group14 - k9
aansturing van twee motoren met behulp van potmeters
Dependencies: Encoder biquadFilter mbed
Fork of
potmeter_test
by 
Silver Eagle
main.cpp
- Committer:
- S1lverEagle
- Date:
- 2015-10-20
- Revision:
- 3:e1b081265e97
- Parent:
- 2:3835d7ff7600
File content as of revision 3:e1b081265e97:
#include "mbed.h"
#include "encoder.h"
#include "biquadFilter.h"
/*programma voor het testen van de beweging van de arm, aangestuurd door twee potmeters*/
//INPUT/OUTPUT
PwmOut pwm_motor1(D5); //onderste motor
DigitalOut dir_motor1(D4);
PwmOut pwm_motor2(D6); //bovenste motor
DigitalOut dir_motor2(D7);
Encoder encoder1(D13,D12,true);
Encoder encoder2(D10,D9,true);
//potmeters voor testen:
AnalogIn potmeter1(A4);
AnalogIn potmeter2(A5);
//VARIABELEN
Ticker control_ticker;
double pos_1;
double pos_2;
// Sample time (motor1−timestep)
const double m1_Ts = 0.01;
// Controller gains (motor1−Kp,−Ki,...)
const double m1_Kp = 0.005, m1_Ki = 0.005, m1_Kd = 0.002;
double m1_err_int = 0, m1_prev_err = 0;
// Derivative filter coeicients (motor1−filter−b0,−b1,...)
const double m1_f_a1 = -0.11175688680, m1_f_a2 = 0.17749674417, m1_f_b0 = 1.0, m1_f_b1 = 2, m1_f_b2 = 1;
// Sample time (motor1−timestep)
const double m2_Ts = 0.01;
// Controller gains (motor1−Kp,−Ki,...)
const double m2_Kp = 0.005, m2_Ki = 0.005, m2_Kd = 0.002;
double m2_err_int = 0, m2_prev_err = 0;
// Derivative filter coeicients (motor1−filter−b0,−b1,...)
const double m2_f_a1 = -0.11175688680, m2_f_a2 = 0.17749674417, m2_f_b0 = 1.0, m2_f_b1 = 2, m2_f_b2 = 1;
// Reusable PID controller with filter
double PID( double e, const double Kp, const double Ki, const double Kd, double Ts, double &e_int, double &e_prev, const double f_a1, const double f_a2, const double f_b0, const double f_b1, const double f_b2)
{
// Derivative
double e_der = (e - e_prev)/Ts;
biquadFilter derfilter(f_a1, f_a2, f_b0, f_b1, f_b2);
e_der = derfilter.step(e_der);
e_prev = e;
// Integral
e_int = e_int + Ts * e;
// PID
return Kp * e + Ki * e_int + Kd * e_der;
}
void m1_Controller()
{
double reference = (potmeter1.read()-0.5)*4200;
double position = encoder1.getPosition(); // Don’t use magic numbers!
double error = (reference - position);
pos_1 = PID( error, m1_Kp, m1_Ki, m1_Kd, m1_Ts, m1_err_int, m1_prev_err, m1_f_a1, m1_f_a2, m1_f_b0, m1_f_b1, m1_f_b2 );
if(pos_1 > 0)
dir_motor1 = 0;
else
dir_motor1 = 1;
pwm_motor1.write(abs(pos_1));
} // Attach this function to a Ticker
void m2_Controller()
{
double reference = (potmeter2.read()-0.5)*4200;
double position = encoder2.getPosition(); // Don’t use magic numbers!
double error = (reference - position);
pos_2 = PID( error, m2_Kp, m2_Ki, m2_Kd, m2_Ts, m2_err_int, m2_prev_err, m2_f_a1, m2_f_a2, m2_f_b0, m2_f_b1, m2_f_b2 );
if(pos_2 > 0)
dir_motor2 = 1;
else
dir_motor2 = 0;
pwm_motor2.write(abs(pos_2));
} // Attach this function to a Ticker
int main()
{
pwm_motor1.period(0.0001);
pwm_motor2.period(0.0001);
control_ticker.attach(&m1_Controller, 0.01);
wait(0.005);
control_ticker.attach(&m2_Controller, 0.01);
while(1) {}
}