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4 directional EMG control of the XY table. Made during my bachelor end assignment.
Dependencies: C12832_lcd HIDScope mbed-dsp mbed
main.cpp@19:f0875bc3b72f, 2015-05-01 (annotated)
- Committer:
- jessekaiser
- Date:
- Fri May 01 11:54:11 2015 +0000
- Revision:
- 19:f0875bc3b72f
- Parent:
- 18:71a01477e264
- Child:
- 20:07723b8348e3
Filter ingesteld. Motor draait alleen niet
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
jessekaiser | 0:3acdd563582f | 1 | #include "mbed.h" |
jessekaiser | 10:7f94cd65c910 | 2 | #include "C12832_lcd.h" |
jessekaiser | 18:71a01477e264 | 3 | #include "arm_math.h" |
jessekaiser | 0:3acdd563582f | 4 | |
jessekaiser | 15:ae8b209e8493 | 5 | #define P_GAIN 0.998 |
jessekaiser | 11:74ae4e5e11ab | 6 | |
jessekaiser | 0:3acdd563582f | 7 | DigitalOut Dir(p21); |
jessekaiser | 0:3acdd563582f | 8 | PwmOut Step(p22); |
jessekaiser | 15:ae8b209e8493 | 9 | DigitalOut Enable(p14); |
jessekaiser | 0:3acdd563582f | 10 | DigitalOut MS1(p27); |
jessekaiser | 0:3acdd563582f | 11 | DigitalOut MS2(p28); |
jessekaiser | 0:3acdd563582f | 12 | DigitalOut MS3(p29); |
jessekaiser | 10:7f94cd65c910 | 13 | AnalogIn Pot1(p19); |
jessekaiser | 13:c4e80f6e7113 | 14 | AnalogIn Pot2(p20); |
jessekaiser | 16:cdb6d66c2c4e | 15 | C12832_LCD lcd; |
jessekaiser | 0:3acdd563582f | 16 | |
jessekaiser | 10:7f94cd65c910 | 17 | BusIn Joystick(p12,p13,p14,p15,p16); |
jessekaiser | 10:7f94cd65c910 | 18 | DigitalIn Up(p15); |
jessekaiser | 10:7f94cd65c910 | 19 | DigitalIn Down(p12); |
jessekaiser | 18:71a01477e264 | 20 | |
jessekaiser | 18:71a01477e264 | 21 | |
jessekaiser | 18:71a01477e264 | 22 | // Filter |
jessekaiser | 19:f0875bc3b72f | 23 | arm_biquad_casd_df1_inst_f32 lowpass_pot; |
jessekaiser | 18:71a01477e264 | 24 | |
jessekaiser | 18:71a01477e264 | 25 | //lowpass filter settings: Fc = 2 Hz, Fs = 100 Hz, Gain = 6 dB |
jessekaiser | 18:71a01477e264 | 26 | float lowpass_const[] = {0.007820199259120319, 0.015640398518240638, 0.007820199259120319, 1.7347238224240125, -0.7660046194604936}; |
jessekaiser | 18:71a01477e264 | 27 | |
jessekaiser | 18:71a01477e264 | 28 | //state values |
jessekaiser | 19:f0875bc3b72f | 29 | float lowpass_pot_states[4]; |
jessekaiser | 19:f0875bc3b72f | 30 | //globale variabele |
jessekaiser | 19:f0875bc3b72f | 31 | float filtered_pot; |
jessekaiser | 19:f0875bc3b72f | 32 | float pot_value1_f32; |
jessekaiser | 18:71a01477e264 | 33 | // EMG looper |
jessekaiser | 18:71a01477e264 | 34 | void looper() |
jessekaiser | 18:71a01477e264 | 35 | { |
jessekaiser | 18:71a01477e264 | 36 | /*variable to store value in*/ |
jessekaiser | 19:f0875bc3b72f | 37 | // uint16_t pot_value1; |
jessekaiser | 19:f0875bc3b72f | 38 | |
jessekaiser | 18:71a01477e264 | 39 | |
jessekaiser | 18:71a01477e264 | 40 | /*put raw emg value both in red and in emg_value*/ |
jessekaiser | 19:f0875bc3b72f | 41 | //pot_value1 = Pot1.read_u16(); // read direct ADC result, converted to 16 bit integer (0..2^16 = 0..65536 = 0..3.3V) |
jessekaiser | 19:f0875bc3b72f | 42 | pot_value1_f32 = Pot1.read() - 0.500; |
jessekaiser | 18:71a01477e264 | 43 | |
jessekaiser | 18:71a01477e264 | 44 | //process emg biceps |
jessekaiser | 19:f0875bc3b72f | 45 | |
jessekaiser | 19:f0875bc3b72f | 46 | arm_biquad_cascade_df1_f32(&lowpass_pot, &pot_value1_f32, &filtered_pot, 1 ); |
jessekaiser | 19:f0875bc3b72f | 47 | |
jessekaiser | 19:f0875bc3b72f | 48 | } |
jessekaiser | 19:f0875bc3b72f | 49 | int main() { |
jessekaiser | 19:f0875bc3b72f | 50 | Ticker log_timer; |
jessekaiser | 18:71a01477e264 | 51 | //set up filters. Use external array for constants |
jessekaiser | 19:f0875bc3b72f | 52 | arm_biquad_cascade_df1_init_f32(&lowpass_pot, 1 , lowpass_const, lowpass_pot_states); |
jessekaiser | 19:f0875bc3b72f | 53 | log_timer.attach(looper, 0.01); |
jessekaiser | 19:f0875bc3b72f | 54 | |
jessekaiser | 19:f0875bc3b72f | 55 | Enable = 0; |
jessekaiser | 19:f0875bc3b72f | 56 | float setpoint = 7000; //Frequentie |
jessekaiser | 19:f0875bc3b72f | 57 | float step_freq = 1; |
jessekaiser | 19:f0875bc3b72f | 58 | MS1 = 1; |
jessekaiser | 19:f0875bc3b72f | 59 | MS2 = 0; |
jessekaiser | 19:f0875bc3b72f | 60 | MS3 = 0; |
jessekaiser | 19:f0875bc3b72f | 61 | //float p1; |
jessekaiser | 19:f0875bc3b72f | 62 | //p1 = pot_value1_f32 - 0.500; |
jessekaiser | 19:f0875bc3b72f | 63 | |
jessekaiser | 16:cdb6d66c2c4e | 64 | |
jessekaiser | 19:f0875bc3b72f | 65 | Step.period(1./step_freq); // 1 kHz, vanaf 2,5 kHz doet de motor het niet meer. |
jessekaiser | 19:f0875bc3b72f | 66 | Step.write(0.5); // Duty cycle van 50% |
jessekaiser | 19:f0875bc3b72f | 67 | // Dir = Pot1; // Dir 1 is naar boven, Dir 0 naar onder. |
jessekaiser | 19:f0875bc3b72f | 68 | Enable = 1; |
jessekaiser | 19:f0875bc3b72f | 69 | while (1) { |
jessekaiser | 19:f0875bc3b72f | 70 | |
jessekaiser | 19:f0875bc3b72f | 71 | if (pot_value1_f32 < 0) { //Directie controle. |
jessekaiser | 19:f0875bc3b72f | 72 | Dir = 0; |
jessekaiser | 19:f0875bc3b72f | 73 | } else if (pot_value1_f32 > 0) { |
jessekaiser | 19:f0875bc3b72f | 74 | Dir = 1; |
jessekaiser | 19:f0875bc3b72f | 75 | } |
jessekaiser | 19:f0875bc3b72f | 76 | // p1 = Pot1.read() - 0.500; //Offset creëren [-0.500;0.500] |
jessekaiser | 19:f0875bc3b72f | 77 | |
jessekaiser | 19:f0875bc3b72f | 78 | float new_step_freq; |
jessekaiser | 19:f0875bc3b72f | 79 | new_step_freq = (setpoint*pot_value1_f32*2); |
jessekaiser | 19:f0875bc3b72f | 80 | step_freq = abs(new_step_freq); //Geeft een frequentie in 100 stappen. |
jessekaiser | 19:f0875bc3b72f | 81 | Step.period(1.0/step_freq); |
jessekaiser | 19:f0875bc3b72f | 82 | //wait(0.01); //Hier nog ticker inbouwen |
jessekaiser | 19:f0875bc3b72f | 83 | lcd.printf("Spd %.0f Hz p1 %.2f \n", step_freq, pot_value1_f32); //snelheid meting op lcd, zonder decimalen |
jessekaiser | 19:f0875bc3b72f | 84 | |
jessekaiser | 16:cdb6d66c2c4e | 85 | } |
jessekaiser | 19:f0875bc3b72f | 86 | } |