Optimized from Version1.03
This commit is contained in:
parent
bf68dd6c26
commit
fb2c9d2cc3
@ -408,7 +408,6 @@ void saveBandFreqByIndex(unsigned long f, unsigned long mode, char bandIndex) {
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When the delay is used, the program will generate an error because it is not communicating,
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so Create a new delay function that can do background processing.
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*/
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unsigned long delayBeforeTime = 0;
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byte delay_background(unsigned delayTime, byte fromType){ //fromType : 4 autoCWKey -> Check Paddle
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delayBeforeTime = millis();
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@ -526,7 +525,6 @@ void setFrequency(unsigned long f){
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* put the uBitx in tx mode. It takes care of rit settings, sideband settings
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* Note: In cw mode, doesnt key the radio, only puts it in tx mode
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*/
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void startTx(byte txMode, byte isDisplayUpdate){
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//Check Hamband only TX //Not found Hamband index by now frequency
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if (tuneTXType >= 100 && getIndexHambanBbyFreq(ritOn ? ritTxFrequency : frequency) == -1) {
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@ -682,7 +680,7 @@ void checkButton(){
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delay(10);
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Check_Cat(0);
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}
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delay(50);//debounce
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//delay(50);//debounce
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}
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@ -697,7 +695,7 @@ int encodedSumValue = 0;
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unsigned long lastTunetime = 0; //if continous moving, skip threshold processing
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byte lastMovedirection = 0; //0 : stop, 1 : cw, 2 : ccw
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#define skipThresholdTime 100
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//#define skipThresholdTime 70
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#define encodeTimeOut 1000
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void doTuningWithThresHold(){
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@ -726,7 +724,9 @@ void doTuningWithThresHold(){
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encodedSumValue += (s > 0 ? 1 : -1);
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//check threshold and operator actions (hold dial speed = continous moving, skip threshold check)
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if ((lastTunetime < millis() - skipThresholdTime) && ((encodedSumValue * encodedSumValue) <= (threshold * threshold)))
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//not use continues changing by Threshold
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//if ((lastTunetime < (millis() - skipThresholdTime)) && ((encodedSumValue * encodedSumValue) <= (threshold * threshold)))
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if (((encodedSumValue * encodedSumValue) <= (threshold * threshold)))
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return;
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lastTunetime = millis();
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@ -736,7 +736,8 @@ void doTuningWithThresHold(){
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prev_freq = frequency;
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//incdecValue = tuningStep * s;
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frequency += (arTuneStep[tuneStepIndex -1] * s * (s * s < 10 ? 1 : 3)); //appield weight (s is speed)
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//frequency += (arTuneStep[tuneStepIndex -1] * s * (s * s < 10 ? 1 : 3)); //appield weight (s is speed)
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frequency += (arTuneStep[tuneStepIndex -1] * s); //appield weight (s is speed) //if want need more increase size, change step size
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if (prev_freq < 10000000l && frequency > 10000000l)
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isUSB = true;
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@ -757,16 +758,15 @@ void doRIT(){
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if (knob < 0)
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frequency -= (arTuneStep[tuneStepIndex -1]); //
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//frequency -= 100l;
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else if (knob > 0)
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frequency += (arTuneStep[tuneStepIndex -1]); //
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//frequency += 100;
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if (old_freq != frequency){
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setFrequency(frequency);
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updateDisplay();
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}
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}
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/*
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save Frequency and mode to eeprom for Auto Save with protected eeprom cycle, by kd8cec
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*/
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@ -1060,7 +1060,6 @@ void initSettings(){
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}
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void initPorts(){
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analogReference(DEFAULT);
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//??
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@ -1110,7 +1109,7 @@ void setup()
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//Serial.begin(9600);
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lcd.begin(16, 2);
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printLineF(1, F("CECBT v1.03"));
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printLineF(1, F("CECBT v1.04"));
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Init_Cat(38400, SERIAL_8N1);
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initMeter(); //not used in this build
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@ -31,12 +31,15 @@ void updateLine2Buffer(char isDirectCall)
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{
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if (ritOn)
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{
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strcpy(line2Buffer, "RitTX:");
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/*
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line2Buffer[0] = 'R';
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line2Buffer[1] = 'i';
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line2Buffer[2] = 't';
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line2Buffer[3] = 'T';
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line2Buffer[4] = 'X';
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line2Buffer[5] = ':';
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*/
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//display frequency
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tmpFreq = ritTxFrequency;
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@ -61,12 +64,10 @@ void updateLine2Buffer(char isDirectCall)
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if (vfoActive == VFO_B)
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{
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tmpFreq = vfoA;
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//line2Buffer[0] = 'A';
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}
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else
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{
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tmpFreq = vfoB;
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//line2Buffer[0] = 'B';
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}
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// EXAMPLE 1 & 2
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@ -133,16 +134,18 @@ void updateLine2Buffer(char isDirectCall)
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line2Buffer[8] = 'I';
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line2Buffer[9] = 'F';
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if (ifShiftValue == 0)
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{
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//if (ifShiftValue == 0)
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//{
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/*
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line2Buffer[10] = 'S';
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line2Buffer[11] = ':';
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line2Buffer[12] = 'O';
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line2Buffer[13] = 'F';
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line2Buffer[14] = 'F';
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}
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else
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{
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*/
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//}
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//else
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//{
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line2Buffer[10] = ifShiftValue >= 0 ? '+' : 0;
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line2Buffer[11] = 0;
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line2Buffer[12] = ' ';
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@ -151,7 +154,7 @@ void updateLine2Buffer(char isDirectCall)
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memset(b, 0, sizeof(b));
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ltoa(ifShiftValue, b, DEC);
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strncat(line2Buffer, b, 5);
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}
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//}
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if (isDirectCall == 1) //if call by encoder (not scheduler), immediate print value
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printLine2(line2Buffer);
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@ -56,7 +56,7 @@ void menuBand(int btn){
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return;
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}
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printLineF2(F("Press to confirm"));
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//printLineF2(F("Press to confirm"));
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//wait for the button menu select button to be lifted)
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while (btnDown()) {
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delay_background(50, 0);
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@ -72,9 +72,9 @@ void menuBand(int btn){
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}
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delay_background(1000, 0);
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printLine2ClearAndUpdate();
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}
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}
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printLineF2(F("Press to confirm"));
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}
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}
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char currentBandIndex = -1;
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//Save Band Information
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@ -92,7 +92,6 @@ void menuBand(int btn){
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ritDisable();
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while(!btnDown()){
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knob = enc_read();
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if (knob != 0){
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if (tuneTXType == 2 || tuneTXType == 3 || tuneTXType == 102 || tuneTXType == 103) { //only ham band move
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@ -127,17 +126,7 @@ void menuBand(int btn){
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delay_background(20, 0);
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}
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/*
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while(btnDown()) {
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delay(50);
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Check_Cat(0); //To prevent disconnections
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}
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*/
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FrequencyToVFO(1);
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//printLine2ClearAndUpdate();
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//delay_background(500, 0);
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//menuOn = 0;
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menuClearExit(500);
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}
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@ -181,25 +170,6 @@ void byteToMode(byte modeValue, byte autoSetModebyFreq){
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}
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}
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/*
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//Convert Number to Mode by KD8CEC
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void byteWithFreqToMode(byte modeValue){
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if (modeValue == 4)
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cwMode = 1;
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else if (modeValue == 5)
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cwMode = 2;
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else {
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cwMode = 0;
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if (modeValue == 3)
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isUSB = 1;
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else if (modeValue == 0) //Not Set
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isUSB = (frequency > 10000000l) ? true : false;
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else
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isUSB = 0;
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}
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}
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*/
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//IF Shift function, BFO Change like RIT, by KD8CEC
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void menuIFSSetup(int btn){
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int knob = 0;
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@ -212,11 +182,7 @@ void menuIFSSetup(int btn){
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printLineF2(F("IF Shift:Off, On?"));
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}
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else {
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//if (isIFShift == 0){
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//printLineF2(F("IF Shift is ON"));
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//delay_background(500, 0);
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isIFShift = 1;
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//}
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delay_background(500, 0);
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updateLine2Buffer(1);
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@ -255,7 +221,7 @@ void menuIFSSetup(int btn){
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isIFShift = 0;
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printLineF2(F("IF Shift is OFF"));
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setFrequency(frequency);
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delay_background(500, 0);
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delay_background(1500, 0);
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}
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//menuOn = 0;
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@ -343,17 +309,12 @@ void menuSelectMode(int btn){
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si5351bx_setfreq(0, cwmCarrier + (isIFShift ? ifShiftValue : 0)); //set back the carrier oscillator anyway, cw tx switches it off
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setFrequency(frequency);
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//delay_background(500, 0);
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(500);
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}
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}
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//Memory to VFO, VFO to Memory by KD8CEC
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//select between MtoV and VtoM by isMemoryToVfo
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void menuCHMemory(int btn, byte isMemoryToVfo){
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int knob = 0;
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int selectChannel = 0;
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@ -407,10 +368,6 @@ void menuCHMemory(int btn, byte isMemoryToVfo){
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strcat(c, b); //append channel Number;
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strcat(c, " :"); //append channel Number;
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}
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/*
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if (selectChannel < 10)
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printLineFromEEPRom(0, 4, 0, userCallsignLength -1); //eeprom to lcd use offset (USER_CALLSIGN_DAT)
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*/
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//display frequency
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tmpFreq = resultFreq;
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@ -624,25 +581,16 @@ void menuVfoToggle(int btn)
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FrequencyToVFO(1);
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if (vfoActive == VFO_B){
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//vfoB = frequency;
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//vfoB_mode = modeToByte();
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//storeFrequencyAndMode(2); //vfoB -> eeprom
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vfoActive = VFO_A;
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frequency = vfoA;
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saveCheckFreq = frequency;
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byteToMode(vfoA_mode, 0);
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}
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else {
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//vfoA = frequency;
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//vfoA_mode = modeToByte();
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//storeFrequencyAndMode(1); //vfoA -> eeprom
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vfoActive = VFO_B;
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frequency = vfoB;
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saveCheckFreq = frequency;
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byteToMode(vfoB_mode, 0);
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//printLineF2(F("Selected VFO B"));
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}
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ritDisable();
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@ -661,12 +609,12 @@ void menuRitToggle(int btn){
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}
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else {
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if (ritOn == 0){
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printLineF2(F("RIT is ON"));
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//printLineF2(F("RIT is ON"));
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//enable RIT so the current frequency is used at transmit
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ritEnable(frequency);
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}
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else{
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printLineF2(F("RIT is OFF"));
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//printLineF2(F("RIT is OFF"));
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ritDisable();
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}
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@ -694,9 +642,6 @@ void menuSplitOnOff(int btn){
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printLineF2(F("Split On!"));
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}
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//delay_background(500, 0);
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(500);
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}
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}
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@ -721,9 +666,6 @@ void menuTxOnOff(int btn, byte optionType){
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printLineF2(F("TX ON!"));
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}
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//delay_background(500, 0);
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(500);
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}
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}
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@ -751,9 +693,6 @@ void menuSetup(int btn){
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}
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*/
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//delay_background(2000, 0);
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//printLine2Clear();
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//menuOn = 0;
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menuClearExit(1000);
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}
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}
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@ -803,22 +742,17 @@ void menuCWSpeed(int btn){
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printLine2(b);
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}
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//abort if this button is down
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if (btnDown())
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//if (btnDown())
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//re-enable the clock1 and clock 2
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break;
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// break;
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Check_Cat(0); //To prevent disconnections
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}
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//save the setting
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//if (digitalRead(PTT) == LOW){
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printLineF2(F("CW Speed set!"));
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cwSpeed = 1200/wpm;
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//printLineF2(F("CW Speed set!"));
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cwSpeed = 1200 / wpm;
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EEPROM.put(CW_SPEED, cwSpeed);
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//}
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//delay_background(2000, 0);
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(1000);
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}
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@ -884,14 +818,9 @@ void menuSetupCwDelay(int btn){
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}
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//save the setting
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//if (digitalRead(PTT) == LOW){
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printLineF2(F("CW Delay set!"));
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//printLineF2(F("CW Delay set!"));
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cwDelayTime = tmpCWDelay / 10;
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EEPROM.put(CW_DELAY, cwDelayTime);
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//delay_background(2000, 0);
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//}
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(1000);
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}
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@ -940,21 +869,17 @@ void menuSetupTXCWInterval(int btn){
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needDisplayInformation = 1;
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}
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//abort if this button is down
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if (btnDown())
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break;
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//if (btnDown())
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// break;
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Check_Cat(0); //To prevent disconnections
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}
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//save the setting
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//if (digitalRead(PTT) == LOW){
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printLineF2(F("CW Start set!"));
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//printLineF2(F("CW Start set!"));
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delayBeforeCWStartTime = tmpTXCWInterval / 2;
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EEPROM.put(CW_START, delayBeforeCWStartTime);
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//delay_background(2000, 0);
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//}
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(1000);
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}
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@ -1215,8 +1140,6 @@ void menuSetupCWCarrier(int btn){
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si5351bx_setfreq(0, cwmCarrier);
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printCarrierFreq(cwmCarrier);
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//Check_Cat(0); //To prevent disconnections
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//delay(100);
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delay_background(100, 0);
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}
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@ -1235,8 +1158,6 @@ void menuSetupCWCarrier(int btn){
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si5351bx_setfreq(0, cwmCarrier); //set back the carrier oscillator anyway, cw tx switches it off
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setFrequency(frequency);
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(0);
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}
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@ -1284,8 +1205,6 @@ void menuSetupCwTone(int btn){
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else
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sideTone = prev_sideTone;
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//printLine2ClearAndUpdate();
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//menuOn = 0;
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menuClearExit(0);
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}
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@ -1298,15 +1217,7 @@ void setDialLock(byte tmpLock, byte fromMode) {
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if (fromMode == 2 || fromMode == 3) return;
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//for reduce using flash memory
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/*
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if (tmpLock == 1)
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printLineF2(F("Dial Lock ON"));
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else
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printLineF2(F("Dial Lock OFF"));
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*/
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delay_background(1000, 0);
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//delay_background(1000, 0);
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printLine2ClearAndUpdate();
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}
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@ -1382,8 +1293,6 @@ void doMenu(){
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}
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} //end of while
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//printLineF2(F("Changed Step!")); //remarked for reduce program memory by KD8CEC
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//SAVE EEPROM
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EEPROM.put(TUNING_STEP, tuneStepIndex);
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delay_background(500, 0);
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printLine2ClearAndUpdate();
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@ -1433,6 +1342,8 @@ void doMenu(){
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menuSetup(btnState);
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else if (select < 120)
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menuExit(btnState);
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/*
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else if (select < 130 && modeCalibrate)
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menuSetupCalibration(btnState); //crystal
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else if (select < 140 && modeCalibrate)
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@ -1453,14 +1364,40 @@ void doMenu(){
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menuTxOnOff(btnState, 0x01); //TX OFF / ON
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else if (select < 220 && modeCalibrate)
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menuExit(btnState);
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*/
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else if (modeCalibrate)
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{
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if (select < 130)
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menuSetupCalibration(btnState); //crystal
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else if (select < 140)
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menuSetupCarrier(btnState); //lsb
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else if (select < 150)
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menuSetupCWCarrier(btnState); //lsb
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else if (select < 160)
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menuSetupCwTone(btnState);
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else if (select < 170)
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menuSetupCwDelay(btnState);
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else if (select < 180)
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menuSetupTXCWInterval(btnState);
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else if (select < 190)
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||||
menuSetupKeyType(btnState);
|
||||
else if (select < 200)
|
||||
menuADCMonitor(btnState);
|
||||
else if (select < 210)
|
||||
menuTxOnOff(btnState, 0x01); //TX OFF / ON
|
||||
else if (select < 220)
|
||||
menuExit(btnState);
|
||||
}
|
||||
|
||||
Check_Cat(0); //To prevent disconnections
|
||||
}
|
||||
|
||||
/*
|
||||
//debounce the button
|
||||
while(btnDown()){
|
||||
delay_background(50, 0); //To prevent disconnections
|
||||
}
|
||||
//delay(50);
|
||||
*/
|
||||
}
|
||||
|
||||
|
@ -60,6 +60,7 @@ void i2cWriten(uint8_t reg, uint8_t *vals, uint8_t vcnt) { // write array
|
||||
Wire.endTransmission();
|
||||
}
|
||||
|
||||
uint8_t si5351Val[8] = {0, 1, 0, 0, 0, 0, 0, 0}; //for reduce program memory size
|
||||
|
||||
void si5351bx_init() { // Call once at power-up, start PLLA
|
||||
uint32_t msxp1;
|
||||
@ -68,11 +69,13 @@ void si5351bx_init() { // Call once at power-up, start PLLA
|
||||
i2cWrite(3, si5351bx_clken); // Disable all CLK output drivers
|
||||
i2cWrite(183, SI5351BX_XTALPF << 6); // Set 25mhz crystal load capacitance
|
||||
msxp1 = 128 * SI5351BX_MSA - 512; // and msxp2=0, msxp3=1, not fractional
|
||||
uint8_t vals[8] = {0, 1, BB2(msxp1), BB1(msxp1), BB0(msxp1), 0, 0, 0};
|
||||
i2cWriten(26, vals, 8); // Write to 8 PLLA msynth regs
|
||||
//uint8_t vals[8] = {0, 1, BB2(msxp1), BB1(msxp1), BB0(msxp1), 0, 0, 0};
|
||||
si5351Val[2] = BB2(msxp1);
|
||||
si5351Val[3] = BB1(msxp1);
|
||||
si5351Val[4] = BB0(msxp1);
|
||||
|
||||
i2cWriten(26, si5351Val, 8); // Write to 8 PLLA msynth regs
|
||||
i2cWrite(177, 0x20); // Reset PLLA (0x80 resets PLLB)
|
||||
// for (reg=16; reg<=23; reg++) i2cWrite(reg, 0x80); // Powerdown CLK's
|
||||
// i2cWrite(187, 0); // No fannout of clkin, xtal, ms0, ms4
|
||||
}
|
||||
|
||||
void si5351bx_setfreq(uint8_t clknum, uint32_t fout) { // Set a CLK to fout Hz
|
||||
|
@ -327,22 +327,6 @@ void updateDisplay() {
|
||||
lcd.setCursor(5,diplayVFOLine);
|
||||
lcd.write(":");
|
||||
}
|
||||
|
||||
/*
|
||||
//now, the second line
|
||||
memset(c, 0, sizeof(c));
|
||||
memset(b, 0, sizeof(b));
|
||||
|
||||
if (inTx)
|
||||
strcat(c, "TX ");
|
||||
else if (ritOn)
|
||||
strcpy(c, "RIT");
|
||||
|
||||
strcpy(c, " \xff");
|
||||
drawMeter(meter_reading);
|
||||
strcat(c, meter);
|
||||
strcat(c, "\xff");
|
||||
printLine2(c);*/
|
||||
}
|
||||
|
||||
int enc_prev_state = 3;
|
||||
|
Loading…
Reference in New Issue
Block a user