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Dependencies: LSM9DS1 RangeFinder FastPWM
Dependents: PM2_Example_PES_board PM2_Example_PES_board PM2_Example_PES_board PM2_Example_PES_board ... more
SpeedController.cpp
- Committer:
- pmic
- Date:
- 2021-04-06
- Revision:
- 5:6cd242a61e4c
- Parent:
- 4:9c003c402033
- Child:
- 6:41dd03654c44
File content as of revision 5:6cd242a61e4c:
#include "SpeedController.h"
using namespace std;
const float SpeedController::PERIOD = 0.001f; // period of 1 ms
// const float SpeedController::COUNTS_PER_TURN = 1562.5f; // encoder resolution
const float SpeedController::LOWPASS_FILTER_FREQUENCY = 100.0f; // given in [rad/s]
// const float SpeedController::KN = 15.0f; // speed constant in [rpm/V]
// const float SpeedController::KP = 0.15f; // speed control parameter
// const float SpeedController::MAX_VOLTAGE = 12.0f; // battery voltage in [V]
const float SpeedController::MIN_DUTY_CYCLE = 0.02f; // minimum duty-cycle
const float SpeedController::MAX_DUTY_CYCLE = 0.98f; // maximum duty-cycle
SpeedController::SpeedController(float COUNTS_PER_TURN, float KN, float KP, float MAX_VOLTAGE, FastPWM& pwm, EncoderCounter& encoderCounter) : pwm(pwm), encoderCounter(encoderCounter), thread(osPriorityHigh, 4096)
{
this->COUNTS_PER_TURN = COUNTS_PER_TURN;
this->KN = KN;
this->KP = KP;
this->MAX_VOLTAGE = MAX_VOLTAGE;
// Initialisieren der PWM Ausgaenge
pwm.period(0.00005); // PWM Periode von 50 us
pwm.write(0.5); // Duty-Cycle von 50%
// Initialisieren von lokalen Variabeln
previousValueCounter = encoderCounter.read();
speedFilter.setPeriod(PERIOD);
speedFilter.setFrequency(LOWPASS_FILTER_FREQUENCY);
desiredSpeed = 0.0f;
actualSpeed = 0.0f;
// actualAngle = 0.0f;
// Starten des periodischen Tasks
thread.start(callback(this, &SpeedController::run));
ticker.attach(callback(this, &SpeedController::sendThreadFlag), PERIOD);
}
SpeedController::~SpeedController()
{
ticker.detach(); // Stoppt den periodischen Task
}
void SpeedController::setDesiredSpeedRPM(float desiredSpeed)
{
this->desiredSpeed = desiredSpeed;
}
float SpeedController::getSpeedRPM()
{
return actualSpeed;
}
void SpeedController::setDesiredSpeedRPS(float desiredSpeed)
{
this->desiredSpeed = desiredSpeed*60.0f;
}
float SpeedController::getSpeedRPS()
{
return actualSpeed/60.0f;
}
void SpeedController::run()
{
while(true) {
// wait for the periodic signal
ThisThread::flags_wait_any(threadFlag);
// calculate actual speed of motors in [rpm]
short valueCounter = encoderCounter.read();
short countsInPastPeriod = valueCounter - previousValueCounter;
previousValueCounter = valueCounter;
actualSpeed = speedFilter.filter((float)countsInPastPeriod/COUNTS_PER_TURN/PERIOD*60.0f);
// actualAngle = actualAngle + actualSpeed/60.0f*PERIOD;
// calculate motor phase voltages
float voltage = KP*(desiredSpeed - actualSpeed) + desiredSpeed/KN;
// calculate, limit and set duty cycles
float dutyCycle = 0.5f + 0.5f*voltage/MAX_VOLTAGE;
if (dutyCycle < MIN_DUTY_CYCLE) dutyCycle = MIN_DUTY_CYCLE;
else if (dutyCycle > MAX_DUTY_CYCLE) dutyCycle = MAX_DUTY_CYCLE;
pwm.write(static_cast<double>(dutyCycle));
}
}
void SpeedController::sendThreadFlag()
{
thread.flags_set(threadFlag);
}
