7 Segment display for tm36 temperature sensor
Fork of shomberg_hw_4 by
main.cpp
- Committer:
- rshomberg
- Date:
- 2018-10-11
- Revision:
- 5:dbd163551a58
- Parent:
- 4:098e3d869055
- Child:
- 6:8cfa0216554f
File content as of revision 5:dbd163551a58:
/** MBED Analug Output Triangle Wave and PWM Wave main.cpp Purpose: Output a triangle waveform Output a PWM Signal of same frequency Adjust LED1 brightness with PWM Signal Adjust frequency using variable resistor Adjust amplitude using switch @author Russell Shomberg @version 1.0 2018-10-04 Issues: Frequency and amplitude only change at the start of the waveform by design */ // INCLUDES #include "mbed.h" // INPUTS DigitalIn switchPosition(p7); // wire p7 to middle connection of 2 position switch between Vref and GND AnalogIn Ain(p20); // wire p20 to a variable resister connected from Vref and GND // OUTPUTS Serial pc(USBTX, USBRX); // for debugging AnalogOut Aout(p18); // leave open lead on p18 for signal output PwmOut myled(LED1); PwmOut mypwm(p21); // VARIABLES float period; // range between ~0 and 1 (seconds) float pwmfreq; // switch between 1 and -.5 float i; // index int main() { while(1) { // Check settings at start of loop which are changed with period = Ain; if (switchPosition==1) {pwmfreq = 1*period;} else {pwmfreq = .5*period;} // Debugging code //printf("PWM Frequency = %1.2f Hz\n\r", pwmfreq); //printf("Analog Period = %1.2f seconds\n\r", period); //mypwm.period(period); //mypwm = pwmfreq; for (i=0;i<1;i=i+.001){ myled = 1-i; mypwm = 1-i; Aout = i; wait(0.001*period); } for (i=1;i>0;i=i-.001){ Aout = i; myled = 1-i; mypwm = 1-i; wait(0.001*period); } } }