Motacon_20200317
Dependents: HelloWorld_MotorKaisei
BLDCmotorDriver.cpp
- Committer:
- MPPT51
- Date:
- 2020-03-13
- Revision:
- 5:cf8183ae80ef
- Parent:
- 3:a4b4a8e3f2a0
- Child:
- 6:959e725b6be9
File content as of revision 5:cf8183ae80ef:
#include "BLDCmotorDriver.h" BLDCmotorDriver::BLDCmotorDriver(PinName pGH_A, PinName pGH_B, PinName pGH_C, PinName pGL_A, PinName pGL_B, PinName pGL_C, PinName pH1, PinName pH2, PinName pH3, PinName pFault) : GH_A(pGH_A), GH_B(pGH_B), GH_C(pGH_C), GL_A(pGL_A), GL_B(pGL_B), GL_C(pGL_C), H1(pH1), H2(pH2), H3(pH3), Fault(LED1){ sampleTime = 1e-3; switchingPeriod = 1.0 / 20e3; dutyCycle = tempDutyCycle = 0; GH_A.period(switchingPeriod); // applies to all PwmOut instances // rl.setLimits(0.1, -0.5, 0, sampleTime); // initial 10 second ramp //H1.mode(PullNone); //H2.mode(PullNone); //H3.mode(PullNone); H1.rise(this, &BLDCmotorDriver::commutation); H2.rise(this, &BLDCmotorDriver::commutation); H3.rise(this, &BLDCmotorDriver::commutation); H1.fall(this, &BLDCmotorDriver::commutation); H2.fall(this, &BLDCmotorDriver::commutation); H3.fall(this, &BLDCmotorDriver::commutation); } void BLDCmotorDriver::configure(float sampleTime, float switchingFrequency, float rampUpSlope, float rampDownSlope) { if (sampleTime < 1e-6) sampleTime = 1e-3; if (switchingFrequency < 100) switchingFrequency = 20e3; if (rampUpSlope < 0 || rampUpSlope > 1) rampUpSlope = 0.1; if (rampDownSlope > 0 || rampDownSlope < -1) rampDownSlope = -0.1; this->sampleTime = sampleTime; switchingPeriod = 1.0 / switchingFrequency; rl.setLimits(rampUpSlope, rampDownSlope, 0, sampleTime); } int BLDCmotorDriver::getSector(){ // hall 120° h1 = H1.read(); h2 = H2.read(); h3 = H3.read(); if(h1 == 0 && h2 == 0 && h3 == 1){ _currentSector = 0; } else if(h1 == 0 && h2 == 1 && h3 == 1){ _currentSector = 1; } else if(h1 == 0 && h2 == 1 && h3 == 0){ _currentSector = 2; } else if(h1 == 1 && h2 == 1 && h3 == 0){ _currentSector = 3; } else if(h1 == 1 && h2 == 0 && h3 == 0){ _currentSector = 4; } else if(h1 == 1 && h2 == 0 && h3 == 1){ _currentSector = 5; } previousSector = _currentSector - 1; difference = _currentSector - previousSector; if (difference == 1){ currentSector = _currentSector; Fault = 0; } else Fault = 1; return currentSector; } void BLDCmotorDriver::commutation() { dutyCycle = rl.out(tempDutyCycle); currentSector = getSector(); if (dutyCycle > 0) { currentSector++; if(currentSector > 5)currentSector = 0; switch(currentSector) { case 0: //001 GL_C = 0; GL_B = 0; GL_A = 1; GH_C = 0; GH_B = dutyCycle; GH_A = 0; break; case 1: GL_C = 1; GL_B = 0; GL_A = 0; GH_C = 0; GH_B = dutyCycle; GH_A = 0; break; case 2: GL_C = 1; GL_B = 0; GL_A = 0; GH_C = 0; GH_B = 0; GH_A = dutyCycle; break; case 3: GL_C = 0; GL_B = 1; GL_A = 0; GH_C = 0; GH_B = 0; GH_A = dutyCycle; break; case 4: GL_C = 0; GL_B = 1; GL_A = 0; GH_C = dutyCycle; GH_B = 0; GH_A = 0; break; case 5: GL_C = 0; GL_B = 0; GL_A = 1; GH_C = dutyCycle; GH_B = 0; GH_A = 0; break; } } else if (dutyCycle < 0) { currentSector--; if(currentSector < 0)currentSector = 5; switch(currentSector) { case 0: GL_C = 0; GL_B = 0; GL_A = 1; GH_C = -dutyCycle; GH_B = 0; GH_A = 0; break; case 1: GL_C = 0; GL_B = 0; GL_A = 1; GH_C = 0; GH_B = -dutyCycle; GH_A = 0; break; case 2: GL_C = 1; GL_B = 0; GL_A = 0; GH_C = 0; GH_B = -dutyCycle; GH_A = 0; break; case 3: GL_C = 1; GL_B = 0; GL_A = 0; GH_C = 0; GH_B = 0; GH_A = -dutyCycle; break; case 4: GL_C = 0; GL_B = 1; GL_A = 0; GH_C = 0; GH_B = 0; GH_A = -dutyCycle; break; case 5: GL_C = 0; GL_B = 1; GL_A = 0; GH_C = -dutyCycle; GH_B = 0; GH_A = 0; break; } }else { coast(); } } void BLDCmotorDriver::setDutyCycle(float dc) { if (dc >= -1 && dc <= 1) { ticker.attach(this, &BLDCmotorDriver::commutation, sampleTime); tempDutyCycle = dc; } else { coast(); } } /*void BLDCmotorDriver::adjustDutyCycle() { dutyCycle = rl.out(tempDutyCycle); float diff = tempDutyCycle - dutyCycle; if (diff < 0.01 || diff > -0.01) ticker.detach(); }*/ void BLDCmotorDriver::coast() { GH_A = 0; GL_A = 0; GH_B = 0; GL_B = 0; GH_C = 0; GL_C = 0; dutyCycle = tempDutyCycle = 0; rl.reset(); ticker.detach(); } float BLDCmotorDriver::getDutyCycle() { return dutyCycle; }