Calculate for thermistor resistance, Calibrate thermistor – Rockwell Automation 2080-LC20-20QBBR Micro820 20-point Programmable Controllers User Manual User Manual

Rockwell Automation Publication 2080-UM005A-EN-E - December 2013

35

Wire Your Controller Chapter 4

Calculate for Thermistor Resistance

While connecting Analog input to thermistor as shown in previous diagram,
calculate input voltage using the following equation:

Where:
Vi = Voltage input (±5% without calibration; ±2% with calibration)
Ri = Resistance input (14.14 K

Ω ±2%)

Rt = Thermistor resistance (10 K

Ω Thermistor is recommended)

Vref = 10V ±0.5V

To calculate for thermistor resistance, use the following equation.

Calibrate Thermistor

1.

Connect a resistor (10 K

Ω is recommended) across Vref and Analog

Input 00 of your Micro820 controller following the diagram,

Analog input

to thermistors on page 34

. The resistor is measured as Ri using a precision

multimeter.

2.

Calculate the ideal counts (C1) for resistor (Ri) following this equation:
C1 = 14.14 K

Ω / (14.14 KΩ + Ri) * 4095

3.

Read the actual counts (C2) of Analog Input 00 from Connected
Components Workbench.

4.

Calculate for calibration Gain.
Gain = C1/C2

For example:
If Ri is measured as 10.00 K

Ω, then

C1 = 14.14 / (14.14 + 10.00) * 4095 = 2399 counts;
C2 is read from Connected Components Workbench as 2440; so
Gain = 2399/2440 = 98% .

IMPORTANT

Micro820 controllers support 10 KΩ type thermistors.

In order to get the best results, the system must be calibrated.

Vi =

Ri + Rt

Ri

* Vref

Rt=

Vi

Vi Vref - Vi Ri