Michele Lupo
/
PM2_Example_PES_board
Workshop 2
main.cpp
- Committer:
- pmic
- Date:
- 2021-04-01
- Revision:
- 2:7c03fefb77ef
- Parent:
- 1:93d997d6b232
- Child:
- 3:d22942631cd7
File content as of revision 2:7c03fefb77ef:
#include "mbed.h" #include "platform/mbed_thread.h" #include "SDBlockDevice.h" #include "FATFileSystem.h" #include "EncoderCounter.h" #include "Servo.h" #include "Controller.h" int main() { DigitalIn user_button(USER_BUTTON); // initialise PWM PwmOut pwm_motor1(PB_13); PwmOut pwm_motor2(PA_9); PwmOut pwm_motor3(PA_10); // crete Encoder read objects EncoderCounter counter1(PA_6, PC_7); // counter(pin A, pin B) EncoderCounter counter2(PB_6, PB_7); EncoderCounter counter3(PA_0, PA_1); // create controller Controller controller(pwm_motor1, pwm_motor2, counter1, counter2); DigitalOut enable(PB_15); // create servo objects Servo S0(PB_2); Servo S1(PC_8); Servo S2(PC_6); SDBlockDevice sd(PC_12, PC_11, PC_10, PD_2); printf("BlockDevice created\r\n"); FATFileSystem fs("fs", &sd); // Initialise the digital pin LED1 as an output DigitalOut myled(LED1); /**/ // initialise PWM pwm_motor1.period(0.00005f);// 0.05ms 20KHz pwm_motor1.write(0.5f); pwm_motor2.period(0.00005f);// 0.05ms 20KHz pwm_motor2.write(0.5f); pwm_motor3.period(0.00005f);// 0.05ms 20KHz pwm_motor3.write(0.5f); // initialise and test Servo S0.Enable(1000,20000); // 1 ms / 20 ms S1.Enable(1000,20000); S2.Enable(1000,20000); int servo_desval_0 = 0; /* printf("Test writing... "); FILE* fp = fopen("/fs/data.csv", "w"); fprintf(fp, "test %.5f\r\n",1.23); fclose(fp); printf("done\r\n"); printf("Test reading... "); // read from SD card fp = fopen("/fs/data.csv", "r"); if (fp != NULL) { char c = fgetc(fp); if (c == 't') printf("done\r\n"); else printf("incorrect char (%c)!\n", c); fclose(fp); } else { printf("Reading failed!\n"); } */ // enable driver DC motors enable = 1; while (true) { if(!user_button) { // LED off, set controller speed, pwm2, position servo myled = 0; controller.setDesiredSpeedLeft(50.0f); // controller.setDesiredSpeedRight(50.0f); // pwm_motor1.write(0.7f); pwm_motor3.write(0.7f); S0.SetPosition(servo_desval_0); S1.SetPosition(1000); S2.SetPosition(1000); if(servo_desval_0 < 2000) servo_desval_0 += 100; } else { // LED on, reset controller speed, pwm2, position servo myled = 1; controller.setDesiredSpeedLeft(0.0f); // controller.setDesiredSpeedRight(0.0f); // pwm_motor1.write(0.5f); pwm_motor3.write(0.5f); servo_desval_0 = 0; S0.SetPosition(servo_desval_0); S1.SetPosition(1500); S2.SetPosition(1500); } //printf("speedLeft: %f, speedRight: %f\r\n",controller.getSpeedLeft(), controller.getSpeedRight()); printf("counter1 = %d counter2 = %d counter3 = %d\r\n",counter1.read(), counter2.read(), counter3.read()); thread_sleep_for(500); } }