NX-TS NX-series Temperature Input Unit/Specifications | OMRON Industrial Automation Thailand

Item		Specification
Enclosure		Mounted in a panel
Grounding method		Ground to 100 Ω or less
Operating environment	Ambient operating temperature	0 to 55°C
	Ambient operating humidity	10% to 95% (with no condensation or icing)
	Atmosphere	Must be free from corrosive gases.
	Ambient storage temperature	-25 to 70°C (with no condensation or icing)
	Altitude	2,000 m max.
	Pollution degree	2 or less: Meets IEC 61010-2-201.
	Noise immunity	2 kV on power supply line (Conforms to IEC61000-4-4.)
	Overvoltage category	Category II: Meets IEC 61010-2-201.
	EMC immunity level	Zone B
	Vibration resistance	Conforms to IEC 60068-2-6. 5 to 8.4 Hz with 3.5-mm amplitude, 8.4 to 150 Hz, acceleration of 9.8 m/s², 100 min each in X, Y, and Z directions (10 sweeps of 10 min each = 100 min total)
	Shock resistance	Conforms to IEC 60068-2-27. 147 m/s², 3 times each in X, Y, and Z directions
Applicable standards *		cULus: Listed (UL508), ANSI/ISA 12.12.01, EU: EN 61131-2, C-Tick or RCM, KC Registration, NK, LR

* Ask your OMRON representative for the most recent applicable standards for each model.

Unit name	Temperature Input Unit (thermocouple input type)	Model	NX-TS2101
Number of points	2 points	External connection terminals	Screwless clamping terminal block (16 terminals)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	K, J, T, E, L, U, N, R, S, B, WRe5-26, PLII
		Input conversion range	±20°C of the input range
		Absolute maximum rating	±130 mV
		Input impedance	20 kΩ min.
		Resolution	0.1°C max. *1
		Reference accuracy	*2
		Temperature coefficient	*2
		Cold junction compensation error	±1.2°C 3 4
		Input disconnection detection current	Approx. 0.1 μA
Warm-up period	30 minutes	Conversion time	250 ms/Unit
Dimensions	12 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Photocoupler Between inputs: Power = Transformer, Signal = Photocoupler
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.25 W max. • Connected to a Communi- cations Coupler Unit 0.90 W max.	Current consumption from I/O power supply	No consumption
Weight	70 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: The cold junction compensation error is restricted according to the installation orientation and the power consumption of adjacent Units. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type.
Terminal connection diagram

*1. The resolution is 0.2°C max. when the input type is R, S, or W.
*2. Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement
Temperature.
*3. The overall accuracy is guaranteed for a set consisting of a cold junction sensor that is mounted on the terminal
block and a Temperature Input Unit. Be sure to use the terminal block and the Temperature Input Unit together.
A calibration control number is both displayed on the terminal block and the Unit. Make sure to return the terminal
block (including a cold junction sensor mounted) and the Unit together for repair.
*4. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type for the
specifications for each set of operating conditions.

Unit name	Temperature Input Unit (thermocouple input type)	Model	NX-TS2102
Number of points	2 points	External connection terminals	Screwless clamping terminal block (16 terminals)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	K, J, T, E, L, U, N, R, S, WRe5-26, PLII
		Input conversion range	±20°C of the input range
		Absolute maximum rating	±130 mV
		Input impedance	20 kΩ min.
		Resolution	0.01°C max.
		Reference accuracy	*1
		Temperature coefficient	*1
		Cold junction compensation error	±1.2°C 2 3
		Input disconnection detection current	Approx. 0.1 μA
Warm-up period	45 minutes	Conversion time	10 ms/Unit
Dimensions	12 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.15 W max. • Connected to a Communi- cations Coupler Unit 0.80 W max.	Current consumption from I/O power supply	No consumption
Weight	70 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: The cold junction compensation error is restricted according to the installation orientation and the power consumption of adjacent Units. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type.
Terminal connection diagram

*1. Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement
Temperature.
*2. The overall accuracy is guaranteed for a set consisting of a cold junction sensor that is mounted on the terminal
block and a Temperature Input Unit. Be sure to use the terminal block and the Temperature Input Unit together.
A calibration control number is both displayed on the terminal block and the Unit. Make sure to return the terminal
block (including a cold junction sensor mounted) and the Unit together for repair.
*3. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type for the
specifications for each set of operating conditions.

Unit name	Temperature Input Unit (thermocouple input type)	Model	NX-TS2104
Number of points	2 points	External connection terminals	Screwless clamping terminal block (16 terminals)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	K, J, T, E, L, U, N, R, S, WRe5-26, PLII
		Input conversion range	±20°C of the input range
		Absolute maximum rating	±130 mV
		Input impedance	20 kΩ min.
		Resolution	0.001°C max.
		Reference accuracy	*1
		Temperature coefficient	*1
		Cold junction compensation error	±1.2°C 2 3
		Input disconnection detection current	Approx. 0.1 μA
Warm-up period	45 minutes	Conversion time	60 ms/Unit
Dimensions	12 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 0.95 W max. • Connected to a Communi- cations Coupler Unit 0.80 W max.	Current consumption from I/O power supply	No consumption
Weight	70 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: The cold junction compensation error is restricted according to the installation orientation and the power consumption of adjacent Units. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type.
Terminal connection diagram

*1. Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement
Temperature.
*2. The overall accuracy is guaranteed for a set consisting of a cold junction sensor that is mounted on the terminal
block and a Temperature Input Unit. Be sure to use the terminal block and the Temperature Input Unit together.
A calibration control number is both displayed on the terminal block and the Unit. Make sure to return the terminal
block (including a cold junction sensor mounted) and the Unit together for repair.
*3. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type for the
specifications for each set of operating conditions.

Unit name	Temperature Input Unit (resistance thermometer input type)	Model	NX-TS2201
Number of points	2 points	External connection terminals	Screwless clamping terminal block (16 terminals)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	Pt100 (three-wire)/Pt1000 (three-wire)
		Input conversion range	±20°C of the input range
		Input detection current	Approx. 0.25 mA
		Resolution	0.1°C max.
		Reference accuracy	*
		Temperature coefficient	*
		Effect of conductor resistance	0.06°C/Ω max. (also 20 Ω max.)
Warm-up period	10 minutes	Conversion time	250 ms/Unit
Dimensions	12 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Photocoupler Between inputs: Power = Transformer, Signal = Photocoupler
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.25 W max. • Connected to a Communi- cations Coupler Unit 0.90 W max.	Current consumption from I/O power supply	No consumption
Weight	70 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: No restrictions
Terminal connection diagram

* Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement Temperature.

Unit name	Temperature Input Unit (resistance thermometer input type)	Model	NX-TS2202
Number of points	2 points	External connection terminals	Screwless clamping terminal block (16 terminals)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	Pt100 (three-wire)
		Input conversion range	±20°C of the input range
		Input detection current	Approx. 0.25 mA
		Resolution	0.01°C max.
		Reference accuracy	*
		Temperature coefficient	*
		Effect of conductor resistance	0.06°C/Ω max. (also 20 Ω max.)
Warm-up period	30 minutes	Conversion time	10 ms/Unit
Dimensions	12 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.15 W max. • Connected to a Communi- cations Coupler Unit 0.75 W max.	Current consumption from I/O power supply	No consumption
Weight	70 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: No restrictions
Terminal connection diagram

* Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement Temperature.

Unit name	Temperature Input Unit (resistance thermometer input type)	Model	NX-TS2204
Number of points	2 points	External connection terminals	Screwless clamping terminal block (16 terminals)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	Pt100 (three-wire)/Pt1000 (three-wire)
		Input conversion range	±20°C of the input range
		Input detection current	Approx. 0.25 mA
		Resolution	0.001°C max.
		Reference accuracy	*
		Temperature coefficient	*
		Effect of conductor resistance	0.06°C/Ω max. (also 20 Ω max.)
Warm-up period	30 minutes	Conversion time	60 ms/Unit
Dimensions	12 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 0.90 W max. • Connected to a Communi- cations Coupler Unit 0.75 W max.	Current consumption from I/O power supply	No consumption
Weight	70 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: No restrictions
Terminal connection diagram

* Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement Temperature.

Unit name	Temperature Input Unit (thermocouple input type)	Model	NX-TS3101
Number of points	4 points	External connection terminals	Screwless clamping terminal block (16 terminals x 2)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	K, J, T, E, L, U, N, R, S, B, WRe5-26, PLII
		Input conversion range	±20°C of the input range
		Absolute maximum rating	±130 mV
		Input impedance	20 kΩ min.
		Resolution	0.1°C max. *1
		Reference accuracy	*2
		Temperature coefficient	*2
		Cold junction compensation error	±1.2°C 3 4
		Input disconnection detection current	Approx. 0.1μA
Warm-up period	30 minutes	Conversion time	250 ms/Unit
Dimensions	24 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Photocoupler Between inputs: Power = Transformer, Signal = Photocoupler
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.75 W max. • Connected to a Communi- cations Coupler Unit 1.30 W max.	Current consumption from I/O power supply	No consumption
Weight	140 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: The cold junction compensation error is restricted according to the installation orientation and the power consumption of adjacent Units. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type.
Terminal connection diagram

*1. The resolution is 0.2°C max. when the input type is R, S, or W.
*2. Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement
Temperature.
*3. The overall accuracy is guaranteed for a set consisting of a cold junction sensor that is mounted on the terminal
block and a Temperature Input Unit. Be sure to use the terminal block and the Temperature Input Unit together.
A calibration control number is both displayed on the terminal block and the Unit. Make sure to return the terminal
block (including a cold junction sensor mounted) and the Unit together for repair.
*4. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type for the
specifications for each set of operating conditions.

Unit name	Temperature Input Unit (thermocouple input type)	Model	NX-TS3102
Number of points	4 points	External connection terminals	Screwless clamping terminal block (16 terminals x 2)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	K, J, T, E, L, U, N, R, S, WRe5-26, PLII
		Input conversion range	±20°C of the input range
		Absolute maximum rating	±130 mV
		Input impedance	20 kΩ min.
		Resolution	0.01°C max.
		Reference accuracy	*1
		Temperature coefficient	*1
		Cold junction compensation error	±1.2°C 2 3
		Input disconnection detection current	Approx. 0.1 μA
Warm-up period	45 minutes	Conversion time	10 ms/Unit
Dimensions	24 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.55 W max. • Connected to a Communi- cations Coupler Unit 1.10 W max.	Current consumption from I/O power supply	No consumption
Weight	140 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: The cold junction compensation error is restricted according to the installation orientation and the power consumption of adjacent Units. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type.
Terminal connection diagram

*1. Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement
Temperature.
*2. The overall accuracy is guaranteed for a set consisting of a cold junction sensor that is mounted on the terminal
block and a Temperature Input Unit. Be sure to use the terminal block and the Temperature Input Unit together.
A calibration control number is both displayed on the terminal block and the Unit. Make sure to return the terminal
block (including a cold junction sensor mounted) and the Unit together for repair.
*3. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type for the
specifications for each set of operating conditions.

Unit name	Temperature Input Unit (thermocouple input type)	Model	NX-TS3104
Number of points	4 points	External connection terminals	Screwless clamping terminal block (16 terminals x 2)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	K, J, T, E, L, U, N, R, S, WRe5-26, PLII
		Input conversion range	±20°C of the input range
		Absolute maximum rating	±130 mV
		Input impedance	20 kΩ min.
		Resolution	0.001°C max.
		Reference accuracy	*1
		Temperature coefficient	*1
		Cold junction compensation error	±1.2°C 2 3
		Input disconnection detection current	Approx. 0.1 μA
Warm-up period	45 minutes	Conversion time	60 ms/Unit
Dimensions	24 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.45 W max. • Connected to a Communi- cations Coupler Unit 1.10 W max.	Current consumption from I/O power supply	No consumption
Weight	140 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: The cold junction compensation error is restricted according to the installation orientation and the power consumption of adjacent Units. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type.
Terminal connection diagram

*1. Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement
Temperature.
*2. The overall accuracy is guaranteed for a set consisting of a cold junction sensor that is mounted on the terminal
block and a Temperature Input Unit. Be sure to use the terminal block and the Temperature Input Unit together.
A calibration control number is both displayed on the terminal block and the Unit. Make sure to return the terminal
block (including a cold junction sensor mounted) and the Unit together for repair.
*3. Refer to Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type for the
specifications for each set of operating conditions.

Unit name	Temperature Input Unit (resistance thermometer input type)	Model	NX-TS3201
Number of points	4 points	External connection terminals	Screwless clamping terminal block (16 Terminals x 2)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	Pt100 (three-wire)/Pt1000 (three-wire)
		Input conversion range	±20°C of the input range
		Input detection current	Approx. 0.25 mA
		Resolution	0.1°C max.
		Reference accuracy	*
		Temperature coefficient	*
		Effect of conductor resistance	0.06°C/Ω max. (also 20 Ω max.)
Warm-up period	10 minutes	Conversion time	250 ms/Unit
Dimensions	24 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Photocoupler Between inputs: Power = Transformer, Signal = Photocoupler
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.75 W max. • Connected to a Communi- cations Coupler Unit 1.30 W max.	Current consumption from I/O power supply	No consumption
Weight	140 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: No restrictions
Terminal connection diagram

* Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement Temperature.

Unit name	Temperature Input Unit (resistance thermometer input type)	Model	NX-TS3202
Number of points	4 points	External connection terminals	Screwless clamping terminal block (16 Terminals x 2)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	Pt100 (three-wire)
		Input conversion range	±20°C of the input range
		Input detection current	Approx. 0.25 mA
		Resolution	0.01°C max.
		Reference accuracy	*
		Temperature coefficient	*
		Effect of conductor resistance	0.06°C/Ω max. (also 20 Ω max.)
Warm-up period	30 minutes	Conversion time	10 ms/Unit
Dimensions	24 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.50 W max. • Connected to a Communi- cations Coupler Unit 1.05 W max.	Current consumption from I/O power supply	No consumption
Weight	130 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: No restrictions
Terminal connection diagram

* Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement Temperature.

Unit name	Temperature Input Unit (resistance thermometer input type)	Model	NX-TS3204
Number of points	4 points	External connection terminals	Screwless clamping terminal block (16 Terminals x 2)
I/O refreshing method	Free-Run refreshing
Indicator	TS indicator	Temperature sensor	Pt100 (three-wire)/Pt1000 (three-wire)
		Input conversion range	±20°C of the input range
		Input detection current	Approx. 0.25 mA
		Resolution	0.001°C max.
		Reference accuracy	*
		Temperature coefficient	*
		Effect of conductor resistance	0.06°C/Ω max. (also 20 Ω max.)
Warm-up period	30 minutes	Conversion time	60 ms/Unit
Dimensions	24 (W) x 100 (H) x 71 (D)	Isolation method	Between the input and the NX bus: Power = Transformer, Signal = Digital isolator Between inputs: Power = Transformer, Signal = Digital isolator
Insulation resistance	20 MΩ min. between isolated circuits (at 100 VDC)	Dielectric strength	510 VAC between isolated circuits for 1 minute at a leakage current of 5 mA max.
I/O power supply method	No supply	Current capacity of I/O power supply terminal	Without I/O power supply terminals
NX Unit power consumption	• Connected to a CPU Unit or Communication Control Unit 1.45 W max. • Connected to a Communi- cations Coupler Unit 1.05 W max.	Current consumption from I/O power supply	No consumption
Weight	130 g max.
Installation orientation and restrictions	Installation orientation: • Connected to a CPU Unit or Communication Control Unit: Possible in upright installation. • Connected to a Communications Coupler Unit: Possible in 6 orientations. Restrictions: No restrictions
Terminal connection diagram

* Refer to Reference Accuracy and Temperature Coefficient According to the Input Type and Measurement Temperature.

Conversion time	Input type		Measured temperature (°C)	Reference accuracy °C (%) *3	Temperature coefficient °C/°C 4 Input (ppm/°C 5)
Conversion time	Input type *2	Temperature range (°C)	Measured temperature (°C)	Reference accuracy °C (%) *3	Temperature coefficient °C/°C 4 Input (ppm/°C 5)
10/60 ms	K	-200 to 1300	Same as the left	±0.75 (±0.05%)	±0.08 (±50 ppm/°C)
	K	-20 to 600 (High Resolution)	Same as the left	±0.30 (±0.05%)	±0.03 (±48 ppm/°C)
	J	-200 to 1200	-200 to 0	±0.70 (±0.05%)	±0.13 (±96 ppm/°C)
	J	-200 to 1200	0 to 1200	±0.70 (±0.05%)	±0.06 (±42 ppm/°C)
	J	-20 to 600 (High Resolution)	Same as the left	±0.30 (±0.05%)	±0.04 (±72 ppm/°C)
	T	-200 to 400	-200 to -180	±1.30 (±0.22%)	±0.05 (±75 ppm/°C)
			-180 to 0	±0.70 (±0.12%)
			0 to 400	±0.33 (±0.055%)
	E	-200 to 1000	-200 to 0	±0.60 (±0.05%)	±0.12 (±100 ppm/°C)
	E	-200 to 1000	0 to 1000	±0.60 (±0.05%)	±0.06 (±50 ppm/°C)
	L	-200 to 900	Same as the left	±0.50 (±0.05%)	±0.04 (±40 ppm/°C)
	U	-200 to 600	-200 to -100	±0.70 (±0.09%)	±0.06 (±75 ppm/°C)
			-100 to 0	±0.50 (±0.07%)
			0 to 600	±0.40 (±0.05%)
	N	-200 to 1300	-200 to -150	±1.60 (±0.11%)	±0.11 (±70 ppm/°C)
			-150 to -100	±0.75 (±0.05%)	±0.11 (±70 ppm/°C)
			-100 to 1300	±0.75 (±0.05%)	±0.08 (±50 ppm/°C)
	R	-50 to 1700	-50 to 0	±3.20 (±0.19%)	±0.13 (±77 ppm/°C)
			0 to 100	±2.50 (±0.15%)	±0.11 (±60 ppm/°C)
			100 to 1700	±1.75 (±0.10%)	±0.11 (±60 ppm/°C)
	S	-50 to 1700	-50 to 0	±3.20 (±0.19%)	±0.13 (±77 ppm/°C)
			0 to 100	±2.50 (±0.15%)	±0.11 (±60 ppm/°C)
			100 to 1700	±1.75 (±0.10%)	±0.11 (±60 ppm/°C)
	WRe5-26	0 to 2300	0 to 1500	±1.15 (±0.05%)	±0.13 (±58 ppm/°C)
			1500 to 2200	±1.15 (±0.05%)	±0.21 (±91 ppm/°C)
			2200 to 2300	±1.40 (±0.07%)	±0.21 (±91 ppm/°C)
	PL II	0 to 1300	Same as the left	±0.65 (±0.05%)	±0.07 (±57 ppm/°C)
	Pt100	-200 to 850	-200 to -50	±0.50 (±0.05%)	±0.08 (±78 ppm/°C)
			-50 to 150	±0.21 (±0.02%)	±0.03 (±29 ppm/°C)
			150 to 850	±0.50 (±0.05%)	±0.08 (±78 ppm/°C)
	Pt1000	-200 to 850	Same as the left	±0.50 (±0.05%)	±0.09 (±85 ppm/°C)

Conversion time	Input type		Measured temperature (°C)	Reference accuracy °C (%) *3	Temperature coefficient °C/°C 4 Input (ppm/°C 5)
Conversion time	Input type	Temperature range (°C)	Measured temperature (°C)	Reference accuracy °C (%) *3	Temperature coefficient °C/°C 4 Input (ppm/°C 5)
250 ms	K	-200 to 1300	-200 to -100	±1.5 (±0.1%)	±0.15 (±100 ppm/°C)
			-100 to 400		±0.30 (±200 ppm/°C)
			400 to 1300		±0.38 (±250 ppm/°C)
	J	-200 to 1200	-200 to 400	±1.4 (±0.1%)	±0.14 (±100 ppm/°C)
			400 to 900	±1.2 (±0.09%)	±0.28 (±200 ppm/°C)
			900 to 1200	±1.2 (±0.09%)	±0.35 (±250 ppm/°C)
	T	-200 to 400	-200 to -100	±1.2 (±0.2%)	±0.30 (±500 ppm/°C)
	T	-200 to 400	-100 to 400	±1.2 (±0.2%)	±0.12 (±200 ppm/°C)
	E	-200 to 1000	-200 to 400	±1.2 (±0.1%)	±0.12 (±100 ppm/°C)
			400 to 700	±2.0 (±0.17%)	±0.24 (±200 ppm/°C)
			700 to 1000	±2.0 (±0.17%)	±0.30 (±250 ppm/°C)
	L	-200 to 900	-200 to 300	±1.1 (±0.1%)	±0.11 (±100 ppm/°C)
			300 to 700	±2.2 (±0.2%)	±0.22 (±200 ppm/°C)
			700 to 900	±2.2 (±0.2%)	±0.28 (±250 ppm/°C)
	U	-200 to 600	-200 to 400	±1.2 (±0.15%)	±0.12 (±150 ppm/°C)
	U	-200 to 600	400 to 600	±1.0 (±0.13%)	±0.12 (±150 ppm/°C)
	N	-200 to 1300	-200 to 400	±1.5 (±0.1%)	±0.30 (±200 ppm/°C)
			400 to 1000		±0.30 (±200 ppm/°C)
			1000 to 1300		±0.38 (±250 ppm/°C)
	R	-50 to 1700	-50 to 500	±1.75 (±0.1%)	±0.44 (±250 ppm/°C)
			500 to 1200	±2.5 (±0.15%)
			1200 to 1700	±2.5 (±0.15%)
	S	-50 to 1700	-50 to 600	±1.75 (±0.1%)	±0.44 (±250 ppm/°C)
			600 to 1100	±2.5 (±0.15%)
			1100 to 1700	±2.5 (±0.15%)
	B	0 to 1800	0.0 to 400.0	Reference accuracy does not apply	Reference accuracy does not apply
			400 to 1200	±3.6 (±0.2%)	±0.45 (±250 ppm/°C)
			1200 to 1800	±5.0 (±0.28%)	±0.54 (±300 ppm/°C)
	WRe5-26	0 to 2300	0 to 300	±1.15 (±0.05%)	±0.46 (±200 ppm/°C)
			300 to 800	±2.3 (±0.1%)
			800 to 1500	±3.0 (±0.13%)
			1500 to 2300	±3.0 (±0.13%)	±0.691 (±300 ppm/°C)
	PLII	0 to 1300	0 to 400	±1.3 (±0.1%)	±0.23 (±200 ppm/°C)
			400 to 800	±2.0 (±0.15%)	±0.39 (±300 ppm/°C)
			800 to 1300	±2.0 (±0.15%)	±0.65 (±500 ppm/°C)
	Pt100	-200 to 850	-200 to 300	±1.0 (±0.1%)	±0.1 (±100 ppm/°C)
			300 to 700	±2.0 (±0.2%)	±0.2 (±200 ppm/°C)
			700 to 850	±2.5 (±0.25%)	±0.25 (±250 ppm/°C)
	Pt1000	-200 to 850	-200 to 300	±1.0 (±0.1%)	±0.1 (±100 ppm/°C)
			300 to 700	±2.0 (±0.2%)	±0.2 (±200 ppm/°C)
			700 to 850	±2.5 (±0.25%)	±0.25 (±250 ppm/°C)

*1. To convert the temperature unit from Celsius to Fahrenheit, use the following equation.
Fahrenheit temperature (°F) = Celsius temperature (°C) x 1.8 + 32
*2. If there is more than one input range for the same input type, the one with narrower input range has higher
resolution.
*3. For a thermocouple input type Temperature Input Unit, the overall accuracy is guaranteed for a set consisting of a
cold junction sensor that is mounted on the terminal block and a Temperature Input Unit. Be sure to use the terminal
block and Temperature Input Unit with the same calibration control number together. For the 24 mm wide model,
also be sure the left and right terminal blocks are correctly attached.

*4. An error for a measured value when the ambient temperature changes by 1°C.
The following formula is used to calculate the error of the measured value.
Overall accuracy = Reference accuracy + Temperature characteristic x Change in the ambient temperature + Cold
junction compensation error (Calculation example)
Conditions

Item	Description
Ambient temperature	30°C
Measured value	100°C
NX Unit	NX-TS2101
Thermocouple	K thermocouple

The characteristic values are formulated from the data sheet or reference accuracy and temperature coefficient table under the above conditions

Item	Description
Reference accuracy	-100 to 400°C: ±1.5°C
Temperature coefficient	-100 to 400°C: ±0.30°C/°C
Change in the ambient temperature	25°C -> 30°C 5 deg
Cold junction compensation error	±1.2°C

Therefore,
Overall accuracy = Reference accuracy + Temperature characteristic x Change in the ambient temperature + Cold junction compensation error
= ±1.5°C + (±0.30°C/°C) x 5 deg + ±1.2°C
= ±4.2°C

*5. The ppm value is for the full scale of temperature range.

The cold junction compensation error for Units that take a thermocouple input type is restricted as follows according to the installation orientation and the power consumption of adjacent Units *.

(a) For upright installation, when the power consumption is 1.5 W or less for both the left and right adjacent Units
The cold junction compensation error is ±1.2°C.
However, there are exceptions depending on the input type and temperature. Those conditions and the cold junction
compensation error are as in the table below.

Input type and temperature range	Cold junction compensation error
T below -90°C	±3.0°C
J, E, K and N below -100°C
U, L and PLII
R and S below 200°C
B below 400°C	Not guaranteed
W	±3.0°C

(b) When the power consumption of either the left or the right adjacent Unit is more than 1.5 W but less than 3.9 W. Or
for any installation other than upright, when the power consumption of both the left and right adjacent Units is less
than 3.9 W
The cold junction compensation error is ±4.0°C.
However, there are exceptions depending on the input type and temperature. Those conditions and the cold junction
compensation error are as in the table below.

Input type and temperature range	Cold junction compensation error
T below -90°C	±7.0°C
J, E, K and N below -100°C
U, L and PLII
R and S below 200°C
B below 400°C	Not guaranteed
W	±9.0°C

(c) When the power consumption exceeds 3.9 W for either the left or right adjacent Unit
Do not use the above condition (c) because the cold junction compensation error is not guaranteed in this condition.

* The power consumption of adjacent Units is the total of the following values.
The power consumption of the NX Unit power supply and I/O power supply for the NX Units adjacent to the
Temperature Input Unit. If the adjacent Unit is an Input Unit, it is the total power consumption according to the input
current.

Refer to the user's manual for the CPU Unit for details on the CPU Units to which NX Units can be connected.

NX Unit		Corresponding unit versions/versions
Model	Unit version	CPU Unit	Sysmac Studio
NX-TS2101	Ver.1.0	Ver.1.13	Ver.1.17
NX-TS2101	Ver.1.1
NX-TS2102	Ver.1.1
NX-TS2104	Ver.1.1
NX-TS2201	Ver.1.0
NX-TS2201	Ver.1.1
NX-TS2202	Ver.1.1
NX-TS2204	Ver.1.1
NX-TS3101	Ver.1.0
NX-TS3101	Ver.1.1
NX-TS3102	Ver.1.1
NX-TS3104	Ver.1.1
NX-TS3201	Ver.1.0
NX-TS3201	Ver.1.1
NX-TS3202	Ver.1.1
NX-TS3204	Ver.1.1

Note: Some Units do not have all of the versions given in the above table. If a Unit does not have the specified version, support is provided by the oldest available version after the specified version. Refer to the user's manuals for the specific Units for the relation between models and versions.

NX Unit		Corresponding unit versions/versions
Model	Unit Version	EtherCAT Coupler Unit	CPU Unit or Industrial PC	Sysmac Studio
NX-TS2101	Ver.1.0	Ver.1.0	Ver.1.05	Ver.1.06
NX-TS2101	Ver.1.1			Ver.1.08
NX-TS2102	Ver.1.1
NX-TS2104	Ver.1.1
NX-TS2201	Ver.1.0			Ver.1.06
NX-TS2201	Ver.1.1			Ver.1.08
NX-TS2202	Ver.1.1
NX-TS2204	Ver.1.1
NX-TS3101	Ver.1.0			Ver.1.06
NX-TS3101	Ver.1.1			Ver.1.08
NX-TS3102	Ver.1.1
NX-TS3104	Ver.1.1
NX-TS3201	Ver.1.0			Ver.1.06
NX-TS3201	Ver.1.1			Ver.1.08
NX-TS3202	Ver.1.1
NX-TS3204	Ver.1.1

Note: Some Units do not have all of the versions given in the above table. If a Unit does not have the specified version, support is provided by the oldest available version after the specified version. Refer to the user’s manuals for the specific Units for the relation between models and versions.

NX Unit		Corresponding unit versions/versions
Model	Unit Version	Application with an NJ/NX/NY-series Controller *1			Application with a CS/CJ/CP-series PLC *2
Model	Unit Version	EtherNet/IP Coupler Unit	CPU Unit or Industrial PC	Sysmac Studio	EtherNet/IP Coupler Unit	Sysmac Studio	NX-IO Configurator *3
NX-TS2101	Ver.1.0	Ver.1.2	Ver.1.14	Ver.1.19	Ver.1.0	Ver.1.10	Ver.1.00
NX-TS2101	Ver.1.1
NX-TS2102	Ver.1.1
NX-TS2104	Ver.1.1
NX-TS2201	Ver.1.0
NX-TS2201	Ver.1.1
NX-TS2202	Ver.1.1
NX-TS2204	Ver.1.1
NX-TS3101	Ver.1.0
NX-TS3101	Ver.1.1
NX-TS3102	Ver.1.1
NX-TS3104	Ver.1.1
NX-TS3201	Ver.1.0
NX-TS3201	Ver.1.1
NX-TS3202	Ver.1.1
NX-TS3204	Ver.1.1

Note: Some Units do not have all of the versions given in the above table. If a Unit does not have the specified version, support is provided by the oldest available version after the specified version. Refer to the user’s manuals for the specific Units for the relation between models and versions.
*1. Refer to the user's manual of the EtherNet/IP Coupler Unit for the unit versions of EtherNet/IP Units corresponding to EtherNet/IP Coupler Units.
*2. Refer to the user's manual of the EtherNet/IP Coupler Unit for the unit versions of CPU Units and EtherNet/IP Units corresponding to EtherNet/IP Coupler Units.
*3. For connection to an EtherNet/IP Coupler Unit with unit version 1.0, connection is supported only for a connection to the peripheral USB port on the EtherNet/IP Coupler Unit. You cannot connect by any other path. If you need to connect by another path, use an EtherNet/IP Coupler Unit with unit version 1.2 or later.

NX Unit		Corresponding unit versions/versions
Model	Unit version	Communication Control Unit	Sysmac Studio
NX-TS2101	Ver.1.0	Ver.1.00	Ver.1.24
NX-TS2101	Ver.1.1
NX-TS2102	Ver.1.1
NX-TS2104	Ver.1.1
NX-TS2201	Ver.1.0
NX-TS2201	Ver.1.1
NX-TS2202	Ver.1.1
NX-TS2204	Ver.1.1
NX-TS3101	Ver.1.0	Ver.1.00	Ver.1.24
NX-TS3101	Ver.1.1
NX-TS3102	Ver.1.1
NX-TS3104	Ver.1.1
NX-TS3201	Ver.1.0
NX-TS3201	Ver.1.1
NX-TS3202	Ver.1.1
NX-TS3204	Ver.1.1

Note: 1. Some Units do not have all of the versions given in the above table. If a Unit does not have the specified version, support is provided by the oldest available version after the specified version. Refer to the user’s manuals for the specific Units for the relation between models and versions.
Note: 2. You cannot connect the relevant NX Unit to the Communication Control Unit if “---” is shown in the corresponding unit versions/versions column.

NX-TS

Standard and high-speed, high-precision temperature measurement and control

General Specification

Temperature Input Unit Specifications

Temperature Input Unit (Thermocouple Input type) 2 points NX-TS2101

Temperature Input Unit (Thermocouple Input type) 2 points NX-TS2102

Temperature Input Unit (Thermocouple Input type) 2 points NX-TS2104

Temperature Input Unit (Resistance Thermometer Input type) 2 points NX-TS2201

Temperature Input Unit (Resistance Thermometer Input type) 2 points NX-TS2202

Temperature Input Unit (Resistance Thermometer Input type) 2 points NX-TS2204

Temperature Input Unit (Thermocouple Input type) 2 points NX-TS3101

Temperature Input Unit (Thermocouple Input type) 4 points NX-TS3102

Temperature Input Unit (Thermocouple Input type) 4 points NX-TS3104

Temperature Input Unit (Resistance Thermometer Input type) 4 points NX-TS3201

Temperature Input Unit (Resistance Thermometer Input type) 4 points NX-TS3202

Temperature Input Unit (Resistance Thermometer Input type) 4 points NX-TS3204

Reference accuracy and temperature coefficient according to the input type and measurement temperature *1

For NX-TS[][]02/TS[][]04

For NX-TS[][]01

Cold Junction Compensation Error Specifications for Units That Take a Thermocouple Input Type

Version Information

Connected to a CPU Unit

Temperature Input Units

Connected to an EtherCAT Coupler Unit

Temperature Input Units

Connected to an EtherNet/IP Coupler Unit

Temperature Input Units

Connected to an Communication Control Unit

Temperature Input Units

Product Category