Larson Electronics EPSW-TS-RTD-6P-R1, Instruction Manual

 EPSW-TS-RTD-6P-R1

Larson Electronics, LLC

  Phone: (800) 369-6671 

 Fax: (903) 498-3364 

  www.larsonelectronics.com 

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Temperature Range Selection

The RTD Transmitter has 7 built in temperature ranges and a user settable range that are selectable by setting the 

Dip Switch located inside the housing (Figure C). Switches 2, 3, and 4 are used to set the range. To set the desired 

range, unscrew and remove the cover and set the Dip Switch according to the following table: 

Selectable Ranges 

Dip Switch
2

3

4

40 to 90°F (4.4 to 32.2°C)

-20 to 140°F (-28.9 to 60°C)

0 to 100°F (-17.8 to 37.8°C)

30 to 240°F (-1.1 to 115.6°C)

32 to 212°F (0 to 100°C)

32 to 122°F (0 to 50°C)

-30 to 65°C (-1.1 to 18.3°C)

User ettable

OFF

ON

OFF

ON

OFF

ON

OFF

ON

OFF

OFF

ON

ON

OFF

OFF

ON

ON

OFF

OFF

OFF

OFF

ON

ON

ON

ON

Setting and Calibrating the User Settable Range

By setting SWITCH 2, 3, and 4 on, the RTD Transmitter may be adjusted to a custom user specified range. The range 
may be any values between –30°F and +250°F (-34 to +121°C) with a MINIMUM SPAN of 40°F (22°C). 

Equipment Required

In order to calibrate the unit for a custom range, a precision RTD simulator that can simulate a 1000 OHM DIN type RTD 

or precision decade box is required. The device must be capable of generating the correct RTD resistance to 0.1% or 
better.

Calibration Procedure

1.

Set DIP SWITCHES 2, 3 and 4 ON. 

2.

Remove the RTD sensor leads from terminals 5 and 6 (Figure B). Connect the

 precision RTD simulator or 

decade box to terminals 5 and 6.

3.

Wire instrument as previously discussed. A current meter may be wired in series

with the unit to verify the correct 

current output, but this is not necessary for calibration. Apply power to the unit.

4.

If a precision RTD simulator is used, make sure it is set to simulate a 1000 OHM DIN 0.00385 RTD. Then set it   to the 

desired minimum temperature. If a decade box is used refer to the table in Appendix A (°F) or Appendix B (°C) and set 

it to the resistance that represents the desired minimum temperature.

5.

Press the ZERO button. If the unit has the optional LCD, the display will read ZERO OK momentarily. If a current meter 

is wired, it will read 4.00 mA.

6.

Repeat step 4 using the value for the maximum desired temperature.

7.

Press the SPAN button. If the unit has the optional LCD, the display will read SPAN OK momentarily. If a current meter 

is wired, it will read 20.00 mA.

8.

Turn off power to the unit. Disconnect the RTD simulator or decade box and reconnect the RTD sensor to terminals 5 

and 6. Calibration is complete.

Note:

 The calibration procedure does not effect the calibration of any of the built in ranges. 

°F and °C Selection

If the unit has the optional LCD display, DIP  SWITCH 1 sets the display

to read in °F or °C. SWITCH 1 “OFF” = °F

SWITCH 1 “ON” = °C.

Output Current Display

If the unit has the optional LCD display, the lower display will show the output current if DIP SWITCH 5 is “ON”. Setting 

DIP SWITCH 5 “OFF” causes the lower display to be blank.

Open RTD Protection

Upon detecting an open RTD, the unit may be set to force the output to read 3.5 mA or 21mA based upon the setting of 

DIP SWITCH 6.

SWITCH 6 “OFF”, output forced to 3.5 mA

SWITCH 6 “ON”, output forced to 21 mA