Russell Shomberg
/
shomberg_hw_4
HW4
main.cpp
- Committer:
- rshomberg
- Date:
- 2018-10-16
- Revision:
- 6:8cfa0216554f
- Parent:
- 5:dbd163551a58
- Child:
- 7:334ad83c7596
File content as of revision 6:8cfa0216554f:
/** Temperature Sensor main.cpp Purpose: Read signal from TMP36 connected to pin20 Display output voltage to terminal Display difference in mV of output voltage to starting voltage on 2x 7-Segment Displays See outputs for pin configuration Toggle switch connected to pin07 to convert displays to degC @author Russell Shomberg @version 1.0 2018-10-15 Issues: No Decimal point for temperature */ // 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 //// Pin Map for 7-Seg starts bottom left, goes CCW BusOut Seg1(p12,p13,p14,p15,p16,p17,p18,p19); //01 02 03 04 05 06 07 08 09 10 BusOut Seg2(p21,p22,p23,p24,p25,p26,p27,p28); //E D CC C DP B A CC F G // FUNCTIONS char SegConvert(int SegValue); // VARIABLES int outputT= 0; float v0; float deltav; float temp0; float deltatemp; float val; int ones; int tens; int main() { // read starting voltage from temperature sensor v0 = Ain*3.5*1000; while(1) { // Read Switch if on output temp else output mV outputT = switchPosition; // Read temperature sensor deltav = Ain*3.5*1000-v0; // Output to terminal if (outputT) { // Convert to temp deltatemp = deltav/10; printf("Temperature Difference = %1.2f degC\n\r", deltatemp); val = deltatemp; } else { printf("Voltage Difference = %1.2f mV\n\r", deltav); val = deltav; } // Convert val to ones and tens char ones = fmod(rint(val),10); tens = fmod(rint(val) / 10, 10); Seg1 = ~SegConvert(ones); Seg2 = ~SegConvert(tens); wait(1); } } //ones: 12 13 14 15 16 17 18 19 // A B C D E F G P //tens: 21 22 23 24 25 26 27 28 // char SegConvert(int SegValue) { // function 'SegConvert' char SegByte=0x00; switch (abs(SegValue)) { // ABCDEFGP case 0 : SegByte= 0x3F;break; // 11111100 binary case 1 : SegByte= 0x06;break; // 01100000 binary case 2 : SegByte= 0x5B;break; // 11110110 binary case 3 : SegByte= 0x4F;break; // 10011110 binary case 4 : SegByte= 0x66;break; // 11001100 binary case 5 : SegByte= 0x6D;break; // 11011010 binary case 6 : SegByte= 0x7D;break; // 11111010 binary case 7 : SegByte= 0x07;break; // 00001110 binary case 8 : SegByte= 0x7F;break; // 11111110 binary case 9 : SegByte= 0x6F;break; // 11011110 binary } return SegByte; }