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Distunguish between in/out of FASTPIN
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@ -119,6 +119,11 @@ void DCCWaveform::checkPowerOverload() {
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case POWERMODE::ON:
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// Check current
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lastCurrent=motorDriver->getCurrentRaw();
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if (lastCurrent < 0) {
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// We have a fault pin condition to take care of
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DIAG(F("\n*** %S FAULT PIN ACTIVE TOGGLE POWER ON THIS OR BOTH TRACKS ***\n"), isMainTrack ? F("MAIN") : F("PROG"));
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lastCurrent = -lastCurrent;
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}
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if (lastCurrent <= tripValue) {
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sampleDelay = POWER_SAMPLE_ON_WAIT;
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if(power_good_counter<100)
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@ -129,9 +134,9 @@ void DCCWaveform::checkPowerOverload() {
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setPowerMode(POWERMODE::OVERLOAD);
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unsigned int mA=motorDriver->raw2mA(lastCurrent);
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unsigned int maxmA=motorDriver->raw2mA(tripValue);
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DIAG(F("\n*** %S TRACK POWER OVERLOAD current=%d max=%d offtime=%l ***\n"), isMainTrack ? F("MAIN") : F("PROG"), mA, maxmA, power_sample_overload_wait);
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power_good_counter=0;
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sampleDelay = power_sample_overload_wait;
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DIAG(F("\n*** %S TRACK POWER OVERLOAD current=%d max=%d offtime=%d ***\n"), isMainTrack ? F("MAIN") : F("PROG"), mA, maxmA, sampleDelay);
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if (power_sample_overload_wait >= 10000)
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power_sample_overload_wait = 10000;
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else
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@ -142,6 +147,8 @@ void DCCWaveform::checkPowerOverload() {
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// Try setting it back on after the OVERLOAD_WAIT
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setPowerMode(POWERMODE::ON);
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sampleDelay = POWER_SAMPLE_ON_WAIT;
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// Debug code....
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DIAG(F("\n*** %S TRACK POWER RESET delay=%d ***\n"), isMainTrack ? F("MAIN") : F("PROG"), sampleDelay);
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break;
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default:
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sampleDelay = 999; // cant get here..meaningless statement to avoid compiler warning.
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@ -20,9 +20,9 @@
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#include "MotorDriver.h"
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#include "DIAG.h"
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#define setHIGH(fastpin) *fastpin.out |= fastpin.maskHIGH
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#define setLOW(fastpin) *fastpin.out &= fastpin.maskLOW
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#define isHIGH(fastpin) (*fastpin.out & fastpin.maskHIGH)
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#define setHIGH(fastpin) *fastpin.inout |= fastpin.maskHIGH
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#define setLOW(fastpin) *fastpin.inout &= fastpin.maskLOW
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#define isHIGH(fastpin) (*fastpin.inout & fastpin.maskHIGH)
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#define isLOW(fastpin) (!isHIGH(fastpin))
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@ -59,14 +59,13 @@ MotorDriver::MotorDriver(byte power_pin, byte signal_pin, byte signal_pin2, int8
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faultPin=fault_pin;
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if (faultPin != UNUSED_PIN) {
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getFastPin(F("FAULT"),faultPin,fastFaultPin);
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getFastPin(F("FAULT"),faultPin, 1 /*input*/, fastFaultPin);
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pinMode(faultPin, INPUT);
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}
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senseFactor=sense_factor;
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tripMilliamps=trip_milliamps;
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rawCurrentTripValue=(int)(trip_milliamps / sense_factor);
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simulatedOverload=(int)(32000/senseFactor);
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}
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void MotorDriver::setPower(bool on) {
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@ -107,13 +106,13 @@ void MotorDriver::setSignal( bool high) {
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int MotorDriver::getCurrentRaw() {
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int current = analogRead(currentPin);
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if (faultPin != UNUSED_PIN && isLOW(fastFaultPin) && isHIGH(fastPowerPin))
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return simulatedOverload;
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return -current;
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return current;
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// IMPORTANT: This function can be called in Interrupt() time within the 56uS timer
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// The default analogRead takes ~100uS which is catastrphic
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// so DCCTimer has set the sample time to be much faster.
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return analogRead(currentPin);
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}
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unsigned int MotorDriver::raw2mA( int raw) {
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@ -123,11 +122,14 @@ int MotorDriver::mA2raw( unsigned int mA) {
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return (int)(mA / senseFactor);
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}
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void MotorDriver::getFastPin(const FSH* type,int pin, FASTPIN & result) {
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void MotorDriver::getFastPin(const FSH* type,int pin, bool input, FASTPIN & result) {
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DIAG(F("\nMotorDriver %S Pin=%d,"),type,pin);
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uint8_t port = digitalPinToPort(pin);
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result.out = portOutputRegister(port);
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if (input)
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result.inout = portInputRegister(port);
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else
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result.inout = portOutputRegister(port);
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result.maskHIGH = digitalPinToBitMask(pin);
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result.maskLOW = ~result.maskHIGH;
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DIAG(F(" port=0x%x, out=0x%x, mask=0x%x\n"),port, result.out,result.maskHIGH);
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DIAG(F(" port=0x%x, inoutpin=0x%x, isinput=%d, mask=0x%x\n"),port, result.inout,input,result.maskHIGH);
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}
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@ -27,7 +27,7 @@
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#endif
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struct FASTPIN {
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volatile uint8_t *out;
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volatile uint8_t *inout;
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uint8_t maskHIGH;
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uint8_t maskLOW;
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};
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@ -46,7 +46,10 @@ class MotorDriver {
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}
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private:
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void getFastPin(const FSH* type,int pin, FASTPIN & result);
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void getFastPin(const FSH* type,int pin, bool input, FASTPIN & result);
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void getFastPin(const FSH* type,int pin, FASTPIN & result) {
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getFastPin(type, pin, 0, result);
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}
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byte powerPin, signalPin, signalPin2, currentPin, faultPin, brakePin;
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FASTPIN fastPowerPin,fastSignalPin, fastSignalPin2, fastBrakePin,fastFaultPin;
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bool dualSignal; // true to use signalPin2
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@ -54,6 +57,5 @@ class MotorDriver {
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float senseFactor;
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unsigned int tripMilliamps;
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int rawCurrentTripValue;
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int simulatedOverload;
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};
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#endif
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