FORARKADI
Dependencies: mbed mypidror1 Motor Map
Diff: recive.cpp
- Revision:
- 8:4b5f04325cbe
- Parent:
- 7:34118a0098e8
diff -r 34118a0098e8 -r 4b5f04325cbe recive.cpp --- a/recive.cpp Fri Mar 13 12:35:04 2020 +0000 +++ b/recive.cpp Thu Apr 30 08:16:51 2020 +0000 @@ -8,6 +8,7 @@ PA_0 ---> Analogin ---> Read Potentiometer 1 PA_1 ---> Analogin ---> Read Potentiometer 2 PA_3 ----> DigitalOut ---> to Led MOSFET + PA_7 ----> DigitalOut ---> to NPN LED1 ----> DigitalOut ----> Error Indication CANBUS: PA_11 ---> CANBUS TX @@ -42,6 +43,7 @@ //led indicator DigitalOut myled(LED1); +DigitalOut myNPN(PA_7); // brake signalout @@ -53,7 +55,7 @@ //Xbee -BufferedSerial xbee(PA_9, PA_10); +//BufferedSerial xbee(PA_9, PA_10); //Motor Control @@ -78,6 +80,7 @@ int counter = 0; int errorcounter = 0; int recievecounter = 0; +int brakez = 0; // PID @@ -127,7 +130,7 @@ ////////////////// Map mapvaltovolt = Map(0, 1, 0, 3300); // Maping Volt value from 0-1 to 0-3300 -Map mtodagree = Map(230, 3070, 0, 255); // Maping Volt value from 490-3150 to 0 - 255 +Map mtodagree = Map(470, 2750, 0, 255); // Maping Volt value from 490-3150 to 0 - 255 Map nspeed = Map(-255, 255, -1, 1); // Maping out put speed from -255-255 to -1-1 @@ -137,12 +140,6 @@ // After pid calculate and Sensor data recieve this function command the output to the motor -void BrakeOn() { - mybrake = 1; - } -void BrakeOff() { - mybrake = 0; - } void commandMotor(){ float Motorcommand = nspeed.Calculate(speed); myMotor.speed(Motorcommand); @@ -154,26 +151,16 @@ main_ticker.detach(); pid.stop(); syserror.attach(sendError, 0.0005); + myNPN = 0; } - myMotor.speed(0); + myMotor.speed(-1); } - /*while (1) { - BrakeOn(); - //pc.printf("Error is: %.4f\n\r", 1); - wait(1); - BrakeOff(); - wait(1); - } - }*/ // get Data overcanbus void getData() { - //pc.printf("%d", 1); CANMessage msg; if(can1.read(msg)) { recievecounter ++; - //pc.printf("Pedal sensor worng values\n"); - //pc.printf("my data: %d", msg.data[2]); if (can.read() > 0) { can.stop(); can.reset(); @@ -187,10 +174,12 @@ perrorflag = 0; } if (msg.data[3]==1){ - BrakeOn(); + mybrake = 1; + brakez = 1; } if (msg.data[3]==0){ - BrakeOff(); + mybrake = 0; + brakez = 0; } pdagree = msg.data[0]; } @@ -199,16 +188,12 @@ } if (can.read() > 0.1) { // if message not recieved more then 0.1 sec send error can.stop(); - //can.reset(); errorcounter = 1; cantimeoutflag = 1; sendError(); } - } - - + } //reading Thorttle sensors - void readSensors() { thorttle1 = analog_value1.read(); // Converts and read the analog input value (value from 0.0 to 1.0) thorttle2 = analog_value2.read(); // Converts and read the analog input value (value from 0.0 to 1.0) @@ -251,12 +236,13 @@ }*/ } int main() { - pc.baud(57600); - xbee.baud(57600); + myNPN = 1; + pc.baud(9600); + //xbee.baud(57600); pid.start(); main_ticker.attach(readSensors, 0.0005); while(1){ - //pc.printf("Pedal: %.4f\n\n\r, Thorttle: %.4f\n\n\r, subthorttle: %.4f\n\n\r, recievecounter: %d\n\n\r, ThorttleErrorFlag: %d\n\n\r, PedalErrorFlag: %d\n\n\r, CanTimeoutFlag: %d\n\n\r", pdagree, mdagree, subThorttle, recievecounter, terrorflag, perrorflag, cantimeoutflag); - xbee.printf("Pedal: %.4f\n\n\r, Thorttle:\n\r, recievecounter: %d\n\n\r, ThorttleErrorFlag: %d\n\n\r,, pdagree, mdagree, subThorttle, recievecounter, terrorflag, perrorflag, cantimeoutflag); + pc.printf("Pedal: %.4f\n\n\r, Thorttle: %.4f\n\n\r, subthorttle: %.4f\n\n\r, recievecounter: %d\n\n\r, ThorttleErrorFlag: %d\n\n\r, PedalErrorFlag: %d\n\n\r, CanTimeoutFlag: %d\n\n\r, Brakeon: %d\n\n\r", pdagree, mdagree, subThorttle, recievecounter, terrorflag, perrorflag, cantimeoutflag, brakez); + //xbee.printf("Pedal: %.4f\n\n\r, Thorttle:\n\r, recievecounter: %d\n\n\r, ThorttleErrorFlag: %d\n\n\r,, pdagree, mdagree, subThorttle, recievecounter, terrorflag, perrorflag, cantimeoutflag); } } \ No newline at end of file