Installation Instructions
Eaton’s Cooper Controls Business
203 Cooper Circle
Peachtree City, Georgia 30269
www.coopercontrol.com
Model # ONW-D-1001-347-W
Model # ONW-D-1001-347-V
Model # ONW-D-1001-347-LA
Model # ONW-D-1001-347-G
Model # ONW-D-1001-347-B
NeoSwitch Dual Technology Single Relay
Occupancy Sensing Wall Switch
(Ground Required)
• Read all instructions on both sides of this
sheet first
• Install in accordance with ALL local codes
• For indoor use only
General Information
Technology:
Passive Infrared (PIR) and Ultrasonic (US)
Electrical Ratings:
347 VAC:
• Incandescent/Tungsten –
Max. load: 4.3 amps, 1500W, 50/60 Hz
• Fluorescent/Ballast –
Max. load: 4.3 amps, 1500W, 50/60 Hz
Ballast Compatibility:
Compatible with magnetic and
electronic ballasts
No Minimum Load Requirement
Time Delays:
Self-Adjusting, 15 seconds/test (10 min
Auto), Selectable 5, 15, 30 minutes
Coverage:
Major motion – 1000 sq. ft.
Minor motion – 300 sq. ft.
Light Level Sensing:
0 to 200 foot-candles
Operating Environment:
• Temperature: 32° F – 104° F (0° C – 40° C)
• Relative Humidity: 20% to 90% non-condensing
Housing:
Durable, injection molded housing.
Polycarbonate resin complies with UL 94VO.
Size:
• Mounting Plate/Strap Dimensions:
4.35" H x 1.732" W (110.49 mm x 44 mm)
• Product Housing Dimensions: 2.618" H x 1.752"
W x 1.9" D (66.5 mm x 44.5 mm x 48.26 mm)
LED Indicators:
Red LED indicates PIR detection;
Green LED indicates Ultrasonic detection.
Specifications
Description
Coverage
The ONW-D-1001-347 Occupancy Sensing Wall Switch is a Passive Infrared (PIR) and Ultrasonic (US) motion
sensing lighting control and conventional wall switch all-in-one, used for energy savings and convenience.
The sensor combines PIR and US technologies to monitor a room for occupancy.
PIR Technology
The sensor’s segmented lens divides the field-of-view into sensor zones, and detects the changes in temperature
that are created when a person, or part of a person as small as a hand, passes into or out of a sensor zone.
US Technology
The sensor produces a low intensity, inaudible sound. It detects occupancy from changes in the acoustic waves
caused by motion, such as reaching for a telephone, turning a page in a book, walking into a room, turning in a
swivel chair, etc. The sensor does not respond to audible sound.
Dual Technology sensors ensure the greatest sensitivity and coverage for tough applications thus saving additional
energy. PIR is used to turn the lights ON and then either or both technologies are used to keep the lights ON.
The ONW-D-1001-347 allows the control of one load with one occupancy sensor switch.
The sensor can be configured to enhance energy savings by setting the unit for Manual ON operation.
In Automatic ON Mode, the lights turn ON automatically when a person enters the room. In Manual ON Mode, the
lights are turned ON by pressing the universally recognized light icon pushbutton. In either mode, the lights stay ON
as long as the sensor detects motion in the room. When the room is vacated, the lights turn OFF automatically after a
preset time delay interval.
The sensor includes self-adaptive technology that continually adjusts to conditions by adjusting sensitivity and time
delay in real-time. By adjusting sensitivity and time delay automatically, the sensor is maximizing the potential energy
savings that are available in the particular application.
The Daylighting feature prevents lights from turning ON, when the room is adequately illuminated by natural light.
The Walk-Through feature maximizes energy savings by not leaving the lights ON after a momentary occupancy.
The sensor will switch the lights ON when it detects a person entering the area. If the sensor does not continue to
detect motion 20 seconds following the initial activation, it will automatically go to a shorter 2 minute time delay.
The ON/OFF Button Disable Option – When selected this option disables the ON/OFF button(s) and sensor
becomes automatic only control.
The ONW-D-1001-347 is designed for offices up to 300 square feet.
Location
When installing the ONW-D-1001-347 in a new junction box, choose the switch location carefully to provide optimum
coverage of the occupied area. When replacing an existing wall switch, bear in mind that there must be a clear
line-of-sight between the sensor and the area to be covered. Avoid pointing the ONW-D-1001-347 directly into the
hallway where it may detect passers-by.
Installation
The ONW-D-1001-347 can be installed in any standard single gang box. It may
be installed in the same manner as an ordinary wall switch.
• Wire the ONW-D-1001-347 as described in the wiring section
• Mount the ONW-D-1001-347 in the junction box
Wiring
CAUTION: Before installing or performing any service on a Greengate system, the power MUST be turned
OFF at the branch circuit breaker. According to NEC 240-83(d), if the branch circuit breaker is used
as the main switch for a fluorescent lighting circuit, the circuit breaker should be marked “SWD.” All
installations should be in compliance with the National Electric Code and all state and local codes.
NOTE REGARDING COMPACT FLUORESCENT LAMPS: The life of some compact fluorescent lamps (CFLs) is
shortened by frequent automatic or manual switching. Check with CFL and ballast manufacturer to determine the
effects of cycling.
1. Make sure power is turned OFF at the branch circuit breaker.
2. Wire units as shown in wiring diagrams per applicable voltage requirements.
3. Mount unit to wall box.
4. Turn power back ON at the branch circuit breaker and wait 2 minutes for the unit to stabilize.
5. Make necessary adjustments. (See Checkout and Adjustments section)
6. Install wall switch plate.
LOAD
347 VAC
BLACK
BLUE
NEUTRAL
GROUND
GREEN
Wiring Diagram 1:
347 VAC single level
single circuit wiring diagram
LOAD 1
347 VAC
BLACK
BLUE
NEUTRAL
GROUND
GREEN
LOAD 2
A/B SWITCHING USING TOGGLE
SWITCH TO TURN OFF SECOND LOAD
Wiring Diagram 2:
347 VAC single level switch
dual level wiring using a toggle
switch wiring diagram
,
36
8
,
Minor Motion, IR
Major Motion, IR
20
,
Maximum coverage area may
vary somewhat according to room
shape and the presence of obstacles.
The NEMA WD 7 Guide and robotic
method were utilized to verify
coverage patterns.
Minor Motion, Ultrasonic
Major Motion, Ultrasonic
,
10
8
,
,
15
20
,
P/N 9850-000314-01
