jiexuan fan
mit
Diff: main.cpp
- Revision:
- 2:89bb6272869b
- Parent:
- 1:30696e4d196b
- Child:
- 3:cae0b305d54c
--- a/main.cpp Wed Aug 11 09:15:10 2010 +0000
+++ b/main.cpp Fri Jun 28 19:03:06 2013 +0000
@@ -1,16 +1,127 @@
+//Ben Katz, 2013
+
#include "QEI.h"
+#include "PID.h"
+
+#define pi 3.14159265358979323846
+
Serial pc(USBTX, USBRX);
//Use X4 encoding.
-//QEI wheel(p29, p30, NC, 624, QEI::X4_ENCODING);
-//Use X2 encoding by default.
-QEI wheel (p29, p30, NC, 624);
+QEI wheel(p16, p17, NC, 1200, QEI::X4_ENCODING); //(encoder channel 1, encoder channel 2, index (n/a here), counts per revolution, mode (X4, X2))
+
+
+DigitalOut EncoderVcc (p18); //Encoder VCC pin. Alternatively, just connect these to the mbed's vout and gnd, but tihs can make wiring easier
+DigitalOut EncoderGnd(p19); //Encoder ground pin
+PwmOut Motor1(p21); //Ouput pin to h-bridge 1
+PwmOut Motor2 (p22); //Output pin to h-bridge 2
+AnalogIn Current (p20); //Current sense pin
+
+int steps_per_rev = 1200; //Encoder CPR * gearbox ratio
+Timer timer;
+
+
+
+float pulsesToRadians(float pulses) //Encoder steps to revolutions of output shaft in radians
+{
+ return ((pulses/steps_per_rev)*(2*pi));
+}
+
+float pulsesToDegrees(float pulses) //Encoder steps to revolutions of output shaft in degrees
+{
+ return ((pulses/steps_per_rev)*360);
+}
+
+
+void signal_to_hbridge( float signal) //Input of -1 means full reverse, 1 means full forward
+{ //An input of magnitude > 1 gets reduced to 1 (or -1) by the pwm.write() function
+ if (signal < 0) {
+ Motor1.write(0);
+ Motor2.write(signal * -1);
+ } else if (signal > 0) {
+ Motor1.write(signal);
+ Motor2.write(0);
+ } else {
+ Motor1.write(0);
+ Motor2.write(0);
+ }
+}
-int main() {
+void pulse_motor(float pulse_time, float pulse_interval) //Usefull for testing peak torque.
+ //pulse_time = motor on time. pulse_interval = motor off time
+{
+ timer.start();
+ while (timer.read() < pulse_time){
+ Motor1.write(1);
+ Motor2.write(0);
+ //Prints current draw to PC
+ printf("%F", (Current.read())*3.3*4/.525); //Arithmetic converts the analog input to Amps
+ printf("\n"); //(0-3.3V input) * (voltage divider muiltiplier) / (.525 V/A)
+
+ }
+ timer.stop();
+ timer.reset();
+ wait(pulse_time);
+ Motor1.write(0);
+ Motor2.write(0);
+ wait(pulse_interval);
+}
+
+
- while(1){
- wait(0.1);
- pc.printf("Pulses is: %i\n", wheel.getPulses());
+int main()
+{
+ EncoderVcc.write(1); //Encoder VCC and GND attached to digital output pins to make wiring easier
+ EncoderGnd.write(0);
+ Motor1.period(.00005); //Set PWM frequency. MC33926 h-bridge limited 20 kHz (.00005 seconds)
+ Motor2.period(.00005);
+ PIDController controller(180, 0.05, 3, 0); //(desired position, P gain, D gain, I gain)
+
+ /*
+ Insert servo control loop below
+ */
+
+
+ while(1) {
+
+ signal_to_hbridge(controller.Update());
+
}
+}
+
+
+
+PIDController::PIDController(float desired_position, float p_gain, float d_gain, float i_gain)
+{
+ kp = p_gain;
+ kd = d_gain;
+ ki = i_gain;
+ error = 0;
+ old_error = 0;
+ goal_position = desired_position;
}
+
+
+float PIDController::Update(void) //This function is called to set the desired position of the servo
+{
+ wait(.0004); //This delay allows enough time to register a position difference between cycles.
+ //Without the delay, velocity is read as 0, so there is no D feedback.
+ //The delay can be decreased when adding more servos, as the computation time becomes more significant.
+ float desired_position = this->goal_position; //All value are stored in the PIDController object created, and can be changed at any time
+ float p_gain = this->kp;
+ float d_gain = this->kd;
+ float i_gain = this->ki;
+
+ float currentPosition = pulsesToDegrees(wheel.getPulses()); //Change pulsesToDegrees() to pulsesToRadians() if you would prefer to use radians
+
+ this->error = (currentPosition - desired_position);
+ this->integral_error += this->error;
+
+ float command = p_gain*(this->error) + d_gain*(this->error - this->old_error) + i_gain*(this->integral_error);
+
+ this->old_error = error;
+
+ return command;
+
+}