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WIRING

• 

Use 18-24 AWG shielded wiring for all connections. Do not locate the device wires in the same conduit with wiring used to supply inductive 
loads such as motors. Make all connections in accordance with national and local codes.

• 

Pull at least six inches of wire into the enclosure, then complete the wiring connection according to the wiring diagrams below. 

• 

Thermistors are a 2 wire hook up and are not polarity sensitive. See Figure 7.

• 

RTD’s that are 3 wire hook up, see Figure 8.

SPECIFICATIONS

Sensor Type:

 ..........................................

Various thermistors or RTD

Sensor Accuracy: .................................

RTD Class A:

 ±0.15°C (±0.27°F) @ 0°C (32°F)

 

RTD 1/3 DIN:

 ±0.1°C (±0.18°F) @ 0°C (32°F)

 

RTD 1/10 DIN:

 ±0.03°C (±0.054°F) @ 0°C (32°F)

 

NTC Thermistor Type 39:

 ±0.05°C (±0.09°F), 0 to 70°C (32 to 158°F)

 

NTC Thermistor Type 55:

 ±0.03°C (±0.054°F), 0 to 70°C (32 to 158°F)

 

NTC Thermistor Type 40/46:

 ±0.1°C (±0.18°F), 0 to 70°C (32 to 158°F)

Probe Sensing Range:  ......................

RTD:

 -20 to 100°C (-4 to 212°F)

 

Thermistors:

 -40 to 100°C (-40 to 212°F)

Ambient Operating Range: ............-40 to 50°C (-40 to 122°F), 5 to 95 %RH non-condensing

Wire Material: ........................................

RTD:

 FT-4, 22 AWG, 3 Wire

 

Thermistor:

 PVC insulated, parallel bonded, 22 AWG, 2 Wire

Probe Material: .....................................304 Series stainless steel

Probe Diameter:...................................6 mm (0.236")

Standard lengths: ................................50, 100, 150, 200, 300, and 450 mm (2", 4", 6", 8", 12", and 18")

Enclosure: ................................................

A:

 ABS, UL94-V0, IP65 (NEMA 4X)

 

C:

 Same as A, with terminal block

 

E: 

Same as C, with thread adapter (1/2" NPT to M16),

 

cable gland fitting, and terminal block

Termination: ..........................................

A:

 pigtail, 2 or 3 wire

 

C & E:

 Terminal block, 2 or 3 wire

Country of Origin: ...............................Canada

 

PRINTED IN C

ANAD

A       

TYPICAL WIRE RESISTANCE VALUES 

When using low resistance sensors, long wire runs can add 

significant error to the readings.  Use the following chart to 

determine errors due to wire resistance or consider using a 

1000 ohm sensor or a transmitter for better accuracy. Locate 

the type of wire being used. Multiply the total length of the 

wire (distance from the controller to the sensor and back) 

by the number found in the chart below for total resistance. 

Figure 7                                                          2 Wire Termination for Thermistor

Figure 8                                                          3 Wire Termination for RTD

To Controller 

Analog Input (AI) 

(No Polarity)

To Controller 

Analog Input (AI) 

(No Polarity)

To Controller 

Analog Input (AI) or

Customer supplied 

transmitter 

To Controller 

Analog Input (AI) or

Customer supplied 

transmitter 

Green

Black

Red

EMT Connector

EMT Connector

Wiring for Enclosures C & E

GAUGE WIRE TYPE                       18 AWG       22 AWG       24 AWG 
STRANDED (OHMS/FOOT)        5.85 mΩ    14.75 mΩ    23.29 mΩ 
SOLID (OHMS/FOOT)                    6.4 mΩ    15.85 mΩ    25.72 mΩ

To Controller 

Analog Input (AI) 

(No Polarity)

To Controller 

Analog Input (AI) 

(No Polarity)

To Controller 

Analog Input (AI) or

Customer supplied 

transmitter 

To Controller 

Analog Input (AI) or

Customer supplied 

transmitter 

Green

Red

Black

DIMENSIONS

EMT Connector

EMT Connector

82.5 mm

3.25"

69.8 mm

2.75"

Various Probe Lengths

See Specifications

6 mm

0.236"

76.2 mm

3.00"

0.5" NPT

Foam Gasket

304 Series S/S Probe

*For illustrative purposes only, terminal block mounted on inside of cover

*

*

52 mm

2.05"

NOTE: 

The sensor accuracies listed in the specifications section apply to the 

sensing element only prior to product assembly and may not be reflected in 

the complete assembly.

Due to the measurement uncertainty, it is possible, that the true resistance 

value of the single delivered sensor at 0°C can be out of the defined 

tolerance class. Profiling each assembly to take into consideration lead wire 

and the attachment method should be completed.

IN-GE-HATSAPXXX-02

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