Accuracy – Rockwell Automation 1762-IT4 Thermocouple/mV Input Module User Manual

Publication 1762-UM002A-EN-P - July 2002

A-4 Specifications

Accuracy

Input Type

(1)

With Autocalibration Enabled

Without Autocalibration

Accuracy

(2)

(3)

for 10 Hz, 50 Hz and 60

Hz Filters (max.)

Maximum Temperature Drift

(2)

(4)

at 25°C [77°F]
Ambient

at 0 to 60°C
[32 to 140°F]
Ambient

at 0 to 60°C [32 to 140°F]
Ambient

Thermocouple J (-210°C to 1200°C [-346°F to 2192°F])

±0.6°C [± 1.1°F]

±0.9°C [± 1.7°F]

±0.0218°C/°C [±0.0218°F/°F]

Thermocouple N (-200°C to +1300°C [-328°F to 2372°F]) ±1°C [± 1.8°F]

±1.5°C [±2.7°F]

±0.0367°C/°C [±0.0367°F/°F]

Thermocouple N (-210°C to -200°C [-346°F to -328°F])

±1.2°C [±2.2°F]

±1.8°C [±3.3°F]

±0.0424°C/°C [±0.0424°F/°F]

Thermocouple T (-230°C to +400°C [-382°F to +752°F])

±1°C [± 1.8°F]

±1.5°C [±2.7°F]

±0.0349°C/°C [±0.0349°F/°F]

Thermocouple T (-270°C to -230°C [-454°F to -382°F])

±5.4°C [± 9.8°F]

±7.0°C [±12.6°F]

±0.3500°C/°C [±0.3500°F/°F]

Thermocouple K (-230°C to +1370°C [-382°F to
+2498°F])

±1°C [± 1.8°F]

±1.5°C [±2.7°F]

±0.4995°C/°C [±0.4995°F/°F]

Thermocouple K (-270°C to -225°C [-454°F to -373°F])

±7.5°C [± 13.5°F]

±10°C [± 18°F]

±0.0378°C/°C [±0.0378°F/°F]

Thermocouple E (-210°C to +1000°C [-346°F to
+1832°F])

±0.5°C [± 0.9°F]

±0.8°C [±1.5°F]

±0.0199°C/°C [±0.0199°F/°F]

Thermocouple E (-270°C to -210°C [-454°F to -346°F])

±4.2°C [± 7.6°F]

±6.3°C [±11.4°F]

±0.2698°C/°C [±0.2698°F/°F]

Thermocouple R

±1.7°C [± 3.1°F]

±2.6°C [± 4.7°F]

±0.0613°C/°C [±0.0613°F/°F]

Thermocouple S

±1.7°C [± 3.1°F]

±2.6°C [± 4.7°F]

±0.0600°C/°C [±0.0600°F/°F]

Thermocouple C

±1.8°C [±3.3°F]

±3.5°C [±6.3°F]

±0.0899°C/°C [±0.0899°F/°F]

Thermocouple B

±3.0°C [±5.4°F]

±4.5°C [±8.1°F]

±0.1009°C/°C [±0.1009°F/°F]

±50 mV

±15

µ

V

±25

µ

V

±0.44

µ

V/°C [±0.80

µ

V/°F]

±100 mV

±20

µ

V

±30

µ

V

±0.69

µ

V/°C [±01.25

µ

V/°F]

(1) The module uses the National Institute of Standards and Technology (NIST) ITS-90 standard for thermocouple linearization.
(2) Accuracy and temperature drift information does not include the affects of errors or drift in the cold junction compensation circuit.
(3) Accuracy is dependent upon the analog/digital converter output rate selection, data format, and input noise.
(4) Temperature drift with autocalibration is slightly better than without autocalibration.

TIP

For more detailed accuracy information, see the
accuracy graphs on pages A-5 through A-21.