d46dded42d
when github was adding a hash to the library download zip, there was confusion from beginners about needing to rename the unzipped folder before moving into the arduino ide. this library has been prepped (thijse) for the arduino library manager, which requires the library to be in the root directory. Having the library in the manager also removes the "beginner user hash" concern.
196 lines
6.8 KiB
C++
196 lines
6.8 KiB
C++
/**********************************************************************************************
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* Arduino PID Library - Version 1.1.1
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* by Brett Beauregard <br3ttb@gmail.com> brettbeauregard.com
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*
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* This Library is licensed under a GPLv3 License
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**********************************************************************************************/
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#if ARDUINO >= 100
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#include "Arduino.h"
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#else
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#include "WProgram.h"
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#endif
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#include <PID_v1.h>
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/*Constructor (...)*********************************************************
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* The parameters specified here are those for for which we can't set up
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* reliable defaults, so we need to have the user set them.
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***************************************************************************/
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PID::PID(double* Input, double* Output, double* Setpoint,
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double Kp, double Ki, double Kd, int ControllerDirection)
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{
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myOutput = Output;
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myInput = Input;
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mySetpoint = Setpoint;
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inAuto = false;
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PID::SetOutputLimits(0, 255); //default output limit corresponds to
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//the arduino pwm limits
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SampleTime = 100; //default Controller Sample Time is 0.1 seconds
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PID::SetControllerDirection(ControllerDirection);
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PID::SetTunings(Kp, Ki, Kd);
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lastTime = millis()-SampleTime;
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}
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/* Compute() **********************************************************************
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* This, as they say, is where the magic happens. this function should be called
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* every time "void loop()" executes. the function will decide for itself whether a new
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* pid Output needs to be computed. returns true when the output is computed,
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* false when nothing has been done.
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**********************************************************************************/
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bool PID::Compute()
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{
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if(!inAuto) return false;
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unsigned long now = millis();
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unsigned long timeChange = (now - lastTime);
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if(timeChange>=SampleTime)
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{
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/*Compute all the working error variables*/
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double input = *myInput;
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double error = *mySetpoint - input;
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ITerm+= (ki * error);
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if(ITerm > outMax) ITerm= outMax;
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else if(ITerm < outMin) ITerm= outMin;
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double dInput = (input - lastInput);
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/*Compute PID Output*/
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double output = kp * error + ITerm- kd * dInput;
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if(output > outMax) output = outMax;
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else if(output < outMin) output = outMin;
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*myOutput = output;
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/*Remember some variables for next time*/
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lastInput = input;
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lastTime = now;
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return true;
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}
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else return false;
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}
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/* SetTunings(...)*************************************************************
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* This function allows the controller's dynamic performance to be adjusted.
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* it's called automatically from the constructor, but tunings can also
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* be adjusted on the fly during normal operation
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******************************************************************************/
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void PID::SetTunings(double Kp, double Ki, double Kd)
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{
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if (Kp<0 || Ki<0 || Kd<0) return;
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dispKp = Kp; dispKi = Ki; dispKd = Kd;
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double SampleTimeInSec = ((double)SampleTime)/1000;
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kp = Kp;
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ki = Ki * SampleTimeInSec;
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kd = Kd / SampleTimeInSec;
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if(controllerDirection ==REVERSE)
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{
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kp = (0 - kp);
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ki = (0 - ki);
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kd = (0 - kd);
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}
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}
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/* SetSampleTime(...) *********************************************************
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* sets the period, in Milliseconds, at which the calculation is performed
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******************************************************************************/
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void PID::SetSampleTime(int NewSampleTime)
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{
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if (NewSampleTime > 0)
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{
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double ratio = (double)NewSampleTime
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/ (double)SampleTime;
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ki *= ratio;
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kd /= ratio;
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SampleTime = (unsigned long)NewSampleTime;
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}
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}
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/* SetOutputLimits(...)****************************************************
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* This function will be used far more often than SetInputLimits. while
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* the input to the controller will generally be in the 0-1023 range (which is
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* the default already,) the output will be a little different. maybe they'll
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* be doing a time window and will need 0-8000 or something. or maybe they'll
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* want to clamp it from 0-125. who knows. at any rate, that can all be done
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* here.
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**************************************************************************/
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void PID::SetOutputLimits(double Min, double Max)
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{
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if(Min >= Max) return;
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outMin = Min;
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outMax = Max;
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if(inAuto)
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{
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if(*myOutput > outMax) *myOutput = outMax;
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else if(*myOutput < outMin) *myOutput = outMin;
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if(ITerm > outMax) ITerm= outMax;
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else if(ITerm < outMin) ITerm= outMin;
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}
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}
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/* SetMode(...)****************************************************************
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* Allows the controller Mode to be set to manual (0) or Automatic (non-zero)
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* when the transition from manual to auto occurs, the controller is
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* automatically initialized
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******************************************************************************/
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void PID::SetMode(int Mode)
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{
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bool newAuto = (Mode == AUTOMATIC);
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if(newAuto == !inAuto)
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{ /*we just went from manual to auto*/
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PID::Initialize();
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}
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inAuto = newAuto;
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}
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/* Initialize()****************************************************************
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* does all the things that need to happen to ensure a bumpless transfer
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* from manual to automatic mode.
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******************************************************************************/
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void PID::Initialize()
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{
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ITerm = *myOutput;
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lastInput = *myInput;
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if(ITerm > outMax) ITerm = outMax;
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else if(ITerm < outMin) ITerm = outMin;
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}
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/* SetControllerDirection(...)*************************************************
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* The PID will either be connected to a DIRECT acting process (+Output leads
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* to +Input) or a REVERSE acting process(+Output leads to -Input.) we need to
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* know which one, because otherwise we may increase the output when we should
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* be decreasing. This is called from the constructor.
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******************************************************************************/
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void PID::SetControllerDirection(int Direction)
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{
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if(inAuto && Direction !=controllerDirection)
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{
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kp = (0 - kp);
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ki = (0 - ki);
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kd = (0 - kd);
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}
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controllerDirection = Direction;
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}
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/* Status Funcions*************************************************************
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* Just because you set the Kp=-1 doesn't mean it actually happened. these
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* functions query the internal state of the PID. they're here for display
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* purposes. this are the functions the PID Front-end uses for example
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******************************************************************************/
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double PID::GetKp(){ return dispKp; }
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double PID::GetKi(){ return dispKi;}
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double PID::GetKd(){ return dispKd;}
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int PID::GetMode(){ return inAuto ? AUTOMATIC : MANUAL;}
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int PID::GetDirection(){ return controllerDirection;}
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