New QEI library with position (angle) outputs
Fork of QEI_modified by
Revision 5:4682b3d415bd, committed 2017-03-30
- Comitter:
- benson516
- Date:
- Thu Mar 30 07:53:34 2017 +0000
- Parent:
- 4:9699a757d4ed
- Commit message:
- New QEI
Changed in this revision
QEI.cpp | Show annotated file Show diff for this revision Revisions of this file |
QEI.h | Show annotated file Show diff for this revision Revisions of this file |
diff -r 9699a757d4ed -r 4682b3d415bd QEI.cpp --- a/QEI.cpp Tue Oct 25 13:05:41 2016 +0000 +++ b/QEI.cpp Thu Mar 30 07:53:34 2017 +0000 @@ -174,9 +174,14 @@ if (index != NC) { index_.rise(this, &QEI::index); } - // Parameters for unit changing - count_2_rad_s = 1/(pulsesPerRev_*1.0)*6.2831852/sampletime_/(arraysize_*1.0); - count_2_deg_s = 1/(pulsesPerRev_*1.0)*360.0/sampletime_/(arraysize_*1.0); + + // Unit transformation + // Rotational speed + count_2_rad_s = 1.0/(pulsesPerRev_*1.0)*6.2831852/sampletime_/(arraysize_*1.0); + count_2_deg_s = 1.0/(pulsesPerRev_*1.0)*360.0/sampletime_/(arraysize_*1.0); + // Angle + count_2_rad = 1.0/(pulsesPerRev_*1.0)*6.2831852; + count_2_deg = 1.0/(pulsesPerRev_*1.0)*360.0; } void QEI::reset(void) { @@ -280,7 +285,7 @@ //Entered a new valid state. if (((currState_ ^ prevState_) != INVALID) && (currState_ != prevState_)) { - // 2 bit state. + // 2 bit state. // (Right hand bit of prev) XOR (left hand bit of current) // B_(n-1) xor A_n (because of the 90deg phase shift and A is leading B when rotates clockwise) // gives 0 if clockwise rotation and 1 if counter clockwise rotation. @@ -309,7 +314,7 @@ void QEI::Calculate(){ // Moving average: calculating the speed of the motor for feedback control // new input countArray[arrayPtr] = pulses_; - + // nextPtr: Actually, it is the oldest one. uint8_t nextPtr = arrayPtr + 1; if(nextPtr > (arraysize_ - 1) ){nextPtr = 0;} @@ -326,4 +331,27 @@ double QEI::getAngularSpeed_deg_s(){ return angularvelocity*count_2_deg_s; -} \ No newline at end of file +} +// Angle +double QEI::getAngle(bool is_ranged){ // rad, if is_ranged, return 0~2*PI + // + int pulse_temp = this->pulses_; + // + if (is_ranged){ + revolutions_ = pulse_temp/pulsesPerRev_; + return (pulse_temp % pulsesPerRev_)*count_2_rad; + }else{ + return (pulse_temp*count_2_rad); + } +} +double QEI::getAngle_deg(bool is_ranged){ // deg, if is_ranged, return 0~360 + // + int pulse_temp = this->pulses_; + // + if (is_ranged){ + revolutions_ = pulse_temp/pulsesPerRev_; + return (pulse_temp % pulsesPerRev_)*count_2_deg; + }else{ + return (pulse_temp*count_2_deg); + } +}
diff -r 9699a757d4ed -r 4682b3d415bd QEI.h --- a/QEI.h Tue Oct 25 13:05:41 2016 +0000 +++ b/QEI.h Thu Mar 30 07:53:34 2017 +0000 @@ -141,7 +141,7 @@ public: volatile int pulses_; - + int angularvelocity; int *countArray; uint8_t arrayPtr; @@ -208,11 +208,16 @@ * @return Number of revolutions which have occured on the index channel. */ int getRevolutions(void); - + void Calculate(void); - + + // Get results + // Rotational speed double getAngularSpeed(void); double getAngularSpeed_deg_s(void); + // Angle + double getAngle(bool is_ranged); // rad, if is_ranged, return 0~2*PI + double getAngle_deg(bool is_ranged); // deg, if is_ranged, return 0~360 private: @@ -241,8 +246,14 @@ int pulsesPerRev_; int prevState_; int currState_; + + // Unit transformation + // Rotational speed double count_2_rad_s; double count_2_deg_s; + // Angle + double count_2_rad; + double count_2_deg; // volatile int pulses_; volatile int revolutions_;