James Batchelar
Simple PID Controller with Integral Windup Supports creating a diagnostics message to send to a GUI Prints to Binary
Fork of
PidControllerV2
by 
James Batchelar
pidContoller.cpp
- Committer:
- batchee7
- Date:
- 2017-09-04
- Revision:
- 1:15c12a119814
File content as of revision 1:15c12a119814:
#include "mbed.h"
#include "pidContoller.h"
pidContoller::pidContoller(){
elapsedTime =0;
mode = MANUAL;
}
int pidContoller::Calculate(float SP, float PV)
{
float CV; //(mm/s) Control Variable
float IntegralAction; // Integral Contribution to Output
float DerivativeAction; // Derivative Contribution to Output
if (mode == MANUAL)
{
CV = SP;
accumError = 0;
lastError = 0;
}
else
{
//Calc error
error = SP -PV;
IntegralAction = K_i*(accumError + error);
DerivativeAction = K_d*(error - lastError);
//-- PID Calculation
CV = bias + K_p*error, + IntegralAction - DerivativeAction;
//-- Clamp Integral if Output is Saturated
if ((CV > maxLimit) || (CV < minLimit))
{
accumError = accumError;
}
else
{
accumError += error;
}
//-- Set Error for Next Scan
lastError = error;
}
//Check to See Output is Within Limits
if (CV > maxLimit){CV= maxLimit;}
if (CV < minLimit){CV= minLimit;}
if (collectDiagnostics){BuildDiagMessage(SP,PV, CV*scalar, K_p*error, IntegralAction, DerivativeAction);}
//Convert from mm/s to 0-100%
return (int)(CV*scalar)*10;
}
void pidContoller::UpdateSettings(float Bias, float PropGain, float IntGain, float DiffGain, float OutputMin, float OutputMax, float OutputScale){
bias = Bias;
K_p = PropGain;
K_i = IntGain;
K_d = DiffGain;
minLimit = OutputMin;
maxLimit = OutputMax;
scalar = OutputScale;
}
void pidContoller::StartDiag(void){
elapsedTime =0;
}
void pidContoller::BuildDiagMessage(float SP, float PV, float PWM, float PropAction, float IntAction, float DifAction){
sprintf(diagMsg, "P %d %0.4f, %0.4f %0.1f %0.4f %0.4f %0.4f\n",
elapsedTime, SP, PV, PWM, PropAction, IntAction, DifAction);
elapsedTime += RATE;
if (elapsedTime > 32000){EndDiag();}
}