PID motor controll for the biorobotics project.
Dependents: PID_example Motor_calibration Demo_mode Demo_mode ... more
motor.cpp@4:5353c5d0d2ed, 2018-10-31 (annotated)
- Committer:
- brass_phoenix
- Date:
- Wed Oct 31 06:13:15 2018 +0000
- Revision:
- 4:5353c5d0d2ed
- Parent:
- 2:b30a467e90d3
- Child:
- 5:5537072b0e2e
+ Added stop function.
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
brass_phoenix | 0:009e84d7af32 | 1 | #include "motor.h" |
brass_phoenix | 0:009e84d7af32 | 2 | |
brass_phoenix | 2:b30a467e90d3 | 3 | Motor::Motor(PinName pwm_pin, PinName dir_pin, PinName encoder_a, PinName encoder_b): |
brass_phoenix | 2:b30a467e90d3 | 4 | pwm_out(pwm_pin), |
brass_phoenix | 2:b30a467e90d3 | 5 | dir_out(dir_pin), |
brass_phoenix | 2:b30a467e90d3 | 6 | encoder(encoder_a, encoder_b, NC, PULSES_PER_ROTATION, QEI::X4_ENCODING) |
brass_phoenix | 2:b30a467e90d3 | 7 | { |
brass_phoenix | 2:b30a467e90d3 | 8 | pid = PID(); |
brass_phoenix | 2:b30a467e90d3 | 9 | |
brass_phoenix | 2:b30a467e90d3 | 10 | target_angle = 0; |
brass_phoenix | 2:b30a467e90d3 | 11 | |
brass_phoenix | 2:b30a467e90d3 | 12 | printcount = 0; |
brass_phoenix | 2:b30a467e90d3 | 13 | pid_period = 0; |
brass_phoenix | 2:b30a467e90d3 | 14 | serial_debugging = false; |
brass_phoenix | 2:b30a467e90d3 | 15 | |
brass_phoenix | 2:b30a467e90d3 | 16 | // 60 microseconds PWM period, 16.7 kHz, defines all PWM pins (only needs to be done once) |
brass_phoenix | 2:b30a467e90d3 | 17 | pwm_out.period_us(60.0); |
brass_phoenix | 2:b30a467e90d3 | 18 | } |
brass_phoenix | 2:b30a467e90d3 | 19 | |
brass_phoenix | 0:009e84d7af32 | 20 | Motor::Motor(PinName pwm_pin, PinName dir_pin, PinName encoder_a, PinName encoder_b, Serial* pc): |
brass_phoenix | 0:009e84d7af32 | 21 | pwm_out(pwm_pin), |
brass_phoenix | 0:009e84d7af32 | 22 | dir_out(dir_pin), |
brass_phoenix | 0:009e84d7af32 | 23 | encoder(encoder_a, encoder_b, NC, PULSES_PER_ROTATION, QEI::X4_ENCODING) |
brass_phoenix | 0:009e84d7af32 | 24 | { |
brass_phoenix | 0:009e84d7af32 | 25 | pid = PID(); |
brass_phoenix | 0:009e84d7af32 | 26 | |
brass_phoenix | 0:009e84d7af32 | 27 | target_angle = 0; |
brass_phoenix | 0:009e84d7af32 | 28 | |
brass_phoenix | 0:009e84d7af32 | 29 | printcount = 0; |
brass_phoenix | 0:009e84d7af32 | 30 | pid_period = 0; |
brass_phoenix | 0:009e84d7af32 | 31 | this->pc = pc; |
brass_phoenix | 2:b30a467e90d3 | 32 | serial_debugging = true; |
brass_phoenix | 0:009e84d7af32 | 33 | |
brass_phoenix | 0:009e84d7af32 | 34 | // 60 microseconds PWM period, 16.7 kHz, defines all PWM pins (only needs to be done once) |
brass_phoenix | 0:009e84d7af32 | 35 | pwm_out.period_us(60.0); |
brass_phoenix | 0:009e84d7af32 | 36 | } |
brass_phoenix | 0:009e84d7af32 | 37 | |
brass_phoenix | 0:009e84d7af32 | 38 | void Motor::start(float period) { |
brass_phoenix | 0:009e84d7af32 | 39 | pid_period = period; |
brass_phoenix | 0:009e84d7af32 | 40 | pid.set_period(period); |
brass_phoenix | 4:5353c5d0d2ed | 41 | motor_ticker.attach(callback(this, &Motor::update), period); |
brass_phoenix | 4:5353c5d0d2ed | 42 | } |
brass_phoenix | 4:5353c5d0d2ed | 43 | |
brass_phoenix | 4:5353c5d0d2ed | 44 | void Motor::stop() { |
brass_phoenix | 4:5353c5d0d2ed | 45 | motor_ticker.detach(); |
brass_phoenix | 4:5353c5d0d2ed | 46 | target_angle = 0; |
brass_phoenix | 4:5353c5d0d2ed | 47 | // Stop the actual motor. |
brass_phoenix | 4:5353c5d0d2ed | 48 | pwm_out = 0.0; |
brass_phoenix | 4:5353c5d0d2ed | 49 | dir_out = 0; |
brass_phoenix | 4:5353c5d0d2ed | 50 | |
brass_phoenix | 4:5353c5d0d2ed | 51 | pid.clear_state(); |
brass_phoenix | 4:5353c5d0d2ed | 52 | |
brass_phoenix | 4:5353c5d0d2ed | 53 | printcount = 0; |
brass_phoenix | 0:009e84d7af32 | 54 | } |
brass_phoenix | 0:009e84d7af32 | 55 | |
brass_phoenix | 0:009e84d7af32 | 56 | void Motor::set_pid_k_values(double k_p, double k_i, double k_d) { |
brass_phoenix | 0:009e84d7af32 | 57 | pid.set_k_values(k_p, k_i, k_d); |
brass_phoenix | 0:009e84d7af32 | 58 | } |
brass_phoenix | 0:009e84d7af32 | 59 | |
brass_phoenix | 0:009e84d7af32 | 60 | void Motor::set_target_angle(double angle) { |
brass_phoenix | 0:009e84d7af32 | 61 | target_angle = angle; |
brass_phoenix | 0:009e84d7af32 | 62 | } |
brass_phoenix | 0:009e84d7af32 | 63 | |
brass_phoenix | 0:009e84d7af32 | 64 | double Motor::get_current_angle() { |
brass_phoenix | 0:009e84d7af32 | 65 | return encoder_pulses_to_radians(encoder.getPulses()); |
brass_phoenix | 0:009e84d7af32 | 66 | } |
brass_phoenix | 0:009e84d7af32 | 67 | |
brass_phoenix | 0:009e84d7af32 | 68 | void Motor::update() { |
brass_phoenix | 0:009e84d7af32 | 69 | int pulses = encoder.getPulses(); |
brass_phoenix | 0:009e84d7af32 | 70 | double current_angle = encoder_pulses_to_radians(pulses); |
brass_phoenix | 0:009e84d7af32 | 71 | |
brass_phoenix | 0:009e84d7af32 | 72 | double error = current_angle - target_angle; |
brass_phoenix | 0:009e84d7af32 | 73 | // PID controll. |
brass_phoenix | 0:009e84d7af32 | 74 | double speed_rps = pid.update(error); |
brass_phoenix | 0:009e84d7af32 | 75 | |
brass_phoenix | 0:009e84d7af32 | 76 | double speed_pwm = radians_per_second_to_pwm(speed_rps); |
brass_phoenix | 0:009e84d7af32 | 77 | |
brass_phoenix | 2:b30a467e90d3 | 78 | if (serial_debugging) { |
brass_phoenix | 2:b30a467e90d3 | 79 | |
brass_phoenix | 2:b30a467e90d3 | 80 | printcount++; |
brass_phoenix | 2:b30a467e90d3 | 81 | if (printcount >= 0.1L/pid_period) { |
brass_phoenix | 2:b30a467e90d3 | 82 | pc->printf("c_angle: %f, d_angle: %f, error: %f, rps: %f, speed: %f\n", current_angle, target_angle, error, speed_rps, speed_pwm); |
brass_phoenix | 2:b30a467e90d3 | 83 | printcount = 0; |
brass_phoenix | 2:b30a467e90d3 | 84 | } |
brass_phoenix | 0:009e84d7af32 | 85 | } |
brass_phoenix | 0:009e84d7af32 | 86 | |
brass_phoenix | 0:009e84d7af32 | 87 | update_motor_speed(speed_pwm); |
brass_phoenix | 0:009e84d7af32 | 88 | } |
brass_phoenix | 0:009e84d7af32 | 89 | |
brass_phoenix | 0:009e84d7af32 | 90 | |
brass_phoenix | 0:009e84d7af32 | 91 | void Motor::update_motor_speed(double speed) { |
brass_phoenix | 0:009e84d7af32 | 92 | if (speed < 1.0 && speed > 0) { |
brass_phoenix | 0:009e84d7af32 | 93 | // Speed is in the range [0, 1] but the motor only moves |
brass_phoenix | 0:009e84d7af32 | 94 | // in the range [0.5, 1]. Rescale for this. |
brass_phoenix | 0:009e84d7af32 | 95 | speed = (speed * (1-MOTOR_STALL_PWM)) + MOTOR_STALL_PWM; |
brass_phoenix | 0:009e84d7af32 | 96 | } |
brass_phoenix | 0:009e84d7af32 | 97 | if (speed > -1.0 && speed < 0) { |
brass_phoenix | 0:009e84d7af32 | 98 | // Speed is in the range [-1, 0] but the motor only moves |
brass_phoenix | 0:009e84d7af32 | 99 | // in the range [-1, -0.5]. Rescale for this. |
brass_phoenix | 0:009e84d7af32 | 100 | speed = (speed * (1-MOTOR_STALL_PWM)) - MOTOR_STALL_PWM; |
brass_phoenix | 0:009e84d7af32 | 101 | } |
brass_phoenix | 0:009e84d7af32 | 102 | |
brass_phoenix | 0:009e84d7af32 | 103 | // either true or false, determines direction (0 or 1) |
brass_phoenix | 0:009e84d7af32 | 104 | dir_out = speed > 0; |
brass_phoenix | 0:009e84d7af32 | 105 | // pwm duty cycle can only be positive, floating point absolute value (if value is >0, the there still will be a positive value). |
brass_phoenix | 0:009e84d7af32 | 106 | pwm_out = fabs(speed); |
brass_phoenix | 0:009e84d7af32 | 107 | } |
brass_phoenix | 0:009e84d7af32 | 108 | |
brass_phoenix | 0:009e84d7af32 | 109 | double Motor::encoder_pulses_to_radians(int pulses) { |
brass_phoenix | 0:009e84d7af32 | 110 | return (pulses/float(PULSES_PER_ROTATION)) * 2.0f*PI; |
brass_phoenix | 0:009e84d7af32 | 111 | } |
brass_phoenix | 0:009e84d7af32 | 112 | |
brass_phoenix | 0:009e84d7af32 | 113 | |
brass_phoenix | 0:009e84d7af32 | 114 | // Converts radians/s values into PWM values for motor controll. |
brass_phoenix | 0:009e84d7af32 | 115 | // Both positive and negative values. |
brass_phoenix | 0:009e84d7af32 | 116 | double Motor::radians_per_second_to_pwm(double rps) { |
brass_phoenix | 0:009e84d7af32 | 117 | // If the rad/s is below the anti-jitter treshold, it is simply 0. |
brass_phoenix | 0:009e84d7af32 | 118 | if (rps > 0 && rps < MOTOR_THRESHOLD_RPS) { |
brass_phoenix | 0:009e84d7af32 | 119 | rps = 0; |
brass_phoenix | 0:009e84d7af32 | 120 | } |
brass_phoenix | 0:009e84d7af32 | 121 | if (rps < 0 && rps > -MOTOR_THRESHOLD_RPS) { |
brass_phoenix | 0:009e84d7af32 | 122 | rps = 0; |
brass_phoenix | 0:009e84d7af32 | 123 | } |
brass_phoenix | 0:009e84d7af32 | 124 | |
brass_phoenix | 0:009e84d7af32 | 125 | |
brass_phoenix | 0:009e84d7af32 | 126 | // With our specific motor, full PWM is equal to 1 round per second. |
brass_phoenix | 0:009e84d7af32 | 127 | // Or 2PI radians per second. |
brass_phoenix | 0:009e84d7af32 | 128 | double pwm_speed = rps / (2*PI); |
brass_phoenix | 0:009e84d7af32 | 129 | |
brass_phoenix | 0:009e84d7af32 | 130 | // PWM speeds can only go between [-1, 1] |
brass_phoenix | 0:009e84d7af32 | 131 | if (pwm_speed > 1) { pwm_speed = 1; } |
brass_phoenix | 0:009e84d7af32 | 132 | if (pwm_speed < -1) { pwm_speed = -1; } |
brass_phoenix | 0:009e84d7af32 | 133 | return pwm_speed; |
brass_phoenix | 0:009e84d7af32 | 134 | } |