Rockwell Automation 1769-IR6 Compact I/O 1769-IR6 RTD/Resistance Input Module User Manual

14

Rockwell Automation Publication 1769-UM005B-EN-P - March 2012

Chapter 1 Overview

The table below provide specifications for RTD accuracy and temperature
drift. The ratings apply when a 50/60 Hz filter is used.

Table 2 - RTD Accuracy and Temperature Drift

RTD Type

Maximum Scaled Accuracy

(25 °C with Calibration)

Maximum Scaled Accuracy

(0…60 °C with Calibration)

Maximum Temperature Drift

(from 25 °C without

Calibration)

Copper 426

10

Ω

±0.8 °C (1.44 °F)

±1.1 °C (1.98 °F)

±0.032 °C/°C (0.032 °F/°F)

Nickel 618

120

Ω

±0.3 °C (±0.54 °F)

±0.5

°C (±0.9 °F)

±0.012 °C/

°C (±0.012 °F/°F)

Nickel 672

120

Ω

±0.3 °C (±0.54 °F)

±0.5

°C (±0.9 °F)

±0.012 °C/

°C (±0.012 °F/°F)

Nickel-Iron 518

604

Ω

±0.3 °C (±0.54 °F)

±0.5

°C (±0.9 °F)

±0.015 °C/

°C (±0.015 °F/°F)

Platinum 385

100

Ω

±0.5 °C (±0.9 °F)

±0.9

°C (±1.62 °F)

±0.026 °C/

°C (±0.026 °F/°F)

200

Ω

±0.5 °C (±0.9 °F)

±0.9

°C (±1.62 °F)

±0.026 °C/

°C (±0.026 °F/°F)

500

Ω

±0.5 °C (±0.9 °F)

±0.9

°C (±1.62 °F)

±0.026 °C/

°C (±0.026 °F/°F)

1000

Ω

±0.5 °C (±0.9 °F)

±0.9

°C (±1.62 °F)

±0.026 °C/

°C (±0.026 °F/°F)

Platinum 3916

100

Ω

±0.4 °C (±0.72 °F)

±0.8

°C (±1.44 °F)

±0.023 °C/

°C (±0.023 °F/°F)

200

Ω

±0.4 °C (±0.72 °F)

±0.8

°C (±1.44 °F)

±0.023 °C/

°C (±0.023 °F/°F)

500

Ω

±0.4 °C (±0.72 °F)

±0.8

°C (±1.44 °F)

±0.023 °C/

°C (±0.023 °F/°F)

1000

Ω

±0.4 °C (±0.72 °F)

±0.8

°C (±1.44 °F)

±0.023 °C/

°C (±0.023 °F/°F)

IMPORTANT

When you are using any platinum (385) RTDs with 0.5 mA excitation current, the
module’s accuracy is:

·

±0.5 °C (0.9 °F) after you apply power to the module or perform an
autocalibration at 25 °C (77 °F) ambient, with module operating temperature at
25 °C (77 °F).

·

±[0.5 °C (0.9 °F) + DT ± 0.026 deg./°C (±0.026 deg./°F)] after you apply power
to the module or perform an autocalibration at 25 °C (77 °F) ambient, with
module operating temperature between 0…60 °C (140 °F). DT is the temperature
difference between the actual module operating temperature and 25°C (77 °F).
The value 0.026 deg./°C (±0.026 deg./°F) is the temperature drift shown in the
table above.

·

±0.9 °C after you apply power to the module or perform an autocalibration at
60 °C (140 °F) ambient, with module operating temperature at 60 °C (140 °F).