Hi
I have a 50K thermistor (this one), which I cannot get to work correctly.
My set up is the following:
5V -- T -- A -- 10K -- GND
Where T is the thermistor, A is the analog PIN.
The problem is that I got weird temperatures like 100 celsius degrees, even if I am sure that the SH equation is correct, since I read the same values as in the datasheet table.
#include <math.h>
#define READING_PIN 5
#define SERIESRESISTOR 10000
double R1 = 10000.0; //resistance put in parallel
double V_IN = 5.0;
double A = 9.6564E-04;
double B = 2.1069E-04;
double C = 8.5826E-8;
double K = 9.5; // mW/dec C – dissipation factor
double SteinhartHart(double R) {
// calculate temperature
double logR = log(R);
double logR3 = logR * logR * logR;
return 1.0 / (A + B * logR + C * logR3);
}
void setup() {
Serial.begin(9600);
}
void loop() {
double adc_raw = analogRead(READING_PIN);
double V = (adc_raw / 1024) * V_IN;
Serial.print("V =");
Serial.print(V);
//calculate resistance
double R_th = (R1 * V ) / (V_IN - V);
Serial.print("V R_th = ");
Serial.print(R_th);
double kelvin = SteinhartHart(R_th) - V * V / (K * R_th);
double celsius = kelvin - 273.15;
Serial.print(" Ohm - T = ");
Serial.print(celsius);
Serial.println("C");
delay(1000);
}
For the map function, I think that is not the problem. I can correctly map my resistance value to temperature values, but is my resistance value which is wrong, not its mapping.
I also tried with 5 10KOhm resistors in series, but this hasn't work either.
According to your datasheet the Thermistor has 50k @25°C , which should result in V =0.83, if I understand your ascii wiring scheme correctly.
At lower temperatures you get a higher resistance, e.g. 100k @10°C, which would result in V = 0.45.
Higher temperatures provide a higher voltage, e.g. 10k @62.5°C yields V =2.50
Is that in line with your first debug output, [edit:]and what you read with a voltage meter between A5 and GND ?
If no, check your wiring (or correct my understanding)
If yes, check the maths.
erbedo:
Using PapaG help, I got it working! Thanks!
You're welcome, erbedo.
You can try an experiment if you're curious. If you select 50K for your series resistor instead of 10K, you'll notice that the voltage vs. temperature curve is far more linear over the range 0-100 Celsius. So much so that, if your interest is a thermometer for measuring the temperature of your environment, you might not even need the Steinhart-Hart function.
If you wire your circuit the way you had it originally, and use the right equation, you get a response curve that is fairly linear in the temperature range above 40 degrees Celsius but as michael_x commented, you don't get much of a voltage variation so your resolution is less. If you substitute the 50K resistor again, you get a fairly linear curve at room temperatures but again, not much resolution.
So, you see, there are a few trade-offs you can consider in your design.