ESP32_ChinaDieselHeater_Con.../Arduino/SenderTrial2/Protocol.cpp

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#include <Arduino.h>
#include "Protocol.h"
unsigned short
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CProtocol::CalcCRC(int len)
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{
// calculate a CRC-16/MODBUS checksum using the first 22 bytes of the data array
unsigned short wCRCWord = 0xFFFF;
int wLength = len;
unsigned char* pData = Data;
while (wLength--)
{
unsigned char nTemp = *pData++ ^ wCRCWord;
wCRCWord >>= 8;
wCRCWord ^= wCRCTable[nTemp];
}
return wCRCWord;
}
void
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CProtocol::setCRC()
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{
setCRC(CalcCRC(22));
}
void
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CProtocol::setCRC(unsigned short CRC)
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{
Data[22] = (CRC >> 8) & 0xff; // MSB of CRC in Data[22]
Data[23] = (CRC >> 0) & 0xff; // LSB of CRC in Data[23]
}
unsigned short
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CProtocol::getCRC()
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{
unsigned short CRC;
CRC = Data[22]; // MSB of CRC in Data[22]
CRC <<= 8;
CRC |= Data[23]; // LSB of CRC in Data[23]
}
// return true for CRC match
bool
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CProtocol::verifyCRC()
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{
unsigned short CRC = CalcCRC(22); // calculate CRC based on first 22 bytes
return (getCRC() == CRC); // does it match the stored values?
}
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CProtocol&
CProtocol::operator=(const CProtocol& rhs)
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{
memcpy(Data, rhs.Data, 24);
return *this;
}
int
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CProtocol::getCommand()
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{
return Controller.Command;
}
void
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CProtocol::setCommand(int cmd)
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{
Controller.Command = cmd;
}
/*unsigned char getCommand();
void setCommand(int mode);*/
void
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CProtocol::setFan_Min(short Speed)
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{
// Minimum speed set
Controller.MinFanRPM_MSB = (Speed >> 8) & 0xff;
Controller.MinFanRPM_LSB = (Speed >> 0) & 0xff;
}
void
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CProtocol::setFan_Max(short Speed)
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{
// Minimum speed set
Controller.MaxFanRPM_MSB = (Speed >> 8) & 0xff;
Controller.MaxFanRPM_LSB = (Speed >> 0) & 0xff;
}
short
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CProtocol::getFan_Min()
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{
short retval;
// Minimum speed get
retval = Controller.MinFanRPM_MSB;
retval <<= 8;
retval |= Controller.MinFanRPM_LSB;
return retval;
}
short
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CProtocol::getFan_Max()
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{
short retval;
// Maximum speed get
retval = Controller.MaxFanRPM_MSB;
retval <<= 8;
retval |= Controller.MaxFanRPM_LSB;
return retval;
}
short
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CProtocol::getFan_Actual()
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{
// Rx side, actual
short retval;
retval = Heater.FanRPM_MSB;
retval <<= 8;
retval |= Heater.FanRPM_LSB;
return retval;
}
void
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CProtocol::setFan_Actual(short Speed) // Heater side, actual
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{
// actual speed set
Heater.FanRPM_MSB = (Speed >> 8) & 0xff;
Heater.FanRPM_LSB = (Speed >> 0) & 0xff;
}
short
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CProtocol::getGlowPlug_Current() // glow plug current
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{
short retval;
retval = Heater.GlowPlugCurrent_MSB;
retval <<= 8;
retval |= Heater.GlowPlugCurrent_LSB;
return retval;
}
void
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CProtocol::setGlowPlug_Current(short ampsx100) // glow plug current
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{
Heater.GlowPlugCurrent_MSB = (ampsx100 >> 8) & 0xff;
Heater.GlowPlugCurrent_LSB = (ampsx100 >> 0) & 0xff;
}
short
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CProtocol::getGlowPlug_Voltage() // glow plug voltage
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{
short retval;
retval = Heater.GlowPlugVoltage_MSB;
retval <<= 8;
retval |= Heater.GlowPlugVoltage_LSB;
return retval;
}
void
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CProtocol::setGlowPlug_Voltage(short voltsx10) // glow plug voltage
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{
Heater.GlowPlugVoltage_MSB = (voltsx10 >> 8) & 0xff;
Heater.GlowPlugVoltage_LSB = (voltsx10 >> 0) & 0xff;
}
short
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CProtocol::getTemperature_HeatExchg() // temperature of heat exchanger
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{
short retval;
retval = Heater.HeatExchgTemp_MSB;
retval <<= 8;
retval |= Heater.HeatExchgTemp_LSB;
return retval;
}
void
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CProtocol::setTemperature_HeatExchg(short degC) // temperature of heat exchanger
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{
Heater.HeatExchgTemp_MSB = (degC >> 8) & 0xff;
Heater.HeatExchgTemp_LSB = (degC >> 0) & 0xff;
}
short
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CProtocol::getFan_Voltage() // temperature near inlet
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{
short retval;
retval = Heater.FanVoltage_MSB;
retval <<= 8;
retval |= Heater.FanVoltage_LSB;
return retval;
}
void
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CProtocol::setFan_Voltage(short voltsx10) // temperature near inlet
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{
Heater.FanVoltage_MSB = (voltsx10 >> 8) & 0xff;
Heater.FanVoltage_LSB = (voltsx10 >> 0) & 0xff;
}
void
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CProtocol::setVoltage_Supply(short voltsx10)
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{
Heater.SupplyV_MSB = (voltsx10 >> 8) & 0xff;
Heater.SupplyV_LSB = (voltsx10 >> 0) & 0xff;
}
short
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CProtocol::getVoltage_Supply()
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{
short retval = 0;
retval = Heater.SupplyV_MSB & 0xff;
retval <<= 8;
retval |= Heater.SupplyV_LSB & 0xff;
}
void
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CProtocol::Init(int FrameMode)
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{
if(FrameMode == CtrlMode) {
Controller.Byte0 = 0x76;
Controller.Len = 22;
Controller.Command = 0; // NOP
setTemperature_Actual(18); // 1degC / digit
setTemperature_Desired(20); // 1degC / digit
setPump_Min(14); // 0.1Hz/digit
setPump_Max(43); // 0.1Hz/digit
setFan_Min(1450); // 1RPM / digit
setFan_Max(4500); // 1RPM / digit
Controller.OperatingVoltage = 120; // 0.1V/digit
Controller.FanSensor = 1; // SN-1 or SN-2
Controller.OperatingMode = 0x32; // 0x32:Thermostat, 0xCD:Fixed
setTemperature_Min(8); // Minimum settable temperature
setTemperature_Max(35); // Maximum settable temperature
Controller.MinTempRise = 5; // temp rise to sense fuel ignition
Controller.Prime = 0; // 00: normal, 0x5A: fuel prime
Controller.Unknown1_MSB = 0x01; // always 0x01
Controller.Unknown1_LSB = 0x2c; // always 0x2c 16bit: "300 secs = max run without burn detected" ??
Controller.Unknown2_MSB = 0x0d; // always 0x0d
Controller.Unknown2_LSB = 0xac; // always 0xac 16bit: "3500" ??
setCRC();
}
else if(FrameMode == HeatMode){
Heater.Byte0 = 0x76;
Heater.Len = 22;
setRunState(0);
setErrState(0);
setVoltage_Supply(133);
setFan_Actual(0);
setFan_Voltage(0);
setTemperature_HeatExchg(18);
setGlowPlug_Voltage(0);
setGlowPlug_Current(0);
Heater.ActualPumpFreq = 0; // fuel pump freq.: 0.1Hz / digit
Heater.ErrorCode = 0; //
Heater.Unknown1 = 0; // always 0x00
Heater.FixedPumpFreq = 23; // fixed mode frequency set point: 0.1Hz / digit
Heater.Unknown2 = 100; // always 0x64 "100 ?"
Heater.Unknown3 = 0; // always 0x00
setCRC();
}
else {
memset(Data, 0, 24);
}
}