Page 1
SL-31080 Product Specification/Installation Sheet page 1 6/03 (Rev. 0)
TEMPERATURE /HUMIDITY TRANSMITTER - WALL (4-20 MA)
Description
The THW420 combination
temperature/humidity transmitter
is designed to meet applications
that require local indication of both
temperature and humidity in a
single, aesthetically pleasing
enclosure.
This device incorporates a 10K ohm
(Ω) platinum RTD. The transmitter
requires 24 VDC. The sensor provides an
accurate and predictable four-wire, 4-20 mA
output signal for temperature and a second
4-20 mA output signal for humidity.
Dimensions
Specifications
Termination
The THW420 transmitter must be powered from a
24 VDC supply. The combination temperature/
humidity sensor is terminated as follows:
•The humidity transmitter requires a three-wire
termination for the 4-20mA output using 24 VDC.
•The temperature sensor also requires a three-
wire termination. In most cases, it obtains power
from the analog input to which it is connected and
no external power is required.
Though interference from external sources is not a
major problem with current transmitters, Liebert
recommends separating the wiring from line voltage
wiring and from wiring used to supply highly inductive loads such as motors, generators and coils. Liebert also recommends making power connections
with twisted pair wire of at least 22 AWG and crimptype connectors.
Ordering Information
Output 4 to 20 mA
Sensor 10K Ω platinum RTD
Supply Voltage 24 VDC
Tolerance of Resistance
(Accuracy)
±1.5°F (±0.83°C)
±2% RH (from 15 to 95% RH)
Response Time 20 seconds for a 63% step
Environmental Operating
Range (Transmitter)
45°F to 96°F; 0 to 100% RH
(7°C to 35°C); 0 to 100% RH
4.5"
(1143mm)
2.25"
(572mm)
2.75"
(699mm)
0.95"
(241mm)
0.75"
(191mm)
FRONT
VIEW
SIDE
VIEW
TOP VIEW
Wall
!
CAUTION
Liebert recommends wiring the sensor
WITHOUT power applied because
accidental arcing may damage the product
and will void the warranty.
X
U3
Terminations
+24VDC should be
used at all times
SW2 OUTPUT SELECT
ON
0-5V
0-5V
0-5V
CALRUN
RESIST.
4-20ma
4-20ma
SW2
C9
Gnd
V+
Ch1
Ch2
J2
J3
DISPLAY CYCLE
IN SECONDS
10
3
T
POT1
20
H
Ch3
CAL
Te mp
Te mp
R19
T&B
SWITCH
Short
Norm
Open
SW1
RTH1 RTH2
J1
%RH
Ch3
Ch2
Ch1
Building Automation
Products, Inc.
Copyright 2000
REV. 101600
XCOMBO T&B
4-20 mA
Input #1
Ground
4-20 mA
Input #2
+
-
+
-
Controller
To GND (common)
of controller*
From +24VDC
of controller or
power supply
To controller’s
analog input
(humidity signal,
4-20mA)
To controller’s
analog input
(temperature signal,
4-20mA)
* NOTE:
The GND (common)
terminal is common
between the Power
and Sensor
Quantity Part # Description
THW420 Combination Temperature/Humidity Transmitter Wall 4-20 mA @ 45°F to 96°F and 0 to 100% RH
Page 2
SL-31080 Product Specification/Installation Sheet page 2 6/03 (Rev. 0)
Mounting
Enclosure Mounting Instructions
Mounting hardware is provided for both junction box
and drywall installation.
1. Pull the wires through the opening in the base
plate.
2. For junction box installation: Secure the
base to the box using the #6-32 x 1/2" mounting
screws provided.
For drywall installation: Drill two 3/16" holes
3-1/4" apart on center. Insert the drywall
anchors and secure the base using the #6 x 1"
sheet metal screws provided.
3. Terminate the unit according to the guidelines
in Termination on page 1.
4. Attach the cover by latching it to the top of the
base, rotating the cover down and snapping it
into place.
5. Secure the cover by backing out the lock-down
screws using a 1/16" allen wrench until they are
flush with the bottom of the cover.
Troubleshooting Guide
The following table lists common problems and possible solutions. For more information, consult your local
dealer, Liebert representative or the Liebert Worldwide Support Group.
Junction box
2" x 4"
Mounting
screws
Cover
Delta
base
Wall
Locking
screws
NOTE
In a wall-mount application, the wall temperature and the
temperature of the air within the wall cavity can cause
erroneous readings. The mixing of room air and air from
within the wall cavity can lead to condensation and premature
failure of the sensor.
To prevent these conditions, seal the conduit leading to the
junction box and seal the hole in the drywall by using an
adhesive backed, foam insulating pad.
Problems Possible Solutions
Unit will not operate
• Check +24 VDC power supply at controller.
• Disconnect the sensor and check power wires for +24 VDC.
Humidity reading is maximum
20 mA or 100%
• Make sure the sensor is installed properly, and is not shorted.
• Quick Check: Remove the sensor. If the reading does not change, contact technical
support.
Humidity reading is minimum
4 mA or 0%
• Verify that the humidity sensor installed.
• Quick Check: Short the sensor terminal block with a wire. Does the reading change? If so,
the sensor may be faulty; if not, contact technical support.
Humidity reading in software
appears to be off more than
specified accuracy
• Check all software parameters.
• If available, check the sensor against a calibrated control such as a hygrometer.
• Determine if the sensor is exposed to an external source more than room.
Temperature sensor in frontend software is reading high
• Make sure wiring is correct.
• Disconnect wires and measure with a multimeter.
Temperature sensor in frontend software is reading low
• Make sure wiring is correct.
• Disconnect wires and measure with a multimeter.
Page 3
SL-31080 Product Specification/Installation Sheet page 3 6/03 (Rev. 0)
Troubleshooting - Humidity Signal Verification
4 to 20 mA Signal
You will measure the humidity output by placing an ammeter in series with the controller input. The controller input is connected to the terminal marked “Ch1 or Ch2” on the humidity board.
1. Verify the unit is terminated properly using Figure 2 shown below, and set your meter to the “Volts”
setting.
2. Verify you have 24 VDC supplied to the unit by measuring between the “V+” and “GND” terminals at the
sensor, as shown below in Figure 1.
3. Set your meter to “Amps” and measure the output between “Ch1 or Ch2” and the controller input as
shown below in Figure 1.
4. Use the following formula to determine what humidity the sensor is reading:
(mA - 4) / 0.16 = %RH
where mA is the current reading from the ammeter (in mA)
Example:
If the current reading is 16 mA, then:
%RH = (16 - 4) / 0.16
= 12 / 0.16
= 75%
Figure 1 Supply Voltage and 4-20mA Verification Figure 2 4 to 20 mA Output Connection
Analog Input
ROOM SENSOR
CONTROLLER
GND(-)
V+
Ch1 or
Ch2
GND(-)
V+
Analog Input
GND(-)
V+
Ch1 or
Ch2
GND(-)
V+
ROOM SENSOR
CONTROLLER
V
-
A
+
+
-
POWER SUPPLY POWER SUPPLY
Loading...