ELECTRONIC FLUORESCENT BALLASTS...Electronics Ballasts for T5, T8, T12 and Long Twin Tube Fluorescent Lamps Reliable and robust, this broad line of Centium high frequency electronic

Atlas Full Line Catalog 2012-2013

ELECTRONIC FLUORESCENT BALLASTS

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Centium Optanium AmbiStar SmartMate

PureVOLT



Electronic Fluorescent Ballasts

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Visit our web site at www.philips.com/advance

Contents

General Information ______________________________1-2 to 1-21

Compact Fluorescent Lamps _______________________1-22 to 1-30

CFL _______________________________________1-22 to 1-25

CFL Wiring Diagrams and Dimensions ___________________ 1-27

2D ______________________________________________ 1-28

Long Twin Tubes _____________________________1-28 to 1-30

Linear Fluorescent Lamps _________________________1-31 to 1-64

T5 ______________________________________________ 1-31

T5 and T5HO Circline ______________________________ 1-32

T5HO _____________________________________1-33 to 1-34

T8 ________________________________________1-38 to 1-59

T8 Slimline ________________________________________ 1-60

T8HO ___________________________________________ 1-61

T12 _____________________________________________ 1-62

T12 Slimline _______________________________________ 1-63

T12HO __________________________________________ 1-64

Speciality Fluorescent Lamps _______________________1-65 to 1-66

UV Disinfection ____________________________________ 1-65

Refrigeration ______________________________________ 1-66

Note:

Refer to page 9-6 to 9-13 for Ballast Specifications

Customer Support/Technical Service

Corporate Offices(800) 322-2086



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Fluorescent Ballasts - Electronic - CentiumElectronics Ballasts for T5, T8, T12 and Long Twin Tube Fluorescent Lamps

Reliable and robust, this broad line of Centium high frequency electronic ballasts for T5, T5HO, T8 and T12 fluorescent lamps offers all of the necessary commercial grade specifications plus the added benefits of lamp striation reduction technology making these ballasts compatible with energy saving T8 lamps. This provides your customers with a more sustainable lighting solution over standard T8 or T12 fixtures.

Our Centium ballasts are an optimal choice for a broad range of new construction and retrofit applica-tions within the commercial sector including general office lighting, conference, meeting, and board room applications, indirect and decorative lighting, and new fixture designs requiring smaller ballasts.

Benefits

Ballasts for T5 Fluorescent Lamps Are Now Available in a Smaller Can

Philips Advance Centium ballasts for T5 lamps are now available in a smaller can — measuring only 9.5"L x 1.3"W x 1"H (original versions was 16.7"L x 1.18"W x 1"H). These low-profile ballasts feature a 1" high enclosure which provides fixture manufacturers increased versatility in their newer generation fixture designs.

The National Electrical Manufacturers Association (NEMA) has created this program to help lighting professionals and end users recognize the market’s highest-performing ballast products. A selection of Centium ballasts meet these requirements.

The following ballasts are NEMA Premium®:

As a licensee in the NEMA Premium Ballast Program, Philips Lighting Electronics N.A. has determined that these products meet the NEMA Premium specification for premium energy efficiency.

1-3Atlas Full Line Catalog 2012-2013



Fluorescent Ballasts - Electronic - OptaniumHigh-efficiency electronic ballasts for a broad range of T5 and T8 lamps

Optanium ballasts for T5 and T8 lamps are part of our effort to promote environmental responsibility through Smart Solutions - energy efficient products, lighting systems, services and expertise through Philips Advance branded products. They are also one of the charter products of the NEMA Premium® Ballast Program. All of this makes these ballasts part of an overall high-efficiency lighting system that may help you achieve LEED certification, meet ASHRAE standards, become compliant with California Title 24 Energy Efficiency Standards, or any other local energy code you or your customers need to be in compliance.

Optanium ballasts will help you and your customers meet a variety of application challenges including luminaire design, installation, maintenance, and evolving lamp technology. Optanium ballasts are available in a standard light output, low-watt, and a high light output design. Also these ballasts come in options with cold-starting capability down to -20°F (with standard fluorescent lamps). These two features combined make it ideal for just about any T5 or T8 fixture design and application. These ballasts are available in either instant start or programmed start ignition for extended lamp life in frequent switching applications such as those where occupancy sensors or motion detectors are being used. Optanium ballasts are also available in program start with parallel wiring.

As a charter product in the NEMA Premium® Ballast Program, Optanium ballasts are recognized as supporting energy-efficient lighting objectives. The National Electrical Manufacturers Association (NEMA) has created this program to help lighting professionals and end users recognize the market’s highest-performing ballast products. For more information on the NEMA Premium Ballast Program, visit www.philips.com/advance and click on the “Sustainability” tab and then click on “NEMA Premium.”

Striation-reduction technology Reduces the likelihood of striation often associated with energy-saving lamps, for consistent light output

Cold temperature lamp ignition down to -20°F for instant or program start ballasts Brings energy-efficient T5 and T8 performance to a variety of new applications such as parking garages, warehouses, and cold storage areas

Arc-reduction technology — UL Type CC UL Type CC* (on certain ballasts)

Program start parallel (PSP) Program start ballasts with parallel wiring delivers independent lamp operation preventing premature lamp shut down ultimately reducing maintenance

High efficiency design Maximize energy savings with improved ballast efficiency

* When operating standard non-energy saving lamps

The following ballasts are NEMA Premium®:

As a licensee in the NEMA Premium Ballast Program, Philips Lighting Electronics N.A. has determined that these products meet the NEMA Premium specification for premium energy efficiency.



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Fluorescent Ballasts - Electronic - SmartMateElectronic Ballasts for 4-Pin Compact Fluorescent Lamps

Offering maximum versatility, the Philips Advance family of SmartMate electronic ballasts for 4-pin compact fluorescent lamps drive a broad range of quad and triple-tube, circline, 2D, and long twin-tube lamps. Representing an innovative breakthrough in CFL ballast technology, SmartMate Ballasts’ energy-efficient design, compact and lightweight housing, and user-friendly features make SmartMate Ballasts an ideal choice for fixture manufacturers, retrofitters, and MRO replacement.

SmartMate Ballasts are ideal in such applications as restaurants, reception areas, conference and meeting rooms, hotel and convention center ballrooms, and houses of worship, as well as in place of incandescent down-lighting systems.

We also offer our distribution partners a way to eliminate the need to stock loose components with SmartMate Ballast Replacement Kits

Conveniently-packaged these kits come complete with a Philips Advance SmartMate Ballast, a mounting plate adaptor, lead wire, and a wire extraction tool for the ultimate in ease and versatility. See page 1-21 for details on kits.

Dual-entry connector Reduces SKU requirements and inventory costs, as unit can be used with side or bottom exit leads

Color-coded, poke-in terminals Enhances wiring accuracy and ease of assembly/installation

Operation between 42kHz and 52kHz Eliminates interference with infrared systems, anti-theft devices, or other electronic equipment

Lamp End-Of-Life Protection Circuit Removes power to lamps upon lamp failure




Fluorescent Ballasts - Electronic - AmbiStarResidential Ballasts for 4-pin CFL, T5, T8 or T12 Lamps

Today’s fixed and dimmable fluorescent fixtures offer greater flexibility and energy savings for residential and hospitality settings than ever before, thanks to Philips Advance AmbiStar electronic ballasts. No matter what type of fluorescent lighting you’re considering, these ballasts help create warm, inviting interiors while

AmbiStar ballasts feature sleek, compact designs to fit in today’s stylish fixtures. AmbiStar ballasts deliver quiet, flicker-free performance, which makes them perfect for any residential or hospitality setting. Fluorescent lighting isn’t just for garages and basements anymore.

AmbiStar dimming ballasts are designed to work with most incandescent dimmers, so they are easy to install with new or existing dimming systems. Now you can create any ambiance with dimmable lighting and still enjoy the energysaving benefits of fluorescent lighting.

for fixtures

Title 24 Energy Efficiency Requirements Enables California’s Title 24 Residential Lighting Energy Efficiency standards with applicable luminaire design

Electronic circuitry Enable ballast to run cooler and operate quieter than many magnetic ballast alternatives.

Fast Start Times Flicker free ignition starts in less than 1.0 second to meet EPA



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Features

effective at improving indoor air quality in low temperature environments such as HVAC systems

specially designed to operate a variety of 800mA HO UV lamps. PureVOLT is ideal in such applications as hospitals, food processing facilities, schools, office buildings, recreational facilities, and residences.

Fluorescent Ballasts - Electronic - PureVOLT

Features

Microprocessor-controlled designEnables one UV ballast to operate multiple lamps

from 120 to 277V, 50/60 HzEnhances accuracy of ordering and reduces SKU requirements

Lamp End-Of-Life Protection Circuit Removes power to the lamp upon lamp failure

Auto-restart Eliminates the need to reset power mains after lamp replacement

Programmed-start technologyProvides extended lamp life in frequent switching applications




Electronic Ballast FundamentalsThe job of a ballast

between the two electrodes.

lamp to stabilize light output.

controlled amount of electrical energy to preheat or maintain the temperature of the lamp electrodes at levels specified by the manufacturer. This is required to prevent electrode filaments deteriorating prematurely and shortening the lamp life.

Starting Methods

preheat, rapid start and slimline instant start. With the introduction of electronic ballasts, two additional types of lighting system circuits

Each requires a special ballast design to operate the lamps in the circuit properly.

start lamps without delay (



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Power Factor (PF) is the measurement of how effectively a ballast converts the voltage and current supplied by the power source into watts of usable power delivered to the ballast and lamps. Perfect power utilization would result in a power factor of one.

Power factor measurements pertain only to the effective use of power supplied to the ballast. They are not an indication of the ballast’s ability to supply light through the lamps. Because low power factor ballasts require about twice the current needed by high power factor ballasts, they allow fewer fixtures per circuit and create added wiring costs. High power factor ballasts are generally specified for all commercial lighting applications.

Because they operate at high frequency, electronic ballasts

concerned with radio and television frequencies. This interference could affect the operation of sensitive electrical equipment, such as radios, televisions or medical equipment. All Philips Advance electronic ballasts incorporate features necessary to afford maximum protection for the operating environment and operate well within regulatory limits.

Ballast Noise. The slight “humming” sound associated with fluorescent lighting systems results from vibration caused by the inherent electromagnetic action in the core-and-coil assembly of the ballasts. All electromagnetic and some electronic ballasts make this sound. Ballasts are assigned a sound rating, “A” through “F”, based on the amount of sound produced, with “A” being the

sound level and the sound rating will be. Because electronic ballasts have smaller components, they have the lowest sound rating. Some electronic ballasts make almost no sound. There is no

rate their ballasts.

All electrical devices including ballasts have an initial current surge that is greater than their steady-state operating current. A standard published by the National Electrical Manufacturers Association (NEMA) — NEMA 410 — Performance Testing for Lighting Controls and Switching Devices with Electronic Fluorescent Ballasts — covers worst-case ballast inrush currents. All circuit breakers and light switches are designed for inrush currents. The electrical system should be designed with this issue in mind.

Total Harmonic Distortion (THD). Harmonic distortion occurs when the wave-shape of current or voltage varies from a pure sine wave. Except for a simple resistor, all electronic devices, including electro-magnetic and electronic ballasts, contribute to power-line distortion. For ballasts, THD is generally considered the percent of harmonic

standard for electronic ballasts specifies a maximum THD of 32% for commercial applications.. However, most electric utilities now require that the THD of electronic ballasts be 20% or less. Almost all Philips Advance electronic ballasts are rated for either less than 20% THD or less than 10% THD.

Lamp Ballasts (File No. E14927).

Visit www.ul.com to find a current listing of Philips Advance ballasts under File No. E14927.

Association and complies with CSA C22.2 No. 74 Standard for Fluorescent Lamp Ballasts (File No. 007310)

Visit www.csa-international.org to find current listing of Philips Advance ballasts under File No. 007310.

Actual Waveform

Third Harmonic (180Hz)

60 Hz Sine Wave

Phase A

Phase BLow Current

Neutral Wire If low Third Harmonic on balanced system

Phase C

Phase A

Phase B100% Plus Current

Neutral Wire (Overheated)

Third Harmonic

Phase C

PF = Input Watts

Input Current x Input Voltage

High Power Factor (HPF) 0.90 or greater

Power Factor Corrected (PFC) 0.80 to 0.89

Normal (Low) Power Factor (NPF) 0.79 or less

A ballast’s power factor may be classified under any one of the

VoltageCatalog Number

Prefix CodeLabel Color

Coding

120V R

277V V Red

347V

120V to 277V Blue

347V to 480V H Purple




Total Harmonic Current

Non-Dimming ApplicationsWhen selecting a ballast for a lighting application, the Total Harmonic Current (THC) rating of the ballast is more significant than Total Harmonic Distortion (THD). This is because the absolute value of harmonic current, not the percentage, affects the electrical power distribution system. As can been seen in the table below, the THC rating of our Standard 2-lamp electronic T8 lamp ballast (REL-2P32-SC) is well below that of both the conventional (RQM-2S40-TP) and energy-saving magnetic T12 lamp ballasts (R-2S40-TP) it replaces. Moreover, the THC rating of our Centium electronic ballast is even lower.

Dimming Applications

Mark 7 0-10V and ROVR

Traditional low voltage controlled ballasts and ROVR typically produce less than 10% THD at full light output and less than 20% THD throughout the entire dimming range, but require extra wires for the control circuit. THC is lower than that of the conventional or energy-saving magnetic system.

Mark 10 Powerline

Mark 10 Powerline electronic dimming ballasts are controlled by 2-wire modified powerline phase-cut style line voltage dimmers. Whenever the ballast is dimmed, the input voltage is cut or “chopped”, causing the THD to increase and the Power Factor to decrease.

Mark 10 Powerline electronic dimming systems (ballast and controller) have similar THD and Power Factor levels as the conventional

lighting systems they replace. Since a much smaller load is required by the Mark 10 Powerline electronic dimming system to achieve the same illumination level as a magnetic ballast system (20-30% less), the total input current will be considerably less. As a result, the magnitude of the total harmonic current will be less.

For example, a typical Mark 10 Powerline electronic ballast and dimmer control might draw a line current of 0.58A at 15% THD at

the input power is decreased to 0.19A at 95% THD. While the THD level may seem high at the 5% maximum light output setting, the total harmonic current is still lower (0.13A) than the conventional T12 magnetic system (0.20A). Moreover, the overall heating effect on the wires and the distribution transformer is not higher than the existing conventional or energy saving T12 magnetic systems.1

ConclusionsA simple ballast retrofit to electronic ballasts should not cause harmonic problems if none existed before the retrofit. Also, in new fixture applications, total harmonic distortion should not be a concern when specifying electronic ballasts. Finally, it is important to remember that electronic ballasts are not the greatest source of THD in an electrical distribution system. Other electronic devices such as computers, laser printers, and other electronic equipment can draw current with more than 100% THD in some cases.

Philips AdvancePart No.

BallastType

Light OutputSetting

LampType

InputCurrent % THD THC

2

RQM-2S40-TP ConventionalMagnetic100% (BallastFactor is 0.98) (2) F40T12 0.84A



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Ballast Life

Philips Advance fluorescent electronic and magnetic ballasts are designed and manufactured to engineering standards correlating to an average life expectancy of 50,000 hours of operation at maximum rated case temperature. Since Philips Advance ballasts operate below their maximum case temperature in the majority of applications, increased ballast life can be expected. As a rule of thumb, ballast life may be doubled for every 10°C reduction in ballast case operating temperature. However, there are many variables, such as input voltage, ambient temperature, etc. which affect ballast operating temperatures, and therefore ballast life.

Lamp Operating Frequency

Electromagnetic ballasts and the lamps connected to them operate at an input voltage frequency of 60 Hertz (Hz), 60 cycles per second — which is the standard alternating voltage/current frequency provided in North America. Electronic ballasts, on the other hand, convert this 60 Hz input to operate lamps at much higher frequencies above 20 Kilohertz (kHz), 20,000 cycles per second. Philips Advance ballasts operate above 20 kHz, but avoid certain ranges such as 30-40 kHz (infrared) and 54-62 kHz (theft deterrent systems) due to interference issues.

Because electronic ballasts function at high frequency, the fluorescent lighting systems that they operate can convert power to light more efficiently than systems operated by electromagnetic ballasts (See chart below). For example, lamps operated on electronic ballasts can produce over 10 percent more light then if operated on electro-

ballasts provide additional energy savings by matching the light output from electromagnetic ballasts while operating the lamps at lower power. This is the main reason why electronic ballast systems are more efficient than magnetic ballast system.

Crest Factor

Lamp manufacturers use crest factor to determine ballast performance as it relates to lamp life. Lamp Current Crest Factor is a measurement of current supplied by a ballast to start and

(average) current. High crest factor currents may cause the lamp electrodes to wear out faster, reducing lamp life. Crest factor

start and instant start T8 lamps the ratio is 1.7 maximum, and for instant start slimline lamps, it is 1 .85 maximum.

Weight and Size Advantages

Since electronic components in electronic ballasts are smaller and lighter than the core-and-coil assembly in electromagnetic ballasts, electronic ballasts can weigh less than half as much as comparable

electromagnetic models. Almost all Philips Advance electronic ballasts have a smaller cross-section than electromagnetic ballasts but maintain the same mounting dimensions. This means that they can fit into all new fixture designs and can be easily retrofitted into existing fluorescent lighting systems.

Controllability

The ability of a building’s occupants to control how they light their space is becoming an increasingly important factor for organizations in determining what real estate they will lease, buy or invest in. The ability to dim the lights or easily shut them off completely is a trend fueled not just by a desire to help the environment, but also by significant economic benefits. These benefits include greater energy efficiency — in terms of reduced HVAC costs as well as energy savings for lighting — more comfortable and productive working environments, and compliance with ever tighter energy efficiency regulations. Philips Advance offers five families of electronic controllable ballasts — ROVR, Mark 7 0-10V, Mark 10 Powerline, PowerSpec HDF, EssentiaLine 0-10V and EssentiaLine Powerline.

Compatibility With Powerline Carrier Systems

A powerline carrier system (PLC) uses electronic wiring devices to send information via a high frequency signal over the 120V or 277V electrical power distribution system of a building. For example, PLC systems are used in automatic clock systems (master time systems) to synchronize all of the clocks in a building or reset the time after a power outage. They eliminate the need for maintenance personnel to reset hundreds of clocks throughout a facility.

-quency signal on top of the existing voltage sine wave (60 Hz). This signal is generally in the 2500 to 9500Hz range, with some older systems operating at 19,500Hz or higher. Some electronic ballasts which are capacitive can absorb the signal from a PLC system. As a result, the signal becomes too weak to be “heard” by the receiver (like a timeclock) connected to the powerline.

When using dimming ballasts in fixtures, sockets must be of the

ballasts

you encounter shunted or jumpered sockets in a retrofit application, they must be removed and replaced with Rapid Start sockets.

Today, most lamp manufacturers do not require the burn-in of linear fluorescent lamps prior to dimming in order to attain rated lamp life and stable electrical measurements. However, some manufacturers of compact fluorescent lamp sources do require a 100 hour burn-in prior to dimming. Consult your lamp manufacturer for their latest requirements.

PeakI

R.M.S.I

Crest Factor =R.M.S.I PeakI

Rapid Start Sockets

YES NO NO NO

Instant Start SocketsShunted Jumpered

Color‘A’

Color‘A’

Color‘A’

Color‘A’

Improper socket application will damage the ballast and void the ballast warranty. Refer to ballast wiring diagram for proper installation.




Ordering InformationHow to OrderPhilips Lighting Systems and Controls has developed the industry’s broadest distribution system for electronic ballasts. More than 3000 stocking distributors nationwide. For information on the distributor best able to serve your needs, please call 800-372-3331.

using the services of a qualified lighting designer

side management rebate programs.

best matches the requirements of your application. The technical specifications in this catalog (located on pages 9-6 to 9-13) will be useful in obtaining bids from electrical contractors.

both products and information.

* Many current and all future electronic ballast part numbers will not use the “RH-TP” suffixes even though these ballasts will be thermally protected.** Parallel Wiring Configuration. However, if one lamp fails, all other lamps in the circuit will extinguish.

Electronic Ballast Part Number Breakdown

CFL Mounting/Connector Options

BL = Bottom leadsBLS = Bottom leads with mounting studsBS = Bottom mounting studs with single entry color coded connectorsEL = End leadsLD = Length mounting feet with SmartMate® dual entry color coded connectorsQS = QuikStart

Linear Fluorescent Mounting/Connector Options

2LS = 2 Level Switching

I CF – – –2 S 26 H1 LD

Input Voltage

G = 347VH = IntelliVolt 347V to 480V 50/60 HzI = IntelliVolt 120V to 277V 50/60 HzR = 120V V = 277V

Family Name

CF = Compact Fluorescent CN = CentiumDA = ROVR DL = ROVREB = AmbiStar ELB = AmbiStarEZ = Mark 10® Powerline LV = EssentiaLine 0-10V

MB = AmbiStar OP = Optanium TR = EssentiaLine Powerline UV = PureVolt ZT = Mark 7® 0-10V

Maximum Number of Lamps

Wiring Configuration

D = 2D, seriesM = Modified parallel**P = ParallelPSP = Programmed Start ParallelQ = Quad CFL, seriesS = SeriesT = Triple CFL, seriesTTS = Long twin tube, seriesTTP = Long twin tube, parallel

Lamp Watts (Primary lamp)

CFL Can Desription H1 = Hybrid metal / plastic case, size 1M1 = Metal case, size 1M2 = Metal case, size 2M3 = Metal case, size 3M4 = Metal case, size 4M5 = Metal case, size 5M6 = Metal case, size 6

Linear Fluorescent Can Desription90C = 90°C maximum case temperature ratingA = ‘A’ canD = ‘D’ canG = ‘G’ canHL = High light outputL = ‘L’ canLW = Low wattMC = Micro can N = ‘N’ canSC = Small can

Visit our web site at www.philips.com/advance

Customer Support/Technical Service(800) 372-3331

Corporate Offices(800) 322-2086



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Remote Wiring

LAMPBALLAST FOR A

SINGLE LUMINAIRE

OUTPUT LEADS IN CONDUIT

Luminaire may containvarious lamp quantities,

but is operated by one remote ballast

LAMP

LAMP

Remote, Tandem or Through Wiring Distances

Remote Mounting of Electronic Ballasts

Unlike magnetic ballasts, electronic ballasts are limited in remote mounting distance from the lamps they operate. The factors

open circuit voltage as opposed to operating voltage, operating frequency and the lamp operating current.

As the distance from the high frequency electronic ballasts to the lamp increases, so does the capacitance across the lead wire to the lamp. This increase in capacitance is important for two reasons. First, if the capacitance is too high, there will not be sufficient open circuit voltage across the lamp for proper lamp ignition.

Second, if the lamp is capable of ignition, the increased capacitance will cause a loss in the current to the lamp. The added capacitance creates what is known as a “shunt” around the lamp; in other words the current will leak from the red wire (or blue) to the yellow, completely bypassing the lamp. The current through the lamp will be reduced, resulting in lower lumens, with the possibility that the lamp will not be capable of sustained operation.

The Mark 7 0-10V, Mark 10 Powerline, EssentialLine, PowerSpec HDF, and ROVR dimming ballasts are particularly sensitive to high capacitance associated with long lead wires. The dimming ballast is capable of very low dim levels because constant filament heat is

current will be reduced and the lamp will begin to flicker, or it will

blue leads not be twisted together. Twisting the red and blue leads will add capacitance, causing the lamp to flicker at the lower dimming levels.

Open circuit voltage is a function of input voltage in some ballast designs, particularly for dedicated voltage ballasts. Cold temperature starting is a function of open circuit voltage. The lead length recommendations in the following table are for normal rated input voltages (120V, 277V, 347V) at 25°C ambient temperature.

ballast architectures that are capable of being remote mounted for

mounting restrictions for a particular electronic ballast please consult Philips Lighting Customer Care (Warranty/Technical Service)

should not be exceeded.




Tandem Wiring

LAMP A1

LAMP A2

LAMP B1

LAMP A3

LAMP A4

LAMP B2

Conduit forrunning output lead wire

to adjacent luminaire

For dimming applications, to decrease lamp output variability when in the dim mode, it is preferred to add a second conduit and divide output wires between the two conduits.

Conduit forrunning output lead wire

to adjacent luminaire

4-lamp ballastoperating ‘A’ lamps

2-lamp ballastoperating ‘B’ lamps

LAMP C1 LAMP C2

2-lamp ballastoperating ‘C’ lamps

2 BALLAST EXAMPLE

1 BALLAST EXAMPLE

BALLAST ‘A’ OPERATES OUTBOARD LAMPSBALLAST ‘B’ OPERATES INBOARD LAMPS

(2) 3-lamp luminaires shown as an example, but this would also be applicable for any

luminaire containing 2-lamps or more

Through Wiring

LAMP

4 - LAMP BALLAST

3 - LAMP BALLAST

2 - LAMP BALLAST

LAMP LAMP

OUTPUT WIRES

LAMP

LAMP LAMP LAMP

LAMP LAMP

Fixture is the wireway.Output leads are not run in conduit.



Diagrams are also aplicable for multiple lampcross-section luminaires. For example,

an 8-foot luminaire with two lamps in cross sectionand a single 4-lamp ballast.

4-lamp ballast

OUTPUT WIRES

3-lamp ballast

OUTPUT WIRES

2-lamp ballast

center of fixture to minimize lead lengths. Recommended output lead lengths and remote mounting distances (pages 1-15 thru 1-19) should not be exceeded.



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Philips Fluorescent Dimming Ballast Application UsageWhile installing a Philips fluorescent dimming ballast in a fix-ture, care should be taken that the output lead lengths do not exceed the specified maximum permissible limits. These limits are specified in the following Remote, Tandem or Through Wiring Distance table.

maintained for a Philips fluorescent dimming ballast then the ballast may behave undesirably or abnormally at low dim levels.

fluorescent dimming ballasts, then it implies that the output lead length should not be extended any more than what was provided with the dimming ballast.

For Philips CFL dimming ballasts, the output lead length between the ballast and the lamp socket should be maintained as short

exceed 24”.

Before using a Philips fluorescent dimming ballast in remote mounting applications or for applications with emergency power supplies, please refer to the Remote, Tandem or Through Wiring Distance table below and verify whether the ballast supports remote mounting application.

mounting, then

o For non emergency application, the remote mounting distance should not exceed the specified limit.

o For applications with emergency power supplies, the total output lead wire length measured from the fluorescent dimming ballast to the lamps sockets (including the emergency ballast wiring) should not exceed the specified limit of the Remote, Tandem or Through Wiring Distance table below.

remote mounting, then

o For non emergency application, the output lead length should not be extended any further than what was provided with the dimming ballast.

o For applications with emergency power supplies, the total output lead wire length measured from the dimming ballast to the lamp sockets (including the emergency ballast wiring) should not exceed the lead length that was

the lead lengths within the specification is not possible then it is recommended to use a Philips fluorescent dimming ballast that supports remote mounting. The example below can be used as a reference for an appropriate application usage of a Philips fluorescent dimming ballast.

fluorescent dimming ballast and (1) emergency ballast in a three lamp, single lamp cross-section, 12’ fixture. This application will have issues because of the excessive wire lengths that result in capacitive losses which may cause short lamp life, uneven lamp performance,

with the emergency ballast to control one lamp. The total output lead length measured from the dimming ballast to the lamps sockets (including the emergency ballast wiring) should be less than 6’.

with emergency ballast to control two lamps. The total output lead length measured from the dimming ballast to the lamps sockets (including the emergency ballast wiring) should be less than 6’ (This approach will provide 2 lamps to be turned ON during emergency).

at Philips Lighting.



Electronic Fluorescent Ballasts(c)

(c)

(c)

(c)

(c)

(c)

(c)

(c)

6’ NA NA 4

6’ NA NA 4

6’ NA NA 4

No NA NA 5

No No No 5

6’ No No 4

No No No 5

No No No 5

15’ NA NA 41-Lamp 15’ NA NA 4

1-Lamp 15’ NA NA 4




20’ NA NA 4

20’ NA NA 4

20’ NA NA 4

20’ NA NA 4

20’ 1 (e)

20’ 1

HCN-2S54-90C-WL

HDF128T5

HDF132T8

HDF140T5

HDF154T5

HDF224T5

HDF226T4

HDF228T5

HDF232T8

HDF239T5

HDF240T5

HDF242T5

HDF254T5

HDF332T8

HDF432T8

HOP-2PSP54-L

Maximum Lead Length (Feet) for Tandem or Through Wiring(Total length of all wires between ballast and lamp sockets) Application

NoteRemote(max length) Tandem Through Blue Red Yellow Blue/White Brown Orange

Allowed Wiring Configuration

For nominal input voltage and 25°C ambient temperature. See all notes on page 1-19.



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10’ 10’ 2

No No No 5

6’ NA NA 4

No NA NA 5

No NA NA 5

No No No 5

8’ 1’ 1.25’ 5.2’ 1.25’ 4.2’ 3

No No No 5

No No No 5

-8’ 1’ 1.25’ 5.2’ 1.25’ 4.2’ 3

20’ NA NA 1 (e)

20’ NA NA 1 (e)

20’ NA NA 1 (e)

10’ NA NA 4

10’ NA NA 4

(e)

(e)

(e)

(e)

20’ 20’ 20’ 18’ 1 (e)

20’ 20’ 20’ 18’ 1 (e)

20’ 20’ 20’ 15’ 1

1 (e)

1 (e)

1 (e)

20’ 20’ 20’ 18’ 18’ 1 (e)


NoteRemote(max length)

Tandem Through Blue Red Yellow Blue/White Brown Orange


For nominal input voltage and 25°C ambient temperature. See all notes on page 1-19..



Electronic Fluorescent Ballasts 20’ 20’ 20’ 18’ 18’ 1 (e)

(d)

(d)

1 (e)

1 (e)

20’ 20’ 20’ 18’ 18’ 18’ 1 (e)

20’ 20’ 20’ 18’ 18’ 18’ 1 (e)

20’ 20’ 20’ 15’ 15’ 15’ 1 (e)

(d)

(d)

20’ NA NA 20’ 20’ 1 (e)

20’ NA NA 20’ 20’ 1 (e)

20’ NA NA 20’ 20’ 1 (e)

1 (e)

20’ 20’ 1 (e)

1 (e)

1 (e)

1 (e)

1 (e)

8’ 1 (e)

20’ 20’ 8’ 1 (e)

8’ 1 (e)

8’ 1 (e)

6’ NA NA 4

6’ NA NA 4

No NA NA 5

No No No 5

No No No 5

6’ No No 4

No No No 5

1-Lamp 15’ No No 4



No No No 5

No No No 5

No No No 5

No No No 5

No No No 5

No No No 5

20” No No 4

RCF-2S13-M1-BS

RCF-2S18-M1-BS

RCF-2S26-H1-LD

RCF-2S26-M1-BS

REB-113-M6-BLS

REB-113-M6-EL

REB-118-M6-BLS

REB-118-M6-EL

REB-126-M6-BLS

REB-126-M6-EL

REB-2P32-SC

1-LAMP

2-LAMP








1-18

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REB-4P32-SC

REB-2S13-M6-EL

REB-2S18-M6-EL

REB-2S26-M6-EL

RELB-1S40-SC

RELB-2S40-N

RK-2S32-TP

RTR-2S32-SC

VK-2S32-TP

VTR-2S32-SC

No No No 5

No No No 5

No No No 5

20” NA NA 4

6’ NA NA 4

No NA NA 5

No NA NA 5

No NA NA 5

6’ NA NA 4

No No No 5

No No No 5

No No No 5

6’ No No 5

No No No 5

No NA NA 5

6’ NA NA 4

No NA NA 5

No NA NA 5

No NA NA 5

6’ NA NA 4

No No No 5

No No No 5

No No No 5

6’ No No 4

No No No 5

No NA NA 5




For nominal input voltage and 25°C ambient temperature.

1. For Tandem or Through wiring, any lamp can be remote mounted.2. For Tandem or Through wiring, BLUE lamp must be in same fixture as ballast.3. For Tandem or Through wiring, RED lamp must be in same fixture as ballast.4. No Tandem or Through wiring allowed.5. No Remote, Tandem or Through wiring allowed.6. For Tandem or Through wiring, RED lamp and BLUE lamp must be in same fixture as ballast.

(a) Ballast can be Remote, Tandem or Through wired farther than 20’. Consult factory.(b) Ballast can be Remote, Tandem or Through wired to a maximum 12 feet between ballast and lampholder for (2)F96T8/HO lamps or 20 feet for all other T8/HO lamps.(c) Ballast can be Remote, Tandem or Through wired to a maximum 6 feet between ballast and lampholder for energy-saving lamps or 8 feet for standard lamps.(d) For tandem wiring, lamp leads from multiple ballast cannot be run in same conduit. Separate conduit must be used for each ballast. (e) Ballast can be Remote, Tandem, or Through wired to a maximum of 20’ for standard lamps and 6’ for energy-saving lamps

Notes



1-20

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Reading Date Codes for Warranty Date on Electronic BallastsMost date codes are stamped on the back of the ballast (opposite the label side). The date code is part of a larger group of numbers and letters, which call out the various codes for the factory where the ballast was manufactured. Depending upon which Philips Lighting factory manufactured the ballast, the date stamp can vary slightly, in terms of its position on the ballast and the number sequence.

Some electronic ballasts manufactured from 1988 to 1991 may have the date code in ink stamped on the ballast label. Some ballasts have the manufacturing code printed in ink on the end of the ballast.

A typical date code for an electronic ballast will have the week and the year the ballast was manufactured. Some ballasts will have the day of the week included too.

937N1BB41893The date code is the 18th week of 1993, stamped one line over the other.

937N1JP23292The date code is the 32nd week of 1992, stamped one line over the other.

16 93973N20P3The date code is the 16th week of 1993, stamped at the end of the ear on the back.

892P259P 24 94The date code is the 24th week of 1994, stamped on four separate lines.

91405BB0291NThe date code is the 2nd week of 1991, stamped on one line.

9716T032HD

The date code is the 16th week of 1997, stamped in ink on the end of the ballast.

The above examples are for ballasts that are already out of warranty. The next two examples are for ballasts that may still be covered

693P0MMA53301707The date code is the 5th day, of the 33rd week of 2001, stamped on the back of the ballast.

06127M50F2104571The date code is the 127th day of 2006 stamped on the back of the ballast.

For assistance in determining a date code – call Customer Care (Technical Services /Warranty) at 1-800-372-3331




Key BenefitsKit Contents and Key Features

SmartMate or Mark 10 Powerline ballast

Mounting Plate Adapter

Lead Wire

Wire Extraction Tool

Individually Shrink-Wrapped Kits

Makes ballast selection and installation a breeze

quads, triple tubes, circline, 2D and long twin-tube lamps

Takes the guess-work out of mounting plate

Allows installer to pre-wire

final connection

Makes for quick disconnections if necessary

SmartMate and Mark 10 Powerline Ballast Kits

ICF-2S13-H1-LD-K REZ-2Q26-M2-LD-K ICF-2S18-H1-LD-K VEZ-2Q26-M2-LD-K ICF-2S26-H1-LD-K REZ-1T42-M2-LD-K ICF-2S42-M2-LD-K VEZ-1T42-M2-LD-K Kits contain the standard ballasts. For lamp and operational data consult pages 1-22 through 1-29 and 2-9

Atlas Full Line Catalog 2012-20131-22


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T4

For 13-18W Quad Lamps

REB-113-M6-BLS*

CFQ13W/G24q - 13W CFL Quad Tube Lamp (PL-C13W/4P, F13DBX/4P, CF13DD/E)

1 0/-18

120

IS

AmbiStar

0.2313 1.00 150 160ASize 6REB-113-M6-EL*

* Normal Power Factor❿ Replacement/Retrofit ballast kits indicated with suffix K are available to distributors. Refer to page 1-21 for details.

REB-118-M6-EL*

CFQ18W/G24q - 18W CFL Quad Tube Lamp (PL-C18W/4 P, F18DBX/4P, CF18DD/E)

1 0/-18

120IS

REB-118-M6-BLS*

AmbiStar 0.2918 1.00 150 160ASize 6

160SmartMate

RS0.1316 1.00 10

Size 1

RCF-2S13-H1-LD-QSRCF-2S13-M1-BS-QS

120-277ICF-2S13-M1-BS-QS

ICF-2S13-H1-LDICF-2S13-H1-LD-K ❿PS

0.13-0.0616 1.00 10

ICF-2S13-M1-BS

2 0/-18

120 AmbiStarIS

159

REB-2S13-M6-EL* 0.4227 0.88 135 Size 6

RCF-2S13-H1-LD-QS

RS

0.2529 1.00 10

Size 1

RCF-2S13-M1-BS-QS

120-277

ICF-2S13-M1-BS-QS

ICF-2S13-H1-LDICF-2S13-H1-LD-K ❿

PS

0.25-0.1129 1.00 10

ICF-2S13-M1-BS

SmartMate

REB-2S18-M6-EL*

SmartMate

RS0.1619 1.00 10

Size 1 160

RCF-2S18-M1-BS-QS

120-277

ICF-2S18-M1-BS-QS


0.16-0.0719 1.00 10

ICF-2S18-M1-BS

2 0/-18

120

SmartMate

AmbiStarRS

Size 60.5537 0.90 135

0.3035 0.95 10

Size 1159

120-277

RCF-2S18-M1-BS-QSICF-2S18-M1-BS-QS


0.30-0.1335 0.95 10

ICF-2S18-M1-BS

No. of Lamps

Dim.Wiring

Dia.

Min. Starting Temp. (°F/°C)

InputVolts

Ballast Family

Lamp Starting Method

Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

Refer to page 1-27 for dimensions and wiring diagrams

Refer to pages 9-23 to 9-27 for lead lengths and shipping data




HIGH POWER FACTOR SOUND RATED AFor 26W Quad & 13W Triple Lamps

T4

No. of Lamps

1 0/-18

120IS

CFQR26W/G24q - 26W CFL Quad Tube Lamp (PL-C26W/4P, F26DBX/4P, CF26DD/E) REB-126-M6-BLS*

AmbiStar REB-126-M6-EL*

RS

160

RCF-2S26-H1-LD-QS

SmartMate

IS

0.2327 1.00 10

Size 1

RCF-2S26-M1-BS-QS

120-277

ICF-2S26-M1-BS-QS

ICF-2S26-H1-LD

ICF-2S26-H1-LD-K ❿PS0.23-0.1027 1.00 10

ICF-2S26-M1-BS

2 0/-18

120RCF-2S26-H1-LD-QS

REB-2S26-M6-EL*

AmbiStar

SmartMate

RS0.4351 1.00 10

Size 60.7752 0.88 135

Size 1

159

RCF-2S26-M1-BS-QS

120-277

ICF-2S26-M1-BS-QS

ICF-2S26-H1-LD

ICF-2S26-H1-LD-K ❿

PS

0.43-0.1951 1.00 10

ICF-2S26-M1-BS

ICF-2S42-M2-BS0.43-0.1952 1.00 10

Size 2

ICF-2S42-M2-LD

ICF-2S42-M2-LD-K ❿

ICF-2S42-90C-M2-BS0.43-0.1952 1.00 10

ICF-2S42-90C-M2-LD

0.3825 1.00 150 Size 6 160A

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%




0/-18

Size 6 160A0.2313 1.00 150

CFTR13W/GX24q - 13W CFL Triple Tube Lamp (F13TBX/4P, CF13DT/E)

1

120

ISREB-113-M6-BLS*

AmbiStarREB-113-M6-EL*

160

RCF-2S13-H1-LD-QS

SmartMate

RS0.1316 1.00 10

Size 1

RCF-2S13-M1-BS-QS

120-277

ICF-2S13-M1-BS-QS

ICF-2S13-H1-LD

ICF-2S13-H1-LD-K ❿PS0.13-0.0616 1.00 10

ICF-2S13-M1-BS

2 0/-18

120

REB-2S13-M6-EL*

AmbiStar

IS 0.4227 0.88 135 Size 6

159

RCF-2S13-H1-LD-QS

SmartMate

RS0.2529 1.00 10

Size 1

RCF-2S13-M1-BS-QS

120-277

ICF-2S13-M1-BS-QS

ICF-2S13-H1-LD

ICF-2S13-H1-LD-K ❿PS0.25-0.1129 1.00 10

ICF-2S13-M1-BS



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CFTR18W/GX24q - 18W CFL Triple Tube Lamp (PL-T18W, F18TBX/4P, CF18DT/E)

1 0/-18

120IS

REB-118-M6-BLS*


RCF-2S18-M1-BS-QS

IS

RS0.1720 1.05 10

Size 1 160120-277

ICF-2S18-M1-BS-QS

ICF-2S18-H1-LD

ICF-2S18-H1-LD-K ❿PS0.17-0.0820 1.05 10

ICF-2S18-M1-BS

2 0/-18

120 AmbiStar

SmartMate

SmartMate

RS

0.3339 1.05 10

Size 60.5537 0.90 135

Size 1159

RCF-2S18-M1-BS-QS

REB-2S18-M6-EL*

120-277

ICF-2S18-M1-BS-QSICF-2S18-H1-LD

ICF-2S18-H1-LD-K ❿PS0.33-0.1439 1.05 10

ICF-2S18-M1-BS

0.2918 1.00 150 Size 6 160A

No. of Lamps

HIGH POWER FACTOR SOUND RATED A

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

T4

For 18-26W Triple Lamps




1 0/-18

120

IS REB-126-M6-BLS*


0.3825 1.00 150 160ASize 6

RCF-2S26-H1-LD-QS

Size 1

Size 1

Size 2

RCF-2S26-M1-BS-QS0.2429 1.10 10

RS

RS

160

159

ICF-2S26-M1-BS-QS

ICF-2S26-H1-LD

ICF-2S26-H1-LD-K ❿120-277

ICF-2S26-M1-BS

0.24-0.11

0.45

0.45-0.20

0.46-0.21

29

54

54

55

1.10

1.00

1.00

1.00

10

10

Size 60.5552 0.88 135

10

10

PS

IS

PS

RCF-2S26-H1-LD-QS

REB-2S26-M6-EL*

RCF-2S26-M1-BS-QS

2 0/-18

SmartMate

AmbiStar

SmartMate

ICF-2S26-M1-BS-QS

ICF-2S26-H1-LD

ICF-2S26-H1-LD-K ❿

120

120-277ICF-2S26-M1-BS

ICF-2S42-M2-BS

ICF-2S42-M2-LDICF-2S42-M2-LD-K ❿

ICF-2S42-90C-M2-BS

ICF-2S42-90C-M2-LD




No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

Size 1

Size 2

RS

160

159

36

68

0.98

0.98

10

10

PS

PS

1

2

0/-18

0/-18

AmbiStar

SmartMate

SmartMate

120

120-277

120-277

RCF-2S26-H1-LD-QSRCF-2S26-M1-BS-QS

ICF-2S26-M1-BS-QSICF-2S26-H1-LDICF-2S26-H1-LD-K ❿ICF-2S26-M1-BS

ICF-2S42-M2-BSICF-2S42-M2-LD


ICF-2S42-90C-M2-BSICF-2S42-90C-M2-LD


36 0.98 10 0.31

0.31-0.13

0.57-0.25


T4

For 32-70W Triple Lamps

❿ Replacement/Retrofit ballast kits indicated with suffix K are available to distributors. Refer to page 1-21 for details.



RCF-2S26-H1-LD-QS RCF-2S26-M1-BS-QS ICF-2S26-M1-BS-QS

ICF-2S26-H1-LD ICF-2S26-H1-LD-K ❿ ICF-2S26-M1-BS ICF-2S42-M2-BS ICF-2S42-M2-LD

ICF-2S42-M2-LD-K ❿ ICF-2S42-90C-M2-BS ICF-2S42-90C-M2-LD

1 0/-18

AmbiStar

SmartMateSize 1 160

Size 2 159

RS0.3846 0.98 10

PS

0.78-0.3393 0.97 10

0.38-0.1746 0.98 10

120

120-277

120-277 0/-18SmartMatePS2

ICF-2S42-M2-BS ICF-2S42-M2-LD


Size 2 1600.50-0.2159 0.94 10120-277 0/-18SmartMatePS1

ICF-2S70-M4-LDSmartMatePS 1.07-0.46128-126 1.00 10 Size 4 1592 0/-18120-277



ICF-2S42-90C-M2-BS ICF-2S42-90C-M2-LD

ICF-2S70-M4-LD

Size 2 1600.63-0.2775 0.96 10120-277 0/-18SmartMate

SmartMatePS 1.30-0.56156-152 1.00 10 Size 4 159

PS1

2 0/-18120-277


CFTR57W/GX24q - 57W CFL Lamp (PL-T57W, F57QBX/4P, CF57DT/E)

CFTR70W/GX24q - 70W CFL Lamp (F70QBX/4P, CF70DT/E)



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ICF-2S13-H1-LD ICF-2S13-H1-LD-K ❿

ICF-2S13-M1-BS ICF-2S13-H1-LD ICF-2S13-H1-LD-K ❿

ICF-2S13-M1-BS2

1

2

1

2

0/-18

0/-18

0/-18

0/-18

0/-18

Size 1

Size 1

Size 1

Size 1

Size 1

PS

PS

PS

PS

PS

SmartMate

SmartMate

SmartMate

SmartMate

SmartMate

0.19-0.09

0.14-0.06

0.31-0.13

0.16-0.07

0.33-0.14

0.42-0.18

23

17

37

20

40

51

0.95

1.00

1.00

0.90

0.91

1.12

15

15

10

15

10

10

120-277

120-277

120-277

120-277

120-277

CFS10W/GR10q - 10W 2D Lamp (F10 2D/4P)



1 0/-18 Size 1PS SmartMate 0.11-0.0513 1.05 15120-277 160

159

160

159

160

159

ICF-2S13-H1-LD

ICF-2S13-H1-LD-K ❿ ICF-2S13-M1-BS ICF-2S18-H1-LD ICF-2S18-H1-LD-K ❿ ICF-2S18-M1-BS

ICF-2S18-H1-LD ICF-2S18-H1-LD-K ❿ ICF-2S18-M1-BS

ICF-2S18-H1-LD ICF-2S18-H1-LD-K ❿ ICF-2S18-M1-BS ICF-2S26-H1-LD ICF-2S26-H1-LD-K ❿

ICF-2S26-M1-BS

No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

HIGH POWER FACTOR SOUND RATED AFor 10-38W Lamps


ICF-1D38-H1-LD ICF-2S42-M2-BS ICF-2S42-M2-LD ICF-2S42-M2-LD-K ❿ ICF-2S42-90C-M2-BS ICF-2S42-90C-M2-LD

1

2

0/-18

0/-18

Size 1

Size 2

Size 1

Size 2

PS

PS

SmartMate

SmartMate

PS

PS

SmartMate

SmartMate

0.23-0.10

0.48-0.21

0.26-0.11

0.55-0.23

27

57

31

62

1.00

1.00

0.85

0.80

10

10

10

10

120-277

120-277

1

2

0/-18

0/-18

120-277

120-277

CFS28W/GR10q - 28W 2D Lamp (PL-Q 28W/4P, F28 2D/4P)

CFS38W/GR10q - 38W 2D Lamp (PL-Q 38W/4P, F38 2D/4P)

160

159

160

159

ICF-1D38-H1-LD ICF-2S42-M2-BS ICF-2S42-M2-LD ICF-2S42-M2-LD-K ❿




2D




T4

T4 Wiring Diagrams and Dimensions

4.60"

4.20"

0.98"

2.40"

2.00"

STUDS FOR -BS MODELS ONLY-LD MODELS DO NOT HAVE MOUNTING STU

4.55"

4.20"

1.29"

3.00"2.00"

STUDS FOR -BS MODELS ONLY-LD MODELS DO NOT HAVE MOUNTING STUDS

7.50"

7.00"

1.29"

3.00"


WIRING: (2) LAMP

LINE

BLACK

WHITE

GREEN

GREEN TERMINAL MUST BE GROUNDED

BLUE

RED

YELLOWBALLAST

Diag. 159Note: For AmbiStar 1-lamp operation on 2-lamp ballast,

use red and blue connectors

Diag. 160

WIRING: (1) LAMP

LINE

BLACK

WHITE

GREEN

GREEN TERMINAL MUST BE GROUNDED

BLUE

RED

BALLAST

Size 2 Enclosure

Size 4 Enclosure

Size 1 Enclosure

2.00"

2.00"

3.85"

0.20"

1.12"STUDS FOR BLS MODELS ONLY

BOTTOM LEADS FOR BL AND BLS MODELS ONLY

Size 6 Enclosure

WIRING: (1) LAMP

LINE

BLACK

WHITE

BLUE

RED

BALLAST

Diag. 160A



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No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%


FT5

For 24-36W Lamps

FT24W/2G11 - 24/27W (PL-L24W, F27BX/RS, FT24DL) ICN-2S24

ICN-2S24-N

ICN-2S39 ICN-2S39-N

1 120-277 CentiumPS0.23-0.1027 1.02 10

0.24-0.1229 1.12 15

N

N

N

N

N

N

N

N

N

D

D

D

D

D

D

D

D

D

730/-18

Refer to page 1-37 for dimensions

Refer to pages 1-27, 1-35 & 1-36 for wiring diagrams


ICF-2S26-H1-LD

ICF-2S26-H1-LD-K ❿ ICF-2S26-M1-BS ICF-2S42-M2-BS ICF-2S42-M2-LD



ICN-2S24-N

ICN-2S24

ICN-2S39 ICN-2S39-N

2 0/-18120-277

Centium

SmartMate

PS

0.41-0.1848 0.93 10

0.40-0.1848 0.93 15

0.44-0.1952 1.00 10

0.46-0.2054 1.10 10

Size 1

Size 2

160

159

74A


FT36W/2G11 - 36/39W (PL-L36W, F39BX/RS, FT36DL) ICN-2S24 ICN-2S24-N

1

0/-18

120-277

PS

Centium

0.29-0.1334 0.90 10

73

ICN-2S39

ICN-2S39-N0.30-0.1336 0.96 15

ICN-2S54 ICN-2S54-N 0.39-0.1846 1.22 20

-20/-29 ICN-2S54-90C-SC

IOP-2PSP54-SC 0.39-0.1846 1.20 10B

7773

77

79

347-480Centium

Optanium

Optanium

0.13-0.10

0.13-0.10

46

46

1.22

1.00

15

10

HCN-2S54-90C-WL

HOP-2PSP54-LL

ICN-2S39

ICN-2S39-N

2

0/-18

120-277PS

Centium

0.59-0.2569 0.94 10

74A

0.50-0.37172 1.00 10

ICN-2S54

ICN-2S54-N 0.75-0.3289-86 1.20 10

-20/-29

7874A78

80

80

7579

HCN-2S54-90C-WL HOP-2PSP54-L

0.73-0.3188-85 1.20 10

ICN-2S54-90C-SC IOP-2PSP54-SC

CentiumOptanium

Optanium

347-4800.26-0.190.25-0.18

8987

1.201.00

1010

1.07-0.31128-127 1.20 10Centium

Optanium

Optanium ICN-4S54-90C-2LS-G

IOP-4P2P54-2LS-G HCN-4S54-90C-2LS-G HOP-4PSP54-2LS-G

3 -20/-29120-277

347-480PS

0.40-0.290.38-0.28

137-135129

1.201.00

Centium 1.11-0.49133-132 1.20 10

1010

G

75A

75A

1.42-0.61170-167 1.20 10Centium

Optanium ICN-4S54-90C-2LS-G

IOP-4P2P54-2LS-G

HCN-4S54-90C-2LS-G

120-277

347-4800.53-0.38182-180 1.20

1.47-0.64176-173 1.20 10

10G-20/-294 PS

Centium 75

L

B

Optanium HOP-4PSP54-2LS-G




FT40W/2G11/RS - 40W (PL-L40W, F40BX, FT40DL/RS)


FT5

For 40W & 50W Lamps

No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

ICN-1TTP40-SC ICN-2TTP40-SC ICN-2S24 ICN-2S24-N

1 0/-18

B

D

DN

N

IS

PS

Centium

0.33-0.140.35-0.15

3941

0.901.00

1010

0.40-0.1747 1.00 10

120-277

70

73





ICN-2S390.42-0.1950 1.10 10

ICF-2S42-M2-BS

ICF-2S42-M2-LD


ICF-2S42-90C-M2-BS ICF-2S42-90C-M2-LD ICN-2TTP40-SC ICN-3TTP40-SC ICF-2S42-M2-BS ICF-2S42-M2-LD


ICN-3TTP40-SC

2

3

0/-18

0/-18

Size 2

B

Size 2

B

IS

PS

IS

SmartMate

Centium

SmartMate

Centium

0.37-0.16

0.57-0.250.61-0.27

0.83-0.35

44

6772

99

0.95

0.880.96

0.88

10

1010

0.66-0.2878 0.95 10

10

120-277

120-277

160

71

159

72

ICN-2S54

ICN-2S54-N

1 -20/-29

D

N

PS

Centium 0.51-0.2361 1.12 15120-277

FT50W/2G11/RS - 50W (PL-L50W, F50BX/RS)

73

IOP-2PSP54-SC

ICN-2S54-90C-SC

D

N

B

ICN-2S54

ICN-2S54-N

2 -20/-29PS

Centium 0.99-0.43118-115 1.10 10120-277

0.18-0.130.17-0.13

6160

1.121.00

1010

347-480 HCN-2S54-90C-WL HOP-2PSP54-L

L

0.51-0.2361 1.10 10Centium

Optanium

Optanium

7773

77

74A

B ICN-2S54-90C-SC

IOP-2PSP54-SC

HOP-2PSP54-L

HOP-4PSP54-2LS-G

HOP-4PSP54-2LS-G

0.34-0.25118 1.10 10347-480

ICN-4S54-90C-2LS-G

IOP-4PSP54-2LS-G3 -20/-29 GPS

Centium 1.49-0.65178-175 1.10 10120-277

HCN-4S54-90C-2LS-G

ICN-4S54-90C-2LS-G IOP-4PSP54-2LS-G

-20/-29 G4 PS

Centium

0.54-0.39185-183 1.10 10

1.96-0.84235-230 1.10 10

347-480

120-277

HCN-4S54-90C-2LS-G 0.68-0.49236-234 1.10 10347-480

HCN-2S54-90C-WLL

1.90-0.81228-223 1.10 10

1.44-0.62172-169 1.10 10

0.97-0.42117-114 1.10 10

0.33-0.24116 1.00 10

0.51-0.38177 1.00 10

0.69-0.50238 1.00 10Centium

Centium

Centium

Optanium

Optanium

Optanium

Optanium

Optanium

Optanium

7874A78

80

80

79

7579

75A

75A

75

ICN-2S39-N



Elec

tron

ic

Fluo

resc

ent

Balla


FT5

For 55-80W Lamps

FT55W/2G11 - 55W (PL-L55W, F55BX, FT55DL)

No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

ICN-2S54 ICN-2S54-N

1 -20/-29PS

Centium 0.49-0.2258 0.92 15120-277

73

DN

Refer to pages 1-35 to 1-37 for dimensions and wiring diagrams


Centium

ICN-2S54-90C-SC IOP-2PSP54-SC

HOP-2PSP54-LL

78

77

73

ICN-2S54

ICN-2S54-N

2 -20/-29PS

Centium

0.17-0.1358 0.92 10

0.94-0.41112-109 0.90 10

347-480

120-27774A

HCN-2S54-90C-WL

D

N

B0.49-0.2258 0.90 10

0.16-0.1256 1.00 10

Optanium

Optanium

Optanium

Optanium

HOP-2PSP54-L

HOP-4PSP54-2LS-G

HOP-4PSP54-2LS-G

78

80

79

0.32-0.23109 1.00 10

0.48-0.35165 1.00 10

0.64-0.47222 1.00 10

ICN-2S54-90C-SC IOP-2PSP54-SC 78

74A0.33-0.24112 0.90 10347-480

HCN-2S54-90C-WLL

B0.92-0.40110-108 0.90 10

Centium

380

HCN-4S54-90C-2LS-G 0.52-0.37178-176 0.90 10347-480

ICN-4S54-90C-2LS-G

-20/-29 GPS

Centium 1.41-0.61169-166 0.90 10120-277

75A

75A IOP-4PSP54-2LS-G 1.37-0.59164-161 0.90 10

Centium

479


-20/-29 GPS

Centium 1.86-0.80222-217 0.90 10120-277

HCN-4S54-90C-2LS-G 0.66-0.47228-226 0.90 10347-480

1 ICN-1S80 0/-18 DPS Centium 91-89 1.00 10120-277

FT80W/2G11 - 80W (PL-L80W, FT80DL)730.76-0.33

75

75217-212 0.90 10 1.81-0.77

Centium

Optanium

Optanium

Optanium

Optanium




ICN-2S28 ICN-2S28-N

D

B

N

D


No. of Lamps

Dim.Wiring

Dia.

F14T5 (14W)


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

T5

For 14-35W Lamps

ICN-2S28 ICN-2S28-N

Centium0.16-0.07

0.14-0.07

19

17

1.07

1.07

20

101 0/-18PS120-277 73

D

N

Optanium

ICN-2S28 ICN-2S28-N

ICN-3S14-D

ICN-3S14-D

IOP-2S28-115-SC

0/-182 120-277 PS

3 120-277 PS

Centium

Centium

0.29-0.130.27-0.12

0.31-0.13

0.42-0.18

0.15-0.083433

36

50

191.061.04

1.10

1.00

1.151010

10

10

15

74

171

172

74

D

B

IOP-2S28-95-SC IOP-2S28-115-SC

0/-18

Optanium0.25-0.110.30-0.14

3037

0.951.15

1510

F21T5 (21W)

Centium0/-18 D0.21-0.1026 1.03 15 73

0/-18 N0.22-0.1025 1.06 10 73 ICN-2S28

ICN-2S28-N1 120-277 PS


0/-18Optanium0.19-0.080.22-0.10

2327

0.951.15

1515

73B


0/-18Optanium0.37-0.160.44-0.19

4452

0.951.15

1010

74B

Centium0/-18 D0.40-0.17 48 1.02 10 74

0/-18 N0.39-0.1747-46 1.00 10 74

ICN-2S28-N

2 120-277 PS

0/-18

F28T5 (25W)DN

0.25-0.1130 1.05 10 73 ICN-2S28

Centium

1 120-277 PS

ICN-2S28-N


0/-18Optanium0.22-0.100.27-0.12

2733

0.951.15

1010

74B

0/-18

DN

74

ICN-2S280.49-0.2158-57 1.00 10Centium

2 120-277 PS

0/-18

F28T5 (28W)DN

N

0.28-0.120.29-0.12

0.53-0.23

3331

64-62

1.041.05

1.03

1010

10

73 ICN-2S28 ICN-2S28-N

ICN-2S28-N

Centium1 120-277 PS

Centium 0/-18D0.55-0.23 64-63 1.03 10 74 ICN-2S28

2 120-277 PS

0/-18

0/-18

B

B

B

0.45-0.20

0.25-0.11

0.55-0.22

0.54-0.23

0.30-0.13

0.60-0.26

54

30

59-58

64-63

36

71-69

0.95

0.95

0.95

1.15

1.15

1.15

10

15

15

10

10

10

73

74

IOP-2S28-95-SC

IOP-2S28-95-SC

IOP-2S28-95-SC

IOP-2S28-115-SC

IOP-2S28-115-SC

IOP-2S28-115-SC

Optanium

Optanium

Optanium

0/-18

F35T5 (35W)DN

0.34-0.150.34-0.15

4140

1.011.01

1010

73 ICN-2S28 ICN-2S28-N

Centium


0/-18Optanium0.31-0.140.37-0.17

3744

0.95 1.15

1010

74B

0/-18 D0.67-0.2880-77 1.00 10 74 ICN-2S282 120-277 CentiumPS

1 120-277 PS

Refer to page 1-35 to 1-37 for dimensions and wiring diagrams




Elec

tron

ic

Fluo

resc

ent

Balla


T5 & T5HO

For 22-55W Lamps

No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

ICF-1D38-H1-LD

ICN-2S24-N

ICN-2S39

ICN-2S24

ICN-2S39-N

0/-18

Size 1SmartMate

Centium

0.21-0.0925 1.00 15

0.23-0.1027 1.02 10

0.24-0.1229 1.12 15

1 PS120-277

FC9T5 (22W Circline)73

73

0/-18

Size 1SmartMate

Centium1 PS120-277

FC12T5 (40W Circline)73

73

ICF-1D38-H1-LD ICN-2S24 ICN-2S24-N ICN-2S39

ICN-2S39-N

0.32-0.1438 0.95 10

0.34-0.1540 0.84 10

0.35-0.160.9242 10

D

D

D

N

N

N ICN-2S39

ICN-2S39-N2 0/-18PS Centium120-277 740.68-0.290.9080 10

ICN-2S24-N ICN-2S39 ICN-2S39-N

0/-18

0.44-0.1952 1.00 10

0.46-0.2054 1.10 102 PS Centium120-277 74

D

D

D

D

N

N

N

N

0/-18

Size 2SmartMate

Centium

1&1 PS120-277

(1) FC9T5 & (1) FC12T5 {(1) 22W & (1) 40W Circline}

159



ICN-2S39

ICN-2S39-N

ICF-2S42-90C-M2-BS

ICF-2S42-90C-M2-LD

0.51-0.2261 0.85 10

740.58-0.2568 1.00 10

1 0/-18PS120-277

FC12T5/HO (55W Circline) ICN-2S54

ICN-2S54-NCentium

0.46-0.2155 0.87 15

D

N73

55 LB

N

ICN-2S54-90C-SC

D

0/-18 74

347-480

120-277

HCN-2S54-90C-WL ICN-2S54

ICN-2S54-N2 PS Centium

0.16-0.120.87 10

0.89-0.38106-103 0.85 10

LB ICN-2S54-90C-SC

347-480 HCN-2S54-90C-WL 0.31-0.22106 0.85 10

D

N




ICN-2S24





No. of Lamps


Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

For 24-44W Lamps

T5HO

ICN-2S24

ICN-2S39

ICN-2S39

ICN-2S24-N

ICN-2S39-N

ICN-2S24 ICN-2S24-N

ICN-2S39-N

0/-18

0/-18

D

D

D

D

D

D

D

N

N

N

N

N

N

N

0.23-0.1027 1.02 10

0.25-0.1229 1.12 15

0.44-0.1952 1.00 10

0.47-0.2155 1.10 10

1 PS Centium120-277

2 PS Centium120-277

2 PS Centium120-277

F24T5/HO (24W)

F39T5/HO (39W)

73

74

1 0/-18PS Centium120-277 73

0/-18 74

ICN-2S24 ICN-2S24-N

ICN-2S39 ICN-2S39-N ICN-2S39 ICN-2S39-N

0.34-0.1540 0.90 10

0.36-0.1643 1.02 10

0.73-0.3187-85 1.00 10

5/-15

5/-15PS

PS

Centium

Centium

120-277

120-277

F54T5/HO (44W)

74

73

ICN-2S54-N

ICN-2S54-N

1

2

0.84-0.37101 1.05 10

0.44-0.2052 1.07 10

N

N

B

B

L

L347-480

347-4800.30-0.22

0.16-0.12

0.28-0.21

0.15-0.11

0.86-0.37

0.44-0.20

0.77-0.34

0.39-0.18

102

54

98

53

102-101

53

91

46

1.00

1.00

1.00

1.00

1.00

1.00

1.00

1.00

10

10

10

10

10

10

10

10

HCN-2S54-90C-WL

HCN-2S54-90C-WL

HOP-2PSP54-L

HOP-2PSP54-L

ICN-2S54-90C-SC

ICN-2S54-90C-SC

IOP-2PSP54-SC

IOP-2PSP54-SC

78

77

78

77

74

73

75A

G5/-15PS

Centium120-277

120-277

347-480

ICN-4S54-90C-2LS-G

HCN-4S54-90C-2LS-G IOP-4PSP54-2LS-G

HOP-4PSP54-2LS-G

31.18-0.52

0.42-0.31

142-140

145

1.00

1.00

1.25-0.54149 1.00 10

0.44-0.32152 1.00 1010

10

75A80

80

75

7579

79

ICN-4S54-90C-2LS-G

HCN-4S54-90C-2LS-G IOP-4PSP54-2LS-G

HOP-4PSP54-2LS-G

G5/-15PS347-480

4

1.66-0.71

0.58-0.421.55-0.67

0.56-0.41

200-197

200185-182

192-191

1.00

1.001.00

1.00

10

1010

10

Centium

Centium

Centium

Centium

Centium

Optanium

Optanium

Optanium

Optanium

Optanium

Optanium

Optanium

Optanium





Elec

tron

ic

Fluo

resc

ent

Balla

sts

ICN-2S54 ICN-2S54-N


T5HO

For 49-80W Lamps

No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

-20/-29PS

Centium120-277

F54T5/HO (49W)

73

1

0.49-0.2158 1.02 10

DN

-20/-29PS

Centium120-277

F54T5/HO (54W)

73

ICN-2S54

ICN-2S54-N

1

0.52-0.2362 1.02 10

D

N

0/-18PS Centium120-277 731

F80T5/HO (80W) ICN-1S80 0.76-0.3391-89 1.00 10 D

74

ICN-2S54

ICN-2S54-N

-20/-29

77

PS

Centium

347-480

120-277

73

ICN-2S54-90C-SC

2

0.18-0.1362 1.02 10

1.00-0.43120-117 1.00 10

IOP-2PSP54-SC

HCN-2S54-90C-WL HOP-2PSP54-L

D

B

N

B

L

Optanium 0.50 - 0.2260 1.00 10

CentiumOptanium 0.18-0.1251-57 1.00 10 77

0.35-0.25120-119 1.00 10 74

ICN-2S54-90C-SC

HCN-2S54-90C-WLL347-480

78

HOP-2PSP54-L

HOP-4PSP54-2LS-G

HOP-4PSP54-2LS-G

Optanium

Optanium

Optanium

0.35-0.23

0.53-0.36

0.70-0.48

116-113

180-174

240-234

1.00

1.00

1.00

10

10

10

Optanium 0.98 - 0.41117-114 1.00 10

Centium

75A

75A-20/-29

79GPS

Centium120-277

ICN-4S54-90C-2LS-G

IOP-4PSP54-2LS-G3

1.52-0.66182-179 1.00 10

347-480 HCN-4S54-90C-2LS-G 0.54-0.39188-186 1.04 10

Optanium 1.47-0.83176-174 1.00 10

Centium

75

75-20/-29

79GPS

Centium120-277

ICN-4S54-90C-2LS-G

IOP-4PSP54-2LS-G4

2.00-0.86240-234 1.00 10

347-480 HCN-4S54-90C-2LS-G 0.69-0.50239-237 1.00 10

Optanium 1.96-0.83235-229 1.00 10

Centium

IOP-2PSP54-SC

78

80

79

ICN-2S54-90C-SC

347-4807377

0.18-0.1358 1.02 10 IOP-2PSP54-SC HCN-2S54-90C-WL

B

L

0.47-0.2157 1.00 10Centium

Optanium

ICN-2S54 ICN-2S54-N 0.93-0.40112-109 1.00 10 74

-20/-29120-277

PS

Centium

2

DN

77 HOP-2PSP54-L 0.16-0.1054-51 1.00 10Optanium

HCN-2S54-90C-WL

ICN-2S54-90C-SC

IOP-2PSP54-SCB

0.35-0.25112-109 1.00 10 74L347-480

780.91-0.38109-105 1.00 10

Centium

Optanium

75A

G75A

-20/-2980

PS

Centium120-277

347-480

ICN-4S54-90C-2LS-G

IOP-4PSP54-2LS-G HCN-4S54-90C-2LS-G

31.35-0.580.54-0.39

162-159175-172

1.001.00

1.52-0.66168-165 1.00 10

1010Centium

Optanium

75

G75

-20/-2979PS

Centium120-277

347-480


HCN-4S54-90C-2LS-G4 1.79-0.76

0.69-0.50

224-208

223-221

1.00

1.00

2.00-0.86222-216 1.00 1010

10Centium

Optanium

78

80

79

HOP-2PSP54-L

HOP-4PSP54-2LS-G

HOP-4PSP54-2LS-G

0.32-0.20106-100 1.00 10

0.47-0.32160-154 1.00 10

0.62-0.43214-206 1.00 10

Optanium

Optanium

Optanium






WHITE

BLACK

BALLAST BLUEBLUE

REDWHITE

BLACK

BALLAST BLUE

BLUE

BLUE

RED

WHITE

BLACK

LINE

BALLAST

BLUEBLUE

YELLOWYELLOW

REDRED

WHITE

BLACK/WHITE

BALLAST

BLUE

RED

Diag. 75

250V,1mA

BLACK

WHITE

GREY/REDNUETRAL OR (ANY HOT)

BALLAST

RED

ORANGE

BLUE

BROWNYELLOW

LAMP

LAMP

LAMP

LAMPSS

S

ONOFF

3 LAMPS ON

3-LAMP

2 LAMPS ON

BLACK

WHITE

GREY/REDBALLAST

ORANGE

REDBLUE

BROWNYELLOW

250V,1mA

S

4-LAMP

NUETRAL OR (ANY HOT)

LAMPSS

ONOFF

4 LAMPS ON2 LAMPS ON

LAMP

LAMP

LAMP

LAMP

Diag. 75A

Diag. 70 Diag. 71 Diag. 72

WHITE

LAMP

REDREDYELLOWYELLOW

BLUEBLUE

BLACK

GREENBALLAST

LAMP

LAMP

REDREDYELLOWYELLOW

BLUEBLUE

WHITEBLACKGREEN

BALLAST

Diag. 73 Diag. 74 Diag. 74A

T5HO Wiring Diagrams



Elec

tron

ic

Fluo

resc

ent

Balla

sts

T5HO

T5HO Wiring Diagrams

LAMP

LAMP

LAMP

RED

RED

YELLOW

YELLOW

BLUE

BLUE

BLUE/WHTBLUE/WHTWHITE

BLACK

GREEN

3-LAMP

BALLAST

Diag. 171

LAMP

LAMP

REDRED

YELLOWYELLOW

BLUEBLUE

BLUE/WHTBLUE/WHTWHITE

BLACK

GREEN

2-LAMP

BALLAST

Diag. 172

BALLAST

LAMP

LAMP

REDRED

BLUEBLUE

YELLOWYELLOW

BLACKWHITE

LINE

BALLAST

LAMP

RED

BROWN*

GRAY/RED

YELLOW/BLUE

BLACKWHITE

LINE

LAMP

LAMP

BLUE

BLUE /WHITE

S

LAMPS3 LAMPS ON2 LAMPS ON (RED and BLUE/WHITE )

SONOFF

neutral or any hot

*INSULATE BROWN LEADS INDIVIDUALLY FOR 600 V

BALLAST

LAMP

REDRED

BLUE*BLUE*

YELLOWYELLOW

BLACKWHITE

LINE

*INSULATE BLUE LEADS INDIVIDUALLY FOR 600 V

BALLAST

LAMP

LAMP

RED

BROWN

GRAY/RED

YELLOW/BLUE

BLACKWHITE

LINE

LAMP

LAMP

BLUE

BLUE /WHITE

S

LAMPS4 LAMPS ON2 LAMPS ON (RED and BLUE/WHITE )

SONOFF

neutral or any hot

Diag. 78

Diag. 80

Diag. 77

Diag. 79




8.90"

9.5"

1.18

"

1.7"

1.18"

1.00"

16.70" 16.34"

16.34"

16.70"

1.18"

1.00"

Fig. B Fig. DIncludes connectors with no leads

16.34"

16.70"

1.18"

1.70"

4.20"

2.40"

4.60"

0.98"

2.00"

4.20"

3.00"

4.60"

1.29" 2.00"

Fig. G

Size 1

Fig. L

Size 2

T5HO Dimensions

T5HO

1.0”

1.3”9.5”

8.9”

Fig. N



Elec

tron

ic

Fluo

resc

ent

Balla

sts

Optanium IOP-2P32-HL-SC IOPA-2P32HL-N

No. of Lamps


Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%

T8

For 17W Lamps

REB-2P32-SC

ICN-132-MC ICN-1P32-N

ICN-2P32-N

IOP-2PSP32-HL-SC

IOP-1P32-LW-SC IOPA-1P32-LW-N

1

0/-18

0/-18

B

A2

B

B

B

B

B

B

N

N

N

N

N

N

N

IS

IS

AmbiStar ‡

Centium

0.14-0.060.16-0.07

0.18-0.09

0.20-0.11

0.13-0.06

1719

22

39

15

0.880.93

1.07

1.34

0.80

0.3019 1.02 150

2015

15

10

10

120

120-277

F17T8, FBO16T8 (17W)*64

63

*64

63 IOP-1P32-SC

IOPA-1P32-N0.14-0.0716 0.90 10

-20/-29 IOP-2P32-LW-SC IOPA-2P32-LW-N IOP-2P32-SC IOPA-2P32-N

0.15-0.07

0.17-0.08

18

19

0.90

1.06

20

15

IOP-1P32-HL-SC IOPA-1P32-HL-N

0.19-0.0822 1.23 15

*64

0.21-0.1025 1.42 20

IOP-2PSP32-LW-SC

IOP-2PSP32-SC IOP-1S32-LW-SC

IOP-1S32-SC

IOP-2S32-LW-SC

IOP-2S32-SC

HOP-2PSP32-HL-SC

B0/-18

0.12-0.0615 0.78 15

PS

PS

0.12-0.05

0.13-0.06

0.14-0.07

0.16-0.0714

16

16

190.79

0.79

0.97

1.0010

10

10

10

20

77

39

39

0.14-0.07

TBD

17

TBD

0.97

TBD

15

10

B

GOPA-1P32-LW-SC

GOPA-1P32-SC

GOPA-2P32-LW-SC

GOP-2PSP32-SC

GOPA-2P32-SC

GOP-2PSP32-LW-SC

-20/-29

0/-18

0.06

0.06

17

19

0.89

1.08

IS

Optanium347

347/480

*64

*64

630.05

0.06

15

16

0.80

0.93

100.06

TBD

20

TBD

1.07

TBD

‡ The above AmbiStar ballasts are normal power factor and labeled ‘For Residential Use Only’

2.375"

1.50"

8.91"

9.50"

8.90"

9.5"

1.18

"

1.7"

Fig. B

1.08"

1.05"8.91"

9.50"

Fig. A2Fig. A

Refer to page 1-40 and 1-41 for wiring diagrams





0.26-0.110.28-0.13

ICN-2M32-MC ICN-2P32-N ICN-3P32-N

IOP-3P32-SC IOPA-3P32-N

IOPA-2P32HL-N

IOP-3P32-LW-SC IOPA-3P32LW-N

IOP-3P32-HL-90C-SC

IOPA-3P32-HL-N

0.26-0.12

0.30-0.14

0.39-0.20

31

35

47

0.87

1.01

1.37

20

15

10-30

*65

No. of Lamps

Dim.Wiring

Dia.


InputVolts

Ballast Family


Catalog NumberLine

Current (Amps)

Input Power ANSI

(Watts)

Ballast Factor

Max. THD

%


T8

For 17W Lamps

REB-2P32-SC

IOP-2P32-LW-SC IOPA-2P32-LW-N IOP-2P32-SC IOPA-2P32-N IOP-2P32-HL-SC

2

0/-18120

120-277

-20/-29

B

A2

IS

IS

AmbiStar ‡

Optanium

0.45

0.32-0.14

0.23-0.10

0.26-0.11

31

313338

27

31

0.91

0.880.931.07

0.80

0.90

140

101515

10

10

0.34-0.1541 1.23 15

F17T8, FBO16T8 (17W)64

64

*65

64

Centium 0/-18

Refer to page 1-38 for additional dimensions

Refer to page 1-40 and 1-41 for wiring diagrams


IOP-2PSP32-HL-SC 0.33-0.1566-64 1.17 10

210/-18

0/-18

0/-18

PS

B

GOPA-2P32-LW-SC

GOP-2PSP32-SC

GOPA-2P32-SC

GOP-2PSP32-LW-SC

-20/-29

0.08

0.09

27

3

ELECTRONIC FLUORESCENT BALLASTS...Electronics Ballasts for T5, T8, T12 and Long Twin Tube Fluorescent Lamps Reliable and robust, this broad line of Centium high frequency electronic

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