GE Lamp & Ballast Products Catalog — Section D Brochure

2014-06-02

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Appendix

Lamp Size/Diameter

The diameter of a lamp, at its maximum dimension,

is expressed in eighths of an inch. Examples: The

diameter of an A19 lamp is 19-eighths of an inch, or

2-3/8", at its widest point. A T8 lamp has a diameter

of 8-eighths, or one inch.

Light Center Length (L.C.L.)

The distance between the center of the ﬁlament, or arc

tube, and a reference plane — usually the bottom of the

lamp base. See L.C.L. Reference Plane Location chart below.

A15

PAR36

B10

A17

A19

G25

R30

MR16

PAR20

PAR38

PAR46

PAR64

PS52

R40,G40

T12

8THS INCHES

Appendix

L.C.L. Reference Plane Location

Base Type Location

All Screw Bases

(except Mini-Can.) Bottom of base contact

Mini-Can

Where diameter of ceramic base

insulator is .531 inches

3-Contact Medium Bottom of base contact

Mogul Medium Prefocus Top of base ﬁns

Mogul Prefocus Top of base ﬁns

Medium BiPost

Base end of bulb (Glass lamps)

Bottom of ceramic base (Quartz lamps)

Mogul BiPost

Shoulder of posts (Glass lamps)

Bottom of ceramic base (Quartz lamps)

2-Pin Prefocus Bottom of ceramic base.

S.C. or D.C. Bayonet Candelabra Top of base pins

Medium Bayonet Top of base pins

S.C. or D.C. Prefocus

Plane of locating bosses on

prefocus collar

Medium 2-Pin Bottom of metal base shell

Maximum Overall Length (M.O.L.)

The end-to-end measurement of a lamp, expressed in inches

or millimeters.

Important Notice

This catalog is a compilation of accumulated data. Additional

information is constantly being uncovered through research

and testing, which may modify the data given herein. This is

particularly true of newer lamps and ballasts. Accordingly,

SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE.

For the latest lamp and ballast design data and information,

contact your GE Representative.

The data and suggested applications contained in this catalog,

as well as any additional information our representative may

be able to furnish, are for general information only and are

not intended and should not be taken as representations or

warranties as to the suitability of a lamp or ballast for any

particular application or use in any particular equipment,

nor are our representatives authorized to make any such

warranties. Applications and conditions of use are many and

varied, and beyond our control. We cannot possibly have

the same degree of knowledge that the purchaser has with

respect to the design of his equipment and the conditions of

its use. Therefore, it is up to the purchaser to make its own

determination as to the suitability of a lamp or ballast for his

intended application or use and to assume the responsibility

for that determination.

General Electric desires to supply the best possible products at

all times. For this reason, General Electric reserves the right to

make changes in its products, and to introduce new products

or discontinue existing ones without notice.

Appendix Listings:

Lamp Sizing Guide ......................................D-1

Glossary of Terms ....................................... D-2

The Value of Lighting Upgrades ..........D-9

LEDs for General Lighting .................... D-10

Ballast Cross Reference Guide .......... D-11

Discontinued Catalog Products ........ D-16

Lamp Sizing Guide

D-2

Glossary of Terms

Ambient Temperature

Ambient temperature which refers to the

temperature inside the fixture in the air

surrounding the fluorescent lamp or LED.

Fluorescent lamp light output and LED life are

affected by the ambient temperature.

Amperes

(“Amps”) A measure of electrical current. In

incandescent lamps, the current is related to

voltage and power as follows: Watts (power) =

Volts x Amps (current).

ANSI (American National Standards Institute)

A consensus-based organization which

coordinates voluntary standards for the physical,

electrical and performance characteristics of

lamps, ballasts, luminaires and other lighting and

electrical equipment.

ANSI Ballast Type

A reference to the ANSI document describing the

lamp which also lists the characteristics of the

ballast required to operate the lamp. Technically,

therefore, it is incorrect to refer to "Ballast Type"

with the ANSI code but this misuse is common.

The following naming system is used: H – mercury

lamps; M – metal halide lamps; S – high pressure

sodium lamps; L – low pressure sodium lamps.

ANSI Codes

These are 3-letter codes assigned by the

American National Standards Institute. They

provide a system of assuring mechanical and

electrical interchangeability among similarly

coded lamps from various manufacturers.

General Electric uses the assigned ANSI Codes

as lamp ordering codes for most projection lamps.

Auto Reset Shutdown Circuit

Circuit senses lamp end life and will automatically

shut off power to the lamp(s). When a new lamp

is inserted in the socket, the ballast resets, and

turns on the lamp automatically. Some shutdown

circuits require the power to be cycled before a

new lamp will re-light.

Ballast

An auxiliary piece of equipment required to start

and to properly control the flow of current to gas

discharge light sources such as fluorescent and

high intensity discharge (HID) lamps. Typically,

magnetic ballasts (also called electromagnetic

ballasts) contain copper windings on an iron core

while electronic ballasts are smaller and more

efficient and contain electronic components.

Ballast Efficacy Factor (BEF)

Defined as ballast factor x 100 divided by input

watts. The value is used to evaluate various

lighting systems based on light output and power

input. The BEF can only be used to compare

systems operating the same type and quantity

of lamps.

Ballast Factor (BF)

This is the percentage of a lamp’s rated lumen

output that can be expected when operated on a

specific, commercially available ballast. Note that

the “rated output” is sometimes measured on a

reference ballast unlike ones that actually operate

the lamp in the field. For example, a ballast with

a ballast factor of 0.93 will result in the lamp's

emitting 93% of its rated lumen output. A ballast

with a lower BF results in less light output and

also generally consumes less power.

Ballast Hum

Sound generated by the vibration of laminations

in the iron core of the transformer or inductor

present in the ballast.

Ballast Losses

Power or energy dissipated in the ballast as heat

and not converted to lamp energy.

Ballast Luminous Efficiency (BLE)

A new (2011) metric measuring the ratio of total

fluorescent lamp arc power to the input power

supplied to the ballast.

Base Temperature (Maximum)

The maximum operating temperature permitted

for the base in Celsius. Fixture manufacturers

need to ensure that these conditions are satisfied

in their fixture.

Beam Angle

The angular dimension of the cone of light from

reflectorized lamps (such as R and PAR types)

encompassing the central part of the beam out to

the angle where the intensity is 50% of maximum.

The beam angle (sometimes called “beam

spread”) is often part of the ordering code for

reflectorized lamps. Example: The 50PAR30/HIR/

NFL25 is a 50 watt PAR30 narrow flood lamp with

a beam angle of 25 degrees, i.e. 12.5 degrees on

either side of the center (see FIELD ANGLE).

Bi-Pin

Any base with two metal pins for electrical

contact. This is the typical base for a fluorescent

tube of 1 to 4 feet in length. It consists of 2 prong

contacts that connect into the fixture. Medium

bi-pins are used with type T-8 and T-12 tubular

fluorescent lamps, and miniature bi-pins are used

for tubular T-5 fluorescent lamps.

Biax®

GE trademark for its biaxial family of high-

efficiency and long-life compact fluorescent

lamps. DBX (Double Biax), TBX (Triple Biax) and

QBX (Quad Biax) refer to the number of U-shaped

legs present in the lamp.

Bright from the Start™

A GE brand name for a family of hybrid compact

fluroescent lamps (CFL) that eliminate the

warm up time to full brightness associated with

traditional CFLs.

British Thermal Unit (BTU)

Unit of energy used in HVAC calculations.

1 BTU = 1055 joules; 1kWh = 3412 BTU.

Bulb Size

Bulb shape followed by its size (the maximum

diameter of the bulb expressed in eighths of an

inch). For Compact Fluorescent products, “S”,

“D”, “T”, and “Q” are used to represent Single,

Double, Triple and Quad Biax® sizes. The code

also includes a reference such as T4 to represent

the size of the tube. Rectangular headlamps

are designated as “Rect” and the number of

millimeters horizontally.

Canadian Energy Standards

Indicates ballast complies with Canadian Energy

Standards and meets the requirements of CAN/

CSA C654-M91.

Canadian Standards Association (CSA)

Association that generates product

performance and safety standards for

many Canadian industries.

Candela (cd)

The measure of luminous intensity of a source in a

given direction. The term has been retained from

the early days of lighting when a standard candle

of a fixed size and composition was defined as

producing one candela in every direction. A plot

of intensity versus direction is called a candela

distribution curve and is often provided for

reflectorized lamps and for luminaires with a

lamp operating in them.

Candlepower

An obsolete term for luminous intensity; current

practice is to refer to this simply as candelas

(see CANDELA).

Candlepower Distribution Curve

A graphical presentation of the distribution of light

intensity of a light source, usually a reflector lamp

or luminaire.

Capacitor

Device in ballast that stores electrical energy.

Often used for power factor correction and

lamp regulation.

Cathode

Metal filaments that emit electrons in a

fluorescent lamp. Negatively charged free

electrons emitted by the cathode are attracted to

the positive electrode (anode), creating an electric

current between the electrodes (see ELECTRODE).

Cathode Resistance

Resistance of the cathode in a Fluorescent lamp.

It is measured “cold” before the lamp is turned on

(Rc) or “hot” after the lamp is turned on (Rh). The

ratio of the hot resistance to the cold resistance is

also measured (Rh/Rc).

Center Beam Candlepower (CBCP)

Refers to the luminous intensity at the center of

the beam of a blown or pressed reflector lamp

(such as a PAR lamp). Measured in candelas

(see CANDELA).

Ceramic Metal Halide

A type of metal halide lamp that uses a ceramic

material for the arc tube instead of glass quartz,

resulting in better color rendering (>80 CRI) and

improved lumen maintenance. GE ConstantColor®

CMH® lamps feature a 3-piece arc tube design

that delivers excellent color consistency and

lamp reliability.

ChromaFit™

A GE brand name for metal halide lamps designed

to operate on HPS ballasts, allowing a user to

switch from the yellowish color of HPS to the

white color of metal halide without retrofitting

ballasts. These products are available in both

quartz metal halide and ceramic metal halide

(CMH®) versions.

Class P Thermal Protector

A switching device sensitive to current and heat

that automatically disconnects ballast if the

temperature exceeds UL temperature limitations.

Coefficient of Utilization (CU)

In general lighting calculations, the fraction of

initial lamp lumens that reach the work plane. CU

is a function of luminaire efficiency, room surface

reflectances and room shape.

Coil

Windings of copper or aluminum wire

surrounding the steel core in ballast. Also refers

to the entire assembly comprising the inductor

or transformer.

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Appendix

Color Quality Scale (CQS)

A new color metric proposed by NIST (US National

Institute of Standards) based on fifteen color chips

instead of the eight used in CRI.

Color Rendering Index (CRI)

A measure of the ability of a light source to

render object colors faithfully in comparison with

a designated standard light source. Incandescent

objects and daylight are both considered

"standard" sources. Note that "standard" is

defined for convenience in reproducibility rather

than being based on user preference.

Color Temperature (Correlated Color

Temperature – CCT)

A number indicating the degree of “yellowness”

or “blueness” of a white light source. Measured

in Kelvins, CCT represents the temperature an

incandescent object (like a filament) must reach

to mimic the color of the lamp. Yellowish-white

(“warm”) sources, like incandescent lamps, have

lower color temperatures in the 2700K–3000K

range; white and bluish-white (“cool”) sources,

such as cool white (4100K) and natural daylight

(6000K), have higher color temperatures. The

higher the color temperature the whiter, or bluer,

the light will be.

Compact Fluorescent Lamp (CFL)

The general term applied to fluorescent lamps

that are single-ended and that have smaller

diameter tubes that are bent to form a compact

shape. Some CFLs have integral ballasts and

medium or candelabra screw bases for easy

replacement of incandescent lamps.

ConstantColor®

A GE registered name for lamp families that show

very little color shift over life, such as GE’s Precise™

MR16 lamps and GE’s ceramic metal halide

(CMH®) lamps.

Cool White

A term loosely used to denote a color

temperature of around 4100K. The Cool White

(CW) designation is used specifically for T12 and

other fluorescent lamps using halophosphors and

having a CRI of 62.

Core

Component of electromagnetic ballast that is

surrounded by the coil. Core is comprised of steel

laminations or solid ferrite material.

Core & Coil Ballast

A ballast that uses a “Core & Coil” assembly

to operate fluorescent or HID lamps. Refers to

copper or aluminum windings on a steel core.

Cost of Light

Usually refers to the cost of operating and

maintaining a lighting system on an ongoing

basis. The 88-8-4 rule states that (typically) 88% is

the cost of electricity, 8% is labor and only 4% is

the cost of lamps.

covRguard®

A GE lamp encased by a plastic sleeve or coating

to help contain glass fragments if the lamp breaks.

Crest Factor (Lamp Current Crest Factor)

Ratio of peak to RMS for any AC waveform. Crest

factor can refer to voltage crest factor or current

crest factor.

Current Type (AC/DC)

Whether the operational voltage is based on

Alternating Current or Direct Current.

Daylight Harvesting

Lighting design for building interiors that

makes use of daylight as a way of reducing

energy consumption.

Dimmer, Dimming Control

A device used to lower the light output of a

source, usually by reducing the wattage it is being

operated at. Dimming controls are increasing in

popularity as energy conserving devices.

Discharge Lamp

A lamp where light is emitted from an electrical

discharge between two electrodes as opposed to

a filament lamp. Examples are: Fluorescent lamps

and HID (High Intensity Discharge) lamps like

Metal Halide, Mercury and High Pressure Sodium.

All discharge lamps require some kind of current-

limiting device, e.g. a ballast, to operate them.

Ecolux®

A brand for GE lamps that have reduced mercury

content and pass the TCLP test.

Edison

GE’s trademark for a wide range of halogen lamps

for the consumer market.

Efficacy

A measurement of how effective the light source

is in converting electrical energy to lumens of

visible light. Expressed in lumens-per-watt (LPW),

this measure gives more weight to the yellow

region of the spectrum and less weight to the

blue and red regions where the eye is not as

sensitive. The efficiency of a light source is simply

the fraction of electrical energy converted to light,

i.e. watts of visible light produced for each watt

of electrical power with no concern about the

wavelength where the energy is being radiated.

For example, a 100-watt incandescent lamp

converts 7% of the electrical energy into light;

discharge lamps convert 25% to 40% into light.

Efficiency

The efficiency of a light source is simply the

fraction of electrical energy converted to light,

i.e. watts of visible light produced for each watt

of electrical power with no concern about the

wavelength where the energy is being radiated.

For example, a 100-watt incandescent lamp

converts 7% of the electrical energy into light;

discharge lamps convert 25% to 40% into light.

The efficiency of a luminaire or fixture is the

percentage of the lamp lumens that actually

comes out of the fixture (see LUMINAIRE

EFFICIENCY).

Efficiency of Ballast

See Ballast Luminous Efficiency.

e-HID ballast (see ELECTRONIC HID BALLAST).

Electrical Discharge

A condition under which a gas becomes

electrically conducting and becomes capable

of transmitting current, usually accompanied

by the emission of visible and other radiation.

An electric spark in air is an example of an

electrical discharge, as is a welder’s arc and

a lightning bolt.

Electrical Testing Laboratory (ETL)

Independent testing laboratory that performs

ballast tests and certifies accuracy of

performance data.

Electrode

Any metal terminal emitting or collecting

charged particles, typically inside the chamber

of a gas discharge lamp. In a fluorescent lamp,

the electrodes are typically metal filaments

coated with special powders called emission mix.

Negatively charged free electrons emitted by one

electrode are attracted to the positive electrode

(anode), creating an electric current and arc

between electrodes.

Electrodeless Lamps

Light sources where the discharge occurs in

a chamber with no electrodes (no metal). The

energy for the discharge is supplied by radio

frequency excitation, e.g. microwaves (see

INDUCTION LIGHTING and GENURA®).

Electromagnetic Ballast (see MAGNETIC BALLAST).

Electromagnetic Spectrum

A continuum of electric and magnetic radiation

that can be characterized by wavelength or

frequency. Visible light encompasses a small

part of the electromagnetic spectrum in the

region from about 380 nanometers (violet) to 770

nanometers (red) by wavelength.

Electromagnetic Interference (EMI)

High-frequency electronic ballasts and other

electronic devices can produce a small amount

of radio waves that can interfere with radio and

TV. Federally-mandated requirements must be

met for EMI levels before an electronic device

is considered FCC compliant (FCC is the Federal

Communications Commission).

Electronic Ballast

A short name for a fluorescent high-frequency

electronic ballast. Electronic ballasts use solid-

state electronic components and typically operate

fluorescent lamps at frequencies greater than 25

kHz. The benefits are: increased lamp efficacy,

reduced ballast losses and lighter, smaller ballasts

compared to electromagnetic ballasts. Electronic

ballasts may also be used with HID (high intensity

discharge) lamps (see MAGNETIC BALLASTS).

Electronic HID Ballast

An electronic ballast capable of operating an

HID lamp. GE’s UltraMax® (electronic HID ballast)

operates PulseArc® (metal halide) and CMH®

(ceramic metal halide) lamps between 250W

and 400W and provides higher efficiency and

significantly improved lumen maintenance over

magnetic ballasts.

Elliptical Reflector (ER) Lamp

An incandescent lamp with a built-in elliptically

shaped reflecting surface. This shape produces

a focal point directly in front of the lamp which

reduces light absorption in some types of

luminaires. It is particularly effective at increasing

the efficiency of baffled downlights.

Energy Policy Act (EPACT)

Comprehensive energy legislation passed by the

U. S. Congress. The lighting portion includes lamp

labeling and minimum energy efficacy (lumens/

watt) requirements for many commonly used

incandescent and fluorescent lamp types. Federal

Canadian legislation sets similar minimum energy

efficacy requirements for incandescent reflector

lamps and common linear fluorescent lamps.

Provisions for Tax Deductions expiring at the end

of 2013.

ENERGY STAR®

As of this publication (2012) U.S. Department of

Energy (DOE) designation for products meeting

certain energy efficiency and performance

standards. Among manufacturers of LEDs, GE has

the largest number of ENERGY STAR® products as

listed on the Federal Government’s website.

EOL (End-of-Life Protection)

A circuit that senses that a lamp has reached

D-4

Glossary of Terms

end of life (compact fluorescent lamps and small-

diameter linear fluorescent lamps) and turns off

power to the lamp. Continuing to power the lamp

beyond end of life can result in overheating

of the lamp ends.

Federal Communications Commission (FCC)

The U. S. federal agency that regulates

emissions in the radio frequency portion of the

electromagnetic spectrum. Part 18 of the FCC

rules specifies electromagnetic interference

(EMI) from lighting devices at frequencies greater

than 450 kilohertz (kHz). A consumer-rated

Class B ballast is designed for use in the home

near TV and radio receivers. It produces less

electrical noise that could interfere with consumer

products. A Class A-rated ballast is designed for

use in commercial and industrial applications that

are not in the vicinity of TV and radio receivers.

Field Angle

The angular dimension of the cone of light from

reflectorized lamps (such as R and PAR types)

encompassing the central part of the beam out to

the angle where the intensity is 10% of maximum

(see BEAM ANGLE).

Flicker

The periodic variation in light level caused by AC

operation that can lead to strobe effects.

Fluorescent HO

Fluorescent HO and VHO lamps require special

ballasts that generate higher currents than

standard ballasts and operate the lamps at higher

wattage than standard lamps. These lamps are

generally less efficient than the standard product.

Metal Halide HO and XHO lamps operate on the

same ballasts as standard lamps and at the same

wattage but are more efficient and produce

higher light output than standard lamps.

Fluorescent Lamp

A high efficiency lamp utilizing an electric

discharge through low pressure mercury vapor to

produce ultra-violet (UV) energy. The UV excites

phosphor materials applied as a thin layer on

the inside of a glass tube which makes up the

structure of the lamp. The phosphors transform

the UV to visible light.

Footcandle (fc)

A unit of illuminance or light falling onto a surface.

It stands for the light level on a surface one foot

from a standard candle. One footcandle is equal

to one lumen per square foot (see LUX).

Forward Current

The current in milliamperes or amperes that the

driver is pushing through the LED. For a given

LED package, the higher the forward current, the

higher the light output, the lower the efficacy and

the poorer the lumen maintenance and expected

life.

Four-Pin Compact Fluorescent Lamps

A “plug-in” compact fluorescent lamp with 4

pins in the base to make electrical contact with

the ballast. Four-pin lamps can be dimmed on

appropriate dimming ballasts while two-pin

lamps cannot.

Frequency

Rate of alternation in an AC current. Expressed in

cycles per second or Hertz (Hz).

Full Spectrum Lighting

A marketing term, typically associated with

light sources that are similar to some forms of

natural daylight (5000K and above, 90+ CRI), but

sometimes more broadly used for lamps that

have a smooth and continuous color spectrum.

Genura®

GE’s electrodeless compact fluorescent lamp,

Genura®, uses induction to power the discharge.

The chamber generates UV (just like a discharge

in a regular fluorescent lamp) that is converted

by phosphors to visible light. Because Genura®

uses no electrodes, the life of this unique reflector

lamp is longer than typical compact fluorescent

products (see INDUCTION LIGHTING).

Glare

Visual discomfort caused by excessive brightness

is called discomfort glare. If task performance is

affected it is called disability glare. Glare can be

direct glare or indirect (reflected) glare.

Group Relamping

The practice of replacing all the lamps at an

installation at one time with new lamps when the

lamps have operated for (typically) 65% to 70%

of rated life. The two benefits of group relamping

are: (1) reduced maintenance costs because of

the expense and inconvenience of replacing

failing lamps one at a time, and (2) improved

appearance and performance since older lamps

are often degrading in brightness and color as

they age.

Halogen Lamp

A halogen lamp is an incandescent lamp with a

filament that is surrounded by halogen gases,

such as iodine or bromine. Halogen gases

allow the filaments to be operated at higher

temperatures and higher efficacies. The halogen

participates in a tungsten transport cycle,

returning tungsten to the filament and prolonging

lamp life. All halogen lamps have a tungsten

filament and, often, a quartz envelope.

HIR™

GE designation for high-efficiency tungsten

halogen lamps. HIR lamps utilize shaped filament

tubes coated with numerous layers of materials

that transmit light but reflect the heat (infrared)

back onto the filament. This reduces the power

needed to keep the filament hot.

Harmonic

An integral multiple of the fundamental frequency

(60 Hz) that becomes a component of the current.

Harmonic Distortion (see TOTAL HARMONIC

DISTORTION or THD).

Hertz (Hz)

Unit used to measure frequency of alteration of

current or voltage, in cycles per second.

Highbay Lighting

Lighting designed for (typically) industrial locations

with a ceiling height of 25 feet and above.

High Intensity Discharge (HID) Lamp

A general term for mercury, metal halide (GE

ConstantColor® CMH®, Multi-Vapor®, MXR or

Arcstream®) and high-pressure sodium (GE

Lucalox®) lamps. HID lamps contain compact arc

tubes which enclose various gases and metal

salts operating at relatively high pressures and

temperatures.

High Output/Very High Output (HO, VHO) Lamps

Designation for lamps generating more light than

standard lamps.

High Power Factor

A ballast whose power factor is corrected to 90%

or greater.

High-Pressure Sodium (HPS) Lamp

HPS lamps are high intensity discharge light

sources that produce light by an electrical

discharge through sodium vapor operating at

relatively high pressures and temperatures.

GE markets these lamps under the trade name

of Lucalox®.

Hot Restart Time

If there is a momentary power interruption and

the HID lamp goes out, there will be a delay of 10

to 15 minutes before the lamp has cooled down

sufficiently to start again. This is called the Hot

Restart time. PulseArc® lamps have a significantly

shorter Hot Restart time (typically 3–5 minutes)

than standard metal halide lamps. Lucalox®

Standby lamps will start up immediately while

standard Lucalox® lamps require a few minutes.

Ignitor

An electronic device providing a high voltage

pulse to initiate an electrical discharge. Typically,

the ignitor is paired with or is a part of the ballast.

Illuminance

The “density” of light (lumens/area) incident

on a surface; i.e. the light level on a surface.

Illuminance is measured in footcandles or lux.

Incandescent Lamp

A light source that generates light utilizing a thin

filament wire (usually of tungsten) heated to white

heat by an electric current passing through it.

Indirect Lighting

The method of lighting a space by directing the

light from luminaires upwards towards the ceiling.

The light scattered off the ceiling produces a soft,

diffuse illumination for the entire area.

Induction Lighting

Gases can be excited directly by radio-frequency

or microwaves from a coil that creates induced

electromagnetic fields. This is called induction

lighting and it differs from a conventional

discharge, which uses electrodes to carry current

into the arc. Induction lamps have no electrodes

inside the chamber and generally, therefore,

have longer life than standard lamps, but slightly

reduced efficiency.

Infrared Radiation

Electromagnetic energy radiated in the

wavelength range of about 770 to 1,000,000

nanometers. Energy in this range cannot be seen

by the human eye, but can be sensed as heat by

the skin.

Input Voltage

Power supply voltage required for proper

operation of fluorescent or HID ballast.

Input Watts

The total power input to the ballast that includes

lamp watts and ballast losses. The total power

input to the fixture is the input watts to the ballast

or ballasts and is the value to be used when

calculating cost of energy and air conditioning

loads. More than 90% of the input watts is

wattage or power delivered to the lamp load with

typical ballast.

Instant Start

A type of ballast designed to start fluorescent

lamps as soon as the power is applied. Most

T8 fluorescent lamps are being operated on

electronic instant-start ballasts. Slimline

fluorescent lamps operate only on instant-

start circuits.

Instant-Start Lamp

A fluorescent lamp, usually with a single pin at

each end, approved to operate on instant-start

ballasts. The lamp is ignited by a high voltage

without any filament heating.

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Appendix

Integral

A popular term for a compact fluorescent lamp

that includes a built-in ballast (see CFL).

Joule

The fundamental unit of energy equal to

1 watt-second.

Kelvins (see COLOR TEMPERATURE).

Kilowatt (kW)

A measure of electrical power equal to 1000 watts.

Kilowatt Hour (kWh)

The standard measure of electrical energy and

the typical billing unit used by electrical utilities

for electricity use. A 100-watt lamp operated for

10 hours consumes 1000 watt-hours (100 x 10)

or one kilowatt-hour. If the utility charges $.10/

kWh, then the electricity cost for the 10 hours of

operation would be 10 cents (1 x $.10).

L70, L85, etc.

L70 (or L85, etc.): The elapsed operating time

over which a population of LED light sources

will maintain 70% (or 85%) of its initial light

output. This 70% number represents the

expected median light output (which is close to

the average light output) of the tested LED light

source population. The value is often stated using

the form L70(10K)= 50,000 Hours; this means

that the LED light source’s median light output

reaches 70% of the initial light output at 50,000

Hours based on 10,000 hours of test data using

TM-21 projection methods. When the L70 value

is stated as “Reported” it means that tests have

gone to at least 1/6th of the reported time as

required by IESNA’s TM-21 methodology. On the

other hand, manufacturers will sometimes state

a “Calculated” value of L70 which means they are

using mathematical curve fitting and projection

methods of TM-21 to project beyond 6 times the

available test hours.

Laminations

Layers of steel, making up the “core” that is

surrounded by the coils in a core & coil ballast.

Lamp

The term used to refer to the complete light

source package, including the inner parts as well

as the outer bulb or tube. “Lamp,” of course, is

also commonly used to refer to a type of small

light fixture such as a table lamp.

Lamp Current Crest Factor

Ratio of peak lamp current to RMS or average

lamp operating current.

Lamp Types

Filament lamps: Incandescent, Halogen,

Halogen-IR®.

Discharge Lamps: Fluorescent, HID (High

Intensity Discharge)

HID Lamps: Mercury, HPS (High-Pressure

Sodium), MH (Metal Halide)

and CMH® (Ceramic Metal

Halide)

LED Solid State Lighting Devices

Lamp Watts

Power dissipated in the lamp—some of which

is converted to light, some to heat and some

to ultraviolet.

LED

Light Emitting Diode used as the primary light

source in a wide array of LED lighting products.

LEDs operate on low voltage DC. Also referred ot

as SSL (Solid State Lighting).

Life (see RATED LAMP LIFE).

Light

Radiant energy that can be sensed or seen by the

human eye. Visible light is measured in lumens.

Light Center Length (L.C.L.)

The distance between the center of the filament,

or arc tube, and a reference plane—usually the

bottom of the lamp base.

Light Emitting Diode (LED)

A solid that directly converts electrical impulses

into light. Some LEDs today incorporate

fluorescent materials to change the color

characteristics of the emitted light.

Light Loss Factor (LLF)

The product of all factors that contribute to

lowering the illumination level including reflector

degradation, dirt, lamp depreciation over time,

voltage fluctuations, temperature effects, burn-

out factor, etc.

LM79

Test procedures specified by the Illuminating

Engineering Society for measurements on LED

products (complete assembled systems) of

lumens, watts and color in actual operating

environments.

LM80

Test procedures specified by the Illuminating

Engineering Society for measuring lumen

depreciation of LED sources, arrays and

modules—not luminaires. 6000 hour testing is

minimum, but this standard does not provide

methods for estimating life.

Lucalox®

The GE brand name for high-pressure sodium lamps.

Lumen

A measure of luminous flux or quantity of light

emitted by a source. For example, a dinner candle

provides about 12 lumens. A 60-watt Soft White

incandescent lamp provides 840 lumens.

Lumen Depreciation, Lumen Maintenance

A measure of how well a lamp maintains its light

output over time. It may be expressed numerically

or as a graph of light output vs. time. The “mean

lumens” of a lamp is the lumens at 40% of rated

life (50% for HPS lamp).

Lumens Per Watt (LPW)

A ratio expressing the luminous efficacy of a light

source.

Typical lamp efficacies:

Edison’s first lamp ............................................... 1.4 LPW

Incandescent lamps ...............................................10-20

Halogen lamps ..........................................................15-30

Fluorescent lamps ................................................35-105

LED Products ...........................................................45-100

Mercury lamps ...........................................................50-60

Metal halide lamps ...............................................60-120

High-pressure sodium lamps .......................... 60-140

Note: The values above for discharge lamps do not

include the effect of the ballasts, which must be used

with those lamps. Taking ballast losses into account

reduces “system” or lamp ballast efficacies typically by

10-20% depending upon the type of ballast used.

Luminaire

A complete lighting unit consisting of a lamp (or

lamps), ballast (or ballasts) as required together

with the parts designed to distribute the light,

position and protect the lamps and connect them

to the power supply. A luminaire is often referred

to as a fixture.

Luminaire Efficiency

The ratio of total lumens emitted by a luminaire

to those emitted by the lamp or lamps used in

that luminaire.

Luminance

A photometric measure of “brightness” of a

surface as seen by the observer, measured in

candelas per square meter.

Luminous Efficacy

The light output (lumens) of a light source divided

by the total power input (watts) to that source. It

is expressed in lumens per watt (see LUMENS

PER WATT).

Lux (lx)

A unit of illuminance or light falling onto a

surface. Lux stands for the light level on a surface

one meter from a standard candle. One lux is

equal to one lumen per square meter. Ten

lux approximately equals one footcandle

(see FOOTCANDLE).

Magnetic Ballast

A ballast used with discharge lamps that consists

primarily of transformer-like copper or aluminum

windings on a steel or iron core. Also called “Core

& Coil” (see ELECTRONIC BALLASTS).

Maximum Overall Length (M.O.L.)

The end-to-end measurement of a lamp,

expressed in inches or millimeters.

Mean Lumens

The average light output of a lamp over its rated

life. Based on the shape of the lumen depreciation

curve, for fluorescent and metal halide lamps,

mean lumens are measured at 40% of rated

lamp life. For mercury, high-pressure sodium

and incandescent lamps, mean lumen ratings

refer to lumens at 50% of rated lamp life (see

LUMEN MAINTENANCE).

Medium Base

Usually refers to the screw base typically used in

household incandescent lamps. There is also the

medium bi-pin base commonly used in T12 and

T8 fluorescent lamps.

Mercury Lamp

A high-intensity discharge light source operating

at a relatively high pressure (about 1 atmosphere)

and temperature in which most of the light is

produced by radiation from excited mercury

vapor. Phosphor coatings on some lamp types

add additional light and improve color rendering.

Metal Cases

Case design used in both magnetic and electronic

ballasts. These ballasts are grounded once they

are mounted to the fixture. They meet all safety

codes, some of which do not allow plastic in open

plenum areas.

Metal Halide Lamp

A high-intensity discharge light source in

which the light is produced by the radiation

from mercury, plus halides of metals such as

sodium, scandium, indium and dysprosium.

Some lamp types may also utilize phosphor

coatings. GE trade names include: Multi-Vapor®,

ConstantColor® CMH®, PulseArc®, Staybright®,

Watt-Miser®, ChromaFit™ and Arcstream®.

Mogul Base

A screw base used on larger lamps, e.g. many

HID lamps.

Mortality Curve

Lamps have a rated or expected life but individual

failures occur earlier and some lamps will last

D-6

Glossary of Terms

longer. The mortality curve depicts the expected

percent surviving in a group of lamps at various

points between zero hours and rated life or

beyond. The curve starts with 100% at zero hours

and goes to 50% surviving at the rated life (e.g.

3000 hours or 20,000 hours, etc.) However, the

shape of the curve between these two end points

can vary depending on the lamp type. LEDs have

a very different mortality curve from traditional

products. See L70, L85 etc. Well-manufactured

LEDs are expected to have very little actual

"failures" in the traditional sense.

Mounting Height

Distance from the bottom of the fixture to either

the floor or work plane, depending on usage.

Multi-Vapor®

A GE brand name for metal halide lamps.

Nanometer

A unit of wavelength equal to one billionth

of a meter.

National Energy Standards for Fluorescent

Ballasts

A federal law enacted in 1988 that sets energy

standards for ballasts consistent throughout the

United States.

National Electric Code (NEC)

A nationally accepted electrical installation

code to reduce the risk of fire, developed by the

National Fire Protection Association.

National Stock Number

The standardized part number used by the U.S.

Government for procurement.

NOM

Laboratory that sets safety standards for building

materials, electrical appliances and other

products for Mexico.

Non-PCB Capacitor

Capacitor used in ballasts to help provide power

factor correction. Contains no polychlorinated

biphenyls and meets EPA requirements.

Normal Power Factor

Ballasts with power factor less than .90 that

do not incorporate any means of Power

Factor Correction.

Open Circuit Voltage (OCV)

Open Circuit Voltage measured across the socket

the lamp screws into, with the ballast powered

on. It is dangerous to stick a voltmeter into such

a socket without precise knowledge of the

ballast because high voltages and voltage pulses

could be present.

Operating Voltage

For electrical discharge lamps, this is the voltage

measured across the discharge when the lamp

is operating. It is governed by the contents of the

chamber and is somewhat independent of the

ballast and other external factors.

PAR Lamp

PAR is an acronym for parabolic aluminized

reflector. A PAR lamp, which may utilize either an

incandescent filament, a halogen filament tube

or an HID arc tube, is a precision pressed-glass

reflector lamp. PAR lamps rely on both the internal

reflector and prisms in the lens for the control of

the light beam. Today it is common to refer to LED

replacement products for PAR lamps as "LED PAR

Lamps" even though there may be no parabolic

reflector in the package.

Parallel Lamp Operation/Parallel Wiring

Refers to ballasts that employ multiple output

current paths from a single ballast to allow lamps

to operate independent of one another, allowing

other lamps operated by the ballast to remain

lit should companion lamp(s) fail (see SERIES

LAMP OPERATION).

PCB (Polychlorinated Biphenyls)

Chemical pollutant formerly used in ballast

capacitors that were part of ballasts. It is now

illegal to use PCBs and most such ballasts have

been replaced over time.

Phosphor

An inorganic chemical compound processed

into a powder and deposited on the inner glass

surface of fluorescent tubes and some mercury

and metal-halide lamp bulbs. Phosphors are

designed to absorb short-wavelength ultraviolet

radiation and to transform and emit it as

visible light.

Photometry

The measurement of light and related quantities.

Photopic (see SCOTOPIC/PHOTOPIC).

Potting

Material used to completely surround and cover

components of some magnetic and electronic

ballasts. Potting compound fulfills functions of

protecting components, dampening sound, and

dissipating heat.

Power Factor (PF)

A measure of the phase difference between

voltage and current drawn by an electrical device,

such as a ballast or motor. Power factors can

range from 0 to 1.0 with 1.0 being ideal. Power

factor is sometimes expressed as a percent.

Incandescent lamps have power factors close

to 1.0 because they are simple “resistive” loads.

The power factor of a fluorescent and HID lamp

system is determined by the ballast used. “High”

power factor usually means a rating of 0.9 or

greater. Power companies may penalize users for

using low-power-factor devices.

Power Factor Corrected

Ballasts that incorporate a means of Power Factor

Correction yielding power factor of 90% or greater.

Precise™

The GE trade name for the compact MR-16 and

MR-11 low-voltage halogen dichroic cool beam

reflectorized spot and flood lamps.

Preheat Circuit

A type of fluorescent lamp-ballast circuit used

with the first commercial fluorescent lamp

products. A push button or automatic switch is

used to preheat the lamp cathodes. Starting the

lamp can then be accomplished using simple

“choke” or reactor ballasts. A preheat fluorescent

lamp is one in which the filament must be heated

by use of a starter before the arc is created.

These lamps are typically operated with

electromagnetic ballasts.

Product Code

It is important to use this five-digit code when

ordering to ensure that you receive the exact

product you require.

Programmed Rapid Start

Lamp starting method which preheats the lamp

filaments while not allowing the lamp to ignite

and then applies the open circuit voltage (OCV)

to start the lamp. The user may experience a

half- to one-second delay after turning on the

lamps while the preheating takes place. This type

of starting circuit keeps lamp end blackening to

a minimum and improves lamp life performance,

especially in applications where the lamps are

frequently switched on and off.

PulseArc®

GE metal halide lamp that provides improved

lumen maintenance for longer useful life and

extended relamp cycles. These products are

designed to operate on ballasts that have

ignitors to help with lamp starting.

Pulse Start

A lamp that requires an HID ballast with a high-

voltage ignitor to start the lamp.

Quartz

A name for fused silica or melted sand from which

many high-temperature containers are fashioned

in the lighting industry. Quartz looks like glass but

can withstand the high temperatures needed to

contain high-intensity arc discharges.

Quartz-Halogen Lamp (see HALOGEN LAMP).

Quartzline®

A GE registered trademark term for some types of

halogen lamps.

Radiation

A general term for the release of energy in a

“wave” or “ray” form. All light is radiant energy

or radiation, as is heat, UV, microwaves, radio

waves, etc.

Rapid Start

Lamp starting method in which lamp filaments

are heated while open circuit voltage (OCV) is

applied to facilitate lamp ignition. A Rapid Start

fluorescent lamp has two pins at each end

connected to the filament. Some rapid start

lamps may be instant-started without filament

heat, for example, the F32T8 lamp.

Rapid Start Circuit

A fluorescent lamp-ballast circuit that utilizes

continuous cathode heating, while the system

is energized, to start and maintain lamp light

output at efficient levels. Rapid start ballasts may

be either electromagnetic, electronic or of hybrid

designs. Full-range fluorescent lamp dimming is

only possible with rapid start systems.

Rare Earths

A family of natural elements in the Periodic table.

Rare earth compounds form an important part of

the modern phosphors used in fluorescent lamps

and LEDs.

Rated Lamp Life

For most lamp types, rated lamp life is the length

of time of a statistically large sample between first

use and the point when 50% of the lamps have

died. It is possible to define “useful life” of a lamp

based on practical considerations involving lumen

depreciation, color shift and also on the need

to reduce lamp replacement costs (see GROUP

RELAMPING).

Reflector Lamp (R)

A light source with a built-in reflecting surface.

Sometimes, the term is used to refer specifically to

blown bulbs like the “R” and “ER” lamps; at other

times, it includes all reflectorized lamps like PAR

and MR.

Room Cavity Ratio (RCR)

A shape factor (for a room, etc.) used in lighting

calculations.

RCR = 5H (L+W) / L x W, or, alternately,

RCR = (2.5) Total Wall Area / Floor Area.

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Appendix

Where H = height, L = length and W = width of

the room. A cubical room will have an RCR of 10;

the flatter the room the lower the RCR.

A series of “Recommended Practices” issued by

the Illuminating Engineering Society for various

lighting applications, e.g. RP 1 for Office Lighting,

RP 8 for Roadway Lighting, RP 29 for Museum

Lighting, etc.

Scotopic/Photopic (S/P) Ratio

This measurement accounts for the fact that of

the two light sensors in the retina, rods are more

sensitive to blue light (scotopic vision) and cones

to yellow light (photopic vision). The Scotopic/

Photopic (S/P) Ratio is an attempt to capture the

relative strengths of these two responses. S/P

is calculated as the ratio of scotopic lumens to

photopic lumens for the light source on an ANSI

reference ballast. Cooler sources (higher-color-

temperature lamps) tend to have higher values of

the S/P Ratio compared to warm sources.

Self-Ballasted Lamps

A discharge lamp with an integral ballasting

device allowing the lamp to be directly connected

to a socket providing line voltage (see CFL).

Series Lamp Operation

Refers to ballasts that employ a single current

path passing through all lamps operated by the

ballast. If one lamp should fail, companion lamps

operated by the same ballasts will also extinguish

or dim.

Spacing to Mounting Height Ratio

Ratio of fixture spacing (distance apart) to

mounting height above the work plane;

sometimes called spacing criterion. It is OK to have

fixture spaced closer than the spacing criterion

suggested by the manufacturer but not farther,

or you will get dark spots in-between fixtures.

Specification Series (SP) Colors

Energy-efficient, all-purpose tri-phosphor

fluorescent lamp colors that provide good color

rendering. The CRI for SP colors is 70 or above

and varies by specific lamp type. See Lamp Color

Chart on inside back cover.

Specification Series Deluxe (SPX) Colors

Energy-efficient tri-phosphor fluorescent lamp

colors that provide better color rendering than

Specification Series (SP) colors. The CRI for SPX

colors is 80 or higher and varies by specific lamp

type. All GE CFL products use SPX phosphors. See

Lamp Color Chart on inside back cover.

Specification Series Deluxe eXtreme (SPXX)

Colors

A color designation for GE ceramic metal halide

lamps with superior color rendering ~ 90.

Specular Reflection

Reflection from a smooth, shiny surface, as

opposed to diffuse reflection.

Spectral Power Distribution (SPD)

A graph of the radiant power emitted by a

light source as a function of wavelength. SPDs

provide a visual profile or “fingerprint” of the color

characteristics of the source throughout the

visible part of the spectrum. Also called “spectral

curve” or “spectrum.”

Spiral® Lamp

GE trademark for its helical family of high-

efficiency, long-life compact fluorescent lamps.

Starcoat®

GE’s special barrier coating applied on the inside

of all GE T8 fluorescent lamps, as well as some

other lamp types, to enhance lamp life and deliver

superior lumen maintenance.

Starter

An electronic module or device used to assist in

starting a discharge lamp, typically by providing a

high-voltage surge (see IGNITOR).

Starting Temperature (Minimum)

The minimum ambient temperature at which the

lamp will start reliably on the ballast.

T12, T8, T5

A designation for the diameter of a tubular bulb in

eighths of an inch; T12 is 12 eighths of an inch, or

1-1/2 inches; T8 is 1 inch, and so on.

Task Lighting

Supplemental lighting provided to assist in

performing a localized task, e.g. a table lamp for

reading or an inspection lamp for fabric inspection.

Terminal-to-Terminal Starting Lamp Voltage

(VRMS) (Minimum or Maximum)

The minimum or maximum voltage allowed

into lamp from ballast under varying conditions

as specified.

TCLP Test

The Toxicity Characteristic Leaching Procedure

(TCLP) test, specified in the Resource Conservation

and Recovery Act (RCRA) of 1990, is used

to characterize fluorescent lamp waste as

hazardous or nonhazardous waste. The TCLP test

measures the ability of the mercury and/or lead in

a lamp to leach from a landfill into ground water.

THD (see TOTAL HARMONIC DISTORTION).

TM21

Technical Memorandum developed by the

Illuminating Engineering Society to provide

method for projecting lumen maintenance of

an LED source, array or module as a function

of temperature. This will allow LED Luminaire

manufacturers to predict lumen depreciation in

their fixtures, based on the operating temperature

of the LED in that package. See also, "L70, L85,

etc."

Total Harmonic Distortion (THD)

A measure of the distortion of the input current

on alternating current (AC) power systems caused

by higher order harmonics of the fundamental

frequency (60Hz in North America). THD is

expressed in percent and may refer to individual

electrical loads (such as a ballast) or a total

electrical circuit or system in a building. ANSI

C82.77 recommends THD not exceed 32% for

individual commercial electronic ballasts,

although some electrical utilities may require

lower THDs on some systems. Excessive THDs

on electrical systems can cause efficiency losses

as well as overheating and deterioration of

system components.

Transients

High voltage surges through an electrical

system caused by lightning strikes to nearby

transformers, overhead lines or the ground.

May also be caused by switching of motors or

compressors, as well as by short circuits or utility

system switching. Can lead to premature ballast

failure (see TVSS).

TRIAC

Genericized tradename for "Triode for Alternating

Current," a device at the heart of many common

residential dimmers. TRIACS reduce the current by

"chopping off" portions of the AC waveform, and

may adversely affect ballasts and drivers that are

not designed to accept such waveform inputs.

Troffer

A long, recessed lighting unit, usually installed in

an opening in the ceiling.

Tungsten Halogen Lamp (see HALOGEN LAMP).

TVSS

Transient Voltage Surge Suppressors, which will

protect ballasts and other electronic equipment

from transient high-voltage spikes that may be

present in the power line.

Two-Pin Compact Fluorescent Lamps

Type of lamps that have the glow bottle starter built

into the base of the lamp. Traditionally 2-pin lamps

are designed to work with electromagnetic ballasts

(see FOUR-PIN COMPACT FLUORESCENT LAMPS).

Ultra

A common way of referring to high-efficiency

GE T8 family of lamps and Ballast that performs

better than standard T8 lamps. Also refers to

the system.

UltraMax® Ballast

A family of high-efficiency GE instant-start

electronic linear fluorescent ballasts designed

to optimize GE’s T8 Ultra lamps for enhanced

system energy savings. UltraMax® ballasts have a

low lamp current crest factor and virtually “read”

and adapt to incoming voltage from 108V to

305V. Other features include UL Type CC Anti-Arc

Rating and anti-striation control to eliminate

lamp striations and spiraling. GE also has an

UltraMax® HID ballast which can operate

PulseArc® and CMH® lamps anywhere from

250 watts to 400 watts and provides greatly

improved lumen maintenance.

UltraStart® Ballast

A family of high-efficiency GE Program Start

electronic linear fluorescent ballasts designed

to optimize GE’s T8 Ultra lamps in frequently

switched applications. Instant-start ballast

provides 10,000 starts. UltraStart® provides

100,000 to 200,000 starts. Use program start

ballast to ensure long lamp life when turning

lamps on and off more that twice a day.

Ultraviolet (UV) Radiation

For practical purposes, any radiant energy within

the range of 100–380 nanometers. It is beyond

the blue or violet region of the spectrum, and is

invisible to the eye just like the silent “ultrasound”

dog whistle is inaudible to the ear.

UV is divided into 3 regions:

UVC ................................................................ 100 to 280 nm

UVB ................................................................ 280 to 315 nm

UVA ................................................................315 to 400 nm

Some wavelengths (180–220) produce ozone,

some (220–300) are bactericidal, some (280–320)

erythemal (redden human skin); others (320–400)

cause secondary luminance (black light).

Ultra Watt-Miser®

GE’s family of energy-saving T8 fluorescent lamps.

Underwriters Laboratories (UL)

A private organization which tests and

lists electrical (and other) equipment for

electrical and fire safety according to

recognized UL and other standards. A UL listing is

not an indication of overall performance. Lamps

are not UL listed except for compact fluorescent

lamp assemblies – those with screw bases and

built-in ballasts.

D-8

Glossary of Terms

Uniform Product Code (UPC)

The 12-digit code on the saleable unit that is used

for scanning at the register.

Veiling Reflection

Effective reduction in contrast between task and

its background caused by the reflection of light

rays; sometimes called “reflected glare.” You

might have dealt with veiling reflections when you

have to tilt a shiny magazine to avoid glare so as

to read it, or struggled with reading a computer

monitor because of the reflection of a window or

a light fixture.

Visual Comfort Probability (VCP)

For a given lighting scheme, VCP is a ratio

expressed as a percent of people who, when

viewing from a specific location and in a specified

direction, find the system acceptable in terms of

glare (see GLARE).

Volt

A measure of “electrical pressure” between two

points. The higher the voltage, the more current

will be pushed through a resistor connected

across the points. The volt specification of an

incandescent lamp is the electrical “pressure”

required to drive it at its designed point. The

“voltage” of a ballast (e.g. 277 V) refers to the line

voltage it must be connected to.

Voltage

A measurement of the electromotive force in

an electrical circuit or device expressed in volts.

Voltage can be thought of as being analogous to

the pressure in a waterline.

Voltage Surge

Transient spikes in line voltage that can be

harmful to electronic equipment like

computers and electronic ballasts. Surge

suppressors are often used to protect against

such transients.

Wall Temperature (Maximum Bulb)

The maximum operating bulb wall temperature in

Celsius.

Warm-Up Time

HID lamps typically take a few minutes to warm

up to full brightness after starting.

Warm-Up Time to 90%

The time it takes for a High Intensity Discharge

lamp to reach 90% of light output after being

turned on.

Warm White

Refers to a color temperature around 3000K,

providing a yellowish-white light.

Watt

A unit of electrical power. Lamps are rated in watts

to indicate the rate at which they consume energy

(see KILOWATT HOUR).

Wattage Indicator Reduced

Indicates that this is a reduced wattage option for

lamps normally used in this application. Be sure

to check wattage, lumens and life to determine

which lamp is best suited to your needs.

Watt-Miser®

A Watt-Miser® lamp is a term used by GE

to indicate a reduced-wattage lamp with

performance characteristics (life, light output, etc.)

such that it can usually directly replace a higher-

wattage product. Watt-Miser® lamps are available

in a wide range of incandescent, fluorescent and

HID lamp types.

Wavelength

The distance between two neighboring crests of a

traveling wave. The wavelength of light is between

400 and 700 nanometers.

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Appendix

About 35% of the electricity bill of commercial and industrial buildings is

lighting. Upgrading to more energy-efficient lighting is an easy way to

significantly reduce the overhead costs of running a business. Additional

savings can be realized from using long-life lamps that reduce maintenance

costs. Further, energy-efficient lighting also reduces the air-conditioning load

on the HVAC system and provide greater energy savings.

Users need to be reminded that energy is usually the highest portion of the

cost of lighting. A single T12 lamp will use about $100 of energy over its life; a

single 400W metal halide lamp will use over $1000 in energy over life.

Remember, the products currently used in many buildings today are using

products that are effectively obsolete due to technology improvements that

have occurred over the last few years. There are several additional reasons

to consider lighting upgrades today.

1) Legislation: many less-efficient products are being phased out by

Government regulation. In each case there are better, more efficient , longer

life replacements available that bring benefit both to the end-user and to

the national economy because of energy savings.

2) Energy Reduction, both direct and indirect HVAC

3) Improvements in ambiance, productivity and user-satisfaction

4) Maintenance savings from longer life products

5) Environmental benefits from reduced energy consumption leading to

reduced emissions, reduced or no-mercury, longer life.

6) Rebates offered by many utility companies. These rebates may go away

as more and more inefficient products are eliminated

7) Tax deduction provisions of the Energy Policy Act (EPASCT) for lighting

upgrades completed by end of 2013

Upgrades can involve something as simple as unscrewing the old bulb and

screwing in the new bulb. However, in many cases ballasts and lamps are

replaced in the existing fixture, or a retrofit kit is used to insert new holders

and reflectors. Sometimes it is economically justified to replace the entire

fixture with e new fixture.

Affected products that have been eliminated by legislation or are facing

elimination in the immediate future based on efficiency requirements are

listed in the next column:

Products Eliminated by Legislation

Incandescent Bulbs: Incandescent bulbs convert only 4% to 7% of the

electrical energy into light; the rest is wasted as heat. Legislation in the US

and many other countries is progressively banning the use of incandescent

bulbs in most regular applications. A single incandescent 100-watt bulb

operated for an entire year (8760 hrs.) will require the burning of over 1000

pounds of coal in a coal-fired power plant to generate the electricity it uses.

Replacing it with an efficient LED or CFL (Compact Fluorescent Lamp) will cut

energy consumption and greenhouse gas emission by 75% in addition to

saving over $70 per socket at the prevailing average national energy rate of

11 cents per kWh. These products also last 10 times to 30 times longer!

Halogen Reflector Lamps: Although more efficient than standard

incandescent lamps, halogen lamps are still using a hot tungsten filament to

generate light. The latest HIR+ product s from GE use an infra-red reflecting

film in the filament tube, and silverized reflectors to increase performance.

Upgrading to these HIR+ products or to significantly more efficient, long

life LED products provide significant energy savings. In many cases CMH

(ceramic Metal Halide) reflector lamps can be considered, either with integral

ballasts or with external ballasts. Halogen floods can be replaced with CFLs.

T12 Linear Fluorescent Lamps and some lower-performing T8s: These have

been legislated away since very efficient, high-performance T8 systems are

available. Also, LED fixtures are becoming a viable option to be considered for

offices and classrooms. It is possible to obtain up to 45% energy savings with

out loss of light when upgrading from T12 systems.

Standard Metal Halide lamps and ballasts: The old “probe start” metal

halide lamps on magnetic ballasts are now eliminated by legislation for new

construction, although replacement products for existing installations are still

available. Upgrade options include Pulse-Start or CMH (Ceramic Metal Halide)

on magnetic or electronic ballasts. For Industrial and High-bay attractive

financial returns can be obtained by going to multi-lamp T8 or T5/HO fixtures.

In outdoor lighting applications like parking lots and roadway, many users

are upgrading from HID to LED fixtures for energy and maintenance savings.

Contact your GE distributor or GE sales rep for a simple lighting audit and a

financial analysis of the benefits of lighting upgrades at your facility.

The Value of Lighting Upgrades

D-10

LED (Light Emitting Diode) is a semiconductor chip that emits visible light

when energized. LEDs are also referred to as solid state lighting (SSL) devices.

One of the first references to LEDs came in 1907 when Marconi’s assistant

Henry Round reported it in a letter to Electrical World after observing light

emission from carborundum (silicon carbide, SiC). Round was experimenting

with cat’s whisker detectors, a device used in early crystal radios. Later, in

1920 the Russian scientist Oleg Losov studied the phenomenon in greater

detail, publishing a number of papers on the current-voltage characteristics

of SiC.

However the modern father of visible LEDs is considered to be Nick Holonyak

who invented a red LED in 1962 while working at a GE lab in Syracuse, NY.

Later, he moved to the University of Illinois at Urbana and a student of his,

George Craford went on to invent yellow, orange and green LEDs. Finally, in

the 1990s, several researchers at Nichia laboratories in Japan found ways to

make efficient blue LEDs and the modern white LED was born.

Light emission from LEDs

LEDs are made of semiconducting material, not unlike what is found in

transistors and computer chips. Electrons from the “n” or negative material

flow into the “p” or positive material across a junction, where they encounter

“holes” . When an electron falls into a hole a photon is emitted corresponding

in energy to the energy lost by the electron.

If this primary photon is in the blue region of he spectrum, it is possible

to add phosphors that absorb the high energy blue photon and re-emit

lower energy photons of green, yellow, orange or red colors. Based on the

thickness and composition of the phosphor, the color of the LED source

can be changed from blue to cool white to very warm white. In general, the

higher color temperature LEDs (cool color) have less phosphors and are more

efficient with higher lumens per watt (LPW). Warm LEDs have to use more

phosphor and pay a small price in LPW if the warmer color is desired.

Obtaining white light from blue LEDs

Schematic of an LED Device

Primary Blue Emission

Secondary Fluorescence

from added Phosphors

300 400 500 600 700 800

nanometers

EXTERNAL HEAT SINK

DIELECTRIC BASEPLATE

HEAT SINK

SLUG

PHOSPHOR

n-p JUNCTION

LED DIE

JUNCTION

TEMPERATURE

CASE

TEMPERATURE

BOARD

TEMPERATURE

AMBIENT

TEMPERATURE

Key determinants of performance

Long-term performance of LEDs is critically determined by the junction

temperature of the LED—the junction being the layer where most of the

primary light emission is occurring. Even though each individual LED

generates only about a watt of heat, this heat can destroy the semiconductor

material if it is not rapidly conducted away.

The LED chip manufacturer will often rate the LED at 100,000 hours based on

the junction temperature being kept below a specified point. If overheated,

a 100,000 hour LED can easily die in 10,000 hours or 1000 hours, or even

100 hours.

Thermal management of the LED, achieved through well designed heat-

sinks and conduction paths is the key factor that determines LED longevity.

Reliable life testing of LEDs in the finished configuration under field conditions

is the only way to determine how long an actual lamp or fixture is likely

to last. ANSI standard TM21 specifies how to test and rate LED life and all

reputable LED manufacturers will refer to this document to validate their

life ratings.

Sorting (binning) of LEDs

LED manufacturers constantly work to manage process variation and maximize

yield. To this end, LEDs are sorted by three criteria—forward voltage, light

output and color—and placed in appropriate “bins.” ANSI requirements call

for roughly a “seven step” equivalent cell, each step being the minimum

color difference perceptible to the human eye. However, for more demanding

applications, it is possible to pay a little more and require tighter binning,

e.g. to three-steps.

The Future of LEDs

LEDs are the most promising breakthrough in Lighting in half a century. The

boundaries of efficiency and life are being extended almost on a daily basis.

The US Department of Energy says, “… Light Emitting Diodes (LEDs), has the

potential to revolutionize the efficiency, appearance, and quality of lighting as

we know it.“ Some experts estimate that LEDs might approach 200 lumens

per watt within a few years.

LEDs for General Lighting

gelighting.com

D-11

gelighting.com

Appendix

Ballast cross reference matrix

Prod Code Description Advance P/N Universal P/N OSI P/N

T8 Fluorescent Ballasts

T8 INSTANT START BALLASTS

UltraMax® Instant Start Multi-Voltage High Efficiency

72258 GE132MAX-L/ULTRA IOP-1P32LW-SC B132IUNVEL-A

72259 GE132MAX-N/ULTRA IOP-1P32-SC B132IUNVHE-A QHE 1X32T8/UNV ISN-SC-1

73190 GE232MAX-H/ULTRA IOP-2P32HL-SC B232IUNVHEH-A

72262 GE232MAX-L/ULTRA IOP-2P32LW-SC B232IUNVEL-A

72266 GE232MAX-N/ULTRA IOP-2P32-SC B232IUNVHE-A QHE 2X32T8/UNV ISN-SC-1

71421 GE232MAX-N+

71714 GE332MAX-H/ULTRA IOP-3P32HL-90C-SC B332IUNVHEH-A

71717 GE332MAX-L/ULTRA IOP-3P32LW-SC B332IUNVEL-A

71719 GE332MAX-N/ULTRA IOP-3P32-SC B332IUNVHE-A QHE 3X32T8/UNV ISN-SC-1

71422 GE332MAX-N+

71723 GE432MAX-H/ULTRA IOP-4P32HL90CG

71725 GE432MAX-L/ULTRA IOP-4P32LW-SC B432IUNVEL-A

71727 GE432MAX-N/ULTRA IOP-4P32-SC B432IUNVHE-A QHE 4X32T8/UNV ISN-SC-1

74117 GE632MAX-H90

71423 GE432MAX-N+

72261 GE159MAX-N/ULTRA IOP-2P59-SC

73199 GE259MAX-L/ULTRA B259I120HPL/B259I277HPL QHE 2x59T8/UNV-ISI-SC

49767 GE259MAX-N/ULTRA IOP-2P59-SC QHE 2x59T8/UNV ISN-SC-B

UltraMax® Instant Start 347V High Efficiency

74093 GE232MAX347-N GOPA-2P32-SC QHE2X32T8/347 ISN-SC

74094 GE332MAX347-N GOPA-3P32-SC QHE3X32T8/347 ISN-SC

74095 GE432MAX347-N GOPA-4P32-SC QHE4X32T8/347 ISN-SC

74096 GE232MAX347-L GOPA-2P32-LW-SC B232I347L-A, B232I347HPL QHE2X32T8/347 ISL-SC, QT2X32T8/347 ISL-SC

74097 GE332MAX347-L GOPA-3P32-LW-SC B332I347L, B332I347HPL QHE3X32T8/347 ISL-SC

74098 GE432MAX347-L GOPA-4P32-LW-SC B432I347L, B432I347HPL QHE4X32T8/347 ISL-SC, QT4X32T8/347 ISL-SC

74109 GE232MAX347-H QT2X32T8/347 ISH-SC

74111 GE332MAX347-H B332IHRVH-E, B332IHRVHB-E

74113 GE432MAX347-H

UltraMax® Instant Start 480V High Efficiency

62718 GE232MAX480-H

62719 GE332MAX480-H B332IHR VHB-E

62720 GE432MAX480-H QHE4X32T8/347-480 ISH-HT

ProLine® T8 Multivolt 120V – 277V

72269 GE-132-MV-N ICN-1P32-SC/IOPA-1P32-SC B132IUNVHP-B

QTP 1X32T8/UNV ISL-SC/

QHE 1X32T8/UNV ISN-SC

74803 GE-232-MV-H

REL-2P32-HL-SC/VEL-2P32-HL-SC/

IOPA-2P32-HL B232I120RHH-A/B232I277RHH-A

QTP 2X32T8/UNV ISH-SC/

QHE 2X32T8/UNV ISH-SC

72273 GE-232-MV-L ICN-2P32LW-SC/IOPA-2P32LW B232I120L-A/B232I277L-A

QTP 2X32T8/UNV ISL-SC/

QHE 2X32T8/UNV ISL-SC

72275 GE-232-MV-N ICN-2P32-SC/IOPA-2P32-SC B232IUNVHP-B

QTP 2X32T8/UNV ISN-SC/

QHE 2X32T8/UNV ISN-SC

74461 GE-332-MV-H

REL-3P32-HL-SC/VEL-3P32-H L-SC/

IOPA-3P32-HL B332I120RHH-A/B332I277RHH-A

QTP 3X32T8/UNV ISH-SC/

QHE 3X32T8/UNV ISH-SC

74459 GE-332-MV-L ICN-3P32LW-SC/IOPA-3P32LW B332I120L- A /B332I277L-A

QTP 3X32T8/UNV ISL-SC/

QHE 3X32T8/UNV ISL-SC

74456 GE-332-MV-N ICN-3P32-SC/IOPA-3P32-SC B332IUNVHP-B

QTP 3X32T8/UNV ISN-SC/

QHE 3X32T8/UNV ISN-SC

74463 GE-432-MV-H

REL-4P32-HL-SC / VEL-4P32-HL-SC /

IOPA-4P32-HL B432I120RHH-A/B432I277RHH-A QHE 4X32T8/UNV ISH-SC

74466 GE-432-MV-L ICN-4P32LW-SC/IOPA-4P32LW B432I120L-A/B432I277L-A

QTP 4X32T8/UNV ISL-SC/

QHE 4X32T8/UNV ISL-SC

30193 GE-432-MV-N ICN-4P32-SCIOPA-4P32SC B432IUNVHP-B

QTP 4X32T8/UNV ISN-SC/

QHE 4X32T8/UNV ISN-SC

30195 GE-159-MV-N REL-2P59-SC/ VEL-2P59-SC

74469 GE-259-MV-N REL-2P59-SC / VEL-2P59-SC B259IUNVHP-B

QTP 2X59T8/UNV ISN-SC/

QHE 2X59T8/UNV-ISN-SC

ProLine® T8 Multivolt High Output 120V – 277V

63888 GE-286-HO-MV-N ICN-2S86 B286I120RH/B286I277RH

QHE 2X86T8HO/UNV-PSN-HT-SCL/

QHE2X59T8/UNV-ISH

ProLine® T8 Instant-Start High-Performance 120V

23680 GE-132-120-N REL-1P32-SC B132I120RH-A QT1X32T8/120/ISN-SC

23681 GE-132-277-N VEL-1P32-SC B132I277RH-A QT1X32T8/277/ISN-SC

23671 GE-232-120-N REL-2P32-SC B232I120RH-A QT2X32T8/120/ISN-SC

23673 GE-332-120-N REL-3P32-SC B332I120RH-A QT3X32T8/120/ISN-SC

23674 GE-332-277-N VEL-3P32-SC B332I277RH-A QT3X32T8/277/ISN-SC

23675 GE-432-120-N REL-4P32-SC B432I120RH-A QT4X32T8/120/ISN-SC

23677 GE-259-120-N REL-259 -SC QT2X59/120IS

See page E-1 for warranty information.

D-12

Ballast cross reference matrix (cont.)

Prod Code Description Advance P/N Universal P/N OSI P/N

T8 Fluorescent Ballasts - Continued

T8 INSTANT START BALLASTS - CONTINUED

ProLine® T8 Instant-Start High-Performance 347V

74101 GE132-N-347 B132I347HP, B132I347RH

QHE1X32T8/347 ISN-SC,

QTP1X32T8/347/ISN-SC

74103 GE232-N-347 B232I347HP-A, B232I347RH-A QTP2X32T8/347 ISN-SC

74105 GE332-N-347 B332I347HP QT3X32T8/347 ISN-SC

74107 GE432-N-347 B432I347HP, B432I347RH QT4X32T8/347 ISN-SC

74099 GE259-N-347 B259I347HP QT2X59/347 IS

Residential Grade ProLine® T8 120V

97782 GE232-120-RES REB232-SC B232I120RES-A QTR 2x32T8/120 ISN-SC

97783 GE432-120-RES REB4P32-SC B432I120RES-A QTR 4x32T8/120 ISN-SC

Electromagnetic T8 Ballasts

87125 GEM232T8RS120 R-2P32-TP M232SR120C

87130 GEM232T8RS277 V-2P32-TP M232SR277C

T8 PROGRAM START BALLASTS

UltraStart® T8 Program Rapid Start

75952 GE132-MVPS-L IOP-1S32-LW-SC QTP 1x32T8/UNV PSX-TC

75953 GE132-MVPS-N IOP-1S32-SC B132PUNVHP-A QTP 1X32T8/UNV PSN-TC

75954 GE132-MVPS-H

96714 GE232-MVPS-N IOP-2S32-SC B232PUNVHP-A QTP 2X32T8/UNVPSN-TC

96720 GE232-MVPS-L IOP-2S32-LW-SC QTP 2X32T8/UNV PSX-TC

29675 GE-232-MVPS-H QHE2x32T8/UNV-PSH-HT

29671 GE-232-MVPS-XL

29676 GE-332-MVPS-H

96715 GE332-MVPS-N IOP-3S32-SC B332PUNVHP-A QTP 3X32T8/UNVPSN-SC

96721 GE332-MVPS-L IOP-3S32-LW-SC QTP 3X32T8/UNV PSX-SC

29672 GE-332-MVPS-XL QHE3x32T8/UNV-PSH-HT

96716 GE432-MVPS-N IOP-4S32-SC B432PUNVHP-A QTP 4X32T8/UNVPSN-SC

71832 GE432-MVPS-L IOP-4S32-LW-SC QTP 4X32T8/UNV PSX-SC

29678 GE-432-MVPS-H QHE4x32T8/UNV-PSH-HT

T8 Bi-Level Switching & Load Shed 0–10V Dimming

73233 GE232MAX90-S60

73234 GE232MAX90-V60

73231 GE332MAX90-S60

73232 GE332MAX90-V60

73229 GE432MAX90-S60

73230 GE432MAX90-V60

71497 GE632MAX-H90-S60

71731 GE632MAX-H90-V60

T8 Dimming 0–10V

75379 GE132MVPS-N-V03 IZT-132-SC B132R120V5/B132SR277V5

75380 GE232MVPS-N-VO3 VZT-2S32/IZT-232-SC/ILV-2S32-SC B232SR120V5/B232SR277V5

75381 GE332MVPS-N-VO3 VZT-3S32/IZT-332-SC B332SR120V5/B332SR277V5

75382 GE432MVPS-N-VO3 VZT-4S33V/IZT-432-SC/ILV-4S32-G B423SR120V5/B432SR277V5 QTP 4x32T8/277 DIM PLUS-TCL

75383 GE232MVPS-H-V03

75384 GE332MVPS-H-V03

75385 GE432MVPS-H-V03

T5 Fluorescent Ballasts

T5 ELECTRONIC PROGRAMMED START BALLASTS

UltraStart® T5 Programmed Rapid Start

99653 GE228MVPSH-A B228PUNV115-D QTP2X28T5/UNVPSN NL

99655 GE228MVPS-A ICN-2S28 B228PUNV95-D QTP2X28T5/UNVPSN-E

47534 B224PUNV-C ICN-2S24 B224PUNV-D QTP2X39-24T5HO/UNVPSN NL

47540 B239PUNV-D ICN-2S39 B239PUNV-D QTP2X39-24T5HO/UNVPSN NL

67562 GE254MVPS90-A ICN-2S54-90C B254PUNV-D QTP 2X54T5HO/UNV PSN HT

72279 GE254MVPS-D ICN-2S54 B254PUNV-D QTP2X54T5HO/UNVPSN NL

73192 GE454MVPS90-G ICN4S5490C2LSG B454PUNV-E QTP 4X54T5HO/UNV PSN HTW NL

77114 GE454MVPS90-E ICN4S5490C2LS QTP 4X54T5HO/UNV PSN HT

72280 GE180MVPS-D ICN-1S80-120V/ICN-1S80-277V ES4515K QTP1X80T5HO/UNVPSN NL

UltraStart® T5 Programmed Rapid Start 347-480V

62728 GE254PS347/480-F HOP2PSP54L/347-480V B254PHRVHB-E QHE2x54T5HO/347-480PSN-HT

62729 GE254PS347-F HOP2PSP54L/347V

62730 GE454PS347/480-E HOP4PSP542LSG/347-480V QHE4x54t5HO/347-480PSN-HT-SCL

62731 GE454PS347-F HOP4PSP542LSG/347V

See page E-1 for warranty information.

D-13

gelighting.com

Appendix

Prod Code Description Advance P/N Universal P/N OSI P/N

T12 Fluorescent Ballasts

T12 ELECTRONIC BALLASTS

ProLine® T12 Multivolt 120V – 277V

74472 GE-240-RS-MV-N ICN-2S40-N B240R120HP/B240R277HP

QTP2X40T12/120RSN-SC/

QTP2x40T12/277 RSN-SC

97498 GE240RS120 REL-2S40-SC/RELB-2S40-SC B234SR120M-A QTP2X40T12/120RSN-SC

75672 GE140RS120 REL-1S40 -SC B134SR120M-A QTP1X40T12/120/277RSN-SC

24109 GE-340-RS-MV-N R-3S34-TP/V-3S34-TP B340R120HP/B340R277HP QTP3X40T12/120/277RSN

74474 GE-260-IS-MV-N R2E75STP B260IUNVHP QT2x96/120IS/QT2x96/277IS

75671 GE296HO-MV-N REL/VEL-2P60-S-A/REL/VEL-2S110 B295SRUNVHP/120HP/277HP QT2x96/120HO/QT2x96/277HO

T12 MAGNETIC BALLASTS

89720 GEM1FC16T9RS120 RMS-3240-TP-W 726VLHWSTCP

86227 GEM1FC8T9RS120IP RLQS-122-TP-W 547RSWSTCP

89717 GEM1FC12T9RS120 RS-22-32-TP-W 449LRWSTCP

80819 GEM220TS120DIY RS-2SP20-TP 447LRVLHTCP

80644 GEM230RS120 RM-2SP30-TP 573LTCP

T12 ELECTRONIC FOR MAGNETIC

75672 GE140RS120 LC-14-20-C-TP/HM1P30TPI 200H2

75672 GE140RS120 RLQ-120-TP 546BTCP

75672 GE140RS120 R-140-TP 412LSLHTCP

75672 GE140RS120 RL-140 -TP 413CTCP

97498 GE240RS120 R2S34-TPI/RS240TPI 420LTCP

97498 GE240RS120 RM2SP30TPI 446LSLHTCP

74472 GE-240-RS-MV-N V2S40TP/V2S34TPI/V140TPI 443LSLHTCP

74472 GE-240-RS-MV-N MTM-2S40-TP 754LTCP

74474 GE-260-IS-MV-N RSM175STP/SM140STPI/SM2E40STPI 822BRTCP

74474 GE-260-IS-MV-N VSM175STP 828BRTCP

74474 GE-260-IS-MV-N R2E75STP 806SLHTCP

74474 GE-260-IS-MV-N V2E75STP 827SLHTCP

75671 GE296HO-MV-N R-2S110-TP/RC2S85TPM 480SLHTCP

75671 GE296HO-MV-N V-2S110-TP/VC2S85TPM 487SLHTCP

Sign Ballasts

72103 GESB-0412-12-IP ASB-0412-12-BL-TP USB-0412-12-IP MSB-12-0412-TP

72104 GESB-0620-24-IP ASB-0620-24-BL-TP USB-0816-14-IP MSB-24-0620-TP

72105 GESB-1224-24-IP ASB-1224-24-BL-TP USB-1024-14-IP MSB-24-1224-TP

72106 GESB-1240-46-IP ASB-1240-46-BL-TP USB-2036-46-IP MSB-46-1240-TP

72107 GESB-2040-46-IP ASB-2040-24-BL-TP USB-1632-24-IP MSB-24-2040-TP

72108 GESB-2448-46-IP ASB-2448-46-BL-TP USB-2048-46-IP MSB-46-2448-TP

Compact Fluorescent Ballasts

CFL ELECTRONIC

63091 GEC213-MVPS-BES ICF-2S13-BS C213UNVBS QTP1/2X13CF/UNVBS

63092 GEC213-MVPS-SE ICF-2S13-LD C213UNVBES QTP1/2X13CF/UNVTS

63089 GEC213-MVPS-3W ICF-2S13-H1-LD-K C213UNVME00K QTP 1/2x13CF/UNV

63094 GEC218-MVPS-BES ICF-2S18-BS C218UNVBS QTP1/2X18CF/UNVBS

63096 GEC218-MVPS-SE ICF-2S18-LD C218UNVBES QTP1/2X18CF/UNVTS

63093 GEC218-MVPS-3W ICF-2S18-H1-LD-K C218UNVME000K QTP 1/2x18CF/UNV

63098 GEC226-MVPS-BES ICF-2S26-BS C2642UNVBES-IP QTP2X26CF/UNVBS

63099 GEC226-MVPS-SE ICF-2S26-LD C2642UNVSE-IP QTP2X26CF/UNVTS

63097 GEC226-MVPS-3W ICF-2S26-H1-LD-K QTP 1/2x26CF/UNV

63101 GEC242-MVPS-BES ICF-2T42-M5-BS C2642UNVBE QTP2X26/32/42CF/UNVPM

63102 GEC242-MVPS-SE ICF-2T42-M5-LS C2642UNVSE QTP2X26/32/42CF/UNVTM

63100 GEC242-MVPS-3W ICF-2T42-M5-BS C2642UNVSE QTP2X26/32/42CF/UNVTM

75948 GEC140MAX-A ICN-1T TP40

75950 GEC225MVPS-A

71437 GEC240MVPS-A REL-2T TS 40 C240PUNVHP-B-IP QHE 1x40/UNV DL ISN-SC

71435 GEC240MAX-A

RCN-2TTP40-SC / VCN2TTP40-SC /

ICN-2TTP40-SC C240SI120RH-IP / C240SI277RH-IP QHE 2x40/UNV DL ISN-SC

71436 GEC340MAX-A

RCN-3TTP40-SC / VCN-3TTP40-SC/

ICN3TTP40-SC C340SI120RH-IP/C340SI277RH-IP QHE 3x40/UNV DL ISN-SC

87533 GEM1CF13PH120 LC-13-TP 4111H2P

87655 GEM2CF13PH277 VH-2B13-TP-BLS 4214PBES

See page E-1 for warranty information.

D-14

Ballast cross reference matrix (cont.)

Prod Code Description Advance P/N Universal (Vossloh Schwabe) OSI P/N

HID Electronic Ballasts

87490 GEMH20-MLF-120 RMH-G20-K M2012CK-7EUN-F QTP1X20MH/UNV F

74115 GEMH20-MC-120 RMH-G20-K M2012CK-7EUN-F

63042 GEMH20-MSJ-MV IMH-G20-G M2012-27CK-6EU-J

63043 GEMH20-MSF-MV IMH-G20-G M2012-27CK-5EU-F

75378 GEMH39-MCM-120 RMH-39-K M3912CK-7EUN

74116 GEMH39-MC-120 RMH-39-K M3912CK-6EUN-F

63044 GEMH39-MSJ-MV IMH-39-G M3912-27CK-5EU

63045 GEMH39-MSF-MV IMH-39-E M3912-27CK-6EU-F

87531 GEMH70-MSF-120 IMH-70-G M7012CK-6EUN-F QTP1X70MH/UNV F

87546 GEMH70-SLJ-MV IMG-70-G M7012-27CK-5EU QTP1X70MH/UNV J

87561 GEMH100-SLJ-MV IMG-100-A-BLS M10012-27CK-5EU-F QTP1X100MH/UNV J

87576 GEMH150-SLJ-MV IMG-150-H-BLS M15012-27CK-5EU-J

29377 GE-MH-250-400-MA IZTEMH4003PS QHE1XxxxMH 208-277V

89646 GEMH250-400M-V50 EPXXXMRVASE

HID Electromagnetic Ballasts

Metal Halide

63073 GEM50MLTLA3D-5 71A5181-500D M50MLTLC3M500K M50/MULTI-KIT

86847 GEM70MLTLA3D-5 71A5280-500D M70MLTLC3M500K M70/MULTI-KIT

78517 GEM70TRILC3-5 71A52A2-001D M70TRILC3M502K

67337 GEM7048TLA3D-5 NA M7048TLC3M500K

86675 GEM100MLTLA3D-5 71A5390-001D M100MLTLC3M500K M100/MULTI-KIT

78519 GEM100TRILC3-5 71A53A0-001D M100TRIL3M502K

67333 GEM10048TLA3D-5 71A5340-500DT M10048TLC3M500K

86718 GEM150MLTLA3D-5 71A5492-500D M150MLTLC3M500K M150/MULTI-KIT

78520 GEM150TRILC3-5 71A54A2 M150TRIL3M502K

86711 GEM15048TLC3D-5 71A5442-500DT M15048TLC3M500K

63078 GEM175ML5AA3-5 71A3042-001D M175ML5AC3M500K

78521 GEM175TRIAC3-5 71A55A0-0001D M175TRIAC30502K

86741 GEM175MLTAA3-5 71A5570-001D M175MLTAC3M500K M175/MULTI-KIT

87211 GEM250ML5AC3-5 71A5750-001D M250ML5AC3M500K

63077 GEM250MLTAA3-5 71A3542-001D M250MLTAC3M500K M1250/MULTI-KIT

78522 GEM250TRIAC4-5 71A56A0-001D M250TRIAC4M502K

87212 GEM250ML5AA4-5 71A5750 M250ML5AC4M500K

72300 GEM400ML5AA4-5 71A6051-001D M400ML5AC4M500K

72149 GEM400MLTAA4-5 71A6071-001D M400MLTAC4M500K M400/MULTI-KIT

78523 GEM400TRIAC4-5 71A60A1-001D M400TRIAC4M502K

63070 GEM40048TAA4-5 71A6042-500DT M40048TAC4M500K

78524 GEM1000TRIAC5-5 71A67A2- 001 M1000TRIAC5M502K

63069 GEM100048TAA5-5 71A6542-001 M100048TAC5M500K M1000/480-KIT

87213 GEM1000ML5AA5-5 71A6552-001 M1000ML5AC5M500K

86655 GEM1000MLTAA5-5 71A6572-001 M1000MLTAC5M500K M1000/MULTI-KIT

86693 GEM150048TAC5-5 71A6742-001 M150048TAC5M500K M1500/480-KIT

86698 GEM1500MLTAC5-5 71A6772-001 M1500MLTAC5M500K M1500/MULTI-KIT

Pulse Start

67335 GEP175MLTAA3-5 71A5593-001D P175MLTAC3M500K

78525 GEP175TRIAC3-5 71A55A3 P175TRIAC3M502K

67334 GEP17548TAA3-5 71A5543-500DT P17548TAC3M500K

78526 GEP200TRIAC3-5 71A56A2 P200TRIAC3M502k

67344 GEP250MLTAA4-5 71A5792-001D P250MLTAC4M500K M250/MULTI-PS-KIT

78527 GEP250TRIAC4-5 71A57A2 P250TRIAC4M502K

67336 GEP25048TAA4-5 71A5742-500DT P25048TAC4M500K M250/480-PS

86959 GEP320MLTAC4-5 71A5892-001D P320MLTAC4M500K M320/MULTI-PS-KIT

78528 GEP320TRIAC4-5 71A59A2 P320TRIAC4M502K

67342 GEP32048TAA4-5 71A5842-500DT P32048TAC4M500K M320/480-PS-KIT

86968 GEP320TRIAC4-5 71A5837-001D P320TRIAC4M502K

78529 GEP350TRIAC4-5 71A59A3 P350MLTAC4M500K

67346 GEP350MLTAA4-5 71A5993-001D P350MLTAC4M500K

78530 GEP400TRIAC4-5 71A60A2 P400TRIAC4M502K

67341 GEP40048TAA4-5 71A6042-500DT P40048TAC4M500K M400/480-PS-KIT

67347 GEP400MLTAA4-5 71A6092-001D P400MLTAC4M500K M400/MULTI-PS-KIT

86839 GEP750TRIAC5-5 71A64F0-T P750TRIAC5M502K M750/120/277/347/480 -PS-KIT

67347 GEP75048TAA5-5 71A64F2-500DT P75048TAC5M500K

67350 GEP750MLTAA5-5 71A64E2-500D P750MLTAC5M500K

78532 GEP1000TRIAC5-5 71A65F1-T M1000/120/277/347/480-PS-KIT

67348 GEP1000MLTAA5-5 71A6593-500 P1000MLTAC5M500K

67349 GEP1000ML5AA5-5 71A6553-500 P1000ML5AC5M500K

See page E-1 for warranty information.

D-15

gelighting.com

Appendix

See page E-1 for warranty information.

Prod Code Description Advance P/N Universal (Vossloh Schwabe) OSI P/N

HID Electromagnetic Ballasts - Continued

High Pressure Sodium

87152 GES50MLTLA3D-5 71A7801-001D S50MLTLC3M500K LU5 0/DUAL-KIT

78533 GES50TRILC3-5

86587 GES70MLTLA3D-5 71A7971-001D S70MLTLC3M500K LU70/MULTI-KIT

78534 GES70TRILC3-5 71A79A1-001D S70TRILC3M502K

67340 GES7048TLA3D-5 71A7941-001D S7048TLC3M500K

87074 GES100MLTLA3D-5 71A8001-001D S100MLTLC3M500K LU100/MULTI-KIT

78535 GES100TRILC3-5 71A80A1-001D S100TRILC3M502K

67338 GES10048TLA3D-5 71A8041-001D S10048TLC3M500K LU100/480-KIT

87094 GES150MLTLA3D-5 71A8172-001D S150MLTLC3M500K LU150/MULTI-KIT

78536 GES150TRILC3-5 71A81A2-001D S150TRILC3M502K

67339 GES15048TLA3D-5 71A8142-001D S15048TLC3M500K LU150/480-KIT

87214 GES250ML5AA4-5 71A8251-001D S250ML5AC4M500K

78537 GES250TRIAC4-5 71A82A1-001D S250TRIAC4M502K

87121 GES250MLTAA4-5 71A8271-001D S250MLTAC4M500K LU250/MULTI-KIT

63066 GES400ML5AA4-5 71A8453-001D S400ML5AC4M500K

87164 GES400MLTAA4-5 71A8473-001D S400MLTAC4M500K LU400/MULTI-KIT

78539 GES400TRIAC4-5 71A84A3-001D S400TRIAC4M502K

87198 GES40048TAA4-5 71A8443-001D S40048TAC4M500K LU400/480-KIT

78540 GES1000TRIAC5-5 71A87A3-001 S1000TRIAC5M502K

67351 GES100048TAA5-5 71A8743-001 S100048TAC5M500K LU1000/480-KIT

87218 GES1000ML5AA5-5 71A8753-001 S1000ML5AC5M500K

67352 GES1000MLTAA5-5 71A8773-001 S1000MLTAC5M500K LU1000/MULTI-KIT

HID Lamp - Ballast Kits

71701 GEM175ML5AC3-55 77L5570-001D

71702 GEM250ML5AC3-55 77L5770-001D

71703 GEM400ML5AC4-55 77L6051-001D

71704 GEM1000ML5AC4-55 77L6552-001

71705 GES100MLTLC3D-55 77L8071-001D-MED

71706 GES250ML5AC4-55 77L8251-001D

71707 GES400ML5AC4-55 77L8453-001D

F-Can & Post Mount Metal Halide

63046 GEMH50MVR-F 72C5181-NP 1120236CTC

86576 11210277CTC000C 72C5280-NP 11210277CTC

63047 GEMH70MVR-F 72C5282-NP 11210277CTC

86578 11210506CTC000C 72C5282-NP 11210506CTC

63048 GEMH100MVR-F 72C5381-NP 11210239CTC

63049 GEMH150MVR-F 72C5482-NP 11210539CTC

63050 GEMH175MVA-F 72C5581-NP 1110245SCTC

63051 GEMH250MVA-F 72C5782-NP 1110246CTC

63052 GEMH400MVA-F 72C6082-NP 1111-247SCTC

80728 1111-247SCTC000I 72C6082-NP 1111-247SCTC

F-Can & Post Mount HPS

86605 1233142U000I 71A7907-001DB 1233142U000I

86596 12210237CTC000I 72C7984-NP 12210237CTC000I

86606 1233154U000I 71A8107-001DB 1233154U000I

HID Ignitors

75440 MH350-1A LI553-H4-IC

75441 MH750-1B LI573-H5-IC

86606 HPS150-3A LI551-J4-IC

86607 HPS400-3A LI501-H4-IC

HID CAPACITORS

75434 GECAP-15/440V-O 7C150P40-R

75435 GECAP-24/400V-O 7C240P40-R

75668 GECAP-24/480V-O MD2409-00

75669 GECAP-12/280V-O

75422 GECAP-35/240V-O 7C350P24RA

75423 GECAP-5/240V-O 7C550P24RA

75437 GECAP-12/280V-O

D-16

Discontinued Catalog Products

Prod

Code Description

Suggested

Replacement

Prod

Code

23672 GE-232-277-N GE-232-MV-N 72275

23674 GE-332-277-N GE-332-MV-N 74456

23676 GE-432-277-N GE-432-MV-N 74463

23678 GE-259-277-N GE259MV-N 74469

23681 GE-132-277-N GE-132-MV-N 72269

23939 GE132MAX-N-DIY NA

23940 GE232MAX-N-DIY NA

23942 GE432MAX-N-DIY NA

24162 GE-132-277-N-84T GE-132-MV-N-42T 72240

24164 GE-232-277-N-84T GE-232-MV-N-42T 72276

24166 GE-332-277-N-84T GE-332-MV-N-42T 74457

24168 GE-432-277-N-84T GE-432-MV-N-42T 74464

24170 GE-259-277-N-84T GE-259MV-N-42T 74470

24774 GE340RS-MV-N-DIY NA

29621 GE-232-120-PS-N GE-232-MVPS-N 96714

29622 GE-232-277-PS-N GE-232-MVPS-N 96714

29623 GE-332-120-PS-N GE-232-MVPS-N 96714

29624 GE-332-277-PS-N GE-332-MVPS-N 96715

29625 GE-432-120-PS-N GE-432-MVPS-N 96716

29627 GE-432-277-PS-N GE-432-MVPS-N 96716

29630 GE-232-120PS-N-T GE-232-MVPS-N 96714

29632 GE-232-277PS-N-T GE-232-MVPS-N 96714

29633 GE-332-120PS-N-T GE-332-MVPS-N 96715

29634 GE-332-277PS-N-T GE-332-MVPS-N 96715

29635 GE-432-120PS-N-T GE-432-MVPS-N 96716

29650 GE-432-277PS-N-T GE-432-MVPS-N 96716

29656 GE-332-MV-PS-H-T GE332-MVPS-H-84TS 72753

29665 GE-232-MVPS-XL-T GE-232-MVPS-XL 29671

29666 GE-332-MVPS-XL-T GE-332-MVPS-XL 29672

29717 GE454MVPSN1-B GE454MVPS90-G 73192

29726 GE454MVPSN1 GE454MVPS90-G 73192

30187 GE-286-HO-MV-N-P GE-286-HO-MV-N-P 30176

30189 GE-132-MV-N GE-132-MV-N 72269

30191 GE-232-MV-N GE-232-MV-N 72275

30219 GE432MV-H GE432MV-H 78629

30247 GE-232-MV-L GE-232-MV-L 72272

30268 GE-132-MV-N-42T GE-132-MV-N-42T 72240

30269 GE-232-MV-N-42T GE-232-MV-N-42T 72276

30303 GE-432-MV-H-42T GE-432-MV-N-42T 74464

30308 GE-232-MV-L-42T GE-232-MV-L-42T 72274

31052 GE232MAX-N-42T GE232MAX-N-42T 72267

31053 GE332MAX-N-42T GE332MAX-N-42T 71721

31054 GE432MAX-N-42T GE432MAX-N-42T 71729

31055 GE332MAX-L-42T GE332MAX-L-42T 71718

42670 1110-247SC-TC NA

42692 P350277RCEM500K GEP350MLTAC4-5 86984

47532 B132PUNVHP-A GE-132-MV-N 72269

47536 B228PUNV-C0G1C GE228MVPS-A 99655

47546 GE232MAX-L-42T GE232MAX-L-42T 72274

47547 GE432MAX-L-42T GE432MAX-L-42T 71726

47549 GE332MAX-H-42T GE332MAX-H-42T 71715

47550 GE432MAX-H-42T GE432MAX-H-42T 71724

49706 GE132MAX-L/ULTRA GE132MAX-L/ULTRA 72258

49707 GE232MAX-L/ULTRA GE232MAX-L/ULTRA 72262

49708 GE332MAX-L/ULTRA GE332MAX-L/ULTRA 71717

49709 GE432MAX-L/ULTRA GE432MAX-L/ULTRA 71725

49771 GE132MAX-N/ULTRA GE132MAX-N/ULTRA 72259

49772 GE232MAX-N/ULTRA GE232MAX-N/ULTRA 72262

49773 GE332MAX-N/ULTRA GE332MAX-N/ULTRA 71719

49774 GE432MAX-N/ULTRA GE432MAX-N/ULTRA 71727

49776 GE332MAX-H/ULTRA GE332MAX-H/ULTRA 71714

49777 GE432MAX-H/ULTRA GE432MAX-H/ULTRA 71723

71281 GE232MAX-N/AMP GE232MAX-N/AMP 72264

Prod

Code Description

Suggested

Replacement

Prod

Code

71424 GE332-MVPS-HSL84 GE332-MVPS-H-84TS 72753

71425 GE432-MVPS-HSL42 GE432MVPS-H-42T 74477

71426 GE432MAX-HSL84T GE432MAX-H-42T 71724

71502 GE632MAXH90-S60T GE632MAX90-S60 71497

71714 GE332MAX-H/ULTRA GE332MAX-H/ULTRA 78619

71715 GE332MAX-H-48T GE332MAX-H-48T 78620

71717 GE332MAX-L/ULTRA GE332MAX-L/ULTRA 78621

71718 GE332MAX-L-48T GE332MAX-L-48T 78622

71719 GE332MAX-N/ULTRA GE332MAX-N/ULTRA 78623

71721 GE332MAX-N-48T GE332MAX-N-48T 78624

71725 GE432MAX-L/ULTRA GE432MAX-L/ULTRA 78625

71726 GE432MAX-L-48T GE432MAX-L-48T 78626

71727 GE432MAX-N/ULTRA GE432MAX-N/ULTRA 78627

71729 GE432MAX-N-42T GE432MAX-N 78628

71732 GE632MAXH90-V60T GE632MAX90-V60 71731

72260 GE132MAX-N-DIY NA

80136 B332I347HP GE332-N-347 74105

80148 B259I120RHH NA

80149 B259I277RHH NA

80162 B295SR120HP GE296HO-MV-N 75671

80163 B295SR277HP GE296HO-MV-N 75671

80277 B332I347HPL 347 NA

80353 B132R120V5 GE132MVPS-N-V03 75379

80355 B232SR120V5 GE232MVPS-N-V03 75380

80356 B232SR277V5 GE232MVPS-N-V03 75380

80357 B332SR120V5 GE332MVPS-N-V03 75381

80358 B332SR277V5 GE332MVPS-N-V03 75381

80362 B232SR277S50 GE232MAX90-S60 73233

80630 480XLHTCP-CON 120 GE296HO-MV-N 75671

80631 487XLHTCP-CON GE296HO-MV-N 75671

80633 487SLHTCP-CON GE296HO-MV-N 75671

80635 822BRTCP-CON GE-260-IS-MV-N 74474

80637 420LTCP-CON GE-240RS-MV-N 74472

80640 447LRVLHTCP-CON GE-240RS-MV-N 74472

80644 GEM230RS120DIY GE-240RS-MV-N DIY 74473

80664 493B2 NA

80669 C213UNVBE-IP GEC213-MVPS-SE 71429

80671 C213UNVBES-IP GEC213-MVPS-BES 71428

80672 C213UNVSE-IP GEC213-MVPS-SE 71429

80673 C218UNVBEIP GEC218-MVPS-SE 71433

80677 C218UNVBES-IP GEC218-MVPS-BES 71432

80679 C218UNVSE-IP GEC218-MVPS-SE 71433

80680 C240SI120RH-IP GEC240MAX-A 71435

80681 C240SI277RH-IP GEC240MAX-A 71435

80683 C240PUNVHP-B-IP GEC240MVPS-A 75950

80685 C2642UNVBE-IP GEC226-MVPS-SE 71444

80687 C2642UNVBES-IP GEC226-MVPS-BES 71443

80689 C2642UNVSE-IP GEC226-MVPS-SE 71444

80690 C340SI120RH-IP GEC340MAX-A 71436

80691 C340SI277RH-IP GEC340MAX-A 71436

80824 480XLHTCP-DIY GE296HO-MV-N 75671

86071 200CSP-IP GE-240RS-MV-N 74472

86073 200H2-IP GE-240RS-MV-N 74472

86078 202BTCP-IP GE-240RS-MV-N 74472

86080 202SBTCP-IP GE-240RS-MV-N 74472

86085 213TCP-IP GE-260-IS-MV-N 74474

86101 412LSLHTCP-IP GE-240RS-MV-N 74472

86105 413CTCP-IP GE-240RS-MV-N 74472

86110 420LTCP-IP GE-240RS-MV-N 74472

86123 443LSLHTCP GE-240RS-MV-N 74472

86124 GEM240RS277IP GE-240RS-MV-N 74472

86132 445RSWSTCP-IP GE240RS120 97498

86137 446LSLHTCP GE-240RS-MV-N 74472

D-17

gelighting.com

Appendix

Prod

Code Description

Suggested

Replacement

Prod

Code

86139 GEM240RS120IP GE-240RS-MV-N 74472

86144 447LRTCP-IP GE-240RS-MV-N 74472

86158 458LSLHTCP-IP GE-240RS-MV-N 74472

86164 GEM296HORS120IP GE296HO-MV-N 75671

86167 480XLHTCP-IP GE296HO-MV-N 75671

86171 GEM296HORS277IP GE296HO-MV-N 75671

86173 487XLHTCP-IP GE296HO-MV-N 75671

86176 490XLHTCP-IP GE296HO-MV-N 75671

86185 502ATCP-IP GE232MVPS-N-VO3 75380

86206 532BRTCP-IP GE-260-IS-MV-N 74474

86208 537LTCP-IP GE-240RS-MV-N 74472

86222 546BTCP-IP GE140RS120 75672

86231 548H2-IP NA

86240 554LTCP-IP NA

86243 562LTCP-IP NA

86245 564LTCP-IP GE-240RS-MV-N 74472

86251 573LTCP-IP GE-240RS-MV-N 74472

86253 588LTCP-IP GE-240RS-MV-N 74472

86264 627LHTCP-IP GE296HO-MV-N 75671

86287 697LTCP-IP GE-240RS-MV-N 74472

86341 GEM240RS220IP NA

86351 798XLHTCP-IP GE296HO-MV-N 75671

86359 806SLHTCP GE-260-IS-MV-N 74474

86360 GEM296IS120IP GE-260-IS-MV-N 74474

86372 GEM196IS120IP GE-260-IS-MV-N 74474

86378 827SLHTCP GE-260-IS-MV-N 74474

86379 GEM296IS277IP GE-260-IS-MV-N 74474

86381 GEM196IS277IP GE-260-IS-MV-N 74474

86396 881BRTCP-IP GE-260-IS-MV-N 74474

86402 930KTCP-IP NA

86411 937KTCP-IP NA

86430 957STCP-IP NA

86432 960VLHTCP-IP NA

86519 H100MLTAC3M500K GEM100MLTLC3D-5 86675

86527 H175MLTAC3M500K GEM175MLTAC3-5 86741

86542 H400MLTAC4M500K GEM400MLTAA4-5 72149

86624 2BMB1000C NA

86808 M400ML5AC4M500K GEM400ML5AA4-5 72300

86814 M400MLTAC4M500K GEM400MLTAA4-5 72149

86968 P320TRIAC4M502K GEP320MLTAC4-5 86959

87175 S400MLTAC5M500K GES400ML5AC4-5 87215

87206 S40048TAC5M500K GES40048TAC4-5 87198

87217 S400ML5AC5M500K GES400ML5AC4-5 87215

87516 GEMH50-MSF-120 NA

87621 GE-454-MV-PS-NL GE454MVPS90-G 73192

87634 GEM1CF579PH277 NA

87651 GE-454-MV-PS-NLB GE454MVPS90-G 73192

87666 GE-254-MV-PS-NLB GE254MVPS-D 72279

87700 GEM2CF24PH277 NA

88918 USB-0218-16-IP NA

88931 USB-0816-14-IP GESB-620-24-IP 72104

88934 USB-1632-24-IP GESB-2040-46-IP 72107

88936 USB-1024-14-IP GESB-1224-24-IP 72105

89707 GEM240RS120DIY72 GE240RS120-DIY 97499

89708 GEM296IS120DIY48 GE-260-IS-MV-N-DIY 74475

89709 GEM140RS120DIY GE140RS120-DIY 72110

89710 GEM240HRS120DIY GE240RS120-DIY 97499

89714 GEM140HRS120DIY GE140RS120-DIY 72110

89716 445RSWSTCP-DIY GE240RS120-DIY 72110

89723 213TCP-DIY GE-260-IS-MV-N-DIY 74475

89724 458LSLHTCP-DIY GE240RS-MV-N-DIY 74473

89725 532BRTCP-DIY GE-260-IS-MV-N-DIY 74475

89726 487SLHTCP-DIY GE296HO-MV-N-DIY 72109

Prod

Code Description

Suggested

Replacement

Prod

Code

90019 GE259MAX-N/CTR NA

96717 GE232-MVPS-N-42T GE-232-MVPS-N 96714

96718 GE332-MVPS-N-42T GE-332-MVPS-N 96715

96719 GE432-MVPS-N-42T GE-432-MVPS-N 96716

97656 GE232MAX-N/CTR GE232MAX-N/CTR 72265

97657 GE332MAX-N/CTR GE332MAX-N/CTR 71720

97658 GE432MAX-N/CTR GE432MAX-N/CTR 71728

97709 GE-232MV-N-DIY GE-232MV-N-DIY 72277

97713 GE332MAX-HSL84T GE332MAX-HSL84T 72752

99654 GE228MVPSHA-T42 GE228MVPS-A 99655

99656 GE228MVPS-A-T42 GE228MVPSH-A 99653

GE Lamp & Ballast Products Catalog — Section D Brochure

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