Dwyer | Series WHT | Instruction manual | Dwyer Series WHT Instruction Manual

Dwyer Series WHT Instruction Manual
Bulletin H-WHT
Series WHT Weather-Proof Humidity/Temperature Transmitter
®
Specifications - Installation and Operating Instructions
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The Compact Series WHT Weather-Proof Humidity/Temperature Transmitter is
designed to withstand the elements. A removable sintered filter protects the polymer
capacitance sensor from solid objects that may come in contact with the transmitter.
The transmitter is available with 4 to 20 mA, or 0 to 10 VDC or 0 to 5 V output signals
for both temperature and humidity or a passive thermistor for temperature. This
transmitter is ideal for measuring outside air temperature and humidity levels for air
handling economizer applications.
INSTALLATION
Warning: Disconnect power supply before installation to prevent electrical shock and
equipment damage.
Make sure all connections are in accordance with the job wiring diagram and in
accordance with national and local electrical codes. Use copper conductors only.
Caution: Use electrostatic discharge precautions (e.g., use of wrist straps) during
installation and wiring to prevent equipment damage.
Avoid locations where severe shock or vibration, excessive moisture or corrosive
fumes are present. NEMA Type 3S (IP54) housings are intended for outdoor use
primarily to provide a degree of protection against wind-blown dust, and rain.
Do not exceed ratings of this device, permanent damage not covered by warranty may
result. The 4 to 20 mA models are not designed for AC voltage operation.­
DWYER INSTRUMENTS, INC.
P.O. BOX 373 • MICHIGAN CITY, INDIANA 46360, U.S.A.
SPECIFICATIONS
Relative Humidity Range: 0 to 100% RH.
Temperature Range: -40 to 140°F (-40 to 60°C).
Accuracy, RH: ±3% 20-80% RH, ±4% @ 10-20%, 80-90%.
Accuracy, Temp, Models with 4-20mA Temp. Output: ±0.9°F@ 72°F (±0.3°C @
25°C).
Accuracy, Models with Passive Thermistor Temp Sensor: ±0.4°F @ 77°F
(±0.22°C @ 25°C ).
Hysteresis, RH: ±1%.
Repeatability, RH: ±0.1% typical.
Temperature Limits: -40 to 140°F (-40 to 60°C).
Storage Temperature: -40 to 176°F (-40 to 80°C).
Compensated Temperature Range, RH: -4 to 140°F (-20 to 60°C). 4 to 20 mA
Loop Powered models: Power requirements: 10 to 35 VDC. Output signal: 4 to 20
mA. 0 to 10 V Output models: Power requirements: 15 to 35 VDC or 15 to 29 VAC.
Output signal: 0 to 10 V @ 5 mA max. 0 to 5 V Output models: Power requirements:
10 to 35 VDC or 10 to 29 VAC. Output Signal: 0 to 5V @ 5 mA max.
Response Time: 15 seconds.
Electrical Connections: Removable screw terminal block.
Drift: <1% RH/year.
RH Sensor: Capacitance polymer.
Temperature Sensor: 4 to 20 mA output, solid state band gap. Passive output: 10K
@ 25°C thermistor (Dwyer curve A).
Housing Material: ABS.
Enclosure Rating: Designed to meet NEMA 3S (IP54).
Weight: 0.3oz (8.5g).
Agency Approvals: CE.
Phone: 219/879-8000
www.dwyer-inst.com
Fax: 219/872-9057
e-mail: info@dwyermail.com
Models with 0 to 5 V or 0 to 10 V RH Output, with or without 0 to 5 V or 0 to 10 V
Temperature Output
The 0 to 10 V output models may be powered with 15 to 35 VDC or 15 to 29 VAC. The
0 to 5 V models may be powered with 10 to 35 VDC or 10 to 29 VAC. Note the polarity
when using DC power. The channels are common on the negative side. For RH and
Temperature outputs, either or both may be used. The maximum load is 5mA (1K for 0
to 5 V, 2K for 0 to 10 V). Wire as shown in Figure 5.
1 2 3 4 5
­ OUNTING
M
The transmitter should be mounted with the sensor pointing downward to prevent
water collection in the housing. The integral mounting tab has two sets of mounting
holes. The larger holes are for the suspension mounting and the smaller holes are
for surface mounting the transmitter to a wall. Please see Figure 1 and 2 for more
information on both mounting methods.­
WIRING
TEMP. RECEIVER
+
–
+
–
RH RECEIVER
+ POWER
– SUPPLY
Figure 5
1 2 3 4 5
Models with 0 to 5 or 0 to 10V RH Output and a Passive Thermistor Temperature
Sensor
The 0 to 5 V or 0 to 10 V RH output is identical to the above model with a 0 to 5 V or
0 to 10 V temperature output. The required power supply and wiring of the RH output
is the same. The passive thermistor temperature sensor wires to terminals 4 and 5.
Wire as shown in Figure 6.
Figure 1 Suspension Mounting
Figure 2 Surface Mounting
WIRING
Use maximum 18 AWG wire for wiring terminal. Refer to Figures 3-6 for wiring
information.
1 2 3 4
Models with 4 to 20 mA RH Output, with or without 4 to 20 mA Temperature
Output
4 to 20 mA output units may be powered with a 10 to 35 VDC supply. The following
describes the proper wiring of these transmitters with mA output.
Models with 4 to 20 mA RH and 4 to 20 mA Temperature outputs are designed as a
4 to 20 mA device with two channels. The channels are common on the positive side
of the current loop.
Sensor excitation is derived from the relative humidity channel, so power must always
be applied to that channel. If the temperature channel is not equipped or used, it can
be left disconnected. Wire as shown in Figure 3.
TEMP. RECEIVER
+
–
+
–
RH RECEIVER
TEMP. SENSOR
+
–
RH RECEIVER
+ POWER
– SUPPLY
Figure 6
Checkout
4 to 20 mA Models:
Verify appropriate supply voltage. The transmitter requires a minimum of 10 and a
maximum of 35 VDC at its connection for proper operation. Choose a power supply
with a voltage and current rating which meets this requirement under all operating
conditions. If the power supply is unregulated, make sure voltage remains within these
limits under all power line conditions. Ripple on the supply should not exceed 100 mV.
Loop Resistance – The maximum allowable loop resistance depends on the power
supply voltage. Maximum loop voltage drop must not reduce the transmitter voltage
below the 10 VDC minimum. Maximum loop resistance can be calculated with the
following equation. Vps is the power supply voltage.
Vps-10.0
20 mA
Rmax =
Some receivers, particularly loop powered indicators, may maintain a fixed loop
voltage to power the device. This voltage drop must also be subtracted from the power
supply voltage when calculating the voltage margin for the transmitter. The following
equation takes this into account. Vrec is the receiver fixed voltage.
+ POWER
– SUPPLY
Rmax =
Figure 3
Vps-10.0-Vrec
20 mA
0 to 5, 0 to 10 V Output Models:
Verify appropriate supply voltage. The 0 to 10 V output models require a DC supply of
15 to 35 V or an AC supply of 15 to 29 V for proper operation maximum. The 0 to 5 V
output models require a DC supply of 10 to 35 V or an AC supply of 10 to 29 VAC. Both
outputs may be loaded simultaneously with 5 mA.
TEMP. SENSOR
MAINTENANCE
Upon final installation of the Series WHT Temperature/Humidity Transmitter and
the companion receiver, no routine maintenance is required. A periodic check of the
system calibration is recommended. The Series WHT is not field serviceable and
should be returned if repair is needed (field repair should not be attempted and may
void warranty). Be sure to include a brief description of the problem plus any relevant
application notes. Contact customer service to receive a return goods authorization
number before shipping.
1 2 3 4
Models with 4 to 20mA RH Output and a Passive Thermistor Temperature Sensor
The 4 to 20 mA RH output is identical to the above model with a 4 to 20 mA temperature
output. The required power supply and wiring of the RH output is the same. The
passive thermistor temperature sensor wires to terminals 3 and 4. Wire as shown in
Figure 4.
+
–
RH RECEIVER
+ POWER
– SUPPLY
Figure 4
This symbol indicates waste electrical products should not be disposed
of with household waste. Please recycle where facilities exist. Check with
your Local Authority or retailer for recycling advice.
©Copyright 2019 Dwyer Instruments, Inc.
DWYER INSTRUMENTS, INC.
P.O. BOX 373 • MICHIGAN CITY, INDIANA 46360, U.S.A.
Printed in U.S.A. 2/19
FR# 443597-00 Rev. 1
Phone: 219/879-8000
www.dwyer-inst.com
Fax: 219/872-9057
e-mail: info@dwyermail.com
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