MOtor control Pololu

Dependencies:   Encoder HIDScope mbed-dsp mbed

main.cpp

Committer:
vsluiter
Date:
2014-10-01
Revision:
11:afe2140e469e
Parent:
10:6f8af13cc3f4
Child:
12:19ea553567a3

File content as of revision 11:afe2140e469e:

#include "mbed.h"
#include "encoder.h"
#include "HIDScope.h"

#define TSAMP 0.01
#define K_P (0.1)
#define K_I (0.03  *TSAMP)
#define K_D (0      /TSAMP)
#define I_LIMIT 1.

//#define POT_AVG 50

void clamp(float * in, float min, float max);
float pid(float setpoint, float measurement);
AnalogIn potmeter(PTC2);
volatile bool looptimerflag;
//float potsamples[POT_AVG];
HIDScope scope(6);


void setlooptimerflag(void)
{
    looptimerflag = true;
}



int main()
{
    //start Encoder
    Encoder motor1(PTD0,PTC9);
    /*PwmOut to motor driver*/
    PwmOut pwm_motor(PTA5);
    //10kHz PWM frequency
    pwm_motor.period_us(100);
    DigitalOut motordir(PTD1);
    Ticker looptimer;
    looptimer.attach(setlooptimerflag,TSAMP);
    while(1) {
        float setpoint;
        float new_pwm;
        /*wait until timer has elapsed*/
        while(!looptimerflag);
        looptimerflag = false; //clear flag
        /*potmeter value: 0-1*/
        setpoint = (potmeter.read()-.5)*500;        
        /*new_pwm = (setpoint - motor1.getPosition())*.001; -> P action*/
        new_pwm = pid(setpoint, motor1.getPosition());
        clamp(&new_pwm, -1,1);
        scope.set(0, setpoint);
        scope.set(4, new_pwm);
        scope.set(5, motor1.getPosition());
        // ch 1, 2 and 3 set in pid controller */
        scope.send();
        if(new_pwm > 0)
            motordir = 0;
        else
            motordir = 1;
        pwm_motor.write(abs(new_pwm));
    }
}


//clamps value 'in' to min or max when exceeding those values
//if you'd like to understand the statement below take a google for
//'ternary operators'.
void clamp(float * in, float min, float max)
{
    *in > min ? *in < max? : *in = max: *in = min;
}


float pid(float setpoint, float measurement)
{
    float error;
    static float prev_error = 0;
    float           out_p = 0;
    static float    out_i = 0;
    float           out_d = 0;
    error  = setpoint-measurement;
    out_p  = error*K_P;
    out_i += error*K_I;
    out_d  = (error-prev_error)*K_D;
    clamp(&out_i,-I_LIMIT,I_LIMIT);
    prev_error = error;
    scope.set(1,out_p);
    scope.set(2,out_i);
    scope.set(3,out_d);
    return out_p + out_i + out_d;
}