Merge pull request #18 from phdlee/version0.34

Version0.34
This commit is contained in:
phdlee 2018-02-03 17:17:43 +09:00 committed by GitHub
commit e915c21412
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5 changed files with 304 additions and 336 deletions

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@ -365,6 +365,11 @@ void controlAutoCW(){
//check interval time, if you want adjust interval between chars, modify below
if (isAutoCWHold == 0 && (millis() - autoCWbeforeTime > cwSpeed * 3))
{
if (!inTx){ //if not TX Status, change RX -> TX
keyDown = 0;
startTx(TX_CW, 0); //disable updateDisplay Command for reduce latency time
}
sendCWChar(EEPROM.read(CW_AUTO_DATA + autoCWSendCharIndex++));
if (autoCWSendCharIndex > autoCWSendCharEndIndex) { //finish auto cw send

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@ -160,7 +160,8 @@ int count = 0; //to generally count ticks, loops, etc
#define TX_TUNE_TYPE 261 //
#define HAM_BAND_RANGE 262 //FROM (2BYTE) TO (2BYTE) * 10 = 40byte
#define HAM_BAND_FREQS 302 //40, 1 BAND = 4Byte most bit is mode
#define TUNING_STEP 342 //TUNING STEP * 6 (index 1 + STEPS 5)
#define TUNING_STEP 342 //TUNING STEP * 6 (index 1 + STEPS 5) //1STEP :
//for reduce cw key error, eeprom address
#define CW_ADC_MOST_BIT1 348 //most 2bits of DOT_TO , DOT_FROM, ST_TO, ST_FROM
@ -260,7 +261,7 @@ byte sideToneSub = 0;
//DialLock
byte isDialLock = 0; //000000[0]vfoB [0]vfoA 0Bit : A, 1Bit : B
byte isTxType = 0; //000000[0 - isSplit] [0 - isTXStop]
byte arTuneStep[5];
long arTuneStep[5];
byte tuneStepIndex; //default Value 0, start Offset is 0 because of check new user
byte displayOption1 = 0;
@ -381,7 +382,7 @@ void setNextHamBandFreq(unsigned long f, char moveDirection)
resultFreq = (unsigned long)(hamBandRange[(unsigned char)findedIndex][0]) * 1000;
setFrequency(resultFreq);
byteWithFreqToMode(loadMode);
byteToMode(loadMode, 1);
}
void saveBandFreqByIndex(unsigned long f, unsigned long mode, char bandIndex) {
@ -536,12 +537,12 @@ void startTx(byte txMode, byte isDisplayUpdate){
if (vfoActive == VFO_B) {
vfoActive = VFO_A;
frequency = vfoA;
byteToMode(vfoA_mode);
byteToMode(vfoA_mode, 0);
}
else if (vfoActive == VFO_A){
vfoActive = VFO_B;
frequency = vfoB;
byteToMode(vfoB_mode);
byteToMode(vfoB_mode, 0);
}
setFrequency(frequency);
@ -596,12 +597,12 @@ void stopTx(){
if (vfoActive == VFO_B){
vfoActive = VFO_A;
frequency = vfoA;
byteToMode(vfoA_mode);
byteToMode(vfoA_mode, 0);
}
else if (vfoActive == VFO_A){
vfoActive = VFO_B;
frequency = vfoB;
byteToMode(vfoB_mode);
byteToMode(vfoB_mode, 0);
}
setFrequency(frequency);
} //end of else
@ -754,27 +755,8 @@ void doRIT(){
updateDisplay();
}
}
/*
void doIFShift(){
int knob = enc_read();
unsigned long old_freq = frequency;
if (knob != 0)
{
if (knob < 0)
ifShiftValue -= 1l;
else if (knob > 0)
ifShiftValue += 1;
updateLine2Buffer(1);
setFrequency(frequency);
}
}
*/
/**
save Frequency and mode to eeprom
save Frequency and mode to eeprom for Auto Save with protected eeprom cycle, by kd8cec
*/
void storeFrequencyAndMode(byte saveType)
{
@ -806,6 +788,22 @@ void storeFrequencyAndMode(byte saveType)
}
}
//calculate step size from 1 byte, compatible uBITX Manager, by KD8CEC
unsigned int byteToSteps(byte srcByte) {
byte powerVal = (byte)(srcByte >> 6);
unsigned int baseVal = srcByte & 0x3F;
if (powerVal == 1)
return baseVal * 10;
else if (powerVal == 2)
return baseVal * 100;
else if (powerVal == 3)
return baseVal * 1000;
else
return baseVal;
}
/**
* The settings are read from EEPROM. The first time around, the values may not be
* present or out of range, in this case, some intelligent defaults are copied into the
@ -926,8 +924,8 @@ void initSettings(){
findedValidValueCount = 0;
EEPROM.get(TUNING_STEP, tuneStepIndex);
for (byte i = 0; i < 5; i++) {
arTuneStep[i] = EEPROM.read(TUNING_STEP + i + 1);
if (arTuneStep[i] >= 1 && arTuneStep[i] < 251) //Maximum 250 for check valid Value
arTuneStep[i] = byteToSteps(EEPROM.read(TUNING_STEP + i + 1));
if (arTuneStep[i] >= 1 && arTuneStep[i] <= 60000) //Maximum 650 for check valid Value
findedValidValueCount++;
}
@ -1003,12 +1001,12 @@ void initSettings(){
if (vfoA > 35000000l || 3500000l > vfoA) {
vfoA = 7150000l;
vfoA_mode = 2;
vfoA_mode = 2; //LSB
}
if (vfoB > 35000000l || 3500000l > vfoB) {
vfoB = 14150000l;
vfoB_mode = 3;
vfoB_mode = 3; //USB
}
//end of original code section
@ -1084,7 +1082,7 @@ void setup()
//Serial.begin(9600);
lcd.begin(16, 2);
printLineF(1, F("CECBT v0.33"));
printLineF(1, F("CECBT v0.35"));
Init_Cat(38400, SERIAL_8N1);
initMeter(); //not used in this build
@ -1103,7 +1101,7 @@ void setup()
initPorts();
byteToMode(vfoA_mode);
byteToMode(vfoA_mode, 0);
initOscillators();
frequency = vfoA;
@ -1116,13 +1114,11 @@ void setup()
}
/**
* The loop checks for keydown, ptt, function button and tuning.
*/
//for debug
int dbgCnt = 0;
byte flasher = 0;
//Auto save Frequency and Mode with Protected eeprom life by KD8CEC
void checkAutoSaveFreqMode()
{
//when tx or ritOn, disable auto save

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@ -17,7 +17,7 @@
along with this program. If not, see <http://www.gnu.org/licenses/>.
**************************************************************************/
byte line2Buffer[16];
char line2Buffer[16];
//KD8CEC 200Hz ST
//L14.150 200Hz ST
//U14.150 +150khz
@ -53,8 +53,11 @@ void updateLine2Buffer(char isDirectCall)
}
return;
}
} //end of ritOn display
//======================================================
//other VFO display
//======================================================
if (vfoActive == VFO_B)
{
tmpFreq = vfoA;
@ -82,18 +85,18 @@ void updateLine2Buffer(char isDirectCall)
}
//EXAMPLE #1
if ((displayOption1 & 0x04) == 0x00)
if ((displayOption1 & 0x04) == 0x00) //none scroll display
line2Buffer[6] = 'k';
else
{
//example #2
if (freqScrollPosition++ > 18)
if (freqScrollPosition++ > 18) //none scroll display time
{
line2Buffer[6] = 'k';
if (freqScrollPosition > 25)
freqScrollPosition = -1;
}
else
else //scroll frequency
{
line2Buffer[10] = 'H';
line2Buffer[11] = 'z';
@ -115,11 +118,11 @@ void updateLine2Buffer(char isDirectCall)
line2Buffer[i] = ' ';
}
}
}
} //scroll
line2Buffer[7] = ' ';
} //check direct call by encoder
if (isIFShift)
{
if (isDirectCall == 1)
@ -152,24 +155,38 @@ void updateLine2Buffer(char isDirectCall)
if (isDirectCall == 1) //if call by encoder (not scheduler), immediate print value
printLine2(line2Buffer);
}
else
} // end of display IF
else // step display
{
if (isDirectCall != 0)
return;
memset(&line2Buffer[8], ' ', 8);
//Step
byte tmpStep = arTuneStep[tuneStepIndex -1];
for (int i = 10; i >= 8; i--) {
long tmpStep = arTuneStep[tuneStepIndex -1];
byte isStepKhz = 0;
if (tmpStep >= 1000)
{
isStepKhz = 2;
}
for (int i = 10; i >= 8 - isStepKhz; i--) {
if (tmpStep > 0) {
line2Buffer[i] = tmpStep % 10 + 0x30;
line2Buffer[i + isStepKhz] = tmpStep % 10 + 0x30;
tmpStep /= 10;
}
else
line2Buffer[i] = ' ';
line2Buffer[i +isStepKhz] = ' ';
}
//if (isStepKhz == 1)
// line2Buffer[10] = 'k';
if (isStepKhz == 0)
{
line2Buffer[11] = 'H';
line2Buffer[12] = 'z';
}
line2Buffer[13] = ' ';
//if (
@ -215,6 +232,9 @@ void idle_process()
//space for user graphic display
if (menuOn == 0)
{
if ((displayOption1 & 0x10) == 0x10) //always empty topline
return;
//if line2DisplayStatus == 0 <-- this condition is clear Line, you can display any message
if (line2DisplayStatus == 0 || (((displayOption1 & 0x04) == 0x04) && line2DisplayStatus == 2)) {
if (checkCount++ > 1)

View File

@ -13,6 +13,36 @@
#define printLineF1(x) (printLineF(1, x))
#define printLineF2(x) (printLineF(0, x))
void FrequencyToVFO(byte isSaveFreq)
{
//Save Frequency & Mode Information
if (vfoActive == VFO_A)
{
vfoA = frequency;
vfoA_mode = modeToByte();
if (isSaveFreq)
storeFrequencyAndMode(1);
}
else
{
vfoB = frequency;
vfoB_mode = modeToByte();
if (isSaveFreq)
storeFrequencyAndMode(2);
}
}
void menuClearExit(int delayTime)
{
if (delayTime > 0)
delay_background(delayTime, 0);
printLine2ClearAndUpdate();
menuOn = 0;
}
//Ham band move by KD8CEC
void menuBand(int btn){
int knob = 0;
@ -27,8 +57,7 @@ void menuBand(int btn){
printLineF2(F("Press to confirm"));
//wait for the button menu select button to be lifted)
while (btnDown()) {
delay(50);
Check_Cat(0); //To prevent disconnections
delay_background(50, 0);
if (btnPressCount++ > 20) {
btnPressCount = 0;
if (tuneTXType > 0) { //Just toggle 0 <-> 2, if tuneTXType is 100, 100 -> 0 -> 2
@ -57,23 +86,13 @@ void menuBand(int btn){
}
}
delay(50);
//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); */
if (tuneTXType == 2 || tuneTXType == 3 || tuneTXType == 102 || tuneTXType == 103) { //only ham band move
if (knob < 0) {
if (stepChangeCount-- < -3) {
@ -87,9 +106,7 @@ void menuBand(int btn){
stepChangeCount = 0;
}
}
//setFrequency(frequency + 200000l);
}
} //end of only ham band move
else { //original source
if (knob < 0 && frequency > 3000000l)
setFrequency(frequency - 200000l);
@ -105,19 +122,21 @@ void menuBand(int btn){
updateDisplay();
}
delay(20);
Check_Cat(0); //To prevent disconnections
delay_background(20, 0);
}
/*
while(btnDown()) {
delay(50);
Check_Cat(0); //To prevent disconnections
}
*/
FrequencyToVFO(1);
delay(50);
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//delay_background(500, 0);
//menuOn = 0;
menuClearExit(500);
}
//Convert Mode, Number by KD8CEC
@ -141,7 +160,9 @@ byte modeToByte(){
}
//Convert Number to Mode by KD8CEC
void byteToMode(byte modeValue){
//autoSetModebyFreq : 0
//autoSetModebyFreq : 1, if (modValue is not set, set mode by frequency)
void byteToMode(byte modeValue, byte autoSetModebyFreq){
if (modeValue == 4)
cwMode = 1;
else if (modeValue == 5)
@ -151,11 +172,14 @@ void byteToMode(byte modeValue){
cwMode = 0;
if (modeValue == 3)
isUSB = 1;
else if (autoSetModebyFreq == 1 && (modeValue == 0))
isUSB = (frequency > 10000000l) ? true : false;
else
isUSB = 0;
}
}
/*
//Convert Number to Mode by KD8CEC
void byteWithFreqToMode(byte modeValue){
if (modeValue == 4)
@ -172,99 +196,9 @@ void byteWithFreqToMode(byte modeValue){
isUSB = 0;
}
}
//VFO Toggle and save VFO Information, modified by KD8CEC
void menuVfoToggle(int btn, char isUseDelayTime)
{
if (!btn){
if (vfoActive == VFO_A)
printLineF2(F("Select VFO B?"));
else
printLineF2(F("Select VFO A?"));
}
else {
if (vfoActive == VFO_B){
vfoB = frequency;
vfoB_mode = modeToByte();
storeFrequencyAndMode(2); //vfoB -> eeprom
vfoActive = VFO_A;
frequency = vfoA;
saveCheckFreq = frequency;
byteToMode(vfoA_mode);
printLineF2(F("Selected VFO A"));
}
else {
vfoA = frequency;
vfoA_mode = modeToByte();
storeFrequencyAndMode(1); //vfoA -> eeprom
vfoActive = VFO_B;
frequency = vfoB;
saveCheckFreq = frequency;
byteToMode(vfoB_mode);
printLineF2(F("Selected VFO B"));
}
ritDisable();
setFrequency(frequency);
if (isUseDelayTime == 1) //Found Issue in wsjt-x Linux 32bit
delay_background(500, 0);
printLine2ClearAndUpdate();
//exit the menu
menuOn = 0;
}
}
void menuRitToggle(int btn){
if (!btn){
if (ritOn == 1)
printLineF2(F("RIT:On, Off?"));
else
printLineF2(F("RIT:Off, On?"));
}
else {
if (ritOn == 0){
printLineF2(F("RIT is ON"));
//enable RIT so the current frequency is used at transmit
ritEnable(frequency);
}
else{
printLineF2(F("RIT is OFF"));
ritDisable();
}
menuOn = 0;
delay_background(500, 0);
printLine2ClearAndUpdate();
}
}
/*
void menuIFSToggle(int btn){
if (!btn){
if (isIFShift == 1)
printLineF2(F("IF Shift:On, Off?"));
else
printLineF2(F("IF Shift:Off, On?"));
}
else {
if (isIFShift == 0){
printLineF2(F("IF Shift is ON"));
isIFShift = 1;
}
else{
printLineF2(F("IF Shift is OFF"));
isIFShift = 0;
}
menuOn = 0;
delay_background(500, 0);
printLine2ClearAndUpdate();
}
}
*/
void menuIFSToggle(int btn){
void menuIFSSetup(int btn){
int knob = 0;
char needApplyChangeValue = 1;
@ -275,18 +209,18 @@ void menuIFSToggle(int btn){
printLineF2(F("IF Shift:Off, On?"));
}
else {
if (isIFShift == 0){
printLineF2(F("IF Shift is ON"));
delay_background(500, 0);
//if (isIFShift == 0){
//printLineF2(F("IF Shift is ON"));
//delay_background(500, 0);
isIFShift = 1;
}
//}
delay_background(500, 0);
updateLine2Buffer(1);
setFrequency(frequency);
//Off or Change Value
while(!btnDown() && digitalRead(PTT) == HIGH){
while(!btnDown() ){
if (needApplyChangeValue ==1)
{
updateLine2Buffer(1);
@ -303,9 +237,9 @@ void menuIFSToggle(int btn){
knob = enc_read();
if (knob != 0){
if (knob < 0)
ifShiftValue -= 1l;
ifShiftValue -= 50l;
else if (knob > 0)
ifShiftValue += 1;
ifShiftValue += 50;
needApplyChangeValue = 1;
}
@ -313,7 +247,7 @@ void menuIFSToggle(int btn){
delay_background(500, 0); //for check Long Press function key
if (btnDown() || digitalRead(PTT) == LOW || ifShiftValue == 0)
if (btnDown() || ifShiftValue == 0)
{
isIFShift = 0;
printLineF2(F("IF Shift is OFF"));
@ -321,38 +255,12 @@ void menuIFSToggle(int btn){
delay_background(500, 0);
}
menuOn = 0;
//delay_background(500, 0);
printLine2ClearAndUpdate();
//menuOn = 0;
//printLine2ClearAndUpdate();
menuClearExit(0);
}
}
/*
void menuSidebandToggle(int btn){
if (!btn){
if (isUSB == true)
printLineF2(F("Select LSB?"));
else
printLineF2(F("Select USB?"));
}
else {
cwMode = 0;
if (isUSB == true){
isUSB = false;
printLineF2(F("LSB Selected"));
}
else {
isUSB = true;
printLineF2(F("USB Selected"));
}
setFrequency(frequency);
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
}
}
*/
void menuSelectMode(int btn){
int knob = 0;
int selectModeType = 0;
@ -412,8 +320,7 @@ void menuSelectMode(int btn){
}
if (beforeMode != selectModeType) {
printLineF1(F("Changed Mode"));
//printLineF1(F("Changed Mode"));
if (selectModeType == 0) {
cwMode = 0; isUSB = 0;
}
@ -427,19 +334,7 @@ void menuSelectMode(int btn){
cwMode = 2;
}
//Save Frequency & Mode Information
if (vfoActive == VFO_A)
{
vfoA = frequency;
vfoA_mode = modeToByte();
storeFrequencyAndMode(1);
}
else
{
vfoB = frequency;
vfoB_mode = modeToByte();
storeFrequencyAndMode(2);
}
FrequencyToVFO(1);
}
if (cwMode == 0)
@ -448,73 +343,14 @@ void menuSelectMode(int btn){
si5351bx_setfreq(0, cwmCarrier + (isIFShift ? ifShiftValue : 0)); //set back the carrier oscillator anyway, cw tx switches it off
setFrequency(frequency);
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
}
}
void menuSplitOnOff(int btn){
if (!btn){
if (splitOn == 0)
printLineF2(F("Split On?"));
else
printLineF2(F("Split Off?"));
}
else {
if (splitOn == 1){
splitOn = 0;
printLineF2(F("Split Off!"));
}
else {
splitOn = 1;
if (ritOn == 1)
ritOn = 0;
printLineF2(F("Split On!"));
}
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
//delay_background(500, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(500);
}
}
/*
//Select CW Key Type by KD8CEC
void menuSetupKeyType(int btn){
if (!btn && digitalRead(PTT) == HIGH){
if (Iambic_Key)
printLineF2(F("Key: Straight?"));
else
printLineF2(F("Key: Fn=A, PTT=B"));
}
else {
if (Iambic_Key)
{
printLineF2(F("Straight Key!"));
Iambic_Key = false;
}
else
{
Iambic_Key = true;
if (btn)
{
keyerControl &= ~IAMBICB;
printLineF2(F("IAMBICA Key!"));
}
else
{
keyerControl |= IAMBICB;
printLineF2(F("IAMBICB Key!"));
}
}
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
}
}
*/
//Select CW Key Type by KD8CEC
void menuSetupKeyType(int btn){
int knob = 0;
@ -572,10 +408,11 @@ void menuSetupKeyType(int btn){
else
keyerControl |= IAMBICB;
}
delay_background(2000, 0);
printLine2ClearAndUpdate();
menuOn = 0;
//delay_background(2000, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(1000);
}
}
@ -655,10 +492,109 @@ void menuADCMonitor(int btn){
delay_background(200, 0);
} //end of while
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(0);
}
//VFO Toggle and save VFO Information, modified by KD8CEC
void menuVfoToggle(int btn, char isUseDelayTime)
{
if (!btn){
if (vfoActive == VFO_A)
printLineF2(F("Select VFO B?"));
else
printLineF2(F("Select VFO A?"));
}
else {
FrequencyToVFO(1);
if (vfoActive == VFO_B){
//vfoB = frequency;
//vfoB_mode = modeToByte();
//storeFrequencyAndMode(2); //vfoB -> eeprom
vfoActive = VFO_A;
frequency = vfoA;
saveCheckFreq = frequency;
byteToMode(vfoA_mode, 0);
//printLineF2(F("Selected VFO A"));
}
else {
//vfoA = frequency;
//vfoA_mode = modeToByte();
//storeFrequencyAndMode(1); //vfoA -> eeprom
vfoActive = VFO_B;
frequency = vfoB;
saveCheckFreq = frequency;
byteToMode(vfoB_mode, 0);
//printLineF2(F("Selected VFO B"));
}
ritDisable();
setFrequency(frequency);
//if (isUseDelayTime == 1) //Found Issue in wsjt-x Linux 32bit
// delay_background(500, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(0);
}
}
void menuRitToggle(int btn){
if (!btn){
if (ritOn == 1)
printLineF2(F("RIT:On, Off?"));
else
printLineF2(F("RIT:Off, On?"));
}
else {
if (ritOn == 0){
printLineF2(F("RIT is ON"));
//enable RIT so the current frequency is used at transmit
ritEnable(frequency);
}
else{
printLineF2(F("RIT is OFF"));
ritDisable();
}
//delay_background(500, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(500);
}
}
void menuSplitOnOff(int btn){
if (!btn){
if (splitOn == 0)
printLineF2(F("Split On?"));
else
printLineF2(F("Split Off?"));
}
else {
if (splitOn == 1){
splitOn = 0;
printLineF2(F("Split Off!"));
}
else {
splitOn = 1;
if (ritOn == 1)
ritOn = 0;
printLineF2(F("Split On!"));
}
//delay_background(500, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(500);
}
}
//Function to disbled transmission
//by KD8CEC
void menuTxOnOff(int btn, byte optionType){
@ -677,9 +613,11 @@ void menuTxOnOff(int btn, byte optionType){
isTxType &= ~(optionType);
printLineF2(F("TX ON!"));
}
delay_background(500, 0);
printLine2ClearAndUpdate();
menuOn = 0;
//delay_background(500, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(500);
}
}
@ -702,21 +640,19 @@ void menuSetup(int btn){
modeCalibrate = false;
printLineF2(F("Setup:Off"));
}
delay_background(2000, 0);
printLine2Clear();
menuOn = 0;
//delay_background(2000, 0);
//printLine2Clear();
//menuOn = 0;
menuClearExit(1000);
}
}
void menuExit(int btn){
if (!btn){
printLineF2(F("Exit Menu?"));
}
else{
printLine2ClearAndUpdate();
menuOn = 0;
}
else
menuClearExit(0);
}
void menuCWSpeed(int btn){
@ -768,10 +704,11 @@ void menuCWSpeed(int btn){
printLineF2(F("CW Speed set!"));
cwSpeed = 1200/wpm;
EEPROM.put(CW_SPEED, cwSpeed);
delay_background(2000, 0);
//}
printLine2ClearAndUpdate();
menuOn = 0;
//delay_background(2000, 0);
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(1000);
}
//Builtin CW Keyer Logic by KD8CEC
@ -841,10 +778,11 @@ void menuSetupCwDelay(int btn){
printLineF2(F("CW Delay set!"));
cwDelayTime = tmpCWDelay / 10;
EEPROM.put(CW_DELAY, cwDelayTime);
delay_background(2000, 0);
//delay_background(2000, 0);
//}
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(1000);
}
//CW Time delay by KD8CEC
@ -890,10 +828,11 @@ void menuSetupTXCWInterval(int btn){
printLineF2(F("CW Start set!"));
delayBeforeCWStartTime = tmpTXCWInterval / 2;
EEPROM.put(CW_START, delayBeforeCWStartTime);
delay_background(2000, 0);
//delay_background(2000, 0);
//}
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(1000);
}
@ -976,7 +915,8 @@ void factoryCalibration(int btn){
while(btnDown())
delay(50);
delay(100);
menuClearExit(100);
}
void menuSetupCalibration(int btn){
@ -1040,8 +980,9 @@ void menuSetupCalibration(int btn){
initOscillators();
//si5351_set_calibration(calibration);
setFrequency(frequency);
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(0);
}
void printCarrierFreq(unsigned long freq){
@ -1114,8 +1055,9 @@ void menuSetupCarrier(int btn){
si5351bx_setfreq(0, cwmCarrier); //set back the carrier oscillator anyway, cw tx switches it off
setFrequency(frequency);
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(0);
}
//Append by KD8CEC
@ -1150,8 +1092,9 @@ void menuSetupCWCarrier(int btn){
si5351bx_setfreq(0, cwmCarrier);
printCarrierFreq(cwmCarrier);
Check_Cat(0); //To prevent disconnections
delay(100);
//Check_Cat(0); //To prevent disconnections
//delay(100);
delay_background(100, 0);
}
//save the setting
@ -1169,9 +1112,11 @@ void menuSetupCWCarrier(int btn){
si5351bx_setfreq(0, cwmCarrier); //set back the carrier oscillator anyway, cw tx switches it off
setFrequency(frequency);
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(0);
}
//Modified by KD8CEC
void menuSetupCwTone(int btn){
int knob = 0;
@ -1204,21 +1149,23 @@ void menuSetupCwTone(int btn){
itoa(sideTone, b, 10);
printLine2(b);
delay(100);
Check_Cat(0); //To prevent disconnections
//delay(100);
//Check_Cat(0); //To prevent disconnections
delay_background(100, 0);
}
noTone(CW_TONE);
//save the setting
if (digitalRead(PTT) == LOW){
printLineF2(F("Sidetone set!"));
EEPROM.put(CW_SIDETONE, usbCarrier);
EEPROM.put(CW_SIDETONE, sideTone);
delay_background(2000, 0);
}
else
sideTone = prev_sideTone;
printLine2ClearAndUpdate();
menuOn = 0;
//printLine2ClearAndUpdate();
//menuOn = 0;
menuClearExit(0);
}
//Lock Dial move by KD8CEC
@ -1256,8 +1203,9 @@ void doMenu(){
//Appened Lines by KD8CEC for Adjust Tune step and Set Dial lock
while(btnDown()){
delay(50);
Check_Cat(0); //To prevent disconnections
//delay(50);
//Check_Cat(0); //To prevent disconnections
delay_background(50, 0);
if (btnDownTimeCount++ == (PRESS_ADJUST_TUNE / 50)) { //Set Tune Step
printLineF2(F("Set Tune Step?"));
@ -1280,8 +1228,9 @@ void doMenu(){
while (digitalRead(PTT) == HIGH && !btnDown())
{
Check_Cat(0); //To prevent disconnections
delay(50); //debounce
//Check_Cat(0); //To prevent disconnections
//delay(50); //debounce
delay_background(50, 0);
if (isNeedDisplay) {
strcpy(b, "Tune Step:");
@ -1348,7 +1297,7 @@ void doMenu(){
else if (select < 40)
menuRitToggle(btnState);
else if (select < 50)
menuIFSToggle(btnState);
menuIFSSetup(btnState);
else if (select < 60)
menuCWSpeed(btnState);
else if (select < 70)
@ -1385,9 +1334,8 @@ void doMenu(){
//debounce the button
while(btnDown()){
delay(50);
Check_Cat(0); //To prevent disconnections
delay_background(50, 0); //To prevent disconnections
}
delay(50);
//delay(50);
}

View File

@ -235,7 +235,6 @@ char byteToChar(byte srcByte){
void updateDisplay() {
// tks Jack Purdum W8TEE
// replaced fsprint commmands by str commands for code size reduction
// replace code for Frequency numbering error (alignment, point...) by KD8CEC
int i;
unsigned long tmpFreq = frequency; //