Stage-1 Students SoCEM
/
ROCO104_base_Template
For 1st Year ROCO104
main.cpp
- Committer:
- martinsimpson
- Date:
- 2019-02-01
- Revision:
- 4:8249fab4d8d3
- Parent:
- 1:3ca91ad8e927
File content as of revision 4:8249fab4d8d3:
/* Simple Routine for Nucleo Board for ROCO104 Buggy Motor Control and Microswitches Heavy edit from previous ROCO103PP code Motor Class can now be instansiated with all four pins needed to control the H Bridge with a member functions as follows Motor::Speed(float A, Float B) range -0.1 to +1.0 to give full reverse to full forward for A/B motors Motor::Stop() STOP Motor::Fwd(float) Forward but floating point number (range 0.0 to 1.0) Motor::Rev(float) Reverse but floating point number (range 0.0 to 1.0) Plymouth University M.Simpson 31st October 2016 Edited 03/02/2017 Edited 06/12/2018 */ #include "mbed.h" #include "motor.h" #include "tunes.h" #define TIME_PERIOD 2 //Constant compiler Values here 2 equates to 2ms or 500Hz base Frequency #define DUTY 0.9 //DUTY of 1.0=100%, 0.4=40% etc., DigitalIn microswitch1(D4); //Instance of the DigitalIn class called 'microswitch1' DigitalIn microswitch2(D3); //Instance of the DigitalIn class called 'microswitch2' Motor Wheel(D13,D11,D9,D10); //Instance of the Motor Class called 'Wheel' see motor.h and motor.cpp DigitalIn myButton(USER_BUTTON); //USER_BUTTON is the Blue Button on the NUCLEO Board DigitalOut led(LED3); //LED1 is the Green LED on the NUCLEO board //N.B. The RED LED is the POWER Indicator //and the Multicoloured LED indicates status of the ST-LINK Programming cycle Serial pc(USBTX,USBRX); //Instance of the Serial class to enable much faster BAUD rates then standard 9600 i.e. 115200 //This is Pseudo RS232 over USB the NUCLEO will appear as a COMx Port see device Manager on PC used //Use PuTTY to monitor check COMx and BAUD rate (115200) //Variable 'duty' for programmer to use to vary speed as required set here to #define compiler constant see above float duty=DUTY; // int main () { pc.baud(9600); //BAUD Rate to 9600 pc.printf("ROCO104 Demonstration Robot Buggy Plymouth University 2018/19\n\r"); Wheel.Period_in_ms(TIME_PERIOD);//Set frequency of the PWMs // //--------------------------- your strategy goes between the two dashed lines --------------------------------------------- // Wheel.Stop(); close_encounter(1); //tune to play Announce start! //twinkle(1); //see tunes.h for alternatives or make your own! //jingle_bells(1); while(myButton==0) { //Wait here for USER Button (Blue) on Nucleo Board (goes to zero when pressed) led=0; //and flash green LED whilst waiting wait(0.1); led=1; wait(0.1); //Test Microswitches with two different tones see tunes.cpp tunes.h or flash (led1 and led2) onboard LEDs } while(true) //Repeat the following forever NB always true! { // YOUR LINES OF CODE for your stratagy go between HERE! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ // Remember to use plenty of comments by using:- // Single line /* multiple lines */ // and HERE! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ } // go back to start of while loop } //end of int main() /* //Consider these lines of code to Accelerate the motors for (float i=0.5f; i<=1.0f; i+=0.01f) //Accelerate from 50% to 100% { Wheel.Speed(i,i); wait(0.1f); } */