
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void menuSetupCalibration(int btn){
int knob = 0;
int32_t prev_calibration;
if (!btn){
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printLineF2(F("Set Calibration?"));
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return;
}
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printLineF1(F("Set to Zero-beat,"));
printLineF2(F("press PTT to save"));
delay_background(1000, 0);
prev_calibration = calibration;
calibration = 0;
si5351_set_calibration(calibration);
setFrequency(frequency);
strcpy(b, "cal:");
ltoa(calibration/8750, c, 10);
strcat(b, c);
printLine2(b);
while (digitalRead(PTT) == HIGH && !btnDown())
{
knob = enc_read();
if (knob > 0){
calibration += 8750;
usbCarrier += 120;
}
else if (knob < 0){
calibration -= 8750;
usbCarrier -= 120;
}
else
continue; //don't update the frequency or the display
si5351_set_calibration(calibration);
si5351bx_setfreq(0, usbCarrier);
setFrequency(frequency);
strcpy(b, "cal:");
ltoa(calibration/8750, c, 10);
strcat(b, c);
printLine2(b);
}
//save the setting
if (digitalRead(PTT) == LOW){
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printLineF1(F("Calibration set!"));
printLineF2(F("Set Carrier now"));
EEPROM.put(MASTER_CAL, calibration);
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delay_background(2000, 0);
}
else
calibration = prev_calibration;
initOscillators();
//si5351_set_calibration(calibration);
setFrequency(frequency);
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printLine2ClearAndUpdate();
menuOn = 0;
}
void printCarrierFreq(unsigned long freq){
memset(c, 0, sizeof(c));
memset(b, 0, sizeof(b));
ultoa(freq, b, DEC);
strncat(c, b, 2);
strcat(c, ".");
strncat(c, &b[2], 3);
strcat(c, ".");
strncat(c, &b[5], 1);
printLine2(c);
}
void menuSetupCarrier(int btn){
int knob = 0;
unsigned long prevCarrier;
if (!btn){
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printLineF2(F("Set the BFO"));
return;
}
prevCarrier = usbCarrier;
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printLineF1(F("Tune to best Signal"));
printLineF1(F("PTT to confirm. "));
delay_background(1000, 0);
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//usbCarrier = 11995000l; //Remarked by KD8CEC, Suggest from many user, if entry routine factoryrest
si5351bx_setfreq(0, usbCarrier);
printCarrierFreq(usbCarrier);
//disable all clock 1 and clock 2
while (digitalRead(PTT) == HIGH && !btnDown())
{
knob = enc_read();
if (knob > 0)
usbCarrier -= 50;
else if (knob < 0)
usbCarrier += 50;
else
continue; //don't update the frequency or the display
si5351bx_setfreq(0, usbCarrier);
printCarrierFreq(usbCarrier);
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Check_Cat(0); //To prevent disconnections
delay(100);
}
//save the setting
if (digitalRead(PTT) == LOW){
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printLineF2(F("Carrier set!"));
EEPROM.put(USB_CAL, usbCarrier);
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delay_background(1000, 0);
}
else
usbCarrier = prevCarrier;
si5351bx_setfreq(0, usbCarrier);
setFrequency(frequency);
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printLine2ClearAndUpdate();
menuOn = 0;
}
void menuSetupCwTone(int btn){
int knob = 0;
int prev_sideTone;
if (!btn){
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printLineF2(F("Change CW Tone"));
return;
}
prev_sideTone = sideTone;
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printLineF1(F("Tune CW tone"));
printLineF2(F("PTT to confirm."));
delay_background(1000, 0);
tone(CW_TONE, sideTone);
//disable all clock 1 and clock 2
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while (digitalRead(PTT) == HIGH && !btnDown())
{
knob = enc_read();
if (knob > 0 && sideTone < 2000)
sideTone += 10;
else if (knob < 0 && sideTone > 100 )
sideTone -= 10;
else
continue; //don't update the frequency or the display
tone(CW_TONE, sideTone);
itoa(sideTone, b, 10);
printLine2(b);
delay(100);
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Check_Cat(0); //To prevent disconnections
}
noTone(CW_TONE);
//save the setting
if (digitalRead(PTT) == LOW){
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printLineF2(F("Sidetone set!"));
EEPROM.put(CW_SIDETONE, usbCarrier);
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delay_background(2000, 0);
}
else
sideTone = prev_sideTone;
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printLine2ClearAndUpdate();
menuOn = 0;
}
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void setDialLock(byte tmpLock, byte fromMode) {
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if (tmpLock == 1)
isDialLock |= (vfoActive == VFO_A ? 0x01 : 0x02);
else
isDialLock &= ~(vfoActive == VFO_A ? 0x01 : 0x02);
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if (fromMode == 2 || fromMode == 3) return;
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if (tmpLock == 1)
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printLineF2(F("Dial Lock ON"));
else
printLineF2(F("Dial Lock OFF"));
delay_background(1000, 0);
printLine2ClearAndUpdate();
}
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unsigned int btnDownTimeCount;
#define PRESS_ADJUST_TUNE 1000
#define PRESS_LOCK_CONTROL 2000
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void doMenu(){
int select=0, i,btnState;
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char isNeedDisplay = 0;
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//for DialLock On/Off function
btnDownTimeCount = 0;
//wait for the button to be raised up
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//Appened Lines by KD8CEC for Adjust Tune step and Set Dial lock
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while(btnDown()){
delay(50);
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Check_Cat(0); //To prevent disconnections
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if (btnDownTimeCount++ == (PRESS_ADJUST_TUNE / 50)) { //Set Tune Step
printLineF2(F("Set Tune Step?"));
}
else if (btnDownTimeCount > (PRESS_LOCK_CONTROL / 50)) { //check long time Down Button -> 2.5 Second => Lock
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if (vfoActive == VFO_A)
setDialLock((isDialLock & 0x01) == 0x01 ? 0 : 1, 0); //Reverse Dial lock
else
setDialLock((isDialLock & 0x02) == 0x02 ? 0 : 1, 0); //Reverse Dial lock
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return;
}
}
delay(50); //debounce
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//ADJUST TUNE STEP
if (btnDownTimeCount > (PRESS_ADJUST_TUNE / 50))
{
printLineF1(F("Press Key to set"));
isNeedDisplay = 1; //check to need display for display current value
while (digitalRead(PTT) == HIGH && !btnDown())
{
Check_Cat(0); //To prevent disconnections
delay(50); //debounce
if (isNeedDisplay) {
strcpy(b, "Tune Step:");
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itoa(arTuneStep[tuneStepIndex -1], c, 10);
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strcat(b, c);
printLine2(b);
isNeedDisplay = 0;
}
i = enc_read();
if (i != 0) {
select += (i > 0 ? 1 : -1);
if (select * select >= 25) { //Threshold 5 * 5 = 25
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if (select < 0) {
if (tuneStepIndex > 1)
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tuneStepIndex--;
}
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else {
if (tuneStepIndex < 5)
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tuneStepIndex++;
}
select = 0;
isNeedDisplay = 1;
}
}
} //end of while
printLineF2(F("Changed Step!"));
//SAVE EEPROM
EEPROM.put(TUNING_STEP, tuneStepIndex);
delay_background(500, 0);
printLine2ClearAndUpdate();
return;
} //set tune step
//Below codes are origial code with modified by KD8CEC
//Select menu
menuOn = 2;
while (menuOn){
i = enc_read();
btnState = btnDown();
if (i > 0){
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if (modeCalibrate && select + i < 150)
select += i;
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if (!modeCalibrate && select + i < 80)
select += i;
}
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//if (i < 0 && select - i >= 0)
if (i < 0 && select - i >= -10)
select += i; //caught ya, i is already -ve here, so you add it
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if (select < -5)
menuExit(btnState);
else if (select < 10)
menuBand(btnState);
else if (select < 20)
menuRitToggle(btnState);
else if (select < 30)
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menuVfoToggle(btnState, 1);
else if (select < 40)
menuSidebandToggle(btnState);
else if (select < 50)
menuCWSpeed(btnState);
else if (select < 60)
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menuCWAutoKey(btnState);
else if (select < 70)
menuSetup(btnState);
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else if (select < 80 && !modeCalibrate)
menuExit(btnState);
else if (select < 90 && modeCalibrate)
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menuSetupCalibration(btnState); //crystal
else if (select < 100 && modeCalibrate)
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menuSetupCarrier(btnState); //lsb
else if (select < 110 && modeCalibrate)
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menuSetupCwTone(btnState);
else if (select < 120 && modeCalibrate)
menuSetupCwDelay(btnState);
else if (select < 130 && modeCalibrate)
menuSetupTXCWInterval(btnState);
else if (select < 140 && modeCalibrate)
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menuTxOnOff(btnState, 0x01); //TX OFF / ON
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else if (select < 150 && modeCalibrate)
menuExit(btnState);
Check_Cat(0); //To prevent disconnections
}
//debounce the button
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while(btnDown()){
delay(50);
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Check_Cat(0); //To prevent disconnections
}
delay(50);
}