Developers_of_anti_slip_compensator
20160814
Fork of
CURRENT_CONTROL
by 
LDSC_Robotics_TAs
CURRENT_CONTROL.cpp
- Committer:
- adam_z
- Date:
- 2016-04-22
- Revision:
- 3:c787d1c5ad6a
- Parent:
- 2:562bd14dfd3a
- Child:
- 4:1a6ba05e7736
File content as of revision 3:c787d1c5ad6a:
#include "mbed.h"
#include "CURRENT_CONTROL.h"
CURRENT_CONTROL::CURRENT_CONTROL(PinName curChannel,
PinName PwmChannel1,
PinName PwmChannel2,
PWMIndex pwmIndex,
float Kp, float Ki, float Kd,
float samplingTime) : currentAnalogIn(curChannel),
MotorPlus(PwmChannel1),
MotorMinus(PwmChannel2),
pid(Kp,Ki,Kd,samplingTime),
lpFilter(samplingTime)
{
pwmIndex_ = pwmIndex;
Ts = samplingTime;
//setup motor PWM parameters
MotorPlus.period_us(50);//default period equals to 50 microseconds
MotorPlus.write(0.5); //duty ratio = 0.5 in complementary output mode -> static
if(pwmIndex_ == PWM1)TIM1->CCER |= 4;
else if(pwmIndex_ == PWM2)TIM1->CCER |= 64; //enable complimentary output
}
void CURRENT_CONTROL::Control(float curRef)
{
analogInValue = currentAnalogIn.read();
curFeedBack = lpFilter.filter((analogInValue - currentOffset)*analog2Cur, 10*3.14159);
pid.Compute(curRef, curFeedBack);
MotorPlus = 0.5 - pid.output;
if(pwmIndex_ == PWM1)TIM1->CCER |= 4;
else if(pwmIndex_ == PWM2)TIM1->CCER |= 64;
}
void CURRENT_CONTROL::SetAnalog2Cur(float ratio)//LTS25-NP current sensor working with STM32F446RE : 3.3*8/0.6
{
analog2Cur = ratio;
}
//****************for test************************//
void CURRENT_CONTROL::SetPWMDuty(float ratio)
{
MotorPlus = ratio;
if(pwmIndex_ == PWM1)TIM1->CCER |= 4;
else if(pwmIndex_ == PWM2)TIM1->CCER |= 64;
}
float CURRENT_CONTROL::GetAnalogIn(void)
{
return analogInValue = currentAnalogIn.read();
}
float CURRENT_CONTROL::GetCurrent(void)
{
return curFeedBack;
}
//=====================LPF ====================//
LPF::LPF(float samplingTime)
{
Ts = samplingTime;
}
float LPF::filter(float input, float cutOff)
{
output = (outputLast + cutOff*Ts)/(1 + cutOff*Ts);
outputLast = output;
return output;
}