Page 1
AD592/592-10K Non-Room Units with a Junction Box,
10KΩ uncertainty Table
Tolerance
Temperature uncertainty
0.1%
±8.64°F
1%
±13.47°F
5%
±34.93°F
Table 2: 592 2-Wire Sensors
Table 3: 592 3-Wire Sensors
1. Install a 10KΩ 0.1% resistor from the controller's
analog input to the controller's ground or common.
1. All BAPI BA/592-10K, 3-wire, sensors have a built
in 10KΩ 0.1% resistor.
2. If you are using a separate DC power supply,
connect the power supply's negative terminal to the
controller's ground or common..
2. If you are using a separate DC power supply,
connect the power supply's negative terminal to the
controller's ground or common..
3. Connect the 592 sensor's black wire to the
controller's analog input.
3. Connect the 592 sensor's black wire to the
controller's ground or common.
4. Connect the 592 sensor's red wire to 5 to 30
VDC.
4. Connect the 592 sensor's white wire to the
controller's analog input.
5. Connect the 592 sensor's red wire to 5 to 30
VDC.
Weatherproof (WP) or Weather Tight (EU) Enclosure
Instructions & Operation
9550_ins_592_Non_Room
592 Theory of Operation
The 592 sensor is a two terminal integrated-circuit temperature sensor. The 592 provides an output current directly proportional to absolute temperature. When the temperature of the 592 sensor changes one-Kelvin (one-degree Celsius),
then the current through the 592 changes by 1uAmp. 77° Fahrenheit (25° Celsius) is 298.2 Kelvins and the output current
from the 592 sensor is 298.2uAmp. Initial accuracy of the 592 temperature sensor is ± 8.1° Fahrenheit (± 4.5° Celsius) at
77° Fahrenheit (25° Celsius).
Since most meters that eld technicians use cannot accurately measure currents this low, BAPI recommends that a 10KΩ
0.1% resistor be placed between the sensor output and ground. The 10KΩ resistor changes the current into a voltage
that varies 0.01 volts per one degree Celsius temperature change; the
voltage at 77°F is 2.982 VDC. Resistors with other tolerances can be
used, but you will have greater temperature uncertainty, see the 10KΩ
uncertainty table;
BAPI provides two styles of humidity probe with a 592 sensor, one with
and one without the 10,000 ohm 0.1% resistor. The one with the resistor has three wires - red, black and white. The one without the resistor
has two wires - red and black.
rev. 10/12/15
Termination
Fig. 1:
592 2-wire
Fig. 2:
592 with 10K
resistor
Specications subject to change without notice.
1
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AD592/592-10K Non-Room Units with a Junction Box,
Weatherproof (WP) or Weather Tight (EU) Enclosure
9550_ins_592_Non_Room
Temperature Measurement Offsetting
All BA/592 sensors will have the following information provided on a label:
Instructions & Operation
rev. 10/12/15
Therm Reading_______
The actual temperature reading according to
a thermometer that is certied traceable to
recognized standards by the National Institute of Standards and Technology (NIST).
To correct the Sensor Reading, simply add the offset value to the sensor reading so that it equals the thermometer reading.
e.g. Therm Reading = 74.6, Sensor Reading = 73.0, Offset = +1.6
Correction: Add (+1.6) °F to the sensor for an accurate reading: 73 + 1.6 = 74.6°F
e.g. Therm Reading = 75.4, Sensor Reading = 77.2, Offset = -1.8
Correction: Add (-1.6) °F to the sensor for an accurate reading: 77.2 + (-1.8) = 75.4°F
Sensor Reading ______
The temperature reading according to
the AD592 sensor. The output is dropped
across a 10KΩ 0.1%, read in mV and
converted to a Fahrenheit temperature.
Offset_______
The difference between the
Thermometer Reading and
the Sensor Reading
Mounting for 592 Temperature Sensor Products
The BAPI 592 temperature sensor becomes the basis for many products. Here are some examples with mounting instructions.
Junction Box or No Box Units Indoors
The junction box mount is intended for indoor
mounting in equipment rooms, plenums or
occupied spaces. The gures below show a
typical junction box mounting in an air duct.
BAPI recommends using #8 sheet metal screws
that need 1/8-inch pilot holes to attach the
sensor to the duct. After placing the sensing
element in the duct, secure the mounting ange
to the duct; center the blue plastic tting holding
the probe in the mounting hole. Make sure that
the foam seals the hole; do not over tighten the
screws. No box units use the same mounting
holes as Junction Box units.
Fig. 3
Junction Box (JB)
duct installation
Fig. 4
Junction Box (JB) or No Box
(NB) mounting holes
Weatherproof Box Units Indoors
The weatherproof box is intended for outdoors or equipment rooms. Use the provided mounting tabs provided to mount
the box as shown in the gure below. DO NOT drill screw holes through the back wall of the box, this destroys the integrity of the box and may void the warranty. The gures below show a typical weatherproof box mounting in an air duct.
BAPI recommends using #8 sheet metal screws that need 1/8-inch pilot holes to attach the sensor to the duct. After plac-
ing the sensing element in the duct, secure the mounting tabs to the duct; center the blue plastic tting holding the probe
in the mounting hole. Be sure that the foam seals the hole; do not over tighten the screws. Place the foam gasket be-
tween the cover and the box before securing the cover in place with the screws provided. To keep water out of the box, be
sure to coat the threads of the box plugs or conduit connectors with caulk before screwing them into the waterproof box.
Fig. 5
Weatherproof
(WP) mounting
tabs
Fig. 6
Weatherproof
(WP) mounting
holes
Specications subject to change without notice.
Fig. 7
Weatherproof (WP)
duct installation
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AD592/592-10K Non-Room Units with a Junction Box,
Weatherproof (WP) or Weather Tight (EU) Enclosure
Instructions & Operation
9550_ins_592_Non_Room
Mounting for 592 Temperature Sensor Products continued...
IP66 EU Enclosure Indoors
The Weather Tight (EU) enclosure is made from ABS plastic for indoor applications and a UV light stabilized plastic for
outdoor applications or indoor applications exposed to direct sun light. The gures below show an EU enclosure mounting
in an air duct. BAPI recommends using #8 sheet metal screws that need
1/8-inch pilot holes.
After placing the sensing element in
the duct, secure the mounting feet to
the duct; center the blue plastic tting
holding the probe in the mounting
hole. Do not over tighten the screws
but be sure that the foam insulation
makes an airtight seal. Tighten the
lid to two clicks when you are nished
making terminations.
Fig. 8
Weather Tight (EU)
enclosure duct
installation
Fig. 9
Weather Tight (EU) enclosure
mounting holes
rev. 10/12/15
Weather Tight (EU) and Weatherproof (WP) Enclosures Outdoors
Do not mount in direct sunlight, preferably mount on the north side of the building. Install with
the sensor probe pointed down. For best correlation with the local weather bureau’s temperature, position the end of the probe between four feet and six and one-half feet above the
ground. Drill a hole through your mounting surface as shown in the gures below. Mount
the unit to the surface with a wiring knock out centered over the wiring hole. Pull the wiring
into the unit and terminate using sealant lled connectors. Best practice is to caulk the wiring
hole after the wiring is installed. Be sure that the foam on the back of the unit makes a good
weather tight seal.
Use the mounting tabs provided to mount the weatherproof box as shown in the gure below.
DO NOT drill screw holes through the back wall of the box, this destroys the integrity of the
box and may void the warranty. Note: Air temperature units are shown. Temperature and
humidity units are available in double gang weatherproof boxes only. To keep water out of
the box, be sure to coat the threads of the box plugs or conduit connectors with caulk before
screwing them into the waterproof box.
Fig. 13: Weatherproof (WP)
enclosure mounting tabs
Fig. 10:
Weather Tight (EU)
enclosure installation
Fig. 11
Weather Tight (EU)
enclosure mounting holes
Specications subject to change without notice.
Fig. 12
Outdoor Air Weatherproof
(WP) installation
Fig. 14:
Weatherproof (WP)
enclosure mounting holes
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AD592/592-10K Non-Room Units with a Junction Box,
Weatherproof (WP) or Weather Tight (EU) Enclosure
Instructions & Operation
9550_ins_592_Non_Room
Mounting for 592 Temperature Sensor Products continued...
Immersion Sensor
Place the thermowell into the pipe nipple using Teon tape and/or pipe dope. Tighten securely but do not over torque.
Insert the immersion sensor into the well with the blue plastic tting screwing into the opening on the well. Tighten the
immersion sensor snugly by hand without too much torque. Make sure
that the tip of the immersion sensor is in contact with the bottom of the
well. The unit is designed so that the temperature probe moves slightly
into the junction box as the sensor hits the bottom of the well. The gure shows a junction box, but weatherproof boxes
and IP66 rated enclosures may be used as well.
Fig. 16
Cross section of
immersion unit
Fig. 15
T1K transmitter mounted to a
Weatherproof box cover and Weatherproof
box with an immersion probe
installation
rev. 10/12/15
Spring-Loaded Strap Unit
The spring-loaded strap sensor is used when a large
section of insulation cannot be removed from a pipe.
The spring-loaded strap sensor accommodates insulation of up to two inches thick. Cut a 1-1/4 inch diameter
hole in the insulation and remove the insulation from the
hole down to the bare pipe. Be sure to remove all insulation and debris from the hole. Place the copper pad
on the end of the spring-mounted foam into the hole;
make sure it makes good physical contact with the pipe.
Tighten the
straps until the
strap-mounting
bracket contacts
the insulation.
The springloaded strap
on sensor is
sized for pipe
diameters of 5
to 12.5 inches,
including the
insulation.
Fig. 17
Spring-Loaded Strap installation
Clamp On Strap Unit
Place the clamp-on sensor on bare pipe, or a section
of pipe with the insulation removed. Make sure that the
copper pad on the foam is in good physical contact with
the pipe. Snug the straps so that the assembly does
not rotate around the pipe when moderate pressure is
applied to the junction box. Do not over tighten. You
may place
pipe insulation over the
whole assembly. The
clamp-on
strap sensor
is sized for
bare pipes
of 2 to 4.5
inches in
diameter.
Add another
pipe clamp if
needed.
Clamp-On Strap installation
Fig. 18
Specications subject to change without notice.
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AD592/592-10K Non-Room Units with a Junction Box,
Weatherproof (WP) or Weather Tight (EU) Enclosure
Instructions & Operation
9550_ins_592_Non_Room
Mounting for 592 Temperature Sensor Products continued...
RPFEP and FEP Indoors
Mount the Weatherproof (WP) or the Weather Tight (EU) enclosure as shown in the gures below. Mount with the wire
connector down. Route the temperature probe to the spot where you wish to measure the temperature. Best practice is
to tie down the wire every two feet. Make sure to caulk the upper screw in plug on the WP enclosure. Center mounting
hole shown is only used if you are wiring through the mounting surface.
rev. 10/12/15
Fig. 19
Weatherproof (WP)
mounting tabs
Fig. 22
Weatherproof (WP) mounting
holes
Fig. 20
Weatherproof (WP)
installation
Fig. 21
Weather
Tight (EU)
installation
Fig. 23
Weather Tight (EU) mounting
holes
Specications subject to change without notice.
5
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AD592/592-10K Non-Room Units with a Junction Box,
°F °C
Output
Current uA
Output Voltage
across 10KΩ
50 10 283.2 2.832
60 15.56 288.8 2.888
62 16.67 289.9 2.899
64 17.78 291 2.91
66 18.89 292.1 2.921
68 20 293.2 2.932
70 21.11 294.3 2.943
72 22.22 295.4 2.954
74 23.33 296.5 2.965
76 24.44 297.6 2.976
78 25.56 298.8 2.988
80 26.67 299.9 2.999
82 27.78 301 3.01
84 28.89 302.1 3.021
86 30 303.2 3.032
88 31.11 304.3 3.043
90 32.22 305.4 3.054
100 37.78 311 3.11
Table 4: 592 Output
Temperature
592 Semiconductor
Weatherproof (WP) or Weather Tight (EU) Enclosure
Instructions & Operation
9550_ins_592_Non_Room
Troubleshooting
GENERAL TROUBLESHOOTING AND POSSIBLE SOLUTIONS
- Determine that the input is set up correctly in the controller’s and building automation software.
- Check wiring for proper termination
- Check for corrosion at either the controller or the sensor. Clean off the corrosion, re-strip the interconnecting wire and
reapply the connection. In extreme cases, replace the controller, interconnecting wire and/or sensor.
- Label the terminals that the interconnecting wires are connected to at the sensor end and the controller end. Disconnect the interconnecting wires from the controller and the sensor. With the interconnecting wires separated at both ends
measure the resistance from wire-to-wire with a multimeter. The meter should read greater than 10 Meg-ohms, open
or OL depending on the meter you have. Short the interconnecting wires together at one end. Go to the other end and
measure the resistance from wire-to-wire with a multimeter. The meter should read less than 10 ohms (22 gauge or
larger, 250 feet or less). If either test fails, replace the wire.
592 SENSOR TROUBLESHOOTING
Note: The BAPI crimp-on sealant lled connectors have a
convenient hole opposite the wire opening to insert a meter probe
for measurements.
1) Measure the sensible temperature at the sensors location
using an accurate temperature standard.
2) Set your meter to the Volts setting.
3) Measure from the controller ground (black sensor lead) to the
592’s power lead (red sensor lead) for +5 to +30 VDC.
4) Set your meter to the mV setting.
a) For two wire units place a 10KΩ resistor between the
sensors black lead and the return wire to the controller.
Measure and record the voltage across the resistor.
b) For three-wire units measure and record the voltage from
the black lead to the white lead.
5) Using Table 4, if the sensor voltage is greater or less than
0.050VDC from the expected voltage measurement, call BAPI
technical support.
6) If the sensor reads properly, verify that the controller is
operating correctly.
7) If the sensor reads improperly, determine if the sensor is
exposed to an external source different from the measured
environment (conduit draft).
rev. 10/12/15
Specications subject to change without notice.
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