Simple PID Controller with Integral Windup Supports creating a diagnostics message to send to a GUI Prints to Binary
Fork of PidControllerV2 by
PidController.cpp@3:c169d08a9d0b, 2017-09-06 (annotated)
- Committer:
- batchee7
- Date:
- Wed Sep 06 23:45:40 2017 +0000
- Revision:
- 3:c169d08a9d0b
- Parent:
- 2:dd64c2cf9066
- Child:
- 4:b590bd8fec6f
Corrections to output generation
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
batchee7 | 1:15c12a119814 | 1 | #include "mbed.h" |
batchee7 | 2:dd64c2cf9066 | 2 | #include "PidController.h" |
batchee7 | 1:15c12a119814 | 3 | |
batchee7 | 2:dd64c2cf9066 | 4 | PidController::PidController(){ |
batchee7 | 1:15c12a119814 | 5 | elapsedTime =0; |
batchee7 | 1:15c12a119814 | 6 | mode = MANUAL; |
batchee7 | 1:15c12a119814 | 7 | } |
batchee7 | 1:15c12a119814 | 8 | |
batchee7 | 2:dd64c2cf9066 | 9 | int PidController::Calculate(float SP, float PV) |
batchee7 | 1:15c12a119814 | 10 | { |
batchee7 | 1:15c12a119814 | 11 | float CV; //(mm/s) Control Variable |
batchee7 | 1:15c12a119814 | 12 | float IntegralAction; // Integral Contribution to Output |
batchee7 | 1:15c12a119814 | 13 | float DerivativeAction; // Derivative Contribution to Output |
batchee7 | 1:15c12a119814 | 14 | |
batchee7 | 1:15c12a119814 | 15 | if (mode == MANUAL) |
batchee7 | 1:15c12a119814 | 16 | { |
batchee7 | 1:15c12a119814 | 17 | CV = SP; |
batchee7 | 1:15c12a119814 | 18 | accumError = 0; |
batchee7 | 1:15c12a119814 | 19 | lastError = 0; |
batchee7 | 1:15c12a119814 | 20 | } |
batchee7 | 1:15c12a119814 | 21 | else |
batchee7 | 1:15c12a119814 | 22 | { |
batchee7 | 1:15c12a119814 | 23 | //Calc error |
batchee7 | 1:15c12a119814 | 24 | error = SP -PV; |
batchee7 | 1:15c12a119814 | 25 | IntegralAction = K_i*(accumError + error); |
batchee7 | 1:15c12a119814 | 26 | DerivativeAction = K_d*(error - lastError); |
batchee7 | 1:15c12a119814 | 27 | |
batchee7 | 1:15c12a119814 | 28 | //-- PID Calculation |
batchee7 | 1:15c12a119814 | 29 | CV = bias + K_p*error, + IntegralAction - DerivativeAction; |
batchee7 | 1:15c12a119814 | 30 | |
batchee7 | 1:15c12a119814 | 31 | //-- Clamp Integral if Output is Saturated |
batchee7 | 1:15c12a119814 | 32 | if ((CV > maxLimit) || (CV < minLimit)) |
batchee7 | 1:15c12a119814 | 33 | { |
batchee7 | 1:15c12a119814 | 34 | accumError = accumError; |
batchee7 | 1:15c12a119814 | 35 | } |
batchee7 | 1:15c12a119814 | 36 | else |
batchee7 | 1:15c12a119814 | 37 | { |
batchee7 | 1:15c12a119814 | 38 | accumError += error; |
batchee7 | 1:15c12a119814 | 39 | } |
batchee7 | 1:15c12a119814 | 40 | |
batchee7 | 1:15c12a119814 | 41 | //-- Set Error for Next Scan |
batchee7 | 1:15c12a119814 | 42 | lastError = error; |
batchee7 | 1:15c12a119814 | 43 | } |
batchee7 | 1:15c12a119814 | 44 | |
batchee7 | 1:15c12a119814 | 45 | |
batchee7 | 1:15c12a119814 | 46 | //Check to See Output is Within Limits |
batchee7 | 1:15c12a119814 | 47 | if (CV > maxLimit){CV= maxLimit;} |
batchee7 | 1:15c12a119814 | 48 | if (CV < minLimit){CV= minLimit;} |
batchee7 | 1:15c12a119814 | 49 | |
batchee7 | 1:15c12a119814 | 50 | |
batchee7 | 3:c169d08a9d0b | 51 | if (collectDiagnostics){BuildDiagMessage(SP,PV, CV, K_p*error, IntegralAction, DerivativeAction);} |
batchee7 | 1:15c12a119814 | 52 | |
batchee7 | 1:15c12a119814 | 53 | //Convert from mm/s to 0-100% |
batchee7 | 3:c169d08a9d0b | 54 | return (int)(CV*scalar); |
batchee7 | 1:15c12a119814 | 55 | } |
batchee7 | 1:15c12a119814 | 56 | |
batchee7 | 2:dd64c2cf9066 | 57 | void PidController::UpdateSettings(float Bias, float PropGain, float IntGain, float DiffGain, float OutputMin, float OutputMax, float OutputScale){ |
batchee7 | 1:15c12a119814 | 58 | bias = Bias; |
batchee7 | 1:15c12a119814 | 59 | K_p = PropGain; |
batchee7 | 1:15c12a119814 | 60 | K_i = IntGain; |
batchee7 | 1:15c12a119814 | 61 | K_d = DiffGain; |
batchee7 | 1:15c12a119814 | 62 | minLimit = OutputMin; |
batchee7 | 1:15c12a119814 | 63 | maxLimit = OutputMax; |
batchee7 | 1:15c12a119814 | 64 | scalar = OutputScale; |
batchee7 | 1:15c12a119814 | 65 | } |
batchee7 | 1:15c12a119814 | 66 | |
batchee7 | 2:dd64c2cf9066 | 67 | void PidController::StartDiag(void){ |
batchee7 | 1:15c12a119814 | 68 | elapsedTime =0; |
batchee7 | 3:c169d08a9d0b | 69 | collectDiagnostics = true; |
batchee7 | 1:15c12a119814 | 70 | } |
batchee7 | 3:c169d08a9d0b | 71 | |
batchee7 | 3:c169d08a9d0b | 72 | void PidController::EndDiag(void){ |
batchee7 | 3:c169d08a9d0b | 73 | collectDiagnostics = false; |
batchee7 | 3:c169d08a9d0b | 74 | |
batchee7 | 1:15c12a119814 | 75 | } |
batchee7 | 1:15c12a119814 | 76 | |
batchee7 | 3:c169d08a9d0b | 77 | void PidController::BuildDiagMessage(float SetPoint, float ProcessVar, float PWM, float PropAction, float IntAction, float DifAction){ |
batchee7 | 3:c169d08a9d0b | 78 | sprintf(diagMsg, "P %d %0.4f %0.4f %0.1f %0.4f %0.4f %0.4f\n", |
batchee7 | 3:c169d08a9d0b | 79 | elapsedTime, SetPoint, ProcessVar, PWM, PropAction, IntAction, DifAction); |
batchee7 | 3:c169d08a9d0b | 80 | elapsedTime += RATE; |
batchee7 | 3:c169d08a9d0b | 81 | if (elapsedTime > 32000){sprintf(diagMsg, "R");} |
batchee7 | 3:c169d08a9d0b | 82 | } |
batchee7 | 3:c169d08a9d0b | 83 |