207 lines
5.3 KiB
C++
207 lines
5.3 KiB
C++
/****************************************************************************************************
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RepRapFirmware - Heat
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This is all the code to deal with heat and temperature.
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-----------------------------------------------------------------------------------------------------
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Version 0.1
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18 November 2012
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Adrian Bowyer
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RepRap Professional Ltd
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http://reprappro.com
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Licence: GPL
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****************************************************************************************************/
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#include "RepRapFirmware.h"
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Heat::Heat(Platform* p, GCodes* g)
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{
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platform = p;
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gCodes = g;
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for(int8_t heater=0; heater < HEATERS; heater++)
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pids[heater] = new PID(platform, heater);
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active = false;
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}
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void Heat::Init()
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{
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for(int8_t heater=0; heater < HEATERS; heater++)
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pids[heater]->Init();
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lastTime = platform->Time();
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longWait = lastTime;
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active = true;
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}
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void Heat::Exit()
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{
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for(int8_t heater=0; heater < HEATERS; heater++)
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pids[heater]->SwitchOff();
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platform->Message(HOST_MESSAGE, "Heat class exited.\n");
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active = false;
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}
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void Heat::Spin()
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{
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if(!active)
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return;
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float t = platform->Time();
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if(t - lastTime < platform->HeatSampleTime())
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return;
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lastTime = t;
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for(int8_t heater=0; heater < HEATERS; heater++)
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pids[heater]->Spin();
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platform->ClassReport("Heat", longWait);
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}
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void Heat::Diagnostics()
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{
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platform->Message(HOST_MESSAGE, "Heat Diagnostics:\n");
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// TODO - Put something useful in here
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}
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bool Heat::AllHeatersAtSetTemperatures(bool includingBed) const
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{
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for(int8_t heater = (includingBed) ? 0 : 1; heater < HEATERS; heater++)
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{
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if(!HeaterAtSetTemperature(heater))
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return false;
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}
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return true;
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}
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//query an individual heater
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bool Heat::HeaterAtSetTemperature(int8_t heater) const
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{
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if(pids[heater]->SwitchedOff()) // If it hasn't anything to do, it must be right wherever it is...
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return true;
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float dt = GetTemperature(heater);
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float target = (pids[heater]->Active()) ? GetActiveTemperature(heater) : GetStandbyTemperature(heater);
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return (target < TEMPERATURE_LOW_SO_DONT_CARE) || (fabs(dt - target) <= TEMPERATURE_CLOSE_ENOUGH);
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}
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//******************************************************************************************************
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PID::PID(Platform* p, int8_t h)
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{
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platform = p;
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heater = h;
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}
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void PID::Init()
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{
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platform->SetHeater(heater, 0.0);
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temperature = platform->GetTemperature(heater);
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activeTemperature = ABS_ZERO;
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standbyTemperature = ABS_ZERO;
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lastTemperature = temperature;
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temp_iState = 0.0;
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badTemperatureCount = 0;
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temperatureFault = false;
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active = false; // Default to standby temperature
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switchedOff = true;
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}
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void PID::SwitchOn()
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{
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// if(reprap.Debug())
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// {
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// snprintf(scratchString, STRING_LENGTH, "Heater %d switched on.\n", heater);
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// platform->Message(BOTH_MESSAGE, scratchString);
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// }
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switchedOff = false;
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}
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void PID::Spin()
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{
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// Always know our temperature, regardless of whether we have been switched on or not
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temperature = platform->GetTemperature(heater);
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// If we're not switched on, or there's a fault, turn the power off and go home.
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// If we're not switched on, then nothing is using us. This probably means that
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// we don't even have a thermistor connected. So don't even check for faults if we
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// are not switched on. This is safe, as the next bit of code always turns our
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// heater off in that case anyway.
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if(temperatureFault || switchedOff)
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{
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platform->SetHeater(heater, 0.0); // Make sure...
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return;
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}
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// We are switched on. Check for faults.
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if(temperature < BAD_LOW_TEMPERATURE || temperature > BAD_HIGH_TEMPERATURE)
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{
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badTemperatureCount++;
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if(badTemperatureCount > MAX_BAD_TEMPERATURE_COUNT)
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{
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platform->SetHeater(heater, 0.0);
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temperatureFault = true;
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switchedOff = true;
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snprintf(scratchString, STRING_LENGTH, "Temperature measurement fault on heater %d, T = %.1f\n", heater, temperature);
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platform->Message(HOST_MESSAGE, scratchString);
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}
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}
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else
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{
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badTemperatureCount = 0;
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}
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float error = ((active) ? activeTemperature : standbyTemperature) - temperature;
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const PidParameters& pp = platform->GetPidParameters(heater);
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if(!pp.UsePID())
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{
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platform->SetHeater(heater, (error > 0.0) ? 1.0 : 0.0);
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return;
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}
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if(error < -pp.fullBand)
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{
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temp_iState = 0.0;
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platform->SetHeater(heater, 0.0);
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lastTemperature = temperature;
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return;
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}
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if(error > pp.fullBand)
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{
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temp_iState = 0.0;
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platform->SetHeater(heater, 1.0);
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lastTemperature = temperature;
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return;
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}
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temp_iState += error * pp.kI;
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if (temp_iState < pp.pidMin) temp_iState = pp.pidMin;
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else if (temp_iState > pp.pidMax) temp_iState = pp.pidMax;
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float temp_dState = pp.kD * (temperature - lastTemperature);
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float result = pp.kP * error + temp_iState - temp_dState;
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lastTemperature = temperature;
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// Legacy - old RepRap PID parameters were set to give values in [0, 255] for 1 byte PWM control
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// TODO - maybe change them to give [0.0, 1.0]?
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if (result < 0.0) result = 0.0;
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else if (result > 255.0) result = 255.0;
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result = result/255.0;
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if(!temperatureFault)
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{
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platform->SetHeater(heater, result);
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}
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//debugPrintf("Heat: e=%f, P=%f, I=%f, d=%f, r=%f\n", error, platform->PidKp(heater)*error, temp_iState, temp_dState, result);
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}
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