Lighting Guide PDF

Summary

This document provides an overview of various lighting topics, including different lamp types, units of measurement, and classifications. It also discusses lighting methods and considerations for achieving desirable seeing conditions.

Full Transcript

LIGHTING
 5.0 LIGHTING
6.1 General 3. High-Intensity Discharge

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Lamps
are members of the electric
6.1 General 6.1.1 Types of Lamps
discharge family of light sources (as
6.2 Incandescent Lamps are fluorescent lamps). Light is
1. Filament Lamps
6.3 R and PAR Lamps produced when a high-pressure
electric arc is passed through a gas
6.4 Tungsten Halogen Lamps a) Incandescent Lamps
vapor, rather than by a low-pressure
6.5 Fluorescent Lamps
b) R and PAR
arc as in fluorescent lamps.
c) Tungsten - Halogen
6.6 Mercury Vapor Lamps
a) Mercury Vapor Lamps
6.7 Metal Halide Lamps 2. Gaseous Discharge Lamps
b) Metal Halide Lamps
6.8 High-Pressure Sodium c) High Pressure Sodium Lamps
Lamps a) Fluorescent Lamps
b) Energy Savings Lamps
6.9 Ballasts
c) Neon Vapor Lamps
6.10 Luminaires d) PL lamps
6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.1.2 Units of Light

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6.1 General

6.2 Incandescent Lamps
1. Unit of Light or Luminous Flux
Lumens

6.3 R and PAR Lamps 2. Unit of Density of Light
6.4 Tungsten Halogen Lamps a) Footcandle
is the amount of lumens falling on an area one square
6.5 Fluorescent Lamps
foot one foot away
6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps
b) Lux
is the amount of lumens falling on an area one square
6.8 High-Pressure Sodium meter one meter away. One (1) footcandle is
Lamps
equivalent to 10.76 lux.
6.9 Ballasts

6.10 Luminaires 3. Unit of Light Intensity
candlepower (cp)
6.11 Classification of
Luminaires
4. Unit of Brightness
6.12 Lighting Systems
footlambert (FL)
6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.2 Incandescent
Lamps
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6.1 General

6.2 Incandescent Lamps composed basically of a sealed
glass containing a filament
6.3 R and PAR Lamps
connected at its ends to the contact
6.4 Tungsten Halogen Lamps area in the base thereby completing
6.5 Fluorescent Lamps
an electric circuit.

6.6 Mercury Vapor Lamps The glass envelope comes in a
6.7 Metal Halide Lamps variety of shapes and sizes; bulb
designations consist of a letter to
6.8 High-Pressure Sodium
Lamps indicate its shape, and a number to
indicate the diameter in eights of an
6.9 Ballasts
inch.
6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
The various shapes are:

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6.1 General

6.2 Incandescent Lamps

Standard -
Globular
Straight
-
-
A
G
S
6.3 R and PAR Lamps Tubular - T
Pear-shape - PS
6.4 Tungsten Halogen Lamps
Flame - F
6.5 Fluorescent Lamps PAR - Parabolic
6.6 Mercury Vapor Lamps Aluminized
Reflector
6.7 Metal Halide Lamps

6.8 High-Pressure Sodium A PS 30 Lamp therefore is a pear-
Lamps
shaped bulb 30/8 or 3-3/4” in
6.9 Ballasts diameter
6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.3 R and PAR Lamps 6.4 Tungsten Halogen
Lamps
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6.1 General

6.2 Incandescent Lamps
Parabolic Aluminized Reflector
The tungsten-halogen (also called
Are complete optical systems in a quartz or quartz-iodine) lamps use a
6.3 R and PAR Lamps single bulb. The bulb contains a halogen gas cycle to prevent rapid
6.4 Tungsten Halogen Lamps filament, reflector and lens. depreciation of the lamp filament
6.5 Fluorescent Lamps and darkening of the transparent
envelop.
6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.5 Fluorescent Lamps For the operation of some

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fluorescent tubes, an automatic
6.1 General comprises a cylindrical glass tube, switch known as a starter is
sealed at both ends and containing required, in addition to the normal
6.2 Incandescent Lamps wall switch. The starter is self
an inert gas usually argon and
6.3 R and PAR Lamps mercury vapors. Built into each end contained in a small tubular jacket
is a cathode which supplies the which is inserted in the fixture body
6.4 Tungsten Halogen Lamps
electrons to start an maintain the and is a replaceable part.
6.5 Fluorescent Lamps
mercury arc or gaseous discharge.
6.6 Mercury Vapor Lamps This light is absorbed by the
6.7 Metal Halide Lamps
phosphors in which the inside of the
tube is coated and is re-radiated in
6.8 High-Pressure Sodium the visible light range.
Lamps

6.9 Ballasts All fluorescent light sources, require
6.10 Luminaires a control device or an auxiliary,
called a ballast, located in the metal
6.11 Classification of
Luminaires base.
6.12 Lighting Systems
The ballast serves the following
6.13 Lighting Methods functions:
Supplying the high voltage necessary
6.14 Factors which will
Achieve Desirable Seeing to start the arc;
Conditions Limiting the current in the arc after it
6.15 Lighting Terms
is formed.
 5.0 LIGHTING
Fluorescent lamps are classified as: using a device called a “trigger-start
ballast”. This ballast provides both a

cdep 1. According to shape current-limiting function and an
6.1 General appropriate automatic starting system.
6.2 Incandescent Lamps Standard Instant Start
6.3 R and PAR Lamps Slim-line When the lamp is first switched on, a
Circline sufficient voltage is applied between the
6.4 Tungsten Halogen Lamps
electrodes to strike the arc without
6.5 Fluorescent Lamps preheating them. Instant-start lamps start
2. According to method of tube as soon as current is turned on and
6.6 Mercury Vapor Lamps
operation eliminates the need for external starters.
6.7 Metal Halide Lamps They have single-pin bases which are
called “slim-line” lamps.
6.8 High-Pressure Sodium Pre-heat
Lamps requires a starter which preheats the Rapid Start
6.9 Ballasts
cathodes so that less voltage is required
are the most recent developments and
to strike an arc. There is a 2-5 seconds
the one that is most widely used. Rapid-
6.10 Luminaires delay in the start of lamp after switch is
start lamps use low-resistance electrodes
on. This class is also called a ”switch-
6.11 Classification of which can be heated continuously with
Luminaires start” or “starter-start” lamp. In certain
low current loses. These are the only
cases, the starter can be eliminated by
6.12 Lighting Systems
fluorescent lamps that can be electrically
dimmed or flashed. They start as quickly
6.13 Lighting Methods as the instant-start lamps; require no
external starters; and the ballasts are
6.14 Factors which will
Achieve Desirable Seeing
smaller and more efficient.
Conditions

6.15 Lighting Terms
 5.0 LIGHTING

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.6 Mercury Vapor 6.7 Metal Halide Lamps
Lamps
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6.1 General

6.2 Incandescent Lamps contains mercury vapor in a clear
a modification of the mercury vapor
with an arc of improved color. In
quartz arc tube, which when addition to mercury, the arc tube
6.3 R and PAR Lamps
electrically excited, produces visible contains metallic vapors such as
6.4 Tungsten Halogen Lamps light of characteristically blue-green indium iodide, thallium iodide, or
6.5 Fluorescent Lamps
color. It is suitable only for limited sodium iodide. It possesses
industrial areas, general outdoor therefore increased light output,
6.6 Mercury Vapor Lamps applications and street lighting. improved color rendition without the
6.7 Metal Halide Lamps use of phosphors, and small source
size.
6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.8 High-Pressure 6.9 Ballasts
Sodium Lamps
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6.1 General

6.2 Incandescent Lamps are the newest addition to the HID
6.3 R and PAR Lamps
field. Its arc tube is made of high-
density polycrystalline alumina an
6.4 Tungsten Halogen Lamps contains a mixture of primarily
6.5 Fluorescent Lamps sodium.
are auxiliary equipment for
6.6 Mercury Vapor Lamps fluorescent and HID lamps which
6.7 Metal Halide Lamps
limits the amount of current in the
lamp and provides the proper
6.8 High-Pressure Sodium starting voltages. A power factor is
Lamps
frequently listed with each ballast
6.9 Ballasts description. The low power factor
6.10 Luminaires ballast is cheap and inefficient; while
the high power factor ballast has a
6.11 Classification of
Luminaires capacitor* which improves its
efficiency.
6.12 Lighting Systems
*CAPACITOR – An electric component which
6.13 Lighting Methods
consists of conducting plates insulated from
6.14 Factors which will each other by a layer of dielectric material;
Achieve Desirable Seeing introduces capacitance into a circuit.
Conditions Capacitance is the quantitative measure of the
electric-energy storage capability of a capacitor;
6.15 Lighting Terms usually measured in farads or microfarads.
 5.0 LIGHTING

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.10 Luminaires Ceiling-Mounted Downlights
(Or Lighting Fixtures)
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6.1 General

6.2 Incandescent Lamps is the device which supports the
source or sources of electric light
6.3 R and PAR Lamps
and redirects or helps to control the
6.4 Tungsten Halogen Lamps light rays from the source. Control of
6.5 Fluorescent Lamps
the rays is necessary to secure even
distribution, to avoid glare, to cut-off
6.6 Mercury Vapor Lamps direct rays to the eyes, and
6.7 Metal Halide Lamps eliminates disturbing reflection of the
rays from polished surfaces.
6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
Spotlights Pendants

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
Wall Lights Task and Table Lights

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
Floor Lights Fluorescent Fittings

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
Oddities Exterior Lights

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.11 Classifications of
Luminaires
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6.1 General

6.2 Incandescent Lamps
1. Indirect
90% to 100% of the light
output is directed towards
6.3 R and PAR Lamps
the ceiling and upper
6.4 Tungsten Halogen Lamps walls of the room.

6.5 Fluorescent Lamps 2. Semi-indirect
60% to 90% of the light is
6.6 Mercury Vapor Lamps
directed upwards; 40% to
6.7 Metal Halide Lamps 10% downwards.

6.8 High-Pressure Sodium 3. General diffuse or
Lamps direct-indirect
provides approximately
6.9 Ballasts
equal distribution of light
6.10 Luminaires upwards and downwards.

6.11 Classification of 4. Semi-direct
Luminaires 60% to 90% of light is
directed downwards;
6.12 Lighting Systems
while 40% to 10% is
6.13 Lighting Methods directed upwards.

6.14 Factors which will 5. Direct
Achieve Desirable Seeing 90% - 100% of the light
Conditions
output is directed
6.15 Lighting Terms downwards
 5.0 LIGHTING
6.12 Lighting Systems

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6.1 General

6.2 Incandescent Lamps
1. Cornice Lighting
a system where light sources are
shielded by a panel parallel to the
6.3 R and PAR Lamps wall and attached to the ceiling to
6.4 Tungsten Halogen Lamps distribute light downwards over the
wall. This is considered as direct
6.5 Fluorescent Lamps
lighting.
6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps
2. Cove Lighting
a system where light sources are
6.8 High-Pressure Sodium shielded by a ledge to distribute light
Lamps
upwards over the ceiling and upper
6.9 Ballasts wall. It is a form of indirect lighting.
6.10 Luminaires
3. Valance Lighting
6.11 Classification of
Luminaires a system where light sources are
shielded by a panel parallel to the
6.12 Lighting Systems
wall usually across the top of a
6.13 Lighting Methods window. This provides light both
6.14 Factors which will
upwards and downwards over the
Achieve Desirable Seeing wall.
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.13 Lighting Methods 3. Combined Local and General

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Lighting (sometimes called
6.1 General 1. Local Lighting Localized Lighting)
method which employs lamps at provides sufficient general lighting to
6.2 Incandescent Lamps illuminate various objects in the
definite points where light is
6.3 R and PAR Lamps specially needed producing pools of room and at the same time furnishes
light mingled with areas of shadows. additional local lamps at desks,
6.4 Tungsten Halogen Lamps
It is the very opposite of uniform reading tables, showcases and other
6.5 Fluorescent Lamps equipment needing additional
illumination. The location of lamps in
6.6 Mercury Vapor Lamps this method usually depends upon illumination
6.7 Metal Halide Lamps
the position of furniture or the
position of activity areas.
6.8 High-Pressure Sodium
Lamps
2. General Lighting
6.9 Ballasts this method strives for diffused light
6.10 Luminaires and uniform intensity over an entire
area. The lamps are evenly spaced
6.11 Classification of
Luminaires without regard to furniture location
and are provided with reflectors,
6.12 Lighting Systems
baffles or diffusing prisms to prevent
6.13 Lighting Methods glare, harsh shadows and uneven
6.14 Factors which will
illumination.
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.14 Factors which will 2. Quality of Light
Achieve Desirable
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6.1 General

6.2 Incandescent Lamps
Seeing Conditions
Light Distribution depends upon:

Uniformity
6.3 R and PAR Lamps
1. Intensity of Illumination freedom from variations of illumination in a
intensity of light required will depend room or space. Absolute uniformity signifies
6.4 Tungsten Halogen Lamps same intensity throughout and it is not
upon the tasks involved as follows always practicable to attain. A deviation of
6.5 Fluorescent Lamps 25% from the average intensity cannot be
a) for casual work, as in conferencing, detected by the eye, and is considered an
6.6 Mercury Vapor Lamps interviewing and inactive filing – 10 to 30 fc acceptable maximum.
6.7 Metal Halide Lamps
b) for moderate work, as in intermittent filing Diffusion
6.8 High-Pressure Sodium and general clerical work – 30 to 50 fc refers to the number of directions and angles
Lamps from which illuminating rays proceed. Good
c) for prolonged work, as in active filing, diffusion is obtained when light falls upon a
6.9 Ballasts index referencing and mail sorting – 50 to matte or satin surface from a variety of
100 fc directions thus eliminating shadows and
6.10 Luminaires
streaks of brilliancy. Poor diffusion results
6.11 Classification of d) for precision work, as in accounting, from illumination from one direction only thus
Luminaires auditing, tabulating, bookkeeping, business causing visual confusion because of
machine operation, reading poor distorted highlights and shadows
6.12 Lighting Systems reproductions and rough layout drafting –
6.13 Lighting Methods 100 to 150 fc

6.14 Factors which will e) for fine precision work, as in cartography,
Achieve Desirable Seeing designing and detail drafting – 150 to 200 fc
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
Absence of Glare
Glare is defined as the effect of brightness in

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the field of vision which causes annoyance
6.1 General or discomfort, or in worse cases, interferes
with seeing. When the glare is caused by
6.2 Incandescent Lamps light sources in the field of vision, it is known
as “direct glare” or “disability glare”. When
6.3 R and PAR Lamps
glare is caused by the reflection of a light
6.4 Tungsten Halogen Lamps source in a viewed surface, it is known as
“reflected glare” or “discomfort glare”.
6.5 Fluorescent Lamps
Bare lamps or brilliant fixture globes should
6.6 Mercury Vapor Lamps
never be in the line of sight from any point in
6.7 Metal Halide Lamps the room. An angle of 45 deg. between the
horizontal and the line of sight (line from the
6.8 High-Pressure Sodium lamp to the eye) is generally accepted as the
Lamps greatest permissible angle.
6.9 Ballasts
Color of Light
6.10 Luminaires depends upon the type of lamp chosen.
Incandescent lamps provide yellow light;
6.11 Classification of although there are many other colors
Luminaires depending upon the color of their glass
bulbs. Fluorescent lamps have the greatest
6.12 Lighting Systems
variety of colors ranging from daylight to
6.13 Lighting Methods bluish white and even pinkish white. Color is
also used to enhance certain qualities. For
6.14 Factors which will example, de luxe FL lamps are used to
Achieve Desirable Seeing enhance food in restaurants.
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
6.15 Lighting Terms 4. Reflectance
also called “reflection factor”; it is the

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6.1 General

6.2 Incandescent Lamps
1. Absorption
Loss of light when light rays strikes
or traverses any medium. The ratio
ratio of light reflected by a surface to
the light falling upon it.

6.3 R and PAR Lamps of light absorbed by a material to the 5. Transmission
light falling upon it is called the is the passage of light through a
6.4 Tungsten Halogen Lamps
“absorption factor” or “absorptance”. medium when light falls upon a
6.5 Fluorescent Lamps transparent material. It is “refracted”
6.6 Mercury Vapor Lamps 2. Diffuse Reflection (bent) as it passes through the
a beam of light is reflected diffusely, material but emerges at the same
6.7 Metal Halide Lamps
that is, its ray is scattered in all angle that it entered. When passing
6.8 High-Pressure Sodium directions, if it strikes a rough or through a translucent material, such
Lamps
matte surface. as plastic, and the emerging rays
6.9 Ballasts are spread in all directions, it is
3. Specular Reflection called “diffused transmission”.
6.10 Luminaires
a beam of light is specularly
6.11 Classification of 6. Transmittance
Luminaires reflected when a light ray striking a
shiny or glossy surface at an angle also called “transmission factor”; it is
6.12 Lighting Systems the ratio of light transmitted to light
of incidence is reflected as the same
6.13 Lighting Methods beam with equal angle of reflection. striking the surface.
6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms
 5.0 LIGHTING
7. Accent Lighting 12. Luminance Ceiling

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directional lighting to emphasize a a false ceiling of diffusing material
6.1 General
space or an object. with light sources mounted above

6.2 Incandescent Lamps 8. Down Light 13. Filter
6.3 R and PAR Lamps a fixture producing concentrated device which changes either amount
direct lighting from a single bulb. It or color, or both. of light passing
6.4 Tungsten Halogen Lamps
may be recessed in or mounted on through it.
6.5 Fluorescent Lamps the ceiling
6.6 Mercury Vapor Lamps 14. Dimmer
9. High Hat a device to control the amount of
6.7 Metal Halide Lamps
a term often applied to a can-type of light by reducing the voltage or the
6.8 High-Pressure Sodium recessed incandescent downlight. current; also called a “rayostat”.
Lamps

6.9 Ballasts 10. Eye Ball 15. Capacitor
recessed or semi-recessed lighting An electric component which
6.10 Luminaires
unit with a rotating spherical element consists of conducting plates
6.11 Classification of that may be turned to project light in insulated from each other by a layer
Luminaires
any direction. of dielectric material; introduces
6.12 Lighting Systems capacitance into a circuit.
6.13 Lighting Methods 11. Lumiline Capacitance is the quantitative
a tubular fluorescent lamp with a measure of the electric-energy
6.14 Factors which will
Achieve Desirable Seeing
disc base at each end. storage capability of a capacitor;
Conditions usually measured in farads or
6.15 Lighting Terms
microfarads.
 5.0 LIGHTING
Lighting Symbols

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6.1 General

6.2 Incandescent Lamps

6.3 R and PAR Lamps

6.4 Tungsten Halogen Lamps

6.5 Fluorescent Lamps

6.6 Mercury Vapor Lamps

6.7 Metal Halide Lamps

6.8 High-Pressure Sodium
Lamps

6.9 Ballasts

6.10 Luminaires

6.11 Classification of
Luminaires

6.12 Lighting Systems

6.13 Lighting Methods

6.14 Factors which will
Achieve Desirable Seeing
Conditions

6.15 Lighting Terms