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3 Commits
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7b77d4ce1e
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7b77d4ce1e | ||
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d367f5dc81 | ||
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dc5f5e05b9 |
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@ -65,10 +65,12 @@ class DCCTimer {
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static void startRailcomTimer(byte brakePin);
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static void startRailcomTimer(byte brakePin);
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static void ackRailcomTimer();
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static void ackRailcomTimer();
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static void DCCEXanalogWriteFrequency(uint8_t pin, uint32_t frequency);
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static void DCCEXanalogWriteFrequency(uint8_t pin, uint32_t frequency);
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static void DCCEXanalogWrite(uint8_t pin, int value);
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static void DCCEXanalogWrite(uint8_t pin, int value, bool invert);
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static void DCCEXledcDetachPin(uint8_t pin);
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static void DCCEXledcDetachPin(uint8_t pin);
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static void DCCEXanalogCopyChannel(uint8_t frompin, uint8_t topin);
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static void DCCEXanalogCopyChannel(int8_t frompin, int8_t topin);
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static void DCCEXInrushControlOn(uint8_t pin, int duty);
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static void DCCEXInrushControlOn(uint8_t pin, int duty, bool invert);
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static void DCCEXledcAttachPin(uint8_t pin, int8_t channel, bool inverted);
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// Update low ram level. Allow for extra bytes to be specified
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// Update low ram level. Allow for extra bytes to be specified
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// by estimation or inspection, that may be used by other
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// by estimation or inspection, that may be used by other
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// called subroutines. Must be called with interrupts disabled.
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// called subroutines. Must be called with interrupts disabled.
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@ -197,13 +197,48 @@ void DCCTimer::DCCEXledcDetachPin(uint8_t pin) {
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pinMatrixOutDetach(pin, false, false);
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pinMatrixOutDetach(pin, false, false);
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}
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}
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static byte LEDCToMux[] = {
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LEDC_HS_SIG_OUT0_IDX,
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LEDC_HS_SIG_OUT1_IDX,
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LEDC_HS_SIG_OUT2_IDX,
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LEDC_HS_SIG_OUT3_IDX,
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LEDC_HS_SIG_OUT4_IDX,
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LEDC_HS_SIG_OUT5_IDX,
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LEDC_HS_SIG_OUT6_IDX,
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LEDC_HS_SIG_OUT7_IDX,
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LEDC_LS_SIG_OUT0_IDX,
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LEDC_LS_SIG_OUT1_IDX,
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LEDC_LS_SIG_OUT2_IDX,
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LEDC_LS_SIG_OUT3_IDX,
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LEDC_LS_SIG_OUT4_IDX,
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LEDC_LS_SIG_OUT5_IDX,
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LEDC_LS_SIG_OUT6_IDX,
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LEDC_LS_SIG_OUT7_IDX,
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};
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void DCCTimer::DCCEXanalogCopyChannel(uint8_t frompin, uint8_t topin) {
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void DCCTimer::DCCEXledcAttachPin(uint8_t pin, int8_t channel, bool inverted) {
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DIAG(F("Pin %d copied to %d channel %d"), frompin, topin, pin_to_channel[frompin]);
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DIAG(F("Attaching pin %d to channel %d %c"), pin, channel, inverted ? 'I' : ' ');
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pin_to_channel[topin] = pin_to_channel[frompin];
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ledcAttachPin(pin, channel);
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ledcAttachPin(topin, pin_to_channel[topin]);
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if (inverted) // we attach again but with inversion
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gpio_matrix_out(pin, LEDCToMux[channel], inverted, 0);
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}
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}
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void DCCTimer::DCCEXanalogWrite(uint8_t pin, int value) {
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void DCCTimer::DCCEXanalogCopyChannel(int8_t frompin, int8_t topin) {
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// arguments are signed depending on inversion of pins
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DIAG(F("Pin %d copied to %d"), frompin, topin);
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bool inverted = false;
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if (frompin<0)
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frompin = -frompin;
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if (topin<0) {
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inverted = true;
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topin = -topin;
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}
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int channel = pin_to_channel[frompin]; // after abs(frompin)
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pin_to_channel[topin] = channel;
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DCCTimer::DCCEXledcAttachPin(topin, channel, inverted);
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}
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void DCCTimer::DCCEXanalogWrite(uint8_t pin, int value, bool invert) {
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// This allocates channels 15, 13, 11, ....
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// This allocates channels 15, 13, 11, ....
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// so each channel gets its own timer.
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// so each channel gets its own timer.
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if (pin < SOC_GPIO_PIN_COUNT) {
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if (pin < SOC_GPIO_PIN_COUNT) {
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@ -237,17 +272,20 @@ void DCCTimer::DCCEXanalogWrite(uint8_t pin, int value) {
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--cnt_channel; // Now we are at 14, 12, ...
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--cnt_channel; // Now we are at 14, 12, ...
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}
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}
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ledcSetup(pin_to_channel[pin], 1000, 8);
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ledcSetup(pin_to_channel[pin], 1000, 8);
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ledcAttachPin(pin, pin_to_channel[pin]);
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DCCEXledcAttachPin(pin, pin_to_channel[pin], invert);
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} else {
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} else {
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// This else is only here so we can enable diag
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// Pin should be already attached to channel
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// DIAG(F("Pin %d assigned to old channel %d"), pin, pin_to_channel[pin]);
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// DIAG(F("Pin %d assigned to old channel %d"), pin, pin_to_channel[pin]);
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ledcAttachPin(pin, pin_to_channel[pin]);
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}
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}
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ledcWrite(pin_to_channel[pin], value);
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ledcWrite(pin_to_channel[pin], value);
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}
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}
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}
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}
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void DCCTimer::DCCEXInrushControlOn(uint8_t pin, int duty) {
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void DCCTimer::DCCEXInrushControlOn(uint8_t pin, int duty, bool inverted) {
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// this uses hardcoded channel 0
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ledcSetup(0, 62500, 8);
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ledcSetup(0, 62500, 8);
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ledcAttachPin(pin, 0);
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DCCEXledcAttachPin(pin, 0, inverted);
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ledcWrite(0, duty);
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ledcWrite(0, duty);
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}
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}
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@ -333,7 +333,9 @@ void DCCTimer::DCCEXanalogWriteFrequencyInternal(uint8_t pin, uint32_t frequency
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return;
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return;
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}
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}
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void DCCTimer::DCCEXanalogWrite(uint8_t pin, int value) {
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void DCCTimer::DCCEXanalogWrite(uint8_t pin, int value, bool invert) {
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if (invert)
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value = 255-value;
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// Calculate percentage duty cycle from value given
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// Calculate percentage duty cycle from value given
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uint32_t duty_cycle = (value * 100 / 256) + 1;
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uint32_t duty_cycle = (value * 100 / 256) + 1;
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if (pin_timer[pin] != NULL) {
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if (pin_timer[pin] != NULL) {
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@ -1 +1 @@
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#define GITHUB_SHA "devel-202404042311Z"
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#define GITHUB_SHA "devel-202404051206Z"
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@ -336,8 +336,6 @@ void MotorDriver::setDCSignal(byte speedcode, uint8_t frequency /*default =0*/)
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if (tSpeed <= 1) brake = 255;
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if (tSpeed <= 1) brake = 255;
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else if (tSpeed >= 127) brake = 0;
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else if (tSpeed >= 127) brake = 0;
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else brake = 2 * (128-tSpeed);
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else brake = 2 * (128-tSpeed);
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if (invertBrake)
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brake=255-brake;
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{ // new block because of variable f
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{ // new block because of variable f
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#if defined(ARDUINO_ARCH_ESP32) || defined(ARDUINO_ARCH_STM32)
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#if defined(ARDUINO_ARCH_ESP32) || defined(ARDUINO_ARCH_STM32)
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@ -351,10 +349,10 @@ void MotorDriver::setDCSignal(byte speedcode, uint8_t frequency /*default =0*/)
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#endif
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#endif
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//DIAG(F("Brake pin %d freqency %d"), brakePin, f);
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//DIAG(F("Brake pin %d freqency %d"), brakePin, f);
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, f); // set DC PWM frequency
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, f); // set DC PWM frequency
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DCCTimer::DCCEXanalogWrite(brakePin,brake);
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DCCTimer::DCCEXanalogWrite(brakePin, brake, invertBrake);
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#else // all AVR here
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#else // all AVR here
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, frequency); // frequency steps
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, frequency); // frequency steps
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analogWrite(brakePin,brake);
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analogWrite(brakePin, invertBrake ? 255-brake : brake);
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#endif
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#endif
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}
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}
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@ -407,11 +405,9 @@ void MotorDriver::throttleInrush(bool on) {
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if ( !(trackMode & (TRACK_MODE_MAIN | TRACK_MODE_PROG | TRACK_MODE_EXT | TRACK_MODE_BOOST)))
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if ( !(trackMode & (TRACK_MODE_MAIN | TRACK_MODE_PROG | TRACK_MODE_EXT | TRACK_MODE_BOOST)))
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return;
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return;
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byte duty = on ? 207 : 0; // duty of 81% at 62500Hz this gives pauses of 3usec
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byte duty = on ? 207 : 0; // duty of 81% at 62500Hz this gives pauses of 3usec
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if (invertBrake)
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duty = 255-duty;
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#if defined(ARDUINO_ARCH_ESP32)
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#if defined(ARDUINO_ARCH_ESP32)
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if(on) {
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if(on) {
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DCCTimer::DCCEXInrushControlOn(brakePin, duty);
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DCCTimer::DCCEXInrushControlOn(brakePin, duty, invertBrake);
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} else {
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} else {
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ledcDetachPin(brakePin); // not DCCTimer::DCCEXledcDetachPin() as we have not
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ledcDetachPin(brakePin); // not DCCTimer::DCCEXledcDetachPin() as we have not
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// registered the pin in the pin to channel array
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// registered the pin in the pin to channel array
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@ -419,11 +415,13 @@ void MotorDriver::throttleInrush(bool on) {
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#elif defined(ARDUINO_ARCH_STM32)
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#elif defined(ARDUINO_ARCH_STM32)
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if(on) {
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if(on) {
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, 7); // 7 means max
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, 7); // 7 means max
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DCCTimer::DCCEXanalogWrite(brakePin,duty);
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DCCTimer::DCCEXanalogWrite(brakePin,duty,invertBrake);
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} else {
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} else {
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pinMode(brakePin, OUTPUT);
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pinMode(brakePin, OUTPUT);
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}
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}
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#else // all AVR here
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#else // all AVR here
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if (invertBrake)
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duty = 255-duty;
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if(on){
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if(on){
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, 7); // 7 means max
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DCCTimer::DCCEXanalogWriteFrequency(brakePin, 7); // 7 means max
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}
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}
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@ -193,7 +193,7 @@ class MotorDriver {
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}
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}
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};
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};
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inline pinpair getSignalPin() { return pinpair(signalPin,signalPin2); };
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inline pinpair getSignalPin() { return pinpair(signalPin,signalPin2); };
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inline byte getBrakePin() { return brakePin; };
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inline int8_t getBrakePinSigned() { return invertBrake ? -brakePin : brakePin; };
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void setDCSignal(byte speedByte, uint8_t frequency=0);
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void setDCSignal(byte speedByte, uint8_t frequency=0);
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void throttleInrush(bool on);
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void throttleInrush(bool on);
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inline void detachDCSignal() {
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inline void detachDCSignal() {
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@ -264,14 +264,18 @@ bool TrackManager::setTrackMode(byte trackToSet, TRACK_MODE mode, int16_t dcAddr
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#ifdef ARDUINO_ARCH_ESP32
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#ifdef ARDUINO_ARCH_ESP32
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int trackfound = -1;
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int trackfound = -1;
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FOR_EACH_TRACK(t) {
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FOR_EACH_TRACK(t) {
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if ((track[t]->getMode() & TRACK_MODE_DC) && trackDCAddr[t] == dcAddr) {
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//DIAG(F("Checking track %c mode %x dcAddr %d"), 'A'+t, track[t]->getMode(), trackDCAddr[t]);
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if (t != trackToSet // not our track
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&& (track[t]->getMode() & TRACK_MODE_DC) // right mode
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&& trackDCAddr[t] == dcAddr) { // right addr
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//DIAG(F("Found track %c"), 'A'+t);
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trackfound = t;
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trackfound = t;
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break;
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break;
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}
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}
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}
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}
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if (trackfound > -1) {
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if (trackfound > -1) {
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DCCTimer::DCCEXanalogCopyChannel(track[trackfound]->getBrakePin(),
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DCCTimer::DCCEXanalogCopyChannel(track[trackfound]->getBrakePinSigned(),
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track[trackToSet]->getBrakePin());
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track[trackToSet]->getBrakePinSigned());
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}
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}
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#endif
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#endif
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}
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}
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@ -3,8 +3,9 @@
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#include "StringFormatter.h"
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#include "StringFormatter.h"
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#define VERSION "5.2.43"
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#define VERSION "5.2.44"
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// 5.2.43 - ESP32 rewrite PWM LEDC to use pin mux
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// 5.2.44 - ESP32 fix PWM LEDC inverted pin mode
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// ESP32 rewrite PWM LEDC to use pin mux
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// 5.2.42 - ESP32 Bugfix: Uninitialized stack variable
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// 5.2.42 - ESP32 Bugfix: Uninitialized stack variable
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// 5.2.41 - Update rotary encoder default address to 0x67
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// 5.2.41 - Update rotary encoder default address to 0x67
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// 5.2.40 - Allow no shield
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// 5.2.40 - Allow no shield
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