Formula Student
/
Canbus_test
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Dependencies: mbed
main.cpp
- Committer:
- ArmandLambrechts
- Date:
- 2017-12-06
- Revision:
- 3:7530a7aca1ab
- Parent:
- 2:373260769485
- Child:
- 4:c154ba84b582
File content as of revision 3:7530a7aca1ab:
/*** Thread: CAN ***
* Test CAN to controller
*
*/
#include "mbed.h"
#include "CAN.h"
#include <string>
/* CAN (RD TD) */
CAN can(PA_11, PA_12);
DigitalOut canEN(PA_10);
DigitalIn safety(PB_1);
DigitalOut buzzer(PB_0);
AnalogIn analog_value(PA_0);
/* Structures to help pack and unpack the 8 CAN data bytes */
typedef struct bytes_64 {
uint8_t b0;
uint8_t b1;
uint8_t b2;
uint8_t b3;
uint8_t b4;
uint8_t b5;
uint8_t b6;
uint8_t b7;
} bytes_64;
typedef union {
uint64_t data;
bytes_64 bytes;
} data_packed;
long map(long x, long in_min, long in_max, long out_min, long out_max) //MAP functie voor verschalingen.
{
return (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min;
}
int main() {
printf("\r\n---Start---\r\n");
data_packed send_data; //struct for send message
data_packed receive_data; //struct for rcv message
CANMessage msg; //message object for rcv
int send_id = 513; //Id motorcontroller 0x201 -> 513
int send_status = 0;
/* int ADC_Torque_Filter[8];
int ADC_Torque_Value;
int i; */ //Voor moving average te berekenen
canEN = 0; //Voor de tranceiver
//send_data.data = 0x0CCD31; //0CCD snelheid motor, 31 register in controller. WERKT
send_data.data = 0;
can.frequency(1000000); //1m freq
can.mode(CAN::LocalTest);
//can.mode(CAN::Normal); //1vd2 comment
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
int speed = 0; //Snelheid naar de motor
int reg = 0x31; //register in de controller
float meas_r;
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
while (true) {
meas_r = analog_value.read() * 100;
speed = map(meas_r, 0, 100, 0, 0x7FFF); //waarde schommelt niet
/* for (i = 0; i < 7; i++)
{
ADC_Torque_Filter[i] = ADC_Torque_Filter[i+1];
//wait(0.005); //wacht 5 ms
}
ADC_Torque_Filter[7] = speed; //gas waarde berekenen via 8point moving average
ADC_Torque_Value = (( ADC_Torque_Filter[0]+
ADC_Torque_Filter[1]+
ADC_Torque_Filter[2]+
ADC_Torque_Filter[3]+
ADC_Torque_Filter[4]+
ADC_Torque_Filter[5]+
ADC_Torque_Filter[6]+
ADC_Torque_Filter[7]
) / 8);
// for (i = 0; i < 7; i++) //data van array leegmaken
// {
// ADC_Torque_Filter[i] = 0;
//wait(0.005);
//}*/
send_data.data = (speed << 8) + reg; //shiften en optellen
send_status = can.write(CANMessage(send_id, (char*) &send_data, 3));
if (send_status == true) {
//send_data.data = send_data.data + 1;
}
/* Receive */
if (can.read(msg)) {
//move message bytes to receive, so we can access as a uint64_t (u long long)
receive_data.bytes.b7 = msg.data[7];
receive_data.bytes.b6 = msg.data[6];
receive_data.bytes.b5 = msg.data[5];
receive_data.bytes.b4 = msg.data[4];
receive_data.bytes.b3 = msg.data[3];
receive_data.bytes.b2 = msg.data[2];
receive_data.bytes.b1 = msg.data[1];
receive_data.bytes.b0 = msg.data[0];
printf("Message received ID,Msg: %d, %llu\r\n", msg.id, receive_data.data);
}
wait(0.5);
}
}