No.9 Robotics
5/18
Dependencies: mbed
main.cpp
- Committer:
- winstonkuo
- Date:
- 2016-05-19
- Revision:
- 0:16235cec088e
File content as of revision 0:16235cec088e:
#include "mbed.h"
//The number will be compiled as type "double" in default
//Add a "f" after the number can make it compiled as type "float"
#define Ts 0.01f //period of timer1 (s)
#define Kp1 0.0085f
#define Kp2 0.0085f
#define Ki 0.008f
Serial bluetooth(D10,D2); //宣告藍牙腳位
PwmOut pwm1(D7);
PwmOut pwm1n(D11);
PwmOut pwm2(D8);
PwmOut pwm2n(A3);
DigitalOut led1(A4);
DigitalOut led2(A5);
//Motor1 sensor
InterruptIn HallA_1(A1);
InterruptIn HallB_1(A2);
//Motor2 sensor
InterruptIn HallA_2(D13);
InterruptIn HallB_2(D12);
Ticker timer1;
void timer1_interrupt(void);
int timer1_counter;
void CN_interrupt(void);
void init_TIMER(void);
void init_PWM(void);
void init_CN(void);
void init_BLUETOOTH(void);
char speedCmd;
int8_t stateA_1=0, stateB_1=0, stateA_2=0, stateB_2=0;
int8_t state_1 = 0, state_1_old = 0, state_2 = 0, state_2_old = 0;
int v1Count = 0;
int v2Count = 0;
float v1 = 0.0, v1_ref = 0.0;
float v1_err = 0.0, v1_ierr = 0.0, PIout_1 = 0.0, PIout_1_old = 0.0;
float v1_old[10] = {}, v1_avg = 0.0;
float v2 = 0.0, v2_ref = 0.0;
float v2_err = 0.0, v2_ierr = 0.0, PIout_2 = 0.0, PIout_2_old = 0.0;
float v2_old[10] = {}, v2_avg = 0.0;
float s = 0.5f;
int main() {
init_BLUETOOTH();
init_TIMER();
init_PWM();
init_CN();
while(1)
{
if(bluetooth.readable())
{
speedCmd = bluetooth.getc();
switch(speedCmd)
{
case '1':
s = 0.8f;
break;
case '0':
s = 0.5f;
break;
}
}
}
}
void timer1_interrupt(void)
{
//Motor 1
v1 = (float)v1Count * 50.0f / 12.0f * 60.0f / 29.0f;
v1Count = 0;
pwm1.write(s);
TIM1->CCER |= 0x4;
//Motor 2
v2 = (float)v2Count * 50.0f / 12.0f * 60.0f / 29.0f; //unit: rpm
v2Count = 0;
pwm2.write(s);
TIM1->CCER |= 0x40;
timer1_counter ++;
if (timer1_counter == 1)
{
timer1_counter = 0;
if(bluetooth.writeable())
{
bluetooth.printf("%4.2f\n",v1);
}
}
}
void CN_interrupt(void)
{
//Motor 1
stateA_1 = HallA_1.read();
stateB_1 = HallB_1.read();
///code for state determination///
if (stateA_1 == 0)
{
if (stateB_1 == 0)
state_1 = 0;
else
state_1 = 1;
}
else
{
if (stateB_1 == 1)
state_1 = 2;
else
state_1 = 3;
}
//Forward: v1Count +1
//Inverse: v1Count -1
if ( (state_1 == (state_1_old + 1)) || (state_1 == 0 && state_1_old == 3) )
v1Count++;
else if ( (state_1 == (state_1_old - 1)) || (state_1 == 3 && state_1_old == 0))
v1Count--;
state_1_old = state_1;
//Motor 2
stateA_2 = HallA_2.read();
stateB_2 = HallB_2.read();
///code for state determination///
if (stateA_2 == 0)
{
if (stateB_2 == 0)
state_2 = 0;
else
state_2 = 1;
}
else
{
if (stateB_2 == 1)
state_2 = 2;
else
state_2 = 3;
}
//Forward: v2Count +1
//Inverse: v2Count -1
if ( (state_2 == (state_2_old + 1)) || (state_2 == 0 && state_2_old == 3) )
v2Count++;
else if ( (state_2 == (state_2_old - 1)) || (state_2 == 3 && state_2_old == 0) )
v2Count--;
state_2_old = state_2;
}
void init_TIMER(void)
{
timer1.attach_us(&timer1_interrupt, 20000);//10ms interrupt period (100 Hz)
timer1_counter = 0;
}
void init_PWM(void)
{
pwm1.period_us(50);
pwm1.write(0.5);
TIM1->CCER |= 0x4;
pwm2.period_us(50);
pwm2.write(0.5);
TIM1->CCER |= 0x40;
}
void init_CN(void)
{
HallA_1.rise(&CN_interrupt);
HallA_1.fall(&CN_interrupt);
HallB_1.rise(&CN_interrupt);
HallB_1.fall(&CN_interrupt);
HallA_2.rise(&CN_interrupt);
HallA_2.fall(&CN_interrupt);
HallB_2.rise(&CN_interrupt);
HallB_2.fall(&CN_interrupt);
stateA_1 = HallA_1.read();
stateB_1 = HallB_1.read();
stateA_2 = HallA_2.read();
stateB_2 = HallB_2.read();
}
void init_BLUETOOTH(void)
{
bluetooth.baud(115200);
}