saves on - steven engineeringto 30,000 hours, it also dramatically increased lamp longevity from 3.9...

2

Saves on energy costs

Lighting energy consumptionhas climbed to over 38% of all

energy used in today’s com-mercial facilities. Add the spi-

raling cost of energy to themounting impact of its pro-

duction on our environmentand one comes to a simple

conclusion: turning lights offin unoccupied spaces is not

only an option but a necessity.And one of the best ways to

ensure that this happens is byinstalling occupancy sensors

An E Source survey, focusing only on the addi-tion of occupancy sensors, highlights the signifi-

cant energy savings their adoption can provide:

According to a Midwest Energy Efficiency Alliance study,their cost-saving potential is considerable:

Saves on material and labor costsA study by the Electrical Power Research Institute found that while the increased

On/Off switching by occupancy sensors reduced fluorescent lamp life from 34,000to 30,000 hours, it also dramatically increased lamp longevity from 3.9 years for

always-on lamps to 6.8 years by not wasting lamp life during unoccupied hours.Despite the fact that the energy savings from occupancy sensors remains their most

compelling feature, the reduced frequency of lamp replacement over time and theassociated decline in maintenance costs can also provide significant savings. And, last

but not least, their ease of installation makes their use a cost effective and viable ener-gy saving alternative in both new construction and retrofit applications.

Typical Savings Thru Occupancy Sensors

Type of Room Energy Savings %

Private Office 13 to 15%

Open-Plan Office 20 to 28%

Classroom 40 to 46%

Conference Room 22 to 65%

Bathrooms 30 to 90%

Corridors 30 to 80%

Storage Area 45 to 80%

Lighting DesignSaves 20%

equal to 8 cents/ ft2

Daylight Harvesting Controls Save 35%


Occupancy Sensors Save 18%


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($/S

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$0.40

$0.30

$0.20

$0.10

$0.00

Scorce:Midwest Energy

Efficiency Alliance

2

Leviton Occupancy Sensors

Saves on energy code compliance costs The need to optimize building energy performance has resulted in a variety of mandatory energy codes. Occupancysensors provide a very cost-effective means of compliance with these codes. They also offer an easy way to achievehigher levels of voluntary certification for implementation of energy saving measures, resulting in income tax cred-its for building owners or tenants who meet these “green” standards.

ASHRAE 90.1-1999 Energy StandardIn 2004, the US Department of Energy mandated that state energy codes must meet or exceed their ASHRAE 90.1-1999 Energy Standard. In addition to other requirements, this standard calls for occupancy sensors that turnlights off within 30 minutes after a space is vacated as one solution for required automatic shut-off of lights incommercial buildings greater than 5000 square feet.

IECC 2003 Lighting Control ProvisionsProvisions of the International Energy Conservation Code (IECC) have been adopted by many levels of gov-ernment around the United States in formulating their requirements for minimum energy efficiency in com-mercial building design. The lighting load reduction controls (Section 805.2.2.1) section of this code allowsoccupancy sensors to be used in open areas as an alternative to a provision requiring manual control thatuniformly reduces lighting by at least 50%. Lighting in private offices is also exempt from this IECC pro-vision because each office contains only one luminaire and is controlled by an occupancy sensor.

California Energy Commission (CEC) Title 24 ProgramThe California Energy Commission (CEC) took the lead in exceeding the ASHRAE 90.1-1999 EnergyStandard with its Title 24 program. It applies to nonresidential and high-rise residential buildings aswell as hotel/motel occupancies. Key provisions now in effect include:

A. Area Controls: An occupancy sensor that turns lights off within 30 minutes after the space is vacated forall areas enclosed by ceiling height partitions.

B. Controls to Reduce Lighting: General lighting for any enclosed space 100 sq. ft. or larger whereconnected lighting load exceeds 0.8 watts per sq. ft. for the space and has more than one light sourceshall be controlled so the load for the lights may be reduced by at least one half. (Occupancy sensorsthat switch alternate rows of lighting fixtures based on occupancy are a possible solution).

C. Shut-off Controls: For every floor, all interior lighting must have a separate automatic control – anoccupancy sensor or some other device – capable of automatically shutting off the lighting.

D. Title 24 will extend to new single and low-rise residential structures in 2005:Bathroom, garage, laundry room, utility room and outdoor lighting in single residences as well aslighting in common areas of low-rise residential buildings with four or more dwelling units mustbe from high-efficacy luminaires. If luminaires are used in these locations that are not high- efficacy, occupancy sensors must control them. Lighting in other areas of residential buildingsthat is not from high-efficacy luminaires is only permitted if controlled by either a dimmerswitch or an occupancy sensor.

LEED Voluntary Certification ProgramA voluntary program developed and administered by the U.S. Green Buildings Council(USGBC), LEED (Leadership in Energy and Environmental Design) is a four-tier rating and certification system designed to encourage sustainable building practices.In addition to their importance for energy code compliance, occupancy sensors canalso help a project qualify for LEED tier certifications. Besides to its focus on day-light harvesting in particular to reduce a building’s operating costs, the LEEDSprogram also encourages the use of occupancy sensors in intermittently occu-pied spaces for better control of lights and HVAC systems to boost overallenergy savings.

3

4

The Right Technology… The Right Solutions

Leviton has combined nearly a century ofexperience in the electrical industry with

the latest available technologies to offer themost comprehensive single source for ener-

gy-saving occupancy sensors. From passiveinfrared (PIR) and ultrasonic to multi-technolo-

gy occupancy sensors that combine the best fea-tures of both, Leviton offers the widest range of

occupancy sensors and expertise available to helptailor an optimal code-compliant, occupancy sen-

sor solution to meet your specific retrofit or newconstruction needs.

We Identify Occupancy Sensor Opportunities For Retrofits

Our Light Logger is a small unit that automaticallymeasures the amount of time lighting is left ON in an

unoccupied space. The device maps your lighting andoccupancy patterns so we can give you an estimate of the

energy savings potential of occupancy sensors in your facil-ity. Then, using our proprietary Dollars & Sensors comput-

er software, you can determine which occupancy sensorsshould go where in your particular facility. It also calculates

your potential energy savings and produces an actual dollarsand cents snapshot of the effect of our suggested changes on

your bottom line.

We Support Your Occupancy Sensor Initiatives for New ConstructionLeviton stands ready with a host of helpful services to assure your project’s success. We start with the

largest sales force in the country, including Regional Lighting Control Specialists who stand ready toaddress your complex occupancy sensor issues. Our team of engineers can also help you plan your occu-

pancy sensor energy solutions program. Just supply us with your facility’s blueprints or CAD drawingsand we will spec in the appropriate energy-saving occupancy sensors right on your layout. We’ll also give

you a bill of materials that you can take to your preferred electrical distributors to select the best compet-itive bid. Last but not least, we back our installations with technical customer service that we consider sec-

ond to none.

Occupancy Sensor Installation Types and Tips Passive Infrared Occupancy (PIR) Sensors

PIR sensors use a semiconductor detector to sense the movement of infrared heat emitted from thehuman body. They require an unobstructed line-of-sight for accurate detection. Any furniture or decora-

tions that block the sensor’s view will prevent an occupant’s movement from being “seen” by the sensor.The sensor will respond when a person moves across the sensing zones monitored by a multi-faceted

Fresnel lens. Generally, PIR sensors respond to larger movements than ultrasonic sensors and work best insmall, enclosed areas where there are high levels of occupant motion. If fine motion detection is required,

consider using an ultrasonic or multi-technology occupancy sensor.

Light Logger

Dollars & Sensors Software

4

5

Placement Tips: Locate PIR sensors with a clear line-of-view of the area to be covered. Place the sensor per-pendicular to likely movement as a person is most easily detected when crossing theboundary between one Fresnel lens element and another.

Ultrasonic Occupancy SensorsUltrasonic occupancy sensors act as transmitter/receivers, continuously sending outultrasonic sound waves and responding whenever they “hear” a change in the transmit-ted wave’s frequency caused by a shift in position of a person relative to thesensor (doppler shift). They do not rely on line-of-sight sensing and are, therefore,more effective in sensing motion around corners and in cubicles. They are also moresensitive to smaller motion than passive infrared sensors and are particularly appro-priate for locations where only small amounts of motion are taking place.

Placement Tips: Since ultrasonic sensors are omni-directional, they are capable of detectingmotion outside of the room they are monitoring if their coverage range extendsbeyond doorways into adjacent rooms or hallways. To avoid this, aim unidirec-tional sensors away from doorways or room openings and avoid placing sen-sors where their signal can extend through these openings into adjacentareas. False-triggering in response to air currents can be avoided by placingultrasonic sensors no closer than 6 feet from HVAC ducts. Coverage rangescan be affected by the nature of a room’s surfaces. Carpeting, partitions andceiling tiles will all absorb ultrasonic waves, reducing coverage range. Hardsurfaces, on the other hand, such as tile or metal partitions will result inincreased sensitivity. Use care when exceeding a mounting height ofmore than 8 feet. Mounting height greater than this may reduce sensi-tivity to movement around desks and work surfaces as increasedheights increase the overall room volume being monitored.

Multi-Technology Occupancy SensorsMulti-technology occupancy sensors combine both passive infraredand ultrasonic technologies to provide the most reliable detectionmeans possible. They are triggered ON by passive infrared sensingand, once triggered, are kept ON by either a passive infrared or anultrasonic detection signal. They combine the best of both tech-nologies with long-range detection from infrared technologyand high sensitivity from ultrasonic technology.

Placement Tips:Because these sensors use PIR technology to initially detectoccupancy and to maintain detection, they must be locatedwith an unobstructed line-of-site view of a room’s entrance.As they also include ultrasonic technology to maintaindetection, they must be located at least 6 feet from air han-dling ducts. Unidirectional units should be placed awayfrom room entrances. Locate the sensors so that theultrasonic minor-motion coverage area reaches all areasof the room where small motion work occurs, such asdesks and workstations.

5

6

Ground clip to ensuresolid connection

Time, range and light adjustments

PIR sensors detect IR signal

Adjustable blinders blockperipheral signals

Fresnel lens for optimal field of view

Push button for manual on/off

LED indicator flashes when sensor detects motion

Photocell detects light to enable energy-saving ambient light override

Occupancy Sensor Product Listings & Technical Information

4.06(103.2)

1.75(44.4)

1.35(34.3)

2.60(66.1)

4.06(103.2)

1.75(44.4)

1.35(34.3)

2.60(66.1)

PR180-1L

ODS15-ID

DECORA WALL-SWITCH INFRARED OCCUPANCY SENSORSConvenient switch and occupancy sensor combo in sleek Decora® style unit. Advanced passiveinfrared technology for highly accurate monitoring in a variety of commercial applications.

SPECIFICATIONS & FEATURES

ODS0D ODS10 ODS15 PR150 PR180

•Ambient light override prevents lights from turning S X S X Xon when there is ample natural light (S = self adjusting)

•Manual override turns lights on at any X X X X Xtime regardless of override setting

•Dual pushbuttons provide manual on/off switching Xfor 2 separate banks from a single unit

•Exclusive automatic "walk-through" sensing increases X Xenergy savings by shutting lights within 2-1/2 minutes after momentary occupancy

•Unit beeps to indicate load is going to be switched X Xoff automatically

•Choice of "Conference Room" or "Classroom" Xmodes for maximum performance and energy savings in a variety of installations

•Manual delayed-off-time settings: 5, 10, and X X20 minutes, with 30-second test mode

•Manual delayed-off-time settings: 10, 20, and X30 minutes, with 30-second test mode

•Manual delayed-off-time settings: 15 seconds X Xto 15 minutes

•Three-position service switch with off, auto, on X X

•Single-pole and 3-way wiring X X

•Elegant Decora styling complements any interior, X X X X Xuses Decora wallplates

•Fits in standard wallbox; units may be ganged X X X X X

Ideal for Use in:ODS0D-ID – Classrooms, multimedia and conference rooms, day care centers, office, lounges

ODS10-ID – Enclosed areas: small offices, conference rooms, storage rooms, copy rooms, closets

ODS15-ID – Commercial areas: small offices, conference rooms, classrooms, stockrooms, lounges, restrooms, warehouses

PR150-1L – Wide variety of residential applications

PR180-1L – Large rooms, home offices, and a variety of light commercial and residential applications

TESTING & CODE COMPLIANCE•UL Listed; Cat. No. ODS0D-ID is CUL/US Certified

•CSA Certified

•California Title 24 compliant (ODS models only) and meets ASHRAE Standard 90.1 requirements

•Backed by a Limited Five-Year Warranty; Limited Two-Year Warranty on PR1XX models

7

8

DECORA WALL-SWITCH INFRARED OCCUPANCY SENSORSOccupancy Sensors COMMERCIAL GRADE

DESCRIPTION CAT. NO. RATING COVERAGE COLOR

Decora Wall-Switch PIR ods10-id Incandescent: 800W 180°, 2100SF W, I, A, G*Occupancy Sensor @ 120V. Fluorescent:

1200VA @ 120V,2700VA @ 277V. For 60Hz AC only. Motor: 1/4HP @ 120V

Decora Wall-Switch PIR ods15-id Incandescent: 1800W 180°, 2100SF W, I, A, G*Occupancy Sensor with @ 120V. Fluorescent: Self-adaptive Technology 1800VA @ 120V,

4000VA @ 277V. Motor: 1/4HP @ 120V

Dual-Relay Decora Wall- ods0d-id Primary Relay–Fluorescent: 180°, 2100SF W, I, A, G*Switch PIR Occupancy 1200VA @ 120V, 2700VA Sensor with Self-Adaptive @ 277V; Incandescent: Technology. Default setting = 800W @ 120V. Secondary Conference Room mode, Relay–Fluorescent: 800VA alternate setting = Classroom @ 120V, 1200VA @ 277V; mode** Incandescent: 800W @ 120V

Occupancy Sensors RESIDENTIAL GRADE


Decora Wall-Switch PIR pr150-1l Incandescent: 500W. 150°, 350SF W, I, A*Occupancy Sensor, Fluorescent: 400VASingle-Pole rapid start magnetic

only @ 120VAC. Motor: 1⁄8HP @ 120VAC

Decora Wall-Switch PIR pr180-1l Incandescent: 500W. 180°, 400SF W, I, A*Occupancy Sensor, Fluorescent: 400VA rapid Single-Pole, 3-Way start magnetic only

@ 120VAC. Motor: 1⁄8HP @ 120VAC

* Add to end of catalog number suffix for color of switch: White (W), Ivory (I), Almond (A), and Gray (G). Wallplates sold separately.** In Conference Room Mode, both primary and secondary relays respond to ambient light override. In Classroom Mode, primary relay responds only to ambient light override.

NOTE: See Page 20 for wiring diagrams.

ODSXX-ID Field of View (in feet)

TOP VIEW

SIDE VIEW

ODSXX-ID

15 400

0

15

15

30

30

40

40

4

Minor Motion, IR

Major Motion, IR

5

0

TOP VIEW

SIDE VIEW

PR150-1L

10

10

45

0

0200

TOP VIEW

SIDE VIEW

PR180-1L

10

10

45

0

0200

PR150-1L Field of View PR180-1L Field of View

9

SELF-CONTAINED INFRARED CEILING-MOUNT OCCUPANCY SENSORSSPECIFICATIONS & FEATURES

• Ideal for use in storage areas, small bathrooms, copy rooms, and a variety of small spaces without wall switches

• Sensor and switching relay combined in a single, self-contained unit—no control unit (power pack) required

•Ambient light override option prevents lights from turning on when there is ample natural light

•Adjustable delayed-off-time settings from 20 seconds (for test mode) to 15 minutes

• Small, unobtrusive self-contained unit

TESTING & CODE COMPLIANCE

•UL Listed and CSA Certified

•California Title 24 compliant and meets ASHRAE Standard 90.1 requirements

•Backed by a Limited Five-Year Warranty

COMMERCIAL GRADE


Self-Contained Ceiling-Mount odc0s-i1w Incandescent: 1000W 360°, 530SF* WhiteInfrared Occupancy Sensor @120V. Fluorescent: and Switching Relay, 120V 1000VA @ 120V.

Motor: 1HP @ 120V.For 60Hz AC only

Self-Contained Ceiling-Mount odc0s-i2w Incandescent: 1000W 360°, 530SF* WhiteInfrared Occupancy Sensor @220V. Fluorescent: and Switching Relay, 220V 500VA @ 220V. For

50Hz AC only

Self-Contained Ceiling-Mount odc0s-i7w Fluorescent: 2700VA 360°, 530SF* WhiteInfrared Occupancy Sensor @277V. For 60Hz and Switching Relay, 277V AC only

Protective Cage odccg – – White

* When surface mounted on standard, 8-foot ceiling


2.15(54.6)

4.30(109.2)

0

13

13

TOP VIEW

SIDE VIEW8

003713 3 7 13

ODC0S

Field of View (in feet)

ODC0S-I1W

ODC0S-I Field of View (in feet)

10

1.55(39.4)

4.20(106.7)

1.55(39.4)

4.20(106.7)

MULTI-TECHNOLOGY CEILING-MOUNT OCCUPANCY SENSORSThese advanced motion sensors combine infrared and ultrasonic technology for highly accurate monitoring without false triggers. All-digital self-adjusting technology provides "install and forget" solution for automatic lighting control. Available in a variety of coverage patterns to suit many applications. Use with Leviton Power Pack or, where compatible, with Centura Dimming Power Pack.

SPECIFICATIONS & FEATURES• Ideal for use in classrooms, office areas with cubicles, cafeterias, and public areas in

commercial facilities

Functional•Ultrasonic sensing for maximum sensitivity combined with passive infrared (PIR) sensing

to prevent false triggers from air conditioning and corridor activity

•Self-adjusting settings continuously analyze and adjust sensitivity, timer operation, and air current compensation for reliable, long-term performance

•Ambient light override to prevent lights from turning on when there is ample natural light

•Manual delayed-off-time settings of 30 seconds to 30 minutes

•Self-adjusting delayed-off-time interval settings for 30 seconds to 30 minutes

•Compensates for real-time occupancy patterns—preventing unnecessary on/off switching

•Non-volatile memory preserves all automatic and manual settings during power outages

Physical•Small, unobtrusive unit blends in with any décor

•Fast, simple installation using 4 color-coded low-voltage wires and a single mounting post

•Compatible with Wiremold® surface raceways for mounting to hard ceilings

TESTING & CODE COMPLIANCE•CUL/US, FCC and NOM Certified

•California Title 24 compliant and meets ASHRAE Standard 90.1 requirements


OSC20-M0W

COMMERCIAL GRADE

DESCRIPTION CAT. NO. OPERATING COVERAGE COLORFREQUENCY

Multi-tech Ceiling-Mount osc05-m0w 40kHz 180°, 500SF WhiteOccupancy Sensor*

Multi-tech Ceiling-Mount osc10-m0w 40kHz 360°,1000SF WhiteOccupancy Sensor*

Multi-tech Ceiling-Mount osc20-m0w 32kHz 360°, 2000SF WhiteOccupancy Sensor*

Protective Cage odccg-000 ---------- ---------- White

*Compatible with Centura Fluorescent Energy Management System.

NOTE: Use low-voltage wiring to connect sensors to OSPXX Power Pack or if Centura-compatible, to a CN100 Power Pack (purchased separately). See Page 20 for information on OSP Power Packs.

0

20

11.5

11.5

8.5

8.5

20 TOP VIEW

SIDE VIEW

OCS05-M0W

0 20 231711 155.6 93

8

0

OSC05-M0W Field of View (in feet)

0

20

11.5

11.5

8.5

8.5

20

SIDE VIEW

TOP VIEW

2323 1717

8

0

OSC10-M0W

111115 1520 2099 33 0 5.65.6

OSC10-M0W Field of View

0

20

8

16

16

11.5

11.5

20

SIDE VIEW

TOP VIEW

OSC20-M0W

03 35.5 5.59 911 1115 1520 2032 3222.5 22.5

OSC20-M0W Field of View

OSC05-M0W

Minor Motion, Ultrasonic

Major Motion, Ultrasonic

Major Motion, IR

Minor Motion, IR


11

4.20(106.7)

1.34 (34.0)

4.20(106.7)

1.34 (34.0)

OSC05-U0W

ULTRASONIC CEILING-MOUNT OCCUPANCY SENSORSAdvanced ultrasonic sensing technology for highly accurate monitoring, including small-motion detection.All-digital self-adjusting technology provides "install and forget" solution for automatic lighting control.Use with Leviton Power Pack or, where compatible, Centura Dimming Power Pack.

SPECIFICATIONS & FEATURES• Ideal for restrooms, office areas with cubicles, warehouse and storage facilities,

cafeterias, and public areas in commercial facilities

Functional•Ultrasonic sensing for maximum range and sensitivity combined with accurate

small-motion detection




•Self-adjusting delayed-off time interval settings for 30 seconds to 30 minutes. Compensates for real-time occupancy patterns—preventing unnecessary on/off switching





TESTING & CODE COMPLIANCE•CUL/US Certified

•Meets AHRAE Standard 90.1 requirements


0

11.5

11.5

8.5

8.5

2317

OSC05-U0W

05 10 20

OSC05-U0W Field of View (in feet)

0

16

16

11.5

11.5

OSC20-U0W

032 3222.5 22.5

OSC20-U0W Field of View

OSC10-U0W

0

11.5

11.5

8.5

8.5

2323 17170

OSC10-U0W Field of View

COMMERCIAL GRADE

DESCRIPTION CAT. NO. OPERATING COVERAGE COLORFREQUENCY

Ultrasonic Ceiling-Mount osc05-u0w 40kHz 180°, 500SF White Occupancy Sensor*

Ultrasonic Ceiling-Mount osc10-u0w 40kHz 360º, 1000SF WhiteOccupancy Sensor*

Ultrasonic Ceiling-Mount osc20-u0w 32kHz 360°, 2000SF WhiteOccupancy Sensor*

Protective Cage odccg-000 ---------- ---------- White

* Compatible with Centura Fluorescent Energy Management System.

NOTE: Use low-voltage wiring to connect sensors to OSPXX Power Pack Power Pack or if Centura-compatible, to a CN100Power Pack (purchased separately). See Page C22 for information on OSP Power Packs.


OSC20-U0W



Major Motion, IR

Minor Motion, IR

12

INFRARED CEILING-MOUNT OCCUPANCY SENSORSSPECIFICATIONS & FEATURES• Ideal for use in small offices, closets, open offices, and other areas in commercial facilities with

unobstructed view of the sensor

Functional•Self-adjusting settings continuously analyze and adjust sensitivity, timer operation,

and long-term performance

•Ambient light override prevents lights from turning on when there is ample natural light


• Self-adjusting delayed-off-time interval settings for of 30 seconds to 30 minutes. Compensates for real-time occupancy patterns—preventing unnecessary on/off switching






•Meets ASHRAE Standard 90.1 requirements


COMMERCIAL GRADE

DESCRIPTION CAT. NO. COVERAGE COLOR

Infrared Ceiling-Mount Occupancy Sensor* osc04-i0w 360°, 450SF White

Infrared Ceiling-Mount Occupancy Sensor* osc15-i0w 360°, 1500SF White

Protective Cage odccg-000 ---------- White


NOTE: Use low-voltage wiring to connect sensors to OSPXX Power Pack or if Centura-compatible, CN100 Power Pack (purchased separately). See Page C22 for information on OSP Power Packs.

NOTE: See Page C28 for wiring diagrams.

4.20(106.7)

1,55(39.4)

OSC04-I0W

0

12

5

5

12

0

SIDE VIEW

TOP VIEW

77 1212 5 95 339

8

OSC04-I0W

0

0

20

10

10

20

SIDE VIEW

TOP VIEW

OSC15-I0W

201515 11 119 95.65.6 3320

8

0

OSC04-I0W Field of View (in feet) OSC15-I0W Field of View



Major Motion, IR

Minor Motion, IR

13

MULTI-TECHNOLOGY WALL-MOUNT OCCUPANCY SENSORSSPECIFICATIONS & FEATURES•Ideal for conference rooms, stairwells, high-ceiling rooms, open areas, storage rooms,

and classrooms—including corner mounting in a variety of applications

•Ultrasonic sensing for maximum sensitivity combined with passive infrared (PIR) sensing to prevent false triggers from air conditioning and corridor activity

•Adjustable swivel neck rotates 80° vertically and 60° horizontally. Can be used for ceiling or wall mounting




•Self-adjusting delayed-off-time interval settings of 30 seconds to 30 minutes. Compensates for real-time occupancy patterns, preventing unnecessary on/off switching






COMMERCIAL GRADE

DESCRIPTION CAT. NO. OPERATING COVERAGE COLOR FREQUENCY

Multi-tech Wall-Mount osw12-m0w 32kHz 115°, 1200SF WhiteOccupancy Sensor*


NOTE: Use low-voltage wiring to connect sensors to OSPXX Power Pack or if Centura-compatible, to a CN100 Power Pack (purchasedseparately). See Page C22 for information on OSP Power Packs.

NOTE: See Page C29 for wiring diagrams.

2.80(71.1)

5.50(139.7)

4.12(104.6)

3.67(93.2)

58

31

1611.5

31

58

8 SIDE VIEW

TOP VIEW

OSW12-M0W


680 3 8 1523 32

310

0

11.516

OSW12-M0W

OSW12-M0W Field of View (in feet)



Major Motion, IR

Minor Motion, IR

14

5.50(139.7)

2.80(71.1)

3.67(93.2)

4.12(104.6)

INFRARED indoor WALL-MOUNT OCCUPANCY SENSORSAdvanced PIR technology for highly accurate monitoring. All-digital self-adjusting technologyprovides "install and forget" solution for automatic lighting control. Use with Leviton Power Packor, where compatible, Centura Dimming Power Pack.

SPECIFICATIONS & FEATURES•OSWWV-I: Ideal for conference rooms, stairwells, high-ceiling rooms, large open areas,

parking garages, storage rooms, and rooms with pendant fixtures. Also ideal for corner mounting

•OSWHB-I & OSWLR-I: Ideal for monitoring long, narrow spaces such as warehouse aisles, hallways, closets, and storage areas. Also ideal for corner mounting

•Self-adjusting settings continuously analyze and adjust for optimum performance

•Adjustable swivel neck rotates 80° vertically and 60° horizontally. Can be used for ceiling or wall mounting



• Self-Adjusting delayed-off-time interval settings for 30 seconds to 30 minutes. Compensates for real-time occupancy patterns—preventing unnecessary on/off switching



TESTING & CODE COMPLIANCE• CUL/US Certified

• Meets ASHRAE Standard 90.1 requirements

• Backed by a Limited Five-Year Warranty

WIDE-VIEW, HIGH-BAY & long range INFRARED WALL-MOUNT OCCUPANCY SENSORS

DESCRIPTION CAT. NO. COVERAGE COLOR

Wide-View Infrared Wall-Mount oswwv-i0w 115°, 2500SF WhiteOccupancy Sensor*

High-Bay Infrared Wall-Mount oswhb-i0w 55 ft., 7 ft. wide WhiteOccupancy Sensor* @ 30 ft. high

Long-Range Infrared Wall-Mount oswlr-i0w 100ft., 110º WhiteOccupancy Sensor* @ 10ft. high


NOTE: Use low-voltage wiring to connect sensors to OSPXX Power Pack or if Centura-compatible, to a CN100 Power Pack (purchased separately). See Page C22 for information on OSP Power Packs.


29

29

58

58

8

03 8 15 31 68

SIDE VIEW

TOP VIEW

OSWWV-I0W


0

0

OSWWV Field of View (in feet)

0

30

3.5

3.5

52253 130

SIDE VIEW

TOP VIEW

OSWHB-I0W


0

0

16.6

16.6

SIDE VIEW

TOP VIEW

OSWLR-I0W


14 42 71 100

10

0

OSWHB Field of View

OSW12-MOW

OSWLR Field of View



Major Motion, IR

Minor Motion, IR

15

3.66(93.0)

1.655"

1.38(35.1)

2.35(59.7)

OSP20-RD0

OCCUPANCY SENSOR power packsPower packs provide power for occupancy sensors as well as load switching circuitry. A Leviton Power Pack is required with any low voltage occupancy sensor. Add-A-Relay units can be used to expand control capability.

SPECIFICATIONS & FEATURESPower Pack•For use with all OS Series occupancy sensors

•Power supply for OS Series occupancy sensors

•Switches incandescent, magnetic and electronic fluorescent, magnetic and electronic low voltage, and motor loads

•Compact size and light weight allows easy mounting through knockout in junction box (from either inside or outside the box) with a simple twist-on nut

Add-A-Relay•Expands power pack load capacity by functioning as a supplementary relay

•Provides ability to switch loads in different voltage systems

•Compatible with electronic ballasts

•Same compact size and mounting features as Power Pack

•Zero-crossing switching circuitry for outstanding durability

Nipple Adapter•Simplifies the connection of occupancy sensor to the low-voltage side of a power

pack mounted inside a fluorescent ballast cavity

•1/2" conduit lock nut included

TESTING & CODE COMPLIANCE•CUL/US, FCC and NOM Certified



Power Packs and Accessories COMMERCIAL GRADE

DESCRIPTION CAT. NO. POWER RELAY RATING CONTROL POWER SUPPLYINPUT INPUT OUTPUT

Power Pack osp20-0d0 120/220/277VAC, 20A fluorescent/incandescent @ 120V, 5mA, 150mA,60Hz 20A fluor.@ 277V; 1HP @120V, 2HP @ 240V 24VDC 24VDC

Power Pack with osp20-rd0 120/220/277VAC, 20A fluorescent/incandescent @ 120V, 5mA, 150mA,HVAC relay 60Hz 20A fluor.@ 277V; 1HP @ 120V, 24VDC 24VDC

2HP @ 240V; HVAC: 0.5A @ 125VAC, 1A @ 30VDC

Power Pack with osp15-r30 347VAC, 60Hz 15A fluorescent @ 347V; 1HP @ 120V, 5mA, 120mA,HVAC relay 2HP @ 240V; HVAC: 0.5A @ 125VAC, 24VDC 24VDC

1A @ 30VDC

Add-A-Relay Unit osa20-r00 ---------- 15A incandescent @120V, 20A fluorescent 5mA, ----------with HVAC relay @120V, 20A fluor. @ 277V, 15A fluor. 24VDC

@ 347V; HVAC: 0.5A @ 125VAC, 1A @ 30VDC

Low-Voltage Nipple Adapter with 1/2" Lock Nut for Power Pack and Add-A-Relay units ospna-000

Power Pack Capacity Formula

Leviton power packs can be used to provide power to one or more occupancy sensors. Since current consumptions of occupancy sensors mayvary, the best way to ensure you order the correct number of power packs and add-a-relays is by using this formula:

+ + ≤ 150mA per power pack

Sensor Current Consumption

OSC04-I, OSC15-I, OSWHB-I, OSWLR-I, OSWWV-I 20mA

OSC05-M, OSC05-U, OSW12-M 30mA

OSC20-M, OSC20-U 32mA

OSC10-M, OSC10-U 40mA

OSA20-R00 Add a Relay 50mA

# of Add aRelays

X50mA

# of sensor Model Bs

XSensor B current

consumption rating…

# of sensor Model As

XSensor A current

consumption rating

16

2.43(63.0)

5.36(136.1)

1.838(00.0)

9.16(232.7)

4.50(114.3)

OUTDOOR MOTION SENSORSPassive Infrared (PIR) outdoor motion sensors provide outstanding value in security lighting, as well as convenience, safety and energy savings for a wide range of commercial and residential applications.

SPECIFICATIONS & FEATURESProfessional Series• Ideal for a wide range of commercial/industrial settings including parking

areas, storage facilities, warehouses, loading docks, marina, garages, walkways, campus grounds, meat lockers, walk-in refrigerators/freezers, and outbuildings

•Adjustable sensitivity and immunity to RFI signals reduces false triggers


• Surge suppression minimizes likelihood of damage due to electrical surges

•Temperature compensation feature ensures uniform performance in extreme hot or cold weather and during temperature fluctuations

Residential Series• Ideal for a wide range of residential settings including backyards, garages,

entranceways, porches, swimming pool areas, doorways, and private docks

•Adjustable sensitivity reduces false triggers

Both Series•Sensor neck adjustment allows accurate monitoring: 110° vertical, 180° horizontal,

110° rotational

•With or without with dual floodlight lampholder

•Adjustable delayed-off-time settings from 20 seconds (for test mode) to 15 minutes

•Provides automatic, test and continuous modes. Test mode simulates automatic operation with short delayed-off-time for easy adjustments. Continuous mode enables manual override for constant "lights on" operation (when used with standardon/off switch)

TESTING & CODE COMPLIANCE•UL Listed and CSA Certified



PS200

OUTDOOR MOTION SENSORSProfessional Series COMMERCIAL GRADE


Outdoor PIR ps200-10 Incandescent: 1000W @ 120V. 200° WhiteMotion Sensor Fluorescent/Inductive:

500VA @ 120V. For 60Hz AC only

Outdoor PIR Motion ps200-1f Same as Above 200° WhiteSensor with Dual Floodlight Lampholder

Outdoor PIR Motion ps110-10 Same as Above 110° WhiteSensor

Outdoor PIR Motion ps110-1f Same as Above 110° WhiteSensor with Dual Floodlight Lampholder

Residential Series RESIDENTIAL GRADE


Outdoor PIR rs110-10w Incandescent: 500W @ 120V. 110° WhiteMotion Sensor Fluorescent/Inductive:

500VA @ 120V. For 60Hz AC only

Outdoor PIR Motion rs110-1fw Incandescent: 500W @ 120V. 110° WhiteSensor with Dual Fluorescent/Inductive: Floodlight Lampholder 500VA @ 120V.For 60Hz

AC only

50

50

0

10

0

500

SIDE VIEW

PS110

TOP VIEW


50

50

0

10

0

500

SIDE VIEW

PS200

TOP VIEW


PS110/RS110 Field of View (in feet)

PS200 Field of View

17

ABOUT SENSING TECHNOLOGIESPassive Infrared (PIR)Infrared occupancy sensors are passive devices designed to detect the movement of heat-emitting bodies. They areinstalled to monitor areas where there are no physical obstructions to block the sensor’s field of view. HOW ITWORKS: People naturally emit a small amount of infrared heat. As a person passes through the field of view, thesensor detects the motion as a change in the infrared background and responds by switching on area lights. After thefield of view is unoccupied for a user-defined delayed-off time, the sensor will automatically turn off the lights.

Ultrasonic (US)Ultrasonic sensing technology provides highly accurate small-motion detection. Leviton sensors employing ultrasonictechnology are well suited to monitoring areas, especially smaller or narrow ones, with inanimate objects (such asfurniture) that block the line of site and hence are likely to block the field of view of PIR sensors. They are also idealwhere more sensitive detection is required. HOW IT WORKS: Ultrasonic occupancy sensors generate high frequencysound waves beyond the capability of human hearing, due to the Doppler Effect. These controls are active:continually emitting sound waves and monitoring changes in the return time of the reflected sound waves. Movementin the sound wave field causes a change in wave frequency and the sensor responds by switching on area lights.When the change in frequency is no longer detected after a delayed-off time, the sensor turns off the lights. Levitonultrasonic sensors operate at a frequency outside the range of most hearing aid products and will not interfere withtheir ability to operate properly.

Multi-technologyMulti-technology occupancy sensors combine ultrasonic sensing for maximum sensitivity with PIR technology toprevent false triggers from air conditioning and corridor activity. These sensors are ideal for large, open areasincluding office areas with cubicles, general workspaces, warehouse and storage facilities, cafeterias, and public areasin commercial facilities. HOW IT WORKS: Leviton multi-technology sensors utilize both sensor technologies todetermine when to turn the lights off.

Adaptive DefinitionA dedicated internal microprocessor continually analyzes the room environment and adjusts itself automatically. Theinternal timer, detection sensitivity and thresholds are automatically adjusted. Once installed, a sensor incorporatingadaptive technology should never require manual adjustment or calibration.

UNDERSTANDING SENSOR CATALOG NUMBERSFirst 2 Letters 3rd Character: Last 2 Characters – 1st Character of Suffix: 2nd Character of 3rd Character of

type of product sensor technology Suffix: voltage Suffix: color

OS = Occupancy C = Ceiling Mount 04 = 400sf I = Infrared 1 = 120V W = WhiteSensor W = Wall Mount 05 = 500sf or 5A M = Multi-technology 2 = 230V I = Ivory

OD = Occupancy P = Power Pack 10 = 1000sf or 10A R = Relay (HVAC) 3 = 347V A = AlmondDetector A = Add-A-Relay 12 = 1200sf U = Ultrasonic 7 = 277V G = Gray

S = Switch 15 = 15A 0 = N/A D = Dual Voltage B = BrownReplacement 20 = 2000sf 120/277V 0 = N/A

0 = N/A 0D = Dual relay 0 = N/A0S = Self-containedCG = CageHB = High BayLR = Long RangeNA = Nipple AdapterRA = Raceway AdapterWV = Wide View

18

ABOUT DIFFERENT SENSOR DESIGNS

Sensor Type When to Use

Wall-Switch When you don’t want to install a separate device, choose this sensor because it replaces an existing wall switch. Get both occupancy sensing and manual on/off switching in a single device.

Ceiling-Mount For 180º or 360º coverage of an area (360º sensor shown).

Wall-Mount For coverage of irregularly shaped areas and those with varying ceiling heights, as well as narrow hallway and high-bay corridor applications. For detection in spaces outside the field of view of other occupancy sensors. Can be pointed in different directions.

SELECTION & PLACEMENTSensors can be mounted in the middle of walls, in corners, or on ceilings. Occupancy sensors must be intelligently placed in order to ensurethat motion is detected throughout an entire space. With a variety of models from which to choose, care should be taken to select the propercombination of sensors to cover an entire area with motion detection.

Factors to consider before selecting and placing an occupancy sensor include:

• Size and shape of area needing coverage compared to ranges of occupancy sensors

• Obstacles that may block the sensor’s line of sight

• How much activity there is in a space

• Ceiling height

• Airflow that can falsely register as motion

• Location of HVAC ducts

Select a Centura-compatible occupancy sensor when installing an occupancy sensor within a Centura Energy Management System. In thiscase, the CN100 Power Pack provides power to the occupancy sensor (no OSPXX is required). Please note that Centura’s Dimming PowerPack also has its own built-in HVAC relay.

Leviton’s Lighting Management Systems Division provides a complimentary occupancy-sensor layout service. This service provides suggestedsensor selection and placement on a customer’s drawings in either paper or electronic form, along with a bill of material detailing thecomponents necessary for that layout. Send an e-mail to [email protected] to request this service.

APPLICATION WIRING DIAGRAMSTwo Occupancy Sensors Controlling One Load(manual override off)

Rocker SwitchNeutralLOAD

BlackLine Blue Blue BlackLine

Green GroundGreen Ground

Note: Ground must be connected

Occupancy Sensor and Dimmer Controlling One Load (manual override off)

0 Line

Nuetral

Blue Black Blue

White (if necessary) White

Ballast

Black

Green GroundGreen Ground

Any Dimmer


19

WIRING DIAGRAMS

ODS0D Wall-Switch Occupancy Sensor Wiring Diagram (For Single Pole, Single Phase Application)

Hot (Black)Phase 1

Neutral (White)

ODS0D

Black

GreenGround

Blue

Red

Red

Line 120/277VAC,

60Hz PrimaryLoad

SecondaryLoad


Hot (Black)Phase 1

Neutral 1 (White)

PrimaryLoad

SecondaryLoad

ODS0D

Black

GreenGround

Blue

Red

Red (To Phase 2)

Line 1 120/277VAC,60Hz

Neutral 2

Lin

e2


ODS0D Wall-Switch Occupancy Sensor Wiring Diagram (For Single Pole, Two Phase Applications)

ODS10/15 Wall-Switch Occupancy Sensor Wiring Diagram,Single Location Control

ODS10/15 Wall-Switch Occupancy Sensor Wiring Diagram,Two-Location Control

Hot (Black)

Load

ODS10/15

Black

GreenGround

Blue

Line 120/277VAC,60Hz

Neutral (White)

Black

White


Hot (Black)

Load

ODS10/15

Black

GreenGround

BlueBlue

GreenGround


Neutral (White)

Black

Wh

ite

Black


PR150

GreenGround

Load

Hot (Black)

Black


Neutral (White)

BlackBlack

White

PR150 Wall-Switch Occupancy Sensor Wiring Diagram PR180 Wall-Switch Occupancy Sensor Wiring Diagram

GreenGround

GreenGround

Load


Hot (Black)

Neutral (White)

Switch #1 PR180

Yellow

Black

Wh

ite

Red

Black

(Black Screw) Jumper

Traveler A

Traveler B

CommonTerminal

Wall-Switch Occupancy Sensors

20

*When the photocell function is not being used, connect the BlueOccupancy Sensor lead to the Blue Power Pack lead.When using thePhotocell function, connect the Gray Occupancy Sensor lead to the BluePower pack lead–Do not use the Blue Occupancy Sensor lead for the photo-cell function.

WIRING DIAGRAMS

OS-Series Ceiling Mount Occupancy Sensor(with Power Pack) Wiring Diagram

Load

SensorOSPxx SeriesPower Pack

Black

White

Neutral (White)

HotBlack Blue

BlueBlack

White

Red

BlackBlue* (occupancy)

RedBlack

Blue* (occupancy)

Gray* (photocell+ occupancy)

Gray* (photocell+ occupancy)

Red (24VDC)

BlackBlue

(control)

NC-BrownCommon-GreenNO-Brown/White

To HVAC System

120/277/347 VAC60Hz

Line

Hot (Black)

Neutral (White)

Sensor

BlackBlack

Blue

Blue Load

Wh

ite

Line 220-240VAC 50Hz

ODC0S-I2 Ceiling Mount Occupancy Sensor,Single-Location Wiring Diagram

ODC0S-I2 Ceiling Mount Occupancy Sensor,Two-Location Wiring Diagram

ODC0S-I1 Ceiling Mount Occupancy Sensor Wiring Diagram

Hot (Black)

Neutral (White)

Sensor

BlackBla

ck

Bla

ck

Blue

BlueBlu

e

Blu

e

Wh

ite

Wh

ite

Line 220-240VAC 50Hz

Load

Hot (Black)

Neutral (White)

Sensor

Black

Wh

ite

Line 120/277VAC, 60Hz

Load

BlackW

hite

Blue

Blue

Hot (Black)

Neutral (White)

Sensor

Red

Wh

ite

Line 120VAC, 60Hz

Load

BlackW

hite

Blue

Blue

ODC0S-I7 Ceiling Mount Occupancy Sensor Wiring Diagram

Ceiling-Mount Occupancy Sensors

21

Hot (Black)

Neutral (White)

Load

Blue(Control)

Black

Black

Red (24VDC)

Blue

Blue

Red

Blue*(occupancy)

Blue*(occupancy)

Gray*(photocell +

occupancy)

Gray*(photocell +

occupancy)

White

Black

White

Black

Red

BlackLine

120/277/347VAC 60Hz


NC-Brown

NO-Brown/WhiteCommon-Green To HVAC

System

Hot (Black)

Neutral (White)

Load

Blue(Control)

Black

Black

Black

Red (24VDC)

Blue

Blue

BlueBlue

Red

White

White

Black

White

Black

Red

BlackLine

120/277/347VAC 60Hz


NC-Brown

NO-Brown/WhiteCommon-Green

To HVAC System

To HVAC System

Hot (Black)

Neutral (White)

Line 120/277/347VAC

60HzLoad

Black

White

NC-Brown


OSPxx SeriesPower Pack

Blue*(occupancy)

Gray*(photocell +

occupancy)

Blue*(occupancy)

Gray*(photocell +

occupancy)

Hot (Black)

Neutral (White)

Load

Blue(Control)

Black

Black

Red (24VDC)

Blue

Blue

BlueBlue

Red

White

Black

White

Black

Red

BlackLine

120/277/347VAC 60Hz


NC-Brown


To HVAC System

To HVAC System

Hot (Black)

Neutral (White)

Line 120/277/347VAC

60HzLoad

Black

White

OSA20Add-A-Relay

NC-Brown


Blue*(occupancy)

Gray*(photocell +

occupancy)

Blue*(occupancy)

Gray*(photocell +

occupancy)

Wall-Mount Occupancy Sensors

OSWxx Occupancy Sensor Wiring Diagram with Multiple Power Packs

OSWxx Occupancy Sensor Wiring Diagram with Power Pack andAdd-A-Relay

*When the photocell function is not being used, connect the Blue OccupancySensor lead to the Blue Power Pack lead.When using the Photocell function,connect the Gray Occupancy Sensor lead to the Blue Power pack lead–Donot use the Blue Occupancy Sensor lead for the photocell function.

OSWxx Occupancy Sensor Wiring Diagram with Single Power Pack

22

OTHER ENERGY SAVING PRODUCTS

Timers: Timers are an inexpensive alternative to occupancy sensors. They’re easyto use and can be programmed to switch ON and OFF at the same timesevery day make them ideal for any number of applications including:electric motors, exhaust fans, porter closet lights, basements lights,pool/spa filters and more.

Centura™ Fluorescent Energy Management System:This revolutionary system samples available sunlight and dims or bright-ens fluorescent lighting to maintain a constant light level. By dimminglights during bright midday hours, considerable energy savings can beachieved.

Dimmers: In addition to energy savings, dimmers can add aesthetic enhancementand ambiance to any indoor environment. Dimmers reduce the amountof energy consumed by light fixtures.

23

Z-Max™ Lighting Relay PanelsAutomatically switched lighting control can be as simple as Leviton’s stand-alone Z-Max™ Lighting Relay Panels that provide complex scheduling of lighting andother loads in a single area. A time clock, cabinet, terminal blocks and contactorsare replaced by a single integrated solution For spaces where centralized lightingcontrol, programming and monitoring are required such as in medium to largeoffice buildings or multi-building sites, Leviton offers its 8-, 24- and 48-relay, net-work-ready Z-Max™ Lighting Relay Panels. They are similar in features to thestand-alone units but also offer native DMX and Luma-Net® connectivity toshare lighting control information over a data communications network withboth Leviton’s D4200 and D8000 Dimensions family of Architectural Lighting Controls.

Dimensions™ Architectural Lighting Control Systems:Controlling all the different light fixtures in a commercial building can be aformidable task. For example, in a company restaurant you may want thelights bright in the morning, dimmed at dinner and fully illuminated atclean-up time. Instead of adjusting a series of different dimmers in sepa-rate control areas, Leviton’s Dimensions™ Architectural LightingControl Systems can be programmed to automatically give each areathe right lighting every day. Built-in communications allow this systemto control many different light fixtures with ease. Intuitive screen wiz-ards or PC-based programming make the system easy to operate anduser friendly.

Getting Started Couldn’t Be Easier.Leviton has sales representatives in every city, suburb and countythroughout the United States. In fact, we have the largest sales force forwiring devices in the country as well as Regional Lighting ControlSpecialists ready to help you with all your occupancy sensor needs.Please call Leviton’s toll-free number at 800-323-8920 to get in touchwith a representative in your area.

To learn more about the occupancy sensors and services we offer,you can visit our website at www.leviton.com

Also available are our comprehensive product catalogs that offeran in-depth look at product features, benefits and applications.

Copyright 2005 Leviton Manufacturing Co., Inc.

G-7164/C5

C5

Leviton Manufacturing Co., Inc. 59-25 Little Neck Parkway, Little Neck, NY 11362-2591Telephone: 1-800-323-8920 • FAX: 1-800-832-9538Tech Line (8:30AM-7:30PM E.S.T. Monday-Friday): 1-800-824-3005

Leviton Manufacturing of Canada, Ltd.165 Hymus Boulevard, Pointe Claire, Quebec H9R 1E9Telephone: 1-800-469-7890 • FAX: 1-800-563-1853

Leviton S.A. de C.V.General Arista 54-A Col. Argentina, Mexico D.F., C.P. 11270Telephone: 011-525-386-1131, 011-525-386-2052 • FAX: 011-525-386-1797

Visit Leviton’s Website at: www.leviton.com

Also available are our comprehensive product catalogs.The catalogs take an in-depth look at product features, benefits and applications.

saves on - steven engineeringto 30,000 hours, it also dramatically increased lamp longevity from 3.9...

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