mirror of
https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-11-30 03:26:13 +01:00
176 lines
5.9 KiB
C++
176 lines
5.9 KiB
C++
/*
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* © 2021 M Steve Todd
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* © 2021 Mike S
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* © 2021 Fred Decker
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* © 2020-2021 Harald Barth
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* © 2020-2021 Chris Harlow
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* All rights reserved.
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*
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* This file is part of CommandStation-EX
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*
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* This 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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*
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* It 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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*
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* You should have received a copy of the GNU General Public License
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* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
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*/
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#ifndef DCCWaveform_h
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#define DCCWaveform_h
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#include "MotorDriver.h"
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// Wait times for power management. Unit: milliseconds
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const int POWER_SAMPLE_ON_WAIT = 100;
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const int POWER_SAMPLE_OFF_WAIT = 1000;
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const int POWER_SAMPLE_OVERLOAD_WAIT = 20;
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// Number of preamble bits.
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const int PREAMBLE_BITS_MAIN = 16;
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const int PREAMBLE_BITS_PROG = 22;
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const byte MAX_PACKET_SIZE = 5; // NMRA standard extended packets, payload size WITHOUT checksum.
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// The WAVE_STATE enum is deliberately numbered because a change of order would be catastrophic
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// to the transform array.
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enum WAVE_STATE : byte {WAVE_START=0,WAVE_MID_1=1,WAVE_HIGH_0=2,WAVE_MID_0=3,WAVE_LOW_0=4,WAVE_PENDING=5};
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// NOTE: static functions are used for the overall controller, then
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// one instance is created for each track.
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enum class POWERMODE : byte { OFF, ON, OVERLOAD };
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const byte idlePacket[] = {0xFF, 0x00, 0xFF};
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const byte resetPacket[] = {0x00, 0x00, 0x00};
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class DCCWaveform {
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public:
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DCCWaveform( byte preambleBits, bool isMain);
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static void begin(MotorDriver * mainDriver, MotorDriver * progDriver);
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static void loop(bool ackManagerActive);
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static DCCWaveform mainTrack;
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static DCCWaveform progTrack;
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void beginTrack();
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void setPowerMode(POWERMODE);
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POWERMODE getPowerMode();
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void checkPowerOverload(bool ackManagerActive);
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inline int get1024Current() {
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if (powerMode == POWERMODE::ON)
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return (int)(lastCurrent*(long int)1024/motorDriver->getRawCurrentTripValue());
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return 0;
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}
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inline int getCurrentmA() {
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if (powerMode == POWERMODE::ON)
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return motorDriver->raw2mA(lastCurrent);
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return 0;
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}
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inline int getMaxmA() {
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if (maxmA == 0) { //only calculate this for first request, it doesn't change
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maxmA = motorDriver->raw2mA(motorDriver->getRawCurrentTripValue()); //TODO: replace with actual max value or calc
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}
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return maxmA;
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}
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inline int getTripmA() {
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if (tripmA == 0) { //only calculate this for first request, it doesn't change
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tripmA = motorDriver->raw2mA(motorDriver->getRawCurrentTripValue());
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}
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return tripmA;
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}
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void schedulePacket(const byte buffer[], byte byteCount, byte repeats);
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volatile bool packetPending;
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volatile byte sentResetsSincePacket;
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volatile bool autoPowerOff=false;
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void setAckBaseline(); //prog track only
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void setAckPending(); //prog track only
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byte getAck(); //prog track only 0=NACK, 1=ACK 2=keep waiting
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static bool progTrackSyncMain; // true when prog track is a siding switched to main
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static bool progTrackBoosted; // true when prog track is not current limited
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inline void doAutoPowerOff() {
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if (autoPowerOff) {
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setPowerMode(POWERMODE::OFF);
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autoPowerOff=false;
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}
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};
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inline bool canMeasureCurrent() {
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return motorDriver->canMeasureCurrent();
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};
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inline void setAckLimit(int mA) {
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ackLimitmA = mA;
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}
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inline void setMinAckPulseDuration(unsigned int i) {
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minAckPulseDuration = i;
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}
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inline void setMaxAckPulseDuration(unsigned int i) {
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maxAckPulseDuration = i;
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}
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private:
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// For each state of the wave nextState=stateTransform[currentState]
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static const WAVE_STATE stateTransform[6];
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// For each state of the wave, signal pin is HIGH or LOW
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static const bool signalTransform[6];
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static void interruptHandler();
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void interrupt2();
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void checkAck();
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bool isMainTrack;
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MotorDriver* motorDriver;
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// Transmission controller
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byte transmitPacket[MAX_PACKET_SIZE+1]; // +1 for checksum
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byte transmitLength;
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byte transmitRepeats; // remaining repeats of transmission
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byte remainingPreambles;
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byte requiredPreambles;
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byte bits_sent; // 0-8 (yes 9 bits) sent for current byte
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byte bytes_sent; // number of bytes sent from transmitPacket
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WAVE_STATE state; // wave generator state machine
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byte pendingPacket[MAX_PACKET_SIZE+1]; // +1 for checksum
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byte pendingLength;
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byte pendingRepeats;
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int lastCurrent;
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static int progTripValue;
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int maxmA;
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int tripmA;
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// current sampling
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POWERMODE powerMode;
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unsigned long lastSampleTaken;
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unsigned int sampleDelay;
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// Trip current for programming track, 250mA. Change only if you really
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// need to be non-NMRA-compliant because of decoders that are not either.
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static const int TRIP_CURRENT_PROG=250;
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unsigned long power_sample_overload_wait = POWER_SAMPLE_OVERLOAD_WAIT;
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unsigned int power_good_counter = 0;
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// ACK management (Prog track only)
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volatile bool ackPending;
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volatile bool ackDetected;
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int ackThreshold;
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int ackLimitmA = 60;
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int ackMaxCurrent;
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unsigned long ackCheckStart; // millis
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unsigned int ackCheckDuration; // millis
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unsigned int ackPulseDuration; // micros
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unsigned long ackPulseStart; // micros
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unsigned int minAckPulseDuration = 4000; // micros
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unsigned int maxAckPulseDuration = 8500; // micros
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volatile static uint8_t numAckGaps;
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volatile static uint8_t numAckSamples;
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static uint8_t trailingEdgeCounter;
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};
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#endif
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