HEPTA-Sat Training 2019
Temperature sensor library
Dependents: HEPTA_SENSOR HEPTA_SENSOR
HeptaTemp.cpp
- Committer:
- HeptaSatTraining2019
- Date:
- 2019-08-21
- Revision:
- 7:79fba3155857
- Parent:
- 6:9a367d5cf53d
File content as of revision 7:79fba3155857:
#include"HeptaTemp.h"
#include"mbed.h"
HeptaTemp::HeptaTemp(PinName pin) : _pin(pin)
{
}
void HeptaTemp::temp_sense(float* temp)
{
//resistance
R1 = 2500;
R2 = 2500;
R3 = 110;
R4 = 1000;
R5 = 68000;
Pt = 100;
R_1 = 3;
R_2 = 2;
//current
I = 0.001;
//voltage
Vref = 2.5;
//Gain&Offset
float gain = -R5*I/R4;
float off = Vref+I*R3;
//temperature coefficient
ce = 0.003851;
float volt = (_pin.read())*3.3*(R_1 + R_2)/R_1;
float Rth = (volt-off)/gain+R3;
*temp = (Rth-Pt)/(ce*Pt);
// delay some time before reading again
//wait(0.5);
}
void HeptaTemp::temp_sense_u16(char* temp_u16)
{
unsigned short temp_datas;
char temp1[8]= {0x00},temp2[8]= {0x00};
temp_datas=_pin.read_u16()>>4;
sprintf( temp1, "%02X", (temp_datas >> 8) & 0x0F);
sprintf( temp2, "%02X", (temp_datas) & 0xFF);
temp_u16[0]=temp1[0];
temp_u16[1]=temp1[1];
temp_u16[2]=temp2[0];
temp_u16[3]=temp2[1];
//*dsize = 4;
}
void HeptaTemp::temp_sensing_vol(float* voltage)
{
R_1 = 3;
R_2 = 2;
*voltage = (_pin.read())*3.3*(R_1 + R_2)/R_1;
}