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Dependencies: Encoder FastPWM MODSERIAL Servo mbed
Fork of Angle_control_v3 by
main.cpp@5:b4ec742aa7d4, 2017-10-17 (annotated)
- Committer:
- peterknoben
- Date:
- Tue Oct 17 10:09:51 2017 +0000
- Revision:
- 5:b4ec742aa7d4
- Parent:
- 4:d385669b2f50
- Child:
- 6:6ae6256cf234
Inclusief kinematica (nog niet getest)
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
DBerendsen | 0:bbd4e22aca8a | 1 | #include "mbed.h" |
DBerendsen | 0:bbd4e22aca8a | 2 | #include "encoder.h" |
peterknoben | 2:47ec66bbe8f9 | 3 | #include "Servo.h" |
peterknoben | 3:1514725c8cc8 | 4 | #include "FastPWM.h" |
DBerendsen | 0:bbd4e22aca8a | 5 | |
peterknoben | 2:47ec66bbe8f9 | 6 | Ticker MyControllerTicker1; |
peterknoben | 2:47ec66bbe8f9 | 7 | Ticker MyControllerTicker2; |
DBerendsen | 0:bbd4e22aca8a | 8 | const double PI = 3.141592653589793; |
peterknoben | 3:1514725c8cc8 | 9 | const double RAD_PER_PULSE = 0.000749425; |
peterknoben | 2:47ec66bbe8f9 | 10 | const double CONTROLLER_TS = 0.01; |
DBerendsen | 0:bbd4e22aca8a | 11 | |
DBerendsen | 0:bbd4e22aca8a | 12 | |
DBerendsen | 0:bbd4e22aca8a | 13 | //Motor1 |
DBerendsen | 0:bbd4e22aca8a | 14 | PwmOut motor1(D5); |
DBerendsen | 0:bbd4e22aca8a | 15 | DigitalOut motor1DirectionPin(D4); |
DBerendsen | 0:bbd4e22aca8a | 16 | DigitalIn ENC2A(D12); |
DBerendsen | 0:bbd4e22aca8a | 17 | DigitalIn ENC2B(D13); |
DBerendsen | 0:bbd4e22aca8a | 18 | Encoder encoder1(D13,D12); |
DBerendsen | 0:bbd4e22aca8a | 19 | AnalogIn potmeter1(A3); |
peterknoben | 3:1514725c8cc8 | 20 | const double MOTOR1_KP = 15; |
peterknoben | 3:1514725c8cc8 | 21 | const double MOTOR1_KI = 10; |
DBerendsen | 0:bbd4e22aca8a | 22 | double m1_err_int = 0; |
DBerendsen | 0:bbd4e22aca8a | 23 | const double motor1_gain = 2*PI; |
DBerendsen | 0:bbd4e22aca8a | 24 | |
DBerendsen | 0:bbd4e22aca8a | 25 | |
DBerendsen | 0:bbd4e22aca8a | 26 | //Motor2 |
DBerendsen | 0:bbd4e22aca8a | 27 | PwmOut motor2(D6); |
DBerendsen | 0:bbd4e22aca8a | 28 | DigitalOut motor2DirectionPin(D7); |
DBerendsen | 0:bbd4e22aca8a | 29 | DigitalIn ENC1A(D10); |
DBerendsen | 0:bbd4e22aca8a | 30 | DigitalIn ENC1B(D11); |
DBerendsen | 0:bbd4e22aca8a | 31 | Encoder encoder2(D10,D11); |
DBerendsen | 0:bbd4e22aca8a | 32 | AnalogIn potmeter2(A4); |
peterknoben | 3:1514725c8cc8 | 33 | const double MOTOR2_KP = 15; |
peterknoben | 3:1514725c8cc8 | 34 | const double MOTOR2_KI = 10; |
DBerendsen | 0:bbd4e22aca8a | 35 | double m2_err_int = 0; |
DBerendsen | 0:bbd4e22aca8a | 36 | const double motor2_gain = 2*PI; |
DBerendsen | 0:bbd4e22aca8a | 37 | |
peterknoben | 5:b4ec742aa7d4 | 38 | //________________________________________________________________ |
peterknoben | 5:b4ec742aa7d4 | 39 | //Kinematica |
peterknoben | 5:b4ec742aa7d4 | 40 | |
peterknoben | 5:b4ec742aa7d4 | 41 | //Motor offsets (kinematica implementation) |
peterknoben | 5:b4ec742aa7d4 | 42 | int max_rangex = 800; |
peterknoben | 5:b4ec742aa7d4 | 43 | int max_rangey = 500; |
peterknoben | 5:b4ec742aa7d4 | 44 | int L1 = 450; |
peterknoben | 5:b4ec742aa7d4 | 45 | int L2 = 490; |
peterknoben | 5:b4ec742aa7d4 | 46 | float alphaoffset = 10; |
peterknoben | 5:b4ec742aa7d4 | 47 | float betaoffset = 35; |
peterknoben | 5:b4ec742aa7d4 | 48 | float x_offset = 0.0; |
peterknoben | 5:b4ec742aa7d4 | 49 | float y_offset = 0.0; |
peterknoben | 5:b4ec742aa7d4 | 50 | |
peterknoben | 5:b4ec742aa7d4 | 51 | |
peterknoben | 5:b4ec742aa7d4 | 52 | float getreferencepositionx(double potmeter){ |
peterknoben | 5:b4ec742aa7d4 | 53 | float x_target = potmeter * max_rangex; |
peterknoben | 5:b4ec742aa7d4 | 54 | return x_target; |
peterknoben | 5:b4ec742aa7d4 | 55 | } |
peterknoben | 5:b4ec742aa7d4 | 56 | float getreferencepositiony(double potmeter){ |
peterknoben | 5:b4ec742aa7d4 | 57 | float y_target = potmeter * max_rangey; |
peterknoben | 5:b4ec742aa7d4 | 58 | return y_target; |
peterknoben | 5:b4ec742aa7d4 | 59 | } |
peterknoben | 5:b4ec742aa7d4 | 60 | |
peterknoben | 5:b4ec742aa7d4 | 61 | float getreferenceanglealpha(const double PI){ |
peterknoben | 5:b4ec742aa7d4 | 62 | float x = getreferencepositionx(potmeter1); |
peterknoben | 5:b4ec742aa7d4 | 63 | float y = getreferencepositiony(potmeter2); |
peterknoben | 5:b4ec742aa7d4 | 64 | float theta2 = acos((x*x + y*y - L1*L1 - L2*L2)/(2*L1*L2)); |
peterknoben | 5:b4ec742aa7d4 | 65 | float theta1 = asin(L2*sin(theta2)/sqrt(x*x +y*y) + atan(y/x)); |
peterknoben | 5:b4ec742aa7d4 | 66 | float alpha = (05.*PI) - theta1; |
peterknoben | 5:b4ec742aa7d4 | 67 | return alpha; |
peterknoben | 5:b4ec742aa7d4 | 68 | } |
peterknoben | 5:b4ec742aa7d4 | 69 | |
peterknoben | 5:b4ec742aa7d4 | 70 | float getreferenceanglebeta(const double PI){ |
peterknoben | 5:b4ec742aa7d4 | 71 | float x = getreferencepositionx(potmeter1); |
peterknoben | 5:b4ec742aa7d4 | 72 | float y = getreferencepositiony(potmeter2); |
peterknoben | 5:b4ec742aa7d4 | 73 | float theta2 = acos((x*x + y*y - L1*L1 - L2*L2)/(2*L1*L2)); |
peterknoben | 5:b4ec742aa7d4 | 74 | float theta1 = asin(L2*sin(theta2)/sqrt(x*x +y*y) + atan(y/x)); |
peterknoben | 5:b4ec742aa7d4 | 75 | float alpha = (05.*PI) - theta1; |
peterknoben | 5:b4ec742aa7d4 | 76 | float beta = PI - alpha - theta2; |
peterknoben | 5:b4ec742aa7d4 | 77 | return beta; |
peterknoben | 5:b4ec742aa7d4 | 78 | } |
peterknoben | 5:b4ec742aa7d4 | 79 | |
peterknoben | 5:b4ec742aa7d4 | 80 | //________________________________________________________________ |
peterknoben | 5:b4ec742aa7d4 | 81 | |
peterknoben | 3:1514725c8cc8 | 82 | |
peterknoben | 2:47ec66bbe8f9 | 83 | //Servo |
peterknoben | 2:47ec66bbe8f9 | 84 | Servo MyServo(D9); |
peterknoben | 2:47ec66bbe8f9 | 85 | InterruptIn But1(D8); |
peterknoben | 2:47ec66bbe8f9 | 86 | int k=0; |
DBerendsen | 0:bbd4e22aca8a | 87 | |
peterknoben | 2:47ec66bbe8f9 | 88 | double PI_controller(double error, const double Kp, const double Ki, double Ts, double &e_int) { |
DBerendsen | 0:bbd4e22aca8a | 89 | e_int =+ Ts * error; |
DBerendsen | 0:bbd4e22aca8a | 90 | return Kp * error + Ki * e_int ; |
DBerendsen | 0:bbd4e22aca8a | 91 | } |
DBerendsen | 0:bbd4e22aca8a | 92 | |
peterknoben | 2:47ec66bbe8f9 | 93 | void motor1_control(){ |
peterknoben | 5:b4ec742aa7d4 | 94 | double referenceangle1 = getreferenceanglealpha(PI); |
DBerendsen | 0:bbd4e22aca8a | 95 | double position1 = RAD_PER_PULSE * encoder1.getPosition(); |
DBerendsen | 0:bbd4e22aca8a | 96 | double magnitude1 = PI_controller(referenceangle1-position1, MOTOR1_KP, MOTOR1_KI, CONTROLLER_TS, m1_err_int) / motor1_gain; |
DBerendsen | 0:bbd4e22aca8a | 97 | motor1 = fabs(magnitude1); |
DBerendsen | 0:bbd4e22aca8a | 98 | |
peterknoben | 2:47ec66bbe8f9 | 99 | if (magnitude1 < 0){ |
DBerendsen | 0:bbd4e22aca8a | 100 | motor1DirectionPin = 1; |
DBerendsen | 0:bbd4e22aca8a | 101 | } |
peterknoben | 2:47ec66bbe8f9 | 102 | else{ |
DBerendsen | 0:bbd4e22aca8a | 103 | motor1DirectionPin = 0; |
DBerendsen | 0:bbd4e22aca8a | 104 | } |
DBerendsen | 0:bbd4e22aca8a | 105 | } |
DBerendsen | 0:bbd4e22aca8a | 106 | |
peterknoben | 2:47ec66bbe8f9 | 107 | |
peterknoben | 2:47ec66bbe8f9 | 108 | void motor2_control(){ |
peterknoben | 5:b4ec742aa7d4 | 109 | double referenceangle2 = getreferenceanglebeta(PI); |
DBerendsen | 0:bbd4e22aca8a | 110 | double position2 = RAD_PER_PULSE * encoder2.getPosition(); |
DBerendsen | 0:bbd4e22aca8a | 111 | double magnitude2 = PI_controller(referenceangle2-position2, MOTOR2_KP, MOTOR2_KI, CONTROLLER_TS, m2_err_int) / motor2_gain; |
DBerendsen | 1:5681fcdc22fe | 112 | motor2 = fabs(magnitude2); |
DBerendsen | 0:bbd4e22aca8a | 113 | |
peterknoben | 2:47ec66bbe8f9 | 114 | if (magnitude2 < 0){ |
DBerendsen | 1:5681fcdc22fe | 115 | motor2DirectionPin = 1; |
DBerendsen | 0:bbd4e22aca8a | 116 | } |
peterknoben | 2:47ec66bbe8f9 | 117 | else{ |
DBerendsen | 1:5681fcdc22fe | 118 | motor2DirectionPin = 0; |
DBerendsen | 0:bbd4e22aca8a | 119 | } |
DBerendsen | 0:bbd4e22aca8a | 120 | } |
DBerendsen | 0:bbd4e22aca8a | 121 | |
peterknoben | 5:b4ec742aa7d4 | 122 | /*void servo_control (){ |
peterknoben | 3:1514725c8cc8 | 123 | motor1.period(0.02f); |
peterknoben | 3:1514725c8cc8 | 124 | motor2.period(0.02f); |
peterknoben | 2:47ec66bbe8f9 | 125 | if (k==0){ |
peterknoben | 2:47ec66bbe8f9 | 126 | MyServo = 0; |
peterknoben | 2:47ec66bbe8f9 | 127 | k=1; |
peterknoben | 3:1514725c8cc8 | 128 | motor1.period_us(200); |
peterknoben | 2:47ec66bbe8f9 | 129 | } |
peterknoben | 2:47ec66bbe8f9 | 130 | else{ |
peterknoben | 2:47ec66bbe8f9 | 131 | MyServo = 2; |
peterknoben | 2:47ec66bbe8f9 | 132 | k=0; |
peterknoben | 3:1514725c8cc8 | 133 | motor1.period_us(200); |
peterknoben | 3:1514725c8cc8 | 134 | } |
peterknoben | 5:b4ec742aa7d4 | 135 | }*/ |
DBerendsen | 0:bbd4e22aca8a | 136 | |
peterknoben | 2:47ec66bbe8f9 | 137 | |
peterknoben | 2:47ec66bbe8f9 | 138 | int main(){ |
peterknoben | 5:b4ec742aa7d4 | 139 | //But1.rise(&servo_control); |
peterknoben | 3:1514725c8cc8 | 140 | motor1.period(0.0002f); |
peterknoben | 3:1514725c8cc8 | 141 | motor2.period(0.0002f); |
peterknoben | 2:47ec66bbe8f9 | 142 | MyControllerTicker1.attach(&motor1_control, CONTROLLER_TS); |
peterknoben | 2:47ec66bbe8f9 | 143 | MyControllerTicker2.attach(&motor2_control, CONTROLLER_TS); |
peterknoben | 3:1514725c8cc8 | 144 | |
peterknoben | 2:47ec66bbe8f9 | 145 | |
peterknoben | 2:47ec66bbe8f9 | 146 | while(1) {} |
peterknoben | 3:1514725c8cc8 | 147 | } |