Rajkumar R
/
DC_Motor
MOTOR
Fork of Brushed_DC_Motor_Control_MC34931_MC33931 by
Revision 1:52d7baa4af71, committed 2015-06-12
- Comitter:
- pnandy
- Date:
- Fri Jun 12 17:52:57 2015 +0000
- Parent:
- 0:f2f48fcea638
- Commit message:
- Brushed DC Motor Control using MC34931/MC33931
Changed in this revision
main_copy.cpp | Show diff for this revision Revisions of this file |
diff -r f2f48fcea638 -r 52d7baa4af71 main_copy.cpp --- a/main_copy.cpp Fri Jun 12 17:51:20 2015 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,261 +0,0 @@ -#include "mbed.h" -#include "USBHID.h" - -// We declare a USBHID device. -// HID In/Out Reports are 64 Bytes long -// Vendor ID (VID): 0x15A2 -// Product ID (PID): 0x0138 -// Serial Number: 0x0001 -USBHID hid(64, 64, 0x15A2, 0x0138, 0x0001, true); - -//Setup Digital Outputs for the LEDs on the FRDM -//PwmOut red_led(LED1); -//DigitalOut green_led(LED2); -//DigitalOut blue_led(LED3); - -//Setup PWM and Digital Outputs from FRDM-KL25Z to FRDM-17510 -PwmOut IN1(PTC8); // Pin IN1 input to MC34931 (FRDM PIN Name) -PwmOut IN2 (PTA5); // Pin IN2 input to MC34931 (FRDM PIN Name) -DigitalOut EN(PTE0); // Pin EN input to MC34931 (FRDM PIN Name) -DigitalOut DIS(PTA2); // Pin D1 input to MC34931 (FRDM PIN Name) -DigitalIn STATUS(PTB3); -AnalogIn CFB(PTB0); -//DigitalOut READY(PTC7); // Pin READY input to Motor Control Board (FRDM PIN Name) - -//Variables -int pwm_freq_lo; -int pwm_freq_hi; -int frequencyHz = 500; -int runstop = 0; -int direction = 1; -int braking; -int dutycycle = 75; -int newDataFlag = 0; -int status = 0; -uint16_t CurrFB; -uint16_t CFBArray[101]; -uint32_t CFBTotal; -uint16_t CFBAvg; -uint16_t CFBtemp; - -//storage for send and receive data -HID_REPORT send_report; -HID_REPORT recv_report; - -bool initflag = true; - -// USB COMMANDS -// These are sent from the PC -#define WRITE_LED 0x20 -#define WRITE_GEN_EN 0x40 -#define WRITE_DUTY_CYCLE 0x50 -#define WRITE_PWM_FREQ 0x60 -#define WRITE_RUN_STOP 0x70 -#define WRITE_DIRECTION 0x71 -#define WRITE_BRAKING 0x90 -#define WRITE_RESET 0xA0 -#define WRITE_D1 0xB1 -#define WRITE_D2_B 0xC1 - -#define scaleFactor 0.11868 - -// LOGICAL CONSTANTS -#define OFF 0x00 -#define ON 0x01 - - -int main() -{ - send_report.length = 64; - recv_report.length = 64; - - - while(1) - { - //try to read a msg - if(hid.readNB(&recv_report)) - { - switch(recv_report.data[0]) //byte 0 of recv_report.data is command - { -//----------------------------------------------------------------------------------------------------------------- -// COMMAND PARSER -//----------------------------------------------------------------------------------------------------------------- -//////// - case WRITE_LED: - break; -//////// - -//////// - case WRITE_DUTY_CYCLE: - dutycycle = recv_report.data[1]; - newDataFlag = 1; - break; -//////// - case WRITE_PWM_FREQ: //PWM frequency can be larger than 1 byte - pwm_freq_lo = recv_report.data[1]; //so we have to re-assemble the number - pwm_freq_hi = recv_report.data[2] * 100; - frequencyHz = pwm_freq_lo + pwm_freq_hi; - newDataFlag = 1; - break; -//////// - case WRITE_RUN_STOP: - newDataFlag = 1; - if(recv_report.data[1] != 0) - { - runstop = 1; - } - else - { - runstop = 0; - } - break; - -//////// - case WRITE_DIRECTION: - newDataFlag = 1; - - if(recv_report.data[1] != 0) - { - direction = 1; - } - else - { - direction = 0; - } - break; -//////// - case WRITE_BRAKING: - newDataFlag = 1; - if(recv_report.data[1] == 1) - { - braking = 1; - } - else - { - braking = 0; - } - break; -//////// - case WRITE_D1: - newDataFlag = 1; - if(recv_report.data[1] == 1) - { - DIS = 1; - } - else - { - DIS = 0; - } - break; -//////// - case WRITE_D2_B: - newDataFlag = 1; - if(recv_report.data[1] == 1) - { - EN = 0; - } - else - { - EN = 1; - } - break; - -//////// - default: - break; - }// End Switch recv report data[0] - -//----------------------------------------------------------------------------------------------------------------- -// end command parser -//----------------------------------------------------------------------------------------------------------------- - - status = STATUS; - send_report.data[0] = status; // Echo Command - send_report.data[1] = recv_report.data[1]; // Echo Subcommand 1 - send_report.data[2] = recv_report.data[2]; // Echo Subcommand 2 - send_report.data[3] = 0x00; - send_report.data[4] = 0x00; - send_report.data[5] = 0x00; - send_report.data[6] = (CFBAvg << 8) >> 8; - send_report.data[7] = CFBAvg >> 8; - - //Send the report - hid.send(&send_report); - }// End If(hid.readNB(&recv_report)) -///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -//End of USB message handling -///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// - - CurrFB = CFB.read_u16(); - CFBArray[0] = CurrFB; - CFBTotal = 0; - int i = 0; - for(i=0; i<100; i++) - { - CFBTotal = CFBTotal + CFBArray[i]; - } - CFBAvg = CFBTotal / 100; - - for(i=100; i>=0; i--) - { - - CFBArray[i+1] = CFBArray[i]; - } - - if(newDataFlag != 0) //GUI setting changed - { - newDataFlag = 0; - if(runstop != 0) //Running - { - if(direction == 0) //reverse - { - if(braking == 1) //dynamic - { - IN1.period(1/(float)frequencyHz); - IN1 = (float)dutycycle/100.0; - IN2 = 1; - } - else //coast - { - IN1 = 0; - IN2.period(1/(float)frequencyHz); - IN2 = (float)dutycycle/100.0; - } - } - else //forward - { - if(braking == 1) //dynamic - { - IN1 = 1; - IN2.period(1/(float)frequencyHz); - IN2 = (float)dutycycle/100.0; - } - else //coast - { - IN1.period(1/(float)frequencyHz); - IN1 = (float)dutycycle/100.0; - IN2 = 0; - } - } - } - else //Stopped - { - if(braking == 1) //braking - { - IN1.period(1); - IN2.period(1); - IN1.write(1); - IN2.write(1); - } - else //coasting - { - IN1.period(1); - IN2.period(1); - IN1.write(0); - IN2.write(0); - - } - } - } - } -}