fixed cw adc range bug
This commit is contained in:
parent
ee23827def
commit
282c196f63
@ -472,7 +472,7 @@ void WriteEEPRom_FT817(byte fromType)
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printLineF2(F("Sidetone set! CAT"));
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printLineF2(F("Sidetone set! CAT"));
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EEPROM.put(CW_SIDETONE, sideTone);
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EEPROM.put(CW_SIDETONE, sideTone);
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delay(300); //If timeout errors occur in the calling software, remove them
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delay(300); //If timeout errors occur in the calling software, remove them
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printLine2(""); //Ham radio deluxe is the only one that supports this feature yet. and ham radio deluxe has wait time as greater than 500ms
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clearLine2();
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}
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}
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break;
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break;
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@ -484,7 +484,8 @@ void WriteEEPRom_FT817(byte fromType)
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printLineF2(F("Sidetone set! CAT"));
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printLineF2(F("Sidetone set! CAT"));
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EEPROM.put(CW_SIDETONE, sideTone);
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EEPROM.put(CW_SIDETONE, sideTone);
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delay(300); //If timeout errors occur in the calling software, remove them
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delay(300); //If timeout errors occur in the calling software, remove them
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printLine2(""); //Ham radio deluxe is the only one that supports this feature yet. and ham radio deluxe has wait time as greater than 500ms
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clearLine2();
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line2DisplayStatus = 0;
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}
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}
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break;
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break;
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@ -504,7 +505,7 @@ void WriteEEPRom_FT817(byte fromType)
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printLineF2(F("CW Speed set!"));
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printLineF2(F("CW Speed set!"));
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EEPROM.put(CW_DELAY, cwDelayTime);
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EEPROM.put(CW_DELAY, cwDelayTime);
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delay(300);
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delay(300);
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printLine2("");
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clearLine2();
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break;
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break;
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case 0x62 : //
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case 0x62 : //
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//5-0 CW Speed (4-60 WPM) (#21) From 0 to 38 (HEX) with 0 = 4 WPM and 38 = 60 WPM (1 WPM steps)
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//5-0 CW Speed (4-60 WPM) (#21) From 0 to 38 (HEX) with 0 = 4 WPM and 38 = 60 WPM (1 WPM steps)
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@ -513,7 +514,7 @@ void WriteEEPRom_FT817(byte fromType)
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printLineF2(F("CW Speed set!"));
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printLineF2(F("CW Speed set!"));
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EEPROM.put(CW_SPEED, cwSpeed);
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EEPROM.put(CW_SPEED, cwSpeed);
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delay(300);
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delay(300);
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printLine2("");
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clearLine2();
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break;
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break;
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/*
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/*
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@ -298,8 +298,12 @@ void controlAutoCW(){
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}
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}
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printLineFromEEPRom(0, 2, cwStartIndex + displayScrolStep + CW_DATA_OFSTADJ, cwEndIndex + CW_DATA_OFSTADJ);
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printLineFromEEPRom(0, 2, cwStartIndex + displayScrolStep + CW_DATA_OFSTADJ, cwEndIndex + CW_DATA_OFSTADJ);
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byte diplayAutoCWLine = 0;
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if ((displayOption1 & 0x01) == 0x01)
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diplayAutoCWLine = 1;
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lcd.setCursor(0,0);
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lcd.setCursor(0, diplayAutoCWLine);
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lcd.write(byteToChar(selectedCWTextIndex));
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lcd.write(byteToChar(selectedCWTextIndex));
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lcd.write(':');
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lcd.write(':');
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isNeedScroll = (cwEndIndex - cwStartIndex) > 14 ? 1 : 0;
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isNeedScroll = (cwEndIndex - cwStartIndex) > 14 ? 1 : 0;
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@ -84,6 +84,7 @@
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#define PTT (A3)
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#define PTT (A3)
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#define ANALOG_KEYER (A6)
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#define ANALOG_KEYER (A6)
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#define ANALOG_SPARE (A7)
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#define ANALOG_SPARE (A7)
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#define ANALOG_SMETER (A7) //by KD8CEC
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/**
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/**
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* The Raduino board is the size of a standard 16x2 LCD panel. It has three connectors:
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* The Raduino board is the size of a standard 16x2 LCD panel. It has three connectors:
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@ -172,6 +173,10 @@ int count = 0; //to generally count ticks, loops, etc
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#define CW_ADC_DASH_TO 355 //CW ADC Range DASH to (Lower 8 bit)
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#define CW_ADC_DASH_TO 355 //CW ADC Range DASH to (Lower 8 bit)
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#define CW_ADC_BOTH_FROM 356 //CW ADC Range BOTH from (Lower 8 bit)
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#define CW_ADC_BOTH_FROM 356 //CW ADC Range BOTH from (Lower 8 bit)
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#define CW_ADC_BOTH_TO 357 //CW ADC Range BOTH to (Lower 8 bit)
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#define CW_ADC_BOTH_TO 357 //CW ADC Range BOTH to (Lower 8 bit)
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#define CW_KEY_TYPE 358
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#define DISPLAY_OPTION1 361 //Display Option1
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#define DISPLAY_OPTION2 362 //Display Option2
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//Check Firmware type and version
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//Check Firmware type and version
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#define FIRMWAR_ID_ADDR 776 //776 : 0x59, 777 :0x58, 778 : 0x68 : Id Number, if not found id, erase eeprom(32~1023) for prevent system error.
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#define FIRMWAR_ID_ADDR 776 //776 : 0x59, 777 :0x58, 778 : 0x68 : Id Number, if not found id, erase eeprom(32~1023) for prevent system error.
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@ -258,6 +263,9 @@ byte isTxType = 0; //000000[0 - isSplit] [0 - isTXStop]
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byte arTuneStep[5];
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byte arTuneStep[5];
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byte tuneStepIndex; //default Value 0, start Offset is 0 because of check new user
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byte tuneStepIndex; //default Value 0, start Offset is 0 because of check new user
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byte displayOption1 = 0;
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byte displayOption2 = 0;
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//CW ADC Range
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//CW ADC Range
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int cwAdcSTFrom = 0;
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int cwAdcSTFrom = 0;
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int cwAdcSTTo = 0;
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int cwAdcSTTo = 0;
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@ -267,6 +275,10 @@ int cwAdcDashFrom = 0;
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int cwAdcDashTo = 0;
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int cwAdcDashTo = 0;
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int cwAdcBothFrom = 0;
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int cwAdcBothFrom = 0;
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int cwAdcBothTo = 0;
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int cwAdcBothTo = 0;
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byte cwKeyType = 0; //0: straight, 1 : iambica, 2: iambicb
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bool Iambic_Key = true;
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#define IAMBICB 0x10 // 0 for Iambic A, 1 for Iambic B
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unsigned char keyerControl = IAMBICB;
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//Variables for auto cw mode
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//Variables for auto cw mode
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byte isCWAutoMode = 0; //0 : none, 1 : CW_AutoMode_Menu_Selection, 2 : CW_AutoMode Sending
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byte isCWAutoMode = 0; //0 : none, 1 : CW_AutoMode_Menu_Selection, 2 : CW_AutoMode Sending
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@ -296,6 +308,10 @@ unsigned long dbgCount = 0; //not used now
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unsigned char txFilter = 0; //which of the four transmit filters are in use
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unsigned char txFilter = 0; //which of the four transmit filters are in use
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boolean modeCalibrate = false;//this mode of menus shows extended menus to calibrate the oscillators and choose the proper
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boolean modeCalibrate = false;//this mode of menus shows extended menus to calibrate the oscillators and choose the proper
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//beat frequency
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//beat frequency
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unsigned long beforeIdle_ProcessTime = 0; //for check Idle time
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byte line2DisplayStatus = 0; //0:Clear, 1 : menu, 1: DisplayFrom Idle,
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/**
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/**
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* Below are the basic functions that control the uBitx. Understanding the functions before
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* Below are the basic functions that control the uBitx. Understanding the functions before
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* you start hacking around
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* you start hacking around
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@ -756,6 +772,24 @@ void initSettings(){
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//CW interval between TX and CW Start
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//CW interval between TX and CW Start
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EEPROM.get(CW_START, delayBeforeCWStartTime);
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EEPROM.get(CW_START, delayBeforeCWStartTime);
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EEPROM.get(CW_KEY_TYPE, cwKeyType);
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if (cwKeyType > 2)
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cwKeyType = 0;
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if (cwKeyType == 0)
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Iambic_Key = false;
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else
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{
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Iambic_Key = true;
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if (cwKeyType = 1)
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keyerControl &= ~IAMBICB;
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else
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keyerControl |= IAMBICB;
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}
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EEPROM.get(DISPLAY_OPTION1, displayOption1);
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EEPROM.get(DISPLAY_OPTION2, displayOption2);
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//User callsign information
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//User callsign information
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if (EEPROM.read(USER_CALLSIGN_KEY) == 0x59)
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if (EEPROM.read(USER_CALLSIGN_KEY) == 0x59)
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@ -923,6 +957,7 @@ void initPorts(){
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pinMode(PTT, INPUT_PULLUP);
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pinMode(PTT, INPUT_PULLUP);
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pinMode(ANALOG_KEYER, INPUT_PULLUP);
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pinMode(ANALOG_KEYER, INPUT_PULLUP);
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pinMode(ANALOG_SMETER, INPUT); //by KD8CEC
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pinMode(CW_TONE, OUTPUT);
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pinMode(CW_TONE, OUTPUT);
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digitalWrite(CW_TONE, 0);
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digitalWrite(CW_TONE, 0);
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@ -958,7 +993,7 @@ void setup()
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//Serial.begin(9600);
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//Serial.begin(9600);
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lcd.begin(16, 2);
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lcd.begin(16, 2);
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printLineF(1, F("CECBT v0.30"));
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printLineF(1, F("CECBT v0.31"));
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Init_Cat(38400, SERIAL_8N1);
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Init_Cat(38400, SERIAL_8N1);
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initMeter(); //not used in this build
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initMeter(); //not used in this build
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@ -972,7 +1007,7 @@ void setup()
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else {
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else {
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printLineF(0, F("uBITX v0.20"));
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printLineF(0, F("uBITX v0.20"));
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delay(500);
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delay(500);
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printLine2("");
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clearLine2();
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}
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}
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initPorts();
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initPorts();
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@ -1046,7 +1081,12 @@ void loop(){
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doRIT();
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doRIT();
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else
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else
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doTuningWithThresHold();
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doTuningWithThresHold();
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}
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if (isCWAutoMode == 0 && beforeIdle_ProcessTime < millis() - 200) {
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idle_process();
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beforeIdle_ProcessTime = millis();
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}
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} //end of check TX Status
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//we check CAT after the encoder as it might put the radio into TX
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//we check CAT after the encoder as it might put the radio into TX
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Check_Cat(inTx? 1 : 0);
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Check_Cat(inTx? 1 : 0);
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@ -14,6 +14,7 @@ void btnWaitForClick(){
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void factory_alignment(){
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void factory_alignment(){
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factoryCalibration(1);
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factoryCalibration(1);
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line2DisplayStatus = 1;
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if (calibration == 0){
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if (calibration == 0){
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printLine2("Setup Aborted");
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printLine2("Setup Aborted");
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30
ubitx_20/ubitx_idle.ino
Normal file
30
ubitx_20/ubitx_idle.ino
Normal file
@ -0,0 +1,30 @@
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/*************************************************************************
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KD8CEC's uBITX Idle time Processing
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Functions that run at times that do not affect TX, CW, and CAT
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It is called in 1/10 time unit.
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-----------------------------------------------------------------------------
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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**************************************************************************/
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void idle_process()
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{
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//space for user graphic display
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if (menuOn == 0)
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{
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//if line2DisplayStatus == 0 <-- this condition is clear Line, you can display any message
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}
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}
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@ -91,8 +91,6 @@ void cwKeyUp(){
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#define IAMBICB 0x10 // 0 for Iambic A, 1 for Iambic B
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#define IAMBICB 0x10 // 0 for Iambic A, 1 for Iambic B
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enum KSTYPE {IDLE, CHK_DIT, CHK_DAH, KEYED_PREP, KEYED, INTER_ELEMENT };
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enum KSTYPE {IDLE, CHK_DIT, CHK_DAH, KEYED_PREP, KEYED, INTER_ELEMENT };
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static long ktimer;
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static long ktimer;
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bool Iambic_Key = true;
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unsigned char keyerControl = IAMBICB;
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unsigned char keyerState = IDLE;
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unsigned char keyerState = IDLE;
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//Below is a test to reduce the keying error. do not delete lines
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//Below is a test to reduce the keying error. do not delete lines
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@ -101,17 +99,17 @@ char update_PaddleLatch(byte isUpdateKeyState) {
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unsigned char tmpKeyerControl;
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unsigned char tmpKeyerControl;
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int paddle = analogRead(ANALOG_KEYER);
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int paddle = analogRead(ANALOG_KEYER);
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if (paddle > cwAdcDashFrom && paddle < cwAdcDashTo)
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if (paddle >= cwAdcDashFrom && paddle <= cwAdcDashTo)
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tmpKeyerControl |= DAH_L;
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tmpKeyerControl |= DAH_L;
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else if (paddle > cwAdcDotFrom && paddle < cwAdcDotTo)
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else if (paddle >= cwAdcDotFrom && paddle <= cwAdcDotTo)
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tmpKeyerControl |= DIT_L;
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tmpKeyerControl |= DIT_L;
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else if (paddle > cwAdcBothFrom && paddle < cwAdcBothTo)
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else if (paddle >= cwAdcBothFrom && paddle <= cwAdcBothTo)
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tmpKeyerControl |= (DAH_L | DIT_L) ;
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tmpKeyerControl |= (DAH_L | DIT_L) ;
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else
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else
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{
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{
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if (Iambic_Key)
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if (Iambic_Key)
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tmpKeyerControl = 0 ;
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tmpKeyerControl = 0 ;
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else if (paddle > cwAdcSTFrom && paddle < cwAdcSTTo)
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else if (paddle >= cwAdcSTFrom && paddle <= cwAdcSTTo)
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tmpKeyerControl = DIT_L ;
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tmpKeyerControl = DIT_L ;
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else
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else
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tmpKeyerControl = 0 ;
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tmpKeyerControl = 0 ;
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@ -235,6 +235,7 @@ void menuSidebandToggle(int btn){
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}
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}
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}
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}
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/*
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//Select CW Key Type by KD8CEC
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//Select CW Key Type by KD8CEC
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void menuSetupKeyType(int btn){
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void menuSetupKeyType(int btn){
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if (!btn && digitalRead(PTT) == HIGH){
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if (!btn && digitalRead(PTT) == HIGH){
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@ -269,6 +270,71 @@ void menuSetupKeyType(int btn){
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menuOn = 0;
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menuOn = 0;
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}
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}
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}
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}
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*/
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//Select CW Key Type by KD8CEC
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void menuSetupKeyType(int btn){
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int knob = 0;
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int selectedKeyType = 0;
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int moveStep = 0;
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if (!btn && digitalRead(PTT) == HIGH){
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printLineF2(F("Change Key Type?"));
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}
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else {
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printLineF2(F("Press PTT to set"));
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delay_background(500, 0);
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selectedKeyType = cwKeyType;
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while(!btnDown() && digitalRead(PTT) == HIGH){
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//Display Key Type
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if (selectedKeyType == 0)
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printLineF1(F("Straight"));
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else if (selectedKeyType == 1)
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printLineF1(F("IAMBICA"));
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else if (selectedKeyType == 2)
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printLineF1(F("IAMBICB"));
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knob = enc_read();
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if (knob != 0)
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{
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moveStep += (knob > 0 ? 1 : -1);
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if (selectedKeyType > 0 && moveStep < -3) {
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selectedKeyType--;
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moveStep = 0;
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}
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else if (selectedKeyType < 2 && moveStep > 3) {
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selectedKeyType++;
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moveStep = 0;
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}
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}
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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 Key Type set!"));
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cwKeyType = selectedKeyType;
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EEPROM.put(CW_KEY_TYPE, cwKeyType);
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if (cwKeyType == 0)
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Iambic_Key = false;
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else
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{
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Iambic_Key = true;
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if (cwKeyType = 1)
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keyerControl &= ~IAMBICB;
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else
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keyerControl |= IAMBICB;
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}
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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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}
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}
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//Analog pin monitoring with CW Key and function keys connected.
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//Analog pin monitoring with CW Key and function keys connected.
|
||||||
//by KD8CEC
|
//by KD8CEC
|
||||||
@ -734,7 +800,6 @@ void menuSetupCalibration(int btn){
|
|||||||
menuOn = 0;
|
menuOn = 0;
|
||||||
}
|
}
|
||||||
|
|
||||||
|
|
||||||
void printCarrierFreq(unsigned long freq){
|
void printCarrierFreq(unsigned long freq){
|
||||||
|
|
||||||
memset(c, 0, sizeof(c));
|
memset(c, 0, sizeof(c));
|
||||||
|
@ -116,6 +116,9 @@ void drawMeter(int8_t needle){
|
|||||||
|
|
||||||
// The generic routine to display one line on the LCD
|
// The generic routine to display one line on the LCD
|
||||||
void printLine(unsigned char linenmbr, const char *c) {
|
void printLine(unsigned char linenmbr, const char *c) {
|
||||||
|
if ((displayOption1 & 0x01) == 0x01)
|
||||||
|
linenmbr = (linenmbr == 0 ? 1 : 0); //Line Toggle
|
||||||
|
|
||||||
if (strcmp(c, printBuff[linenmbr])) { // only refresh the display when there was a change
|
if (strcmp(c, printBuff[linenmbr])) { // only refresh the display when there was a change
|
||||||
lcd.setCursor(0, linenmbr); // place the cursor at the beginning of the selected line
|
lcd.setCursor(0, linenmbr); // place the cursor at the beginning of the selected line
|
||||||
lcd.print(c);
|
lcd.print(c);
|
||||||
@ -145,6 +148,9 @@ void printLineF(char linenmbr, const __FlashStringHelper *c)
|
|||||||
|
|
||||||
#define LCD_MAX_COLUMN 16
|
#define LCD_MAX_COLUMN 16
|
||||||
void printLineFromEEPRom(char linenmbr, char lcdColumn, byte eepromStartIndex, byte eepromEndIndex) {
|
void printLineFromEEPRom(char linenmbr, char lcdColumn, byte eepromStartIndex, byte eepromEndIndex) {
|
||||||
|
if ((displayOption1 & 0x01) == 0x01)
|
||||||
|
linenmbr = (linenmbr == 0 ? 1 : 0); //Line Toggle
|
||||||
|
|
||||||
lcd.setCursor(lcdColumn, linenmbr);
|
lcd.setCursor(lcdColumn, linenmbr);
|
||||||
|
|
||||||
for (byte i = eepromStartIndex; i <= eepromEndIndex; i++)
|
for (byte i = eepromStartIndex; i <= eepromEndIndex; i++)
|
||||||
@ -168,6 +174,12 @@ void printLine2(const char *c){
|
|||||||
printLine(0,c);
|
printLine(0,c);
|
||||||
}
|
}
|
||||||
|
|
||||||
|
void clearLine2()
|
||||||
|
{
|
||||||
|
printLine2("");
|
||||||
|
line2DisplayStatus = 0;
|
||||||
|
}
|
||||||
|
|
||||||
// short cut to print to the first line
|
// short cut to print to the first line
|
||||||
void printLine1Clear(){
|
void printLine1Clear(){
|
||||||
printLine(1,"");
|
printLine(1,"");
|
||||||
@ -179,6 +191,7 @@ void printLine2Clear(){
|
|||||||
|
|
||||||
void printLine2ClearAndUpdate(){
|
void printLine2ClearAndUpdate(){
|
||||||
printLine(0, "");
|
printLine(0, "");
|
||||||
|
line2DisplayStatus = 0;
|
||||||
updateDisplay();
|
updateDisplay();
|
||||||
}
|
}
|
||||||
|
|
||||||
@ -251,18 +264,22 @@ void updateDisplay() {
|
|||||||
// strcat(c, " TX");
|
// strcat(c, " TX");
|
||||||
printLine(1, c);
|
printLine(1, c);
|
||||||
|
|
||||||
|
byte diplayVFOLine = 1;
|
||||||
|
if ((displayOption1 & 0x01) == 0x01)
|
||||||
|
diplayVFOLine = 0;
|
||||||
|
|
||||||
if ((vfoActive == VFO_A && ((isDialLock & 0x01) == 0x01)) ||
|
if ((vfoActive == VFO_A && ((isDialLock & 0x01) == 0x01)) ||
|
||||||
(vfoActive == VFO_B && ((isDialLock & 0x02) == 0x02))) {
|
(vfoActive == VFO_B && ((isDialLock & 0x02) == 0x02))) {
|
||||||
lcd.setCursor(5,1);
|
lcd.setCursor(5,diplayVFOLine);
|
||||||
lcd.write((uint8_t)0);
|
lcd.write((uint8_t)0);
|
||||||
}
|
}
|
||||||
else if (isCWAutoMode == 2){
|
else if (isCWAutoMode == 2){
|
||||||
lcd.setCursor(5,1);
|
lcd.setCursor(5,diplayVFOLine);
|
||||||
lcd.write(0x7E);
|
lcd.write(0x7E);
|
||||||
}
|
}
|
||||||
else
|
else
|
||||||
{
|
{
|
||||||
lcd.setCursor(5,1);
|
lcd.setCursor(5,diplayVFOLine);
|
||||||
lcd.write(":");
|
lcd.write(":");
|
||||||
}
|
}
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user