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JOB: CRMAIN06-0663-9 Name: L-663
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DATE: JAN 19 2006
Time: 5:41:47 PM Operator: RB
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Industrial Lighting Products
L
Quick Reference Chart
LIGHT SOURCE
WallPacks & Luminaire
Floodlights Hangers
ɀ Exit Signs
ɀ Emergency
Lighting
ɀ ‘‘Steady On’’
Beacons
ɀ Strobes
ɀ Pulse Start
Metal Halide
ɀ Metal Halide
ɀ High Pressure
Sodium
ɀ Mercury Vapor
ɀ Incandescent
Application
Environment
Incandescent
H.I.D.
ɀ Pulse Start
Metal Halide
ɀ Metal Halide
ɀ High Pressure
Sodium
ɀ Mercury Vapor
Fluorescent
ɀ Linear
ɀ Long Twin
Tube
ɀ Compact
General Industrial
Section 1L
Vaporgard TM, V
Series, NDA
Section 12L
V160 Tank light
Section 3L
LMV, DMV, VMV,
N2MV Champ®
Section 5L
Champ Induction
Section 6L
VF Series, NFL,
FVN, FVS
DMVF, N2MVF
Section 10L
N2LPS Light-Pak TM,
DMVFB, N2MVFB
Section 11L
VF ‘‘SO’’ Beacon
VDAS Strobe
Section 7L
F2MV, FMV,
FMV1000
Section 8L
AL, UNJ, FHM,
ARB, UNE, UNH,
CHS
Wet Locations
Section 1L
Vaporgard TM , V
series, NDA
Section 3L
LMV, DMV, VMV,
N2MV Champ®
Section 5L
Champ Induction
Section 6L
VF Series, NFL,
FVN, FVS, DMVF,
N2MVF
Section 10L
DMVFB, N2MVFB,
N2LPS Light-Pak TM,
Section 11L
VF ‘‘SO’’ Beacon
VDAS Strobe
Section 7L
F2MV, FMV,
FMV1000
Section 8L
AHG, ARB–21 series
Marine Locations
or 4X
Section 1L
NDA
Section 3L
LMV, DMV, VMV,
N2MV Champ®
Section 4L
EVLP Lo-Pro
EVM Hazard-Gard
Section 6L
NFL, FVS, DMVF,
N2MVF, CPMVF
EVFDR,
EVFT Illuminator TM
Section 10L
DMVFB, N2MVFB,
Section 11L
VDAS Strobe
Section 7L
CPMV, F2MV,
FMV, FMV1000
Corrosive
Section 1L
Vaporgard TM, NDA
Section 3L
LMV, DMV, VMV,
N2MV Champ®
Section 5L
Champ Induction
Section 6L
NFL, N2MVF, FVS,
VF Series, DMVF,
CPMVF
Section 10L
DMVF-EXD exit,
N2MV-EXD exit,
N2LPS Light-Pak TM,
N2MVFB, DMVFB
Section 11L
VF ‘‘SO’’ Beacon
VDAS Strobe
Section 7L
CPMV, F2MV,
FMV, FMV1000
Section 8L
EFHC-S752
ECHF-S758
ECF-S516
Class I, Div. 1 or
Zone 1
Section 2L
EV
Section 12L
EVTL, EVA160,
EVO, ELG
Section 4L
EVLP Lo-Pro
EVM Hazard-Gard
Section 6L
EVF, EVFDR,
EVFT Illuminator®,
EVLPF, eLLK
Section 10L
EXL exit,
EVLPF-EXD exit,
ELPS Light-Pak TM
EVLPFB
Section 11L
EV ‘‘SO’’ Beacon
EVAS Strobe
Section 7L
FZD, EVM-S812,
RCDE
Section 8L
EAHC, EFHC,
ECHF, GUA, GUFX,
EFHX, CPS, UNR
Class I, Div. 2 and
Zone 2
Section 1L
Vaporgard TM,
NDA
Section 3L
LMV, DMV, VMV,
N2MV Champ®
Section 5L
Champ Induction
Section 6L
VF Series, NFL,
nLLK, eLLK, FVN,
FVS, CPMVF,
DMVF, N2MVF
Section 10L
DMVF-EXD exit,
N2LPS Light-Pak TM,
DMVFB, N2MVFB
Section 11L
VF ‘‘SO’’ Beacon
VDAS Strobe
Section 7L
CPMV, F2MV,
FMV, FMV1000
FZD
Section 8L
AL, AHG, UNJ,
UNJC, ARB, UNE,
UNH, COUP
Section 3L
LMV, DMV, VMV,
N2MV Champ®
Section 5L
Champ Induction
Section 6L
CPMVF, DMVF,
N2MVF
Section 10L
DMVFB, N2MVFB
Section 7L
CPMV, F2MV,
FMV
Section 8L
AL, AHG, UNH,
UNJC, ARB, UNE,
UNH, COUP
Section 3L
LMV, DMV, VMV,
N2NV Champ®
Section 4L
EVLP Lo-Pro
EVM Hazard-Gard
Section 5L
Champ Induction
Section 6L
FVN, nLLK, eLLK,
FVS, DMVF,
N2MVF
EVF, EVFDR,
EVFT, EVLP
Section 10L
EXL,
N2LPS Light-Pak TM,
DMVFB, N2MVFB
Section 11L
VF ‘‘SO’’ Beacon
VDAS Strobe
EVAS Strobe
Section 7L
CPMV
Section 8L
ECHF, GUA,
GUF,
GUJ. EAHC, EFHC,
AHG (Class II, Div 2)
Section 4L
EVP
Section 6L
EVF, EVFT
Section 9L
EVP
Section 9L
EVH
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Restricted Breathing
ɀ Class I, Div 2
and Zone 2
ɀ Certified IEC
Zone 2
Class II
Class III
Simultaneous
Presence
Section 2L
EV
Section 12L
EVTL, EVO
Paint Spray
Portables
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Section 9L
VS, EVH,
RCDER
Copyright© 2006 Cooper Crouse-Hinds
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JOB: CRMAIN06-0664-3 Name: L-664
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TCP: 15001
Industrial Lighting Products
New ideas in industrial lighting, translated
into modern equipment design, backed
technically by a nationwide sales force,
available worldwide through knowledgeable
electrical distributors – these are some of the
reasons you’ll be light-years ahead when you
look to Cooper Crouse-Hinds for industrial
lighting products.
This Lighting Selector Guide will help you
solve many of your lighting problems. For
additional assistance on complex projects,
call your Cooper Crouse-Hinds
representative or distributor. They can
provide detailed lighting layouts and
recommendations using the most advanced
computer and application engineering
facilities and techniques.
Lighting Selector Guide
Below is a simple five-step procedure to help
you select the right equipment for a specific
job. Typical examples – with illustrations,
easy-to-read charts, and layouts – are
included to ensure correct results.
The five steps are:
1.) Determine Area
Lighting Needs
and Operational
Factors
Page 665
When known,
proceed to Step 2
2.) Select
Type of Lamp
Page 666
When known,
proceed to Step 3
3.) Select
Type of
Luminaire
Page 668
When known,
proceed to Step 4
4.) Calculate
Number of
Luminaires
Required
Page 683
When several light
sources or systems
seem suitable,
determine most
economical one
With Luxicon TM you’ll be able to make
‘light’ work of analyzing the performance
of Cooper Crouse-Hinds broad line of
industrial luminaires.
From exterior/interior layouts to economic
performance data, you’ll be able to access
and evaluate information needed to design
and specify the most efficient and effective
lighting system possible.
Luxicon TM offers:
ɀ Online tutorial
ɀ Color output, either text or graphics
ɀ Exterior/interior layouts in one program
ɀ Daylight lighting analysis
ɀ Importing/exporting of any IES file
ɀ Importing/exporting of any .DXF CAD file
ɀ Detailed architectural feature calculations
ɀ Entire Cooper Crouse-Hinds and Cooper
Lighting line search
ɀ Economic performance/analysis
calculations
ɀ Database of customers and their projects
ɀ Professional output including summary
reports, luminaire schedules, calculation
results and renderings on multiple pages
ɀ Luminaire editing capabilities
ɀ Allowances of varying ambient temperature
levels
5.) Determine
Placement of
Luminaires and
Make Layout
Page 688
664
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TCP: 15001
Typedriver Name: TS name csm no.: 100
Industrial Lighting Products
L
1
Determine Area Lighting Needs and Operational Factors
The selection of the proper luminaire/lamp
combination and the determination of the
number of luminaires required is a function of
the desired quantity and quality of light
required, together with consideration of any
special factors arising from the nature of the
work operation.
Several aspects of this selection process are
discussed below. The conditions will vary
from job to job. It is important to consider
these conditions if the lighting system is to
yield optimum results.
A) Determine Illumination Quantity
Required
The Illuminating Engineering Society in the
current IES Lighting Handbook gives a
comprehensive listing of footcandle levels
recommended for all types of Industrial
Lighting. A condensed version of this listing is
given in Table I and is presented according to
the types of visual tasks encountered.
B) Determine Illumination Quality Required
Quality of illumination pertains to the
distribution of brightness in the visual
environment. Care must be taken to avoid
discomforting glare within the normal visual
field.
Luminaires normally selected for lower
mounting should be designed to limit
brightness below the 45° zone.
C) National Electric Code Compliance
The National Electric Code delineates some
areas as hazardous, depending on materials
or atmosphere within an area. The choice of
luminaire and lamp is therefore somewhat
restricted if the area is classified as
hazardous.
In hazardous areas, luminaire design and
operating temperature of both luminaire and
lamp must meet strict limitations. These
limitations are detailed under Step 3 of this
selection guide.
Table 1 / Recommended Levels of Illuminance
Illuminance
Category
Footcandles†
Difficult assembly and
inspection, color coding, paper
manufacturing (Inspection and
Rewinder) finishing operations.
F
100 to 200
Moderate
Moderately difficult assembly
and inspection, checking and
sorting, service garage repair
areas, medium bench work,
instrument panel (vertical
illumination).
E
50 to 100
Casual
Simple assembly, rough bench
work, grinding, simple
inspection, wrapping, packing
and labeling, control house
general lighting.
D
20 to 50
Easy
Rough active storage,
washrooms, dry lumber
warehouse, compressor
houses.
C
10 to 20
Limited
Inactive storage, stairway
B
5 to 10
Seeing Task
Typical Type of Work
Difficult
NOTE: For other industrial footcandle levels such as petrochemical, refer to the Illuminating
Engineering Society’s Lighting Handbook (Application Volume) for more information.
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If the area is non-hazardous in nature, the
selection of the proper luminaire and lamp is
less restrictive and should be based on
general operational and environmental
conditions.
D) Maintenance Considerations
In order to insure optimum performance of
the lighting system at a reasonable cost,
some of the following related factors must be
introduced into the selection process:
ɀ Atmospheric Conditions: Luminaires for use
in extremely wet locations should be
enclosed and gasketed.
Luminaires for use in extremely dirty
locations should provide a minimum of light
depreciation under the anticipated
maintenance schedule (i.e., reflector with
open top and bottom should be used where
maintenance is infrequent). Luminaires for
use in extremely corrosive atmospheres
should have protection for the optical system
and have finishes to withstand the particular
corrosive agent (i.e., epoxy power finish;
enclosed Alzak reflector; Krydon TM fiberglass
reinforced polyester reflector).
ɀ Accessibility: Since it may be necessary to
locate luminaires in inaccessible areas, the
luminaire and lamp selected should minimize
need for maintenance and maximize ease of
maintenance when required (i.e., high bay
open reflector with mercury lamp).
ɀ Area Usage: The selection of the proper
lamp/luminaire combination will depend
greatly on the required burning hours per
year. The anticipated usage should be a
major factor in lamp selection.
† Values recommended are average maintained footcandles
at 30⍯ above floor (work plane).
Copyright© 2006 Cooper Crouse-Hinds
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COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Industrial Lighting Products
2
Select Type of Lamp
After identification of the factors discussed in
Step 1, the following guide can be used in
selecting the proper lamp:
A) Illumination Level
High (30FC or more): high intensity
discharge (H.I.D.) lamps are generally the
most economic choice.
ɀ Exception: where luminaires must be
placed within an operator’s normal visual
span, a low brightness light source such as
fluorescent should be used.
Low (less than 30FC): all light sources can be
considered. Selection of best lamp is usually
based on other factors.
ɀ Exception: at medium to high mounting,
high intensity discharge is generally best.
B) National Electrical Code®
Hazardous locations – all light sources can
be considered.
ɀ Exception: Article 500 of the National
Electrical Code classifies the various
categories of hazardous locations and
provides general rules for the application of
luminaires in these areas. (See Step 3 of
Selection Guide.)
ɀ Exception: where process must be shut
down for relamping, high intensity discharge
is best due to long lamp life. Non-hazardous
locations – all light sources.
C) Accessibility
High intensity discharge lamps should be
used where luminaires are relatively
inaccessible because of long life and the
need for infrequent relamping.
D) Area Usage (Burning Hours)
At more than 2,000 burning hours per year,
high intensity discharge and fluorescent
lamps generally yield the lowest system cost.
At less than 2,000 hours per year,
incandescent may be the best system
depending on the size of the area, mounting
height and illumination level required.
E) Other Considerations
ɀ Energy cost: where energy cost is high,
high intensity discharge lamps generally
prove most economical. H.I.D. lamps
produce more lumens per watt of electricity
than other lamp types.
ɀ Safety: due to warmup and restart
characteristics of high intensity discharge
lamps, auxiliary or emergency lighting should
be used in critical areas.
Continued
666
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TCP: 15001
Typedriver Name: TS name csm no.: 100
Industrial Lighting Products
2
L
(continued)
Select Type of Lamp
The following table of lamp characteristics
provides guidelines for choosing the best
lamp. If the decision is not obvious, contact
your Cooper Crouse-Hinds representative for
a computer analysis of the option desired.
Table II/Lamp Characteristics
Lamp
Advantages
Disadvantages
1.
Induction
Exceptionally long life – 100,000 hours.
Instant illumination upon start-up or warm
restart. Crisp, white light >80 color rending
index. Low operating cost.
Initial cost is higher than HID type luminaires.
2.
High Pressure Sodium
Good beam control. Long lamp life (24,000
hrs). Highest lamp output (lumens per watt).
Low operating cost. Shortest restart time of
H.I.D. lamps (instant with optional instant
restrike).
High initial cost. Requires warmup period.
3.
Metal Halide
Pulse Start
Improved lamp life (15,000- 30,000 hrs).
Increased lumen output over standard
metal halide (25 to 50%). Better lumen
maintenance (80%). Superior cold starting
-40°C. Improved color stability. Color shift
reduced by two-thirds. Improved lamp-tolamp color consistency. Warm up time 2
minutes. Restrike time 3-4 minutes.
High initial cost. Requires warmup period. Does
not restart immediately after power outage.
4.
Metal Halide
Moderately long lamp life (7500 + hrs).
High light output (lumens per watt). Makes
colors look close to natural. Low operating
cost.
High initial cost. Requires warmup period. Does
not restart immediately after power outage.
5.
Mercury
Long lamp life (24,000 hrs). High light
output per watt. Low operating cost.
High initial cost. Requires warmup period. Does
not restart immediately after power outage.
6.
Fluorescent
Long lamp life (7500-24,000 hrs). High light
output per watt. Low operating cost. Low
brightness. Cool operation.
High initial cost. Poor light control. Output may
vary with ambient temperature.
7.
Incandescent
Low initial cost. Good color rendition. Good
light control. Instant restart.
Low light output (lumens per watt), short lamp life
(500-2000 hrs). High operating cost.
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JOB: CRMAIN06-0668-7 Name: L-668
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TCP: 15001
Typedriver Name: TS name csm no.: 100
Industrial Lighting Products
3
Select Type of Luminaire
Choice of Reflector
The following list gives broad guidelines for selection of the proper reflectors.
Mounting Height
Above Floor
Reflector
Up to 19 ′
Dome
20′ or more
High bay
Where low footcandle levels will be provided, reflectors may be used at higher mounting heights than shown; where high footcandle levels will be
provided, reflectors may be used at lower mounting heights than shown in the table.
Quick Selector (Environment—Product)
Opposite the industrial environments listed below are the luminaires designed and approved to meet the requirements unique to each
environment. Where different types of light sources might be used, a choice is given.
Environment
Corrosive
Non Metallic
Enclosed & Gasketed
Explosive Vapors
(Class I, Div. 1)
Explosionproof
Combustible Dusts
(Class II, Div. 1)
Dustignition-proof
Moisture, Non-Combustible Dusts,
or Potential for Hazardous Vapors Enclosed & Gasketed
Class I,
Div. 2
Non-Hazardous
668
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Enclosed &
Gasketed
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Type
NDA
N2MV
N2MVF
N2MVFB
NFW
N2LPS
EV, EVI
EVLP, EVM Hazard ȿGard®
EVF, EVFDR
EVFT
EVLPF
RCDE/RCDER
ELPS
EVLPFB
EV
EV
DMV Champ®
N2MV Champ®
DMVIG, VMVIG
DMVF, N2MVF
EVM Hazard ȿGard®
FVN
FVS
DMVFB, N2MVFB
Vaporgard TM
CPMV Champ®
NDA
LMV Champ®
DMV Champ®
VMV Champ®
N2MV Champ®
FVN
DMVF, N2MVF
VF
FVS
FMV Champ®
SSFMV Voyager
N2LPS
DMVFB, N2MVFB
NFL
CAN: 1-800-265-0502
Description
Cat. Sect.
General—Incandescent
General—H.I.D.
General—Fluorescent
Emergency—Fluorescent
General—Fluorescent
Emergency—Halogen
General—Incandescent
General—H.I.D.
General—Fluorescent
General—Fluorescent
General—Fluorescent
Flood—Incandescent
Emergency—Halogen
Emergency—Fluorescent
Strobe—Incandescent
General—Incandescent
General—H.I.D.
General—H.I.D.
General—Induction
General—Fluorescent
General—H.I.D.
General—Fluorescent
General—Fluorescent
Emergency—Fluorescent
General—Incandescent
General—H.I.D/Fluorescent
General—Incandescent
General—H.I.D.
General—H.I.D.
General—H.I.D.
General—H.I.D.
General—Fluorescent
General—Fluorescent
General—Fluorescent
General—Fluorescent
Flood—H.I.D.
Flood—H.I.D.
Emergency—Halogen
Emergency—Fluorescent
General—Fluorescent
1L
3L
6L
10L
6L
10L
2L
4L
6L
6L
6L
7L & 9L
10L
10L
11L
691
721
809
923
809
923
709
779
809
809
809
865 & 913
923
923
939
2L
3L
3L
5L
6L
4L
6L
6L
10L
1L
3L & 6L
1L
3L
3L
3L
3L
6L
6L
6L
6L
7L
7L
10L
10L
6L
709
721
721
801
809
779
809
809
923
691
721 & 809
691
721
721
721
721
809
809
809
809
865
865
923
923
809
Copyright© 2006 Cooper Crouse-Hinds
Pg. #
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JOB: CRMAIN06-0669-2 Name: L-669
DATE: JAN 19 2006
Time: 5:41:51 PM Operator: JB
TCP: 15001
Typedriver Name: TS name csm no.: 100
H.I.D. Medium Base
Series - LMV, EVLP 1
Lamps Used With
Cooper Crouse-Hinds
Luminaires
LAMP
WATTS
COLOR: CMYK
ANSI
Ballast
L
MANUFACTURER
GE
Osram/
Sylvania
Phillips
S76
S68
S62
S54
S55
LU35/MED
LU50/MED
LU70/MED
LU100/MED
LU150/MED
LU35/MED
LU50/MED
LU70/MED
LU100/MED
LU150/MED
C35S76/M
C50S68/M
C70S62/M
C100S54/M
C150S55/M
M98
M90
M57
MXR70/U/MED
MXR100/U/MED
MVR175/U/MED
MP70/U/MED
MP100/U/MED
M175/U/MED
MHC70/U/M/3K
MHC100/U/M/3K
MH175/U/M
MXR150/U/MED
MXR175/VBU/MED/PA
MP150/U/MED
Venture
High Pressure Sodium
35
50
70
100
150
Metal Halide
70
100
175
MH70W/U
MH100W/U
Pulse Start Metal Halide
150
175
M102
M137
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MH150W/U/PS
MS175W/BU/MED/PS
669
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JOB: CRMAIN06-0670-2 Name: L-670
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LAMP
WATTS
DATE: JAN 19 2006
Time: 5:41:52 PM Operator: JB
TCP: 15001
Typedriver Name: TS name csm no.: 100
H.I.D. Medium Base
Series - LMV, EVLP 1
Lamps Used With
Cooper Crouse-Hinds
Luminaires
ANSI
Ballast
COLOR: CMYK
MANUFACTURER
MANUFACTURER
Lumens/Life (hrs)
GE
O/S
Ph
S76
S68
S62
S54
S55
2250/16K
4000/24K
6400/24K
9500/24K
16000/24K
2250/16K
4000/24K
6300/24K
9500/24K
15800/24K
2250/24K
4000/24K
6300/24K
9500/24K
16000/24K
M98
M90
M57
5500/12K
9000/15K
13600/10K
5200/15K
8500/15K
14400/10K
6200/10K
9300/12.5K
13500/10K
12500/15K
17700/15K
13300/15K
Bulb
Venture
GE
O/S
PH
B17
B17
B17
B17
B17
E17
E17
E17
E17
E17
ED17
ED17
ED17
ED17
ED17
5600/15K
9000/15K
BD17
BD17
BD17
E17
E17
ED17
ED17
ED17
ED17
14000/15K
17500/15K
BD17
BD17
E17
E17
Venture
High Pressure Sodium
35
50
70
100
150
Metal Halide
70
100
175
ED17
ED17
Pulse Start Metal Halide
150
175
670
STIBOINFO((CRH:66008com:L:670))
CH0 0 0 L - 0
M102
M137
US: 1-866-764-5454
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
ED17
ED17
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50:
95:
98:
100:
JOB: CRMAIN06-0671-3 Name: L-671
DATE: JAN 19 2006
Time: 5:41:52 PM Operator: JB
TCP: 15001
Typedriver Name: TS name csm no.: 100
H.I.D. Mogul Base
Series - DMV, VMV, CPMV,
FMV, F2MV, EVLP 0, FZD
Lamps Used With
Cooper Crouse-Hinds
Luminaires
LAMP
WATTS
COLOR: CMYK
ANSI
Ballast
L
MANUFACTURER
GE
Osram/
Sylvania
Phillips
Venture
High Pressure Sodium
50
70
100
150
150 (100V)
S68
S62
S54
S55
S56
LU50
LU70
LU100
LU150/55
LU150/100
LU50
LU70
LU100
LU150/55
LU150/100
C50S68
C70S62
C100S54
C150S55
C150S56
200
250
310
400
1000
S66
S50
S67
S51
S52
LU200
LU250
LU310
LU400
LU1000
LU200
LU250
LU310
LU400
LU1000
C200S66
C250S50
C310S67
C400S51
C1000S52
Metal Halide
70
100
175
250
400
400
1000
1500
M98
M90
M57
M58
M59
M59
M47
M48
MH70W/U/ED28
MH100W/U/ED28
MVR175/U
MVR250/U
MVR400/U
MVR400/U/ED28
MVR1000/U
MVR1500/HBD
Pulse Start Metal Halide
150
175
200
250
320
350
400
1000
M102
M137
M136
M138
M138
M132
M131
M131
M135
M135
M135
M135
M141
M175/U
M250U
M400/U
M400/U/BT-28
M1000/U
M1500/BD
MH175/U
MH250/U
MH400/U
MH400/U/ED28
MH1000/U
MH1500/BD
(Base up+–15%)
(Base up+–15%)
MXR175/VBU/PA
MS175/BU/PS
MXR250/VBU/PA
MS250/BU/PS
MXR320/VBU/PA
MS320/PS/BU-ONLY
MS320W/BU/PS
MXR400/VBU/PA
MS400/PS/BU-ONLY
MS400/BU/PS
HR100A38
HR175A39
HR250A37
HR400A33
HR1000A36
H38HT-100
H39KB-175
H37KB-250
H33CD-400
H36GV-1000
H38HT-100
H39KB-175
H37KB-250
H33CD-400
H36GV-1000
HQI-DE 70/WDX
CDM70/TD/830
MH150W/U/ED28/PS
MS175W/BU/PS
MH200W/U/PS
MH250W/HBU/PS
MH250W/HBD/PS
MH320W/U/ED28/PS
MH350W/U/PS
MH350W/U/ED28/PS
MH400W/HBU/PS
MH400W/HBD/PS
MH400W/HBU/ED28/PS
MH400W/HBD/ED28/PS
Mercury Vapor
100
175
250
400
1000
H38
H39
H37
H33
H36
HID Double Contact Metal Halide for EVP Series
70W
CMH70/TD/830/R7S
US: 1-866-764-5454
STIBOINFO((CRH:66008com:L:671))
CH0 0 0 L - 0
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
671
Zoom: 100
2:
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PDFINFO
50:
95:
98:
100:
JOB: CRMAIN06-0672-3 Name: L-672
Time: 5:41:53 PM Operator: JB
ANSI
Ballast
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
H.I.D. Mogul Base
Series - DMV, VMV, CPMV,
FMV, F2MV, EVM, EVLP 0, FZD
Lamps Used With
Cooper Crouse-Hinds
Luminaires
L
LAMP
WATTS
DATE: JAN 19 2006
MANUFACTURER
MANUFACTURER
Lumens/Life (hrs)
GE
O/S
Ph
Bulb
Venture
GE
O/S
PH
Venture
High Pressure Sodium
50
70
100
150
150 (100V)
S68
S62
S54
S55
S56
4000/24K
6400/24K
9500/24K
16000/24K
15000/24K
4000/24K
6300/24K
9500/24K
16000/24K
15700/24K
4000/24K
6300/24K
9500/24K
16000/24K
16000/24K
ED231/2
ED231/2
ED231/2
ED231/2
ED28
ET231/2
ET231/2
ET231/2
ET231/2
BT28
ED231/2
ED231/2
ED231/2
ED231/2
ED28
200
250
310
400
1000
S66
S50
S67
S51
S52
22000/24K
28000/24K
37000/24K
51000/24K
140000/24K
22000/24K
29000/24K
37000/24K
50000/24K
130000/24K
22000/24K
285000/24K
37000/24K
50000/24K
140000/24K
ED18
ED18
ED18
ED18
E25
ET18
ET18
ET18
ET18
E25
ED18
ED18
ED18
ED18
E25
Metal Halide
70
100
175
250
400
400
1000
1500
M98
M90
M57
M58
M59
M59
M47
M48
5600/15K
9000/15K
13600/10K
20800/10K
36000/20K
36000/20K
105000/12K
155000/3K
14400/10K
22000/10K
36000/20K
36000/20K
110000/15K
155000/3K
13500/10K
20500/20K
36000/20K
36000/20K
110000/12K
165000/3K
ED28
ED28
ED28
ED28
ED37
ED28
BT56
BT56
BT28
BT28
BT37
BT28
BT56
BT56
ED28
ED28
ED37
ED28
BT56
BT56
Pulse Start Metal Halide
150
175
200
250
320
350
400
1000
M102
M137
M136
M138
M138
M132
M131
M131
M135
M135
M135
M135
M141
17200/15K
16000/15K
23000/15K
23800/15K
31000/15K
32000/20K
44000/20K
41000/20K
44000/20K
14000/15K
17500/15K
21000/15K
25000/15K
25000/15K
33000/20K
37000/20K
37000/20K
44000/20K
44000/20K
ED231/2
ED28
ED28
ED28
ED28
BT28
ED28
ED37
BT37
ED37
ED231/2
ED28
ED28
ED37
BT56
ET231/2
BT28
BT28
BT37
BT56
ED231/2
ED28
ED28
ED37
BT56
44000/20K
Mercury Vapor
100
175
250
400
1000
672
STIBOINFO((CRH:66008com:L:672))
CH0 0 0 L - 0
H38
H39
H37
H33
H36
3850/24K
7850/24K
11000/24K
21000/24K
57000/24K
4000/24K
7700/24K
11600/24K
20500/24K
55200/24K
US: 1-866-764-5454
4100/24K
7900/24K
12100/24K
21000/24K
57500/24K
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
ED28
ED28
ED28
ED28
ED28
ED28
ED37
ED28
ED37
ED37
ED28
ED28
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PDFINFO
50:
95:
98:
100:
JOB: CRMAIN06-0673-3 Name: L-673
DATE: JAN 19 2006
Time: 5:43:00 PM Operator: JB
BASE
TCP: 15001
Typedriver Name: TS name csm no.: 100
Fluorescent Lamps
Lamps Used With
Cooper Crouse-Hinds
Luminaires
LAMP
WATTS
COLOR: CMYK
LUMINAIRE
SERIES
L
MANUFACTURER
GE
Osram/
Sylvania
Phillips
F5BX/SPX41/840
F7BX/SPX35/835
F9BX/SPX35/835
F13DBX23T4/SPX35
CF5DS/841
CF7DS/835
CF9DS/835
CF13DD/835
PL-S5W/27
PL-S7W/35
PL-S9W/35
PL-C13W/35/USA
F26TBX/SPX35/A/4P
CF26DT/E/IN/835
PL-T26W/35/4P/ALTO
F32TBX/SPX35/A/4P
CF32DT/E/IN/835
PL-T32W/35/4P/ALTO
F42QBX/SPX35/A/4P
CF42DT/E/IN/835
PL-T42W/35/4P/ALTO
F39/36/BX/SPX35
F40/30BX/SPX35
FT36DL/835
FT40DL/835/RS
PL-L36W/35
PL-L40W/35/RS
F32T8/SP35
F032/735
F32T8/TL735/ALTO
F40CW/RS/WM
F40CW/SS
F40CW/RS/EW/ALTO
F48T12/CW/HO
F48T12/CW/HO
F48T12/CW/HO
F48T12/CW/1500
F48T12/CW/VHO
F48T12/CW/VHO
Compact
5W-T4
7W-T4
9W-T4
13W-T4
G23
G23
G23
GX23-2
26W-T4
GX24q-3
32W-T4
GX24q-3
42W-T4
GX24q-4
VF
VF
VF
DMVF (Disc)
DMVF, N2MVF,
CPMVF, EVLPF
DMVF, N2MVF,
CPMVF, EVLPF
DMVF, N2MVF,
CPMVF, EVLPF
Long Twin Tube
70
40
2G11
2G11
EVFT
NFL, FVS
Linear
32W-T8
40(34)W-T12
60W (800ma)-T12
HIGH OUTPUT
110W (1500ma)-T12
VERY HIGH OUTPUT
Medium
Bipin
Medium
Bipin
Recessed
Double Contact
Recessed
Double Contact
NFL, FVN, EVF,
EVFDR
NFL, FVN, EVF,
EVFDR
FVN, EVF,
EVFDR
EVF, EVFDR
US: 1-866-764-5454
STIBOINFO((CRH:66008com:L:673))
CH0 0 0 L - 0
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
673
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PDFINFO
50:
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98:
100:
JOB: CRMAIN06-0674-3 Name: L-674
DATE: JAN 19 2006
Time: 5:43:04 PM Operator: JB
Lamps Used With
Cooper Crouse-Hinds
Luminaires
L
LAMP
WATTS
BASE
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Fluorescent Lamps
LUMINAIRE
SERIES
MANUFACTURER
GE
Lumens/Life (Hrs)
Osram/Sylvania
Phillips
250/10K
400/10K
600/10K
810/10K
230/10K
400/10K
580/10K
780/10K
250/10K
400/10K
600/10K
860/10K
1800/10K
1800/10K
1800/10K
2200/10K
2400/10K
2400/10K
3200/10K
3200/10K
3200/10K
2850/12K
3150/20K
2900/12K
3150/20K
2900/12K
3150/20K
Compact
5W-T4
7W-T4
9W-T4
13W-T4
G23
G23
G23
GX23-2
26W-T4
GX24q-3
32W-T4
GX24q-3
42W-T4
GX24q-4
VF
VF
VF
DMVF (Disc)
DMVF, N2MVF,
CPMVF, EVLPF
DMVF, N2MVF,
CPMVF, EVLPF
DMVF, N2MVF,
CPMVF, EVLPF
Long Twin Tube
70
40
2G11
2G11
EVFT
NFL, FVS
Linear
32W-T8
40(34)W-T12
60W (800ma)-T12
HIGH OUTPUT
110W (1500ma)-T12
VERY HIGH OUTPUT
674
STIBOINFO((CRH:66008com:L:674))
CH0 0 0 L - 0
Medium
Bipin
Medium
Bipin
Recessed
Double Contact
Recessed
Double Contact
NFL, FVN, EVF,
EVFDR
NFL, FVN, EVF,
EVFDR
FVN, EVF,
EVFDR
2850/20K
2800/20K
2850/20K
2650/20K
2700/20K
2650/20K
4050/12K
4050/12K
4050/12K
EVF, EVFDR
6200/10K
6600/10K
7050/12K
US: 1-866-764-5454
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
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PDFINFO
50:
95:
98:
JOB: CRMAIN06-0675-2 Name: L-675
100:
DATE: JAN 19 2006
Time: 5:43:04 PM Operator: JB
EXLD
50W PAR20
EVTL
52W A19
58W A19
ELG
ELG
60W T10
65W BR30
75W ER30
100W A19
EXL
EVO2376
EVO2376
EV 40 Series
V160, EV160, EVH,
EV 15 Series
VS
Suffix QTZ
Vaporgard 150W
EV 10 Series
EV 20 Series
V Series
RCDE6
Vaporgard 200W
EV 10 Series
Vaporgard 200W
EV 15 Series
EV 15 Series
EV 20 Series
EV 30 Series
100W A23
100W D.C. Bay
150W A21
150W A23
150W PAR38
200W A23
200W A25
200W PS25
200W PS30
300W PS25
300W PS30
300W R40
300W PS35
500W PS40
500W PAR64
Vapourgard 300W
NDA
EV 15 Series
Vaporgard 300W
EV 20 Series
EV 15 Series
RCDE6
EV 30 Series
EV 30 Series
RCDE10
US: 1-866-764-5454
STIBOINFO((CRH:66008com:L:675))
CH0 0 0 L - 0
Typedriver Name: TS name csm no.: 100
L
LUMINAIRE
SERIES
25W T10
100W A21
TCP: 15001
Incandescent & Quartz
(Halogen) Lamps
Lamps Used With
Cooper Crouse-Hinds
Luminaires
MAX WATTS AND
BULB TYPE
COLOR: CMYK
MANUFACTURER
GE
Osram/
Sylvania
Phillips
25T10
50PAR20/H/SP10
50PAR20/H/FL25
25T10
50PAR20/CAP/NSP
50PAR20/CAP/NFL
25T10
50PAR20/HAL/NSP9
50PAR20/HAL/NFL30
60A52WMP/98
60A52/SS/XL
58A19/62
60A-52A/99/EW
60T10
75R30/SP/65WM
75ER30
100A (IF)
60T10
65BR30/SP
75ER30
100A (IF)
60T10
65BR30/SP20
75ER30
100A (IF)
100A21 (IF)
100A21 (IF)
100A21 (IF)
100A23 120V
Q100CL/DC
100A23
100Q/CL/DC
100A23
100Q/CL/DC
150A (IF)
150A (IF)
150A (IF)
150A23 (IF)
150PAR/FL
150A23/CL
150PAR38/2FL
200A23 (IF)
200A (IF)
200A25/35
200PS25/99XL
200 130V
200PS/CL 130V
300M
200 130V
300M
300M/99 (130v)
300M/CL
300M/PS30
300R/FL
300
500PS40
500PAR64/MFL
300R40/FL
300/CL
300BR/FL
300
500PS40
500PAR64/MFL
CAN: 1-800-265-0502
500PAR64/MFL
Copyright© 2006 Cooper Crouse-Hinds
675
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PDFINFO
50:
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JOB: CRMAIN06-0676-2 Name: L-676
DATE: JAN 19 2006
Time: 5:43:05 PM Operator: JB
MAX WATTS AND
BULB TYPE
25W T10
50W PAR20
52W A19
58W A19
60W T10
65W BR30
75W ER30
100W A19
100W A21
100W A23
100W D.C. Bay
150W A21
150W A23
150W PAR38
200W A23
200W A25
200W PS25
200W PS30
300W PS25
300W PS30
300W R40
300W PS35
500W PS40
500W PAR64
676
STIBOINFO((CRH:66008com:L:676))
LUMINAIRE
SERIES
EXLD
EVTL
ELG
ELG
EXL
EVO2376
EVO2376
EV 40 Series
V160, EV160, EVH,
EV 15 Series
VS
Suffix QTZ
Vaporgard 150W
EV 10 Series
EV 20 Series
V Series
RCDE6
Vaporgard 200W
EV 10 Series
Vaporgard 200W
Ev 15 Series
EV 15 Series
EV 20 Series
EV 30 Series
Vapourgard 300W
NDA
EV 15 Series
Vaporgard 300W
EV 20 Series
EV292 Series
RCDE6
EV 30 Series
EV 30 Series
RCDE10
US: 1-866-764-5454
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Incandescent & Quartz
(Halogen) Lamps
Lamps Used With
Cooper Crouse-Hinds
Luminaires
L
CH0 0 0 L - 0
100:
MANUFACTURER
GE
Lumens
O/S
248
570
570
670
630
740
775
850
1710
232
530
530
650
630
630
640
750
1750
1710
MANUFACTURER
Ph
GE
Life-Hours
O/S
PH
260
550
550
564
630
745
1650
1000
2500
2500
2500
3000
1000
2000
2000
750
1000
2500
2500
2500
3000
1000
2000
2000
750
1000
2000
2000
4250
3000
1000
2000
2000
750
1690
1680
750
750
750
1600
1600
1600
1730
1600
750
2000
750
2000
750
2000
2850
2780
2850
750
750
750
1660
2810
1660
2475
1660
2000
750
2000
1275
2000
3930
3800
750
750
2720
2720
2720
3500
3500
3500
3000
3000
3000
2500
2500
2500
2725
2665
2825
1950
1875
2120
6280
750
750
750
6200
3935
5870
6100
6800
7500
7500
3700
5820
9900
6500
3030
5700
10100
np
5700
10100
2000
1000
1000
2000
2000
1000
1000
2000
2000
1000
1000
2000
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
Zoom: 100
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PDFINFO
50:
95:
98:
100:
JOB: CRMAIN06-0677-2 Name: L-677
DATE: JAN 19 2006
Time: 5:43:06 PM Operator: JB
TCP: 15001
Typedriver Name: TS name csm no.: 100
High Pressure Sodium
Data
Ballasts Used With
Cooper Crouse-Hinds
Luminaires
L
Watts
ANSI
Code
Volts
Type
R/HX/CWA
Starting
Current
Operating
Current
Input
Watts
35
S76
120
R-HPF
0.8
0.4
46
CHRBS 035
/120
50
S68
120
120/277
220/240-50 Hz
R-HPF
HX-HPF
HX-HPF
1.0
0.7/0.3
0.3/0.3
0.6
0.6/0.3
0.6/0.6
62
66
66
CHRBS 050
CHRBS 050
CHRBS 050
/120
/DT
/220 50
S62
120
120/208/240/277
120/277/347
220
420
220/240-50Hz
R-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
0.9
0.8/0.5/0.4/0.4
.8/.4/.3
0.4
0.2
.5/.4
0.8
0.8/0.5/0.4/0.4
0.8/0.4/0.3
0.4
0.2
.5/.4
86
91
93
91
93
94
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
070
070
070
070
070
070
/120
/MT
/TT
/220
/480
/220 50
S54
120
120/208/240/277
120/277/347
220
480
220/240-50 Hz
R-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
1.5
1.3/0.8/0.7/0.6
1.3/0.6/0.5
0.7
0.4
0.5/0.5
1.1
1.2/0.7/0.6/0.5
1.2/0.5/0.4
0.6
0.3
0.7/0.6
115
130
130
130
130
130
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
100
100
100
100
100
100
/120
/MT
/TT
/220
/480
/220 50
150
(55v)
S55
120
120/208/240/277
120/277/347
220
480
220/240-50 Hz
R-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
2.3
2.0/1.2/1.0/0.9
2.0/0.9/0.5
1.1
0.5
0.9/0.8
1.5
1.7/1.0/0.8/0.7
1.7/0.7/0.6
0.9
0.4
0.9/0.8
170
188
188
188
188
188
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
150
150
150
150
150
150
/120
/MT
/TT
/220
/480
/220 50
150
(100v)
S56
120/208/240/277
480
220/240-50 Hz
CWA
CWA
R-PFC
1.2/0.7/0.6/.05
0.3
0.9/1.0
1.8/1.0/0.9/0.8
0.4
0.9/0.8
188
188
175
CHRBS 150
CHRBS 150
CHRBS 150
200
S66
12-/208/240/277
480
CWA
CWA
1.4/0.8/0.7/0.6
0.4
2.4/1.4/1.2/1.0
0.6
250
250
CHRBS 200 /MT
CHRBS /200 /480
S50
120
120/208/240/277
120/277/347
220
480
230-50 Hz
CWA
CWA
CWA
CWA
CWA
CWA
1.7
1.7/1.0/0.8/0.7
1.7/0.7/0.6
0.9
0.4
1.0
2.5
2.5/1.5/1.3/1.1
2.7/1.2/0.9
1.5
0.7
1.4
295
295
295
295
310
300
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
250
250
250
250
250
250
/120
/MT
/TT
/220
/480
/220 50
S51
120
120/208/240/277
120/277/347
220
480
230-50 Hz
CWA
CWA
CWA
CWA
CWA
CWA
3.3
3.3/1.8/1.5/1.4
3.3/1.4/1.0
1.6
0.8
1.9
3.8
3.8/2.2/1.9/1.7
3.8/1.7/1.3
2.1
1.0
2.0
457
464
464
457
464
465
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
400
400
400
400
400
400
/120
/MT
/TT
/220
/480
/220 50
S52
120/208/240/277
120/277/347
220
480
220/240-50 Hz
CWA
CWA
CWA
CWA
CWA
6.4/3.8/3.2/2.8
6.4/2.8/2.2
3.6
1.6
6.0/5.6
9.5/5.5/4.8/4.2
9.5/4.2/3.3
5.0
2.3
5.2/4.8
1100
1100
1100
1100
1100
CHRBS
CHRBS
CHRBS
CHRBS
CHRBS
1000
1000
1000
1000
1000
/MT
/TT
/220
/480
/220 50
70
100
250
400
1000
US: 1-866-764-5454
STIBOINFO((CRH:66008com:L:677))
CH0 0 0 L - 0
COLOR: CMYK
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
Kit Cat No.
/MT CE
/480 CE
/220 50 CE
677
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50:
95:
100:
JOB: CRMAIN06-0678-3 Name: L-678
DATE: JAN 19 2006
Time: 5:43:06 PM Operator: JB
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Pulse Start Metal Halide
Data
Ballasts Used With
Cooper Crouse-Hinds
Luminaires
L
Watts
ANSI
Code
Volts
Type
R/HX/CWA
Starting
Current
Operating
Current
Input
Watts
150
M102
120/208/240/277
120/277/347
HX-HPF
HX-HPF
1.8/1.3/0.9/0.8
1.8/0.8/0.7
1.6/1.0/0.8/0.7
1.6/0.7/0.6
185
185
CHRBM 150
CHRBM 150
/MT
/TT
S828
S828
175
M137
120/208/240/277
120/277/347
Super CWA
Super CWA
1.0/0.6/0.5/0.4
0.8/0.4/0.3
1.8/1.1/0.9/0.8
1.9/0.8/0.7
208
208
CHRBM 175
CHRBM 175
/MT
/TT
S828
S828
200
M136
120/208/240/277
120/277/347
480
Super CWA
Super CWA
Super CWA
0.80.4/0.4/0.3
0.7/0.3/0.3
0.2
2.0/1.2/1.0/0.9
2.1/0.9/0.7
0.5
232
232
232
CHRBM 200
CHRBM 200
CHRBM 200
/MT
/TT
/480
S828
S828
S828
250
M138
120/208/240/277
120/277/347
Super CWA
Super CWA
2.3/1.3/1.2/1.0
2.0/0.9/0.8
2.5/1.5/1.3/1.1
2.5/1.1/0.9
288
290
CHRBM 250
CHRBM 250
/MT
/TT
S828
S828
M132
120/208/240/277
120/277347
220
480
230/50
Super CWA
Super CWA
Super CWA
Super CWA
Super CWA
1.8/1.1/0.9/0.8
2.2/1.0/0.7
1.4
0.5
1.1
3.3/1.9/1.7/1.4
3.3/1.4/1.1
1.7
0.8
1.6
368
368
365
368
365
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
250
250
250
250
250
/MT
/TT
/220
/480
/220 50
S828
S828
S828
S828
S828
M135
120/208/240/277
120/277/347
480
230/50
Super CWA
Super CWA
Super CWA
Super CWA
2.9/1.7/1.5/1.3
3.2/1.4/1.1
0.8
2.0
3.8/2.2/1.9/1.7
3.8/1.7/1.4
1.0
2.1
452
450
452
454
CHRBM
CHRBM
CHRBM
CHRBM
400
400
400
400
/MT
/TT
/480
/220 50
S828
S828
S828
S828
M141
120/208/240/277
347
480
220/240-50 Hz
Super CWA
Super CWA
Super CWA
CWA
7.8/4.0/3.7/3.2
2.3
1.7
4.5/4.1
9.0/5.2/4.5/3.9
3.2
2.4
5.0/4.5
1080
1075
1075
1090
CHRBM
CHRBM
CHRBM
CHRBM
1000
1000
1000
1000
/MT
/347
/480
/220 50
S828
S828
S828
S828
320
400
1000
678
STIBOINFO((CRH:66008com:L:678))
CH0 0 0 L - 0
98:
US: 1-866-764-5454
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
Kit Cat No.
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PDFINFO
50:
95:
98:
100:
JOB: CRMAIN06-0679-2 Name: L-679
DATE: JAN 19 2006
Time: 5:43:07 PM Operator: JB
70
100
175
250
400
1000
1500
STIBOINFO((CRH:66008com:L:679))
Typedriver Name: TS name csm no.: 100
L
ANSI
Code
Volts
Type
R/HX/CWA
Starting
Current
Operating
Current
Input
Watts
M98
120/208/240/277
120/277/347
220
220/240-50 Hz
HX-HPF
HX-HPE
HX-HPF
HX-HPF
0.6/0.3/0.3/0.3
0.6/0.2/0.2
0.4
0.7/0.6
0.8/0.5/0.4/0.4
0.8/0.4/0.3
0.5
0.5/0.4
88
88
94
95
CHRBM
CHRBM
CHRBM
CHRBM
070
070
070
070
/MT
/TT
/220
/220 50
M90
120/208/240/277
120/277/347
220
480
220/240-50 Hz
HX-HPF
HX-HPF
HX-HPF
HX-HPF
HX-HPF
1.2/0.8/0.7/0.6
1.2/0.5/0.4
0.9
0.3
0.7/0.7
1.2/0.7/0.6/0.5
1.2/0.5/0.4
0.6
0.3
0.7/0.6
129
129
129
132
129
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
100
100
100
100
100
/MT
/TT
/220
/480
/220 50
M57
120
120/208/240/277
120/277/347
220
480
230/50
CWA
CWA
CWA
CWA
CWA
CWA
1.3
1.3/0.8/0.7/0.6
1.3/0.6/0.5
0.6
0.4
0.8
1.8
1.8/1.1/0.9/0.8
1.8/0.8/0.7
1.0
0.5
1.1
210
210
210
210
210
210
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
175
175
175
175
175
175
/120
/MT
/TT
/220
/480
/220 50
M58
120
120/208/240/277
120/277/347
220
480
230/50
CWA
CWA
CWA
CWA
CWA
CWA
1.0
1.0/0.6/0.5/0.5
2.2/1.0/0.8
1.4
0.6
1.0
2.6
2.6/1.5/1.3/1.1
2.5/1.1/0.9
1.5
0.6
1.3
294
294
295
295
295
290
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
250
250
250
250
250
250
/120
/MT
/TT
/220
/480
/220 50
M59
120
120/208/240/277
120/277/347
220
480
230/50
CWA
CWA
CWA
CWA
CWA
CWA
3.0
3.5/2.0/1.8/1.5
3.5/1.5/1.2
1.9
0.9
1.4
4.0
4.0/2.2/2.0/1.8
4.0/1.8/1.4
2.2
1.0
2.1
456
458
460
458
462
462
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
400
400
400
400
400
400
/120
/MT
/TT
/220
/480
/220 50
M47
120/208/240/277
120/277/347
220
480
220/240-50 Hz
CWA
CWA
CWA
CWA
CWA
7.84.0/3.7/3.2
7.8/3.2/2.5
3.9
1.9
4.5/4.1
9.0/5.2/4.5/3.9
9.0/3.9/3.2
4.9
2.3
5.0/4.5
1080
1080
1080
1080
1090
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
1000 /MT
1000 /TT
1000 /220
1000 /480
1000 /220 50
M48
120/208/240/277
120/277347
220
480
220/240-50 Hz
CWA
CWA
CWA
CWA
CWA
13.4/7.7/6.7/5.7
13.4/5.7/4.6
7.3
3.3
6.9/6.3
13.5/7.8/6.8/5.9
13.5/5.9/4.8
7.4
3.4
7.5/6.9
1605
1615
1605
1625
1605
CHRBM
CHRBM
CHRBM
CHRBM
CHRBM
1500 /MT
1500 /TT
1500 /220
1500 /480
1500 /220 50
US: 1-866-764-5454
CH0 0 0 L - 0
TCP: 15001
Metal Halide
Data
Ballasts Used With
Cooper Crouse-Hinds
Luminaires
Watts
COLOR: CMYK
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
Kit Cat No.
679
Zoom: 100
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PDFINFO
50:
95:
100:
JOB: CRMAIN06-0680-3 Name: L-680
Watts
100
175
250
400
1000
680
STIBOINFO((CRH:66008com:L:680))
DATE: JAN 19 2006
Time: 5:43:08 PM Operator: JB
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Mercury Vapor
Data
Ballasts Used With
Cooper Crouse-Hinds
Luminaires
L
CH0 0 0 L - 0
98:
ANSI
Code
Volts
Type
R/HX/CWA
Starting
Current
Operating
Current
Input
Watts
H38
120
120/208/240/277
120/277/347
480
220/240-50 Hz
CWA
CWA
CWA
CWA
CWA
1.1
1.1/0.6/0.5/0.5
1.1/0.5/0.4
0.3
0.7/0.6
1.1
1.1/0.6/0.5/0.5
1.1/0.5/0.3
0.3
0.6/0.5
120
125
125
125
125
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
100
100
100
100
100
/120
/MT
/TT
/480
/220 50
H39
120
120/208/240/277
120/277347
220
480
230/50
CWA
CWA
CWA
CWA
CWA
CWA
1.6
1.6/1.0/0.8/0.7
1.3/0.6/0.5
0.6
0.4
0.8
1.9
1.9/1.1/1.0/0.8
1.8/0.8/0.7
1.0
0.4
1.1
205
205
210
210
200
210
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
175
175
175
175
175
175
/120
/MT
/TT
/220
/480
/220 50
H37
120
120/208/240/277
120/277/347
220
480
230/50
CWA
CWA
CWA
CWA
CWA
CWA
2.5
2.5/1.5/1.3/1.1
2.2/1.0/0.8
1.4
0.6
1.0
2.5
2.5/1.5/1.3/1.1
2.5/1.1/0.9
1.5
0.6
1.3
280
285
295
295
285
290
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
H33
120/208/240/277
120/277/347
220
480
230/50
CWA
CWA
CWA
CWA
CWA
3.2/2.0/1.7/1.7
3.5/1.5/1.2
1.9
1.0
1.4
3.9/2.2/2.0/1.7
4.0/1.8/1.4
2.1
1.0
2.1
454
460
454
454
462
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
400
400
400
400
400
/MT
/TT
/220
/480
/220 50
H36
120/208/240/277
120/277/347
220
480
220/240-50 Hz
CWA
CWA
CWA
CWA
CWA
8.0/4.6/4.0/3.5
7.8/3.2/2.5
3.9
1.9
4.5/4.1
9.8/5.6/4.9/4.3
9.0/3.9/3.2
4.9
2.3
5.0/4.5
1080
1080
1080
1080
1090
CHRBC
CHRBC
CHRBC
CHRBC
CHRBC
1000
1000
1000
1000
1000
/MT
/TT
/220
/480
/220 50
US: 1-866-764-5454
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
Kit Cat No.
250
250
250
250
250
250
/120
/MT
/TT
/220
/480
/220 50
Zoom: 100
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PDFINFO
50:
95:
98:
100:
JOB: CRMAIN06-0681-2 Name: L-681
DATE: JAN 19 2006
Time: 5:43:08 PM Operator: JB
Ballasts Used With
Cooper Crouse-Hinds
Luminaires
Luminaire
Series
Lamp Type & Watts
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Fluorescent Data
L
Lamp Base
Lamp
No.
Qty.
Ballast
Voltage
Starting
Operating
Amp
Input
Watts
Kit Cat. No.
COMPACT
VF
9W T4
G23
2
120
0.4
22
CHRBF2C18/120
DMVF,
N2MVF,
EVLPF
26W T4
26W T4
26W T4
26W T4
26W T4
26W T4
GX24q-3
GX24q-3
GX24q-3
GX24q-3
GX24q-3
GX24q-3
2
2
2
2
2
2
120
220/240
277
347
DC 12V
DC 24V
0.5
0.3
0.2
0.2
3.6
1.8
55
55
55
44
43
43
CHRBF4C64/UNV
CHRBF4C64/UNV
CHRBF4C64/UNV
CHRBF4C64/347
CHRBF4C64/12VDC
CHRBF4C64/24VDC
DMVF,
N2MVF,
EVLPF
32W T4
32W T4
32W T4
32W T4
32W T4
32W T4
GX24q-3
GX24q-3
GX24q-3
GX24q-3
GX24q-3
GX24q-3
2
2
2
2
2
2
120
220/240
277
347
DC 12V
DC 24V
0.6
0.3
0.3
0.2
4.4
2.2
68
68
68
62
60
60
CHRBF4C64/UNV
CHRBF4C64/UNV
CHRBF4C64/UNV
CHRBF4C64/347
CHRBF4C64/12VDC
CHRBF4C64/24VDC
CPMVF
42W T4
42W T4
42W T4
GX24q-4
GX24q-4
GX24q-4
2
2
2
120
277
347
0.8
0.3
0.3
93
68
80
CHRBF4C84/120
CHRBF4C84/277
CHRBF4C84/347
LONG TWIN TUBE
NFL
40W T5
40W T5
40W T5
40W T5
2G11
2G11
2G11
2G11
1
1
1
1
120
277
347
220/240
0.4
0.2
0.1
0.2
42
42
44
41
CHRBFT40/120
CHRBFT40/277
CHRBFT80/347
CHRBFT80/UNV
FVS
40W T5
40W T5
40W T5
40W T5
2G11
2G11
2G11
2G11
2
2
2
2
120
277
347
220/240
0.6
0.3
0.2
0.3
76
73
70
74
CHRBFT80/UNV
CHRBFT80/UNV
CHRBFT80/347
CHRBFT80/UNV
EVFT
36/39W
36/39W
36/39W
2G11
2G11
2G11
2
2
2
120
277
220/240
0.6
0.3
0.3
74
74
71
CHRBFT78/120
CHRBFT78/277
CHRBFT78/220
Note:
For 3 Lamp luminaires, order one 1 lamp ballast and one 2 lamp, lamp ballast. Add current and watts values
For 4 lamp luminaires, order two 2 lamp, lamp ballasts. Double currents and watts values
US: 1-866-764-5454
STIBOINFO((CRH:66008com:L:681))
CH0 0 0 L - 0
CAN: 1-800-265-0502
Copyright© 2006 Cooper Crouse-Hinds
681
Zoom: 100
2:
5:
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PDFINFO
50:
95:
98:
JOB: CRMAIN06-0682-2 Name: L-682
L
100:
DATE: JAN 19 2006
Time: 5:43:09 PM Operator: JB
COLOR: CMYK
TCP: 15001
Typedriver Name: TS name csm no.: 100
Fluorescent
Data
Ballasts Used With
Cooper Crouse-Hinds
Luminaires
Lamp Base
Lamp
No.
Qty.
Ballast
Voltage
Starting
Operating
Amp
Input
Watts
Kit Cat. No.
NFL, FVN,
EVF &
EVFDR
32W T8
32W T8
32W T8
32W T8
32W T8
32W T8
32W T8
32W T8
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
1
1
1
1
2
2
2
2
120
277
347
220/240
120
277
347
220
0.3
0.2
0.1
0.3
0.5
0.2
0.1
0.4
35
35
32
38
58
58
50
58
CHRBFL64/UNV
CHRBFL64/UNV
CHRBFL64/347
CHRBFL64/UNV
CHRBFL64/UNV
CHRBFL64/UNV
CHRBFL64/347
CHRBFL64/UNV
NFL, FVN,
EVF &
EVFDR
40(34W)T12
40(34W)T12
40(34W)T12
40(34W)T12
40(34W)T12
40(34W)T12
40(34W)T12
40(34W)T12
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
Med Bipin
1
1
1
1
2
2
2
2
120
277
347
220 50
120
277
347
220/240
0.4
0.2
0.2
0.2
0.6
0.3
0.2
0.2
46
46
52
51
73
80
62
71
CHRBFL80/120
CHRBFL80/277
CHRBFL40/347
CHRBFL40/220 50
CHRBFL80/120
CHRBFL80/277
CHRBFL80/347
CHRBFL80/220
FVN,
EVF &
EVFDR
60W (800ma) T12 HO
60W (800ma) T12 HO
60W (800ma) T12 HO
60W (800ma) T12 HO
60W (800ma) T12 HO
60W (800ma) T12 HO
Recessed Double Contact
Recessed Double Contact
Recessed Double Contact
Recessed Double Contact
Recessed Double Contact
Recessed Double Contact
1
1
1
2
2
2
120
277
220 50
120
277
220 50
0.9
0.5
0.7
1.2
0.5
1.0
79
82
140
133
131
224
CHFBFL120/120
CHFBFL120/277
CHFBFL120/220 50
CHFBFL120/120
CHFBFL120/277
CHFBFL120/220 50
EVF &
EVFDR
110W (1500ma) T12 VHO
110W (1500ma) T12 VHO
110W (1500ma) T12 VHO
110W (1500ma) T12 VHO
Recessed Double Contact
Recessed Double Contact
Recessed Double Contact
Recessed Double Contact
1
1
2
2
120
277
120
277
1.7
0.6
2.2
0.9
130
137
230
241
CHRBFL220/120
CHRBFL220/277
CHRBFL220/120
CHRBFL220/277
Luminaire
Series
Lamp Type & Watts
LINEAR
Note:
For 3 Lamp Luminaires, order one 1 lamp ballast and one 2 lamp, lamp ballast. Add current and watts values
For 4 lamp luminaires, order two 2 lamp, lamp ballasts. Double currents and watts values
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4
Calculate the Number of Luminaires Required
For uniform lighting of a specific area, the
lumen method is used to calculate the
number of luminaires required. This method
takes into account not only the direct light
from the luminaire, but also that which is
reflected from the ceiling, walls and floor. As
the calculations will show, the higher the
reflectivity of the surfaces, the fewer number
of luminaires required. Clean, light-colored
surfaces also provide visual comfort.
The Coefficient of Utilization as used in these
calculations makes allowances for light
absorbed by walls and ceiling, and the light
absorbed within the luminaire.
To obtain the Coefficient of Utilization, the
reflection factors of the walls, floors, and
ceiling must be estimated. These
reflectances should be the minimum values
expected just before cleaning or repainting of
the surfaces. The reference below gives
approximate factors for various surfaces.
Reflectance
Color
Factor
White . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80%
Light tints of blue-green, cream, blue,
buff or gray . . . . . . . . . . . . . . . . . . . . . . . . . . 70%
Medium blue-green, yellow, medium
buff, or gray . . . . . . . . . . . . . . . . . . . . . . . . . 50%
Dark gray, medium blue . . . . . . . . . . . . . . . 30%
Dark blue, brown, dark green, and many
wood finishes, such as dark oak and
mahogany . . . . . . . . . . . . . . . . . . . . . . . . . . . 10%
When supplementary lighting (highlighting)
or floodlighting is needed, use the point-bypoint method to determine footcandles at a
specific point or points on the work plane.
This method can also be used with angle
reflectors for lighting of irregular rooms or
where ceiling use is restricted. Candlepower
distribution curves for individual lighting units
are shown on the appropriate catalog pages.
4a
4b
Determine Cavity Ratios
Determine Cavity
Reflectances
There are three Cavity Ratios that should be
determined, as in Figure 1:
Ceiling Cavity Ratio
Room Cavity Ratio
Floor Cavity Ratio
Each of these ratios can be found through
use of Table IV, page 684. Simply find the
appropriate Cavity Depth, whether it is
Ceiling Cavity Depth (hCC), Room Cavity
Depth (hRC), or Floor Cavity Depth (hFC), and
match it with the room length and width to
obtain the Cavity Ratio.
For example, to determine the Ceiling Cavity
Ratio when the Ceiling Cavity Depth (distance
from luminaire to ceiling) is 4′, the width of
the room 20′ and the length 60′, crossreference to Cavity Depth 4.0, width 20,
length 60, and find Ceiling Cavity Ratio of 1.3.
If the Room Cavity Depth (distance from
luminaire to work plane) is 12′, then the Room
Cavity Ratio would be 4.0.
Basic Steps in the Lumen
Method
Effective reflectances of the different room
cavities are determined in Table V, page 685,
by using the estimated ceiling, wall and floor
reflectances together with the corresponding
cavity ratios.
Using the example in Step 4a, we estimate
the wall reflectance at 70% and the ceiling
reflectance at 70%. Using the Ceiling Cavity
Ratio of 1.3 (also from Step 4a) in Table V, we
find the Effective Ceiling Cavity Reflectance is
61%.
4c
Determine Coefficient of
Utilization
The Coefficient of Utilization is determined
from the CU table found on the catalog page
for the previously selected luminaire/lamp
combination.
Using our example again, the three required
factors for use with the CU table would be:
Room Cavity Ratio
(from Step 4a). . . . . . . . . . . . . . . . . . . . . . . . . 4.0
Wall Reflectance
(from Step 4b) . . . . . . . . . . . . . . . . . . . . . . . 70%
Effective Ceiling Cavity Reflectance
(from Step 4b) . . . . . . . . . . . . . . . . . . . . . . . 61%
In most instances some interpolations will be
necessary to obtain the proper Coefficient of
Utilization.
You will note that the table gives Coefficients
of Utilization for a 20% Effective Floor Cavity
Reflectance. Use of this factor for all
applications will provide reasonable
accuracy; however, if more accuracy is
desired, refer to the current Illuminating
Engineering Society Handbook for an
additional detailed step.
(Zonal Cavity Method)
Step 4a
Step 4b
Step 4c
Step 4d
Step 4e
Step 4f
Determine Cavity Ratios
Determine Cavity Reflectances
Determine Coefficient of Utilization
Determine Light Loss Factor
Calculate Lamp Lumens Required
Calculate Number of Luminaires
Required
Figure 1/The three cavities used in
the Lumen Method
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Table IV/Cavity Ratios
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Table V/Effective Ceiling Reflectance
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4d
4f
Determine Light Loss Factor
Calculate Number of Luminaires Required
The light loss factor takes into account two things: lamp
light output dropoff (lamp lumen depreciation) and dirt
accumulation on the luminaire, lamp and reflector. The
table below lists suggested total light loss factors
according to light source and operating conditions.
(Other factors that may affect light loss, such as voltage
to luminaire, luminaire ambient temperature (fluorescent)
and ballast operating characteristics, should also be
considered.)
Formula:
Typical Lamp Lumens
from list below:ɍ ɍ
Lamp
Induction
Watts
55
85
165
Lumens
3500
6000
12000
Life
(hours)
100,000
100,000
100,000
Suggested Total Light Loss Factors
Operating Conditions
Incandescent
(inside frosted)
100
150
200 A-23;
PS-30, PS-25
300 PS-25;
PS-30;
PS-35;
500
1750
2880
4010
3710
6360
6110
5820
10850
750
750
750
750
750
750
1000
1000
Mercury Vapor
(deluxe white)
100
175
250
400
1000
4200
8600
12100
22500
63000
24000
24000
24000
24000
24000
Metal Halide
(clear)
70
100
175
250
400
1000
5600
7800
14000
20500
36000
110000
10000
10000
10000
10000
20000
12000
High Pressure
Sodium
(clear)
35
50
70
100
150
200
250
400
1000
2250
4000
6400
9500
16000
22000
27500
50000
140000
16000
24000
24000
24000
24000
24000
24000
24000
24000
Linear
Fluorescent
32 (T8)
40 (Slimline)
40 (Rapid Start)
60 (800 ma)
110 (1500 ma)
215 (1500 ma)
2900
3000
3150
4300
6850
16000
20000
9000
20000
12000
10000
12000
Compact
Fluorescent
5
7
9
13
26
32
250
400
600
860
1800
2400
10000
10000
10000
10000
10000
10000
Long Twin Tube
Fluorescent
39
40
2850
3150
12000
20000
CLEAN
Clean air, free of
fumes and dust,
luminaires
scheduled to be
cleaned
frequently, and
lamps replaced
systematically.
AVERAGE
Luminaires Required =
DIRTY
Less favorable
atmospheric
conditions,
luminaires
cleaned at fairly
frequent intervals,
and lamps
replaced only
after burnout.
Quite dirty
locations and
work
atmospheres,
infrequent
maintenance of
lighting
equipment.
Lamp and Luminaire Clean
Average
Dirty
Incandescent
Quartz
Mercury
Metal Halide
High Pressure
Sodium
Fluorescent
.74
.82
.70
.64
.69
.76
.65
.59
.64
.70
.60
.55
.77
.71
.71
.66
.66
.61
4e
Calculate Lamp Lumens Required
Formula: Total Lamp Lumens =
Footcandles[†] X Area of Room (sq. ft.)
Coefficient of Utilization[‡] X Light Loss Factor[ɍ]
[†] from Table 1, page 665 or IES Handbook
[‡] from catalog page on luminaire selected—and calculated from 4b
[ɍ] from above
ɍɍ For lamp data check current lamp manufacturing catalog. Variances exist between
Total Lamp Lumens
Total Lamp Lumens per Luminaire
In using the formula make sure you divide by the total lamp lumens
per luminaire. For example, if an EVF24022, 4 lamp, 32 watt, T8
luminaire is being used, you would multiply the total lamp
lumens by 4. (4 × 2900 or 11,600 lumens.)
manufacturers.
Continued
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4f (continued)
EXAMPLE: Lumen Method
Requirement:
Design a system for lighting a room classified
Class I, Division 2, Group D
Assumptions:
a) Room dimensions – 40′ wide; 80′ long; 15′
high
b) Luminaires to be suspended 3′ from
ceiling; work plane is 4′ above floor
c) Ceiling is off-white; walls are light gray;
floor is concrete
d) Good maintenance conditions exist
e) Lighting system will be operated 16 hours
daily; 5 days a week
f) Color rendition is not critical
Using the Coefficient of Utilization worksheet,
follow procedure given below. Answers to our
example are on the worksheet.
L
(G) Compute Total Lamp Lumens required.
Formula
(FC x Area) 50 x 80 x 40
= 278,169 Lumens
(CU x LLF) .747 x 0.77
Therefore, the number of VMVS3A150G
luminaires required
Total Lamp Lumens 278,169
= 17.4
Lamp Lumens per luminaire (page 686) 16,000
= 17 VMVS3A150G luminaires with RD70 dome reflectors (use 18 luminaires, see page 685).
=
Coefficient of Utilization Worksheet
Step #1. Determine required illumination
level in FOOTCANDLES (FC) – Table 1, page
665.
Step #2. Select type of lamp – pages 666
and 667. For the room size in example,
considering long hours of operation and
color rendition not being critical, high
pressure sodium lighting is recommended.
Step #3. Select type of luminaire, page 668.
VMV series Champ® luminaires are
recommended. For our example
VMVS3A150G pendant luminaire with RD70
dome reflector is selected.
Step #4. Calculation of number of luminaires
necessary.
(A) Compute CAVITIES of ceiling, room and
floor. HCC; HRC and HFC (see sketch on
worksheet).
(B) Obtain REFLECTANCE FACTORS (using
values on page 685) RC; RW and RF (see
sketch on worksheet).
(C) Compute CAVITY RATIOS for ceiling,
room and floor using Formula or Table IV,
page 684.
Formula
5 x HCC (L + W)
CCR =
LxW
RCR =
5 x HRC (L + W)
FCR =
5 x HFC (L + W)
LxW
LxW
(D) Determine Effective Ceiling Reflectance
from Table V, page 685. See work sheet for
values of RC, RW and CCR.
(E) Determine Coefficient of Utilization – from
CU table. For a VMVS3A150G luminaire,
applying an Effective Ceiling Cavity
Reflectance of 70; a wall reflectance of 50
and a room Cavity Ratio of 1.5 (all figures
applicable to our example), the CU (see CU
Table, page 733) is at mid-point between
.804 and .690, which is .747.
(F) Determine Light Loss Factor (LLF) – page
686.
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Job Requirement:
(See typical example at left)
Given Data:
(See typical assumptions at left)
Lamp Characteristics:
Type – High Pressure Sodium
Catalog # – VMVS3A150G with RD70 dome reflector
Lumens – 16,000
LLF – 0.77
No. of Footcandles Required: 50
Room: Length 80′
Width 40′
Height 15′
Cavities
Reflectance
Cavity Ratios: CCR 0.56
RCR 1.5
Effective Ceiling Cavity Reflectance:
Wall Reflectance:
CU:
Total Lumens Required:
No. of Luminaires:
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FCR 0.75
72 (use 70)
50
.747
278,170
18 luminaires (see page 686)
Use 3 x 6 spacing
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Figure 2 (continued)
5
Determine Placement of
Luminaires and Make Layout
Using the number of units as determined in Step 4 as a basic quantity
to work with, determine the number of lights per row and number of
rows required for the lighting system. Logic plays a part; for example: if
a room is 4 times as long as it is wide, you should have 4 times as
many luminaires in each row as there are number of rows. In any case,
the distance between the lighting units should not be greater than the
mounting height of the units above the floor. The distance between the
wall and first luminaire should not be more than 1⁄2 the spacing
between the units, and in situations where work is done immediately
adjacent to the wall, the distance should be reduced to 1⁄3 or 1⁄4 the
distance between units.
Four-Two system – equivalent to three units per bay or four per
bay where spacing allows.
In rooms that are divided by columns or beams, it is desirable to locate
the units symmetrically in the bays. The following layouts will serve as
a guide in planning such installations.
Important: Remember to observe the permissible spacing to
mounting height ratio or spacing criterion. If the number of luminaires
is insufficient to fulfill this requirement, recalculate using lower wattage
luminaires.
Four units per bay – if necessary could run in continuous rows
across room, or turned and run lengthwise with room.
Figure 2 Typical Placement
Incandescent/H.I.D., etc.
Fluorescent
One unit per bay – satisfactory only where the bay size is no
greater than the maximum allowable spacing – an unusual
condition.
Two units per bay – usually applicable only in narrow bays, where
the width is less than 2⁄3 the length.
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Grid pattern – usual condition dependent on room size and type of
work done there.
Four units per bay – this is the most common system for the
square bay of usual dimensions.
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L
Point-by-Point Method
EXAMPLE: Point-by-Point Method
(for use in highlighting –
see Step 4, page 683)
#1 Determine the footcandle value at floor
level immediately below a VDA22GRD with
200 Watt lamp and Dome reflector. Mounting
height of unit above floor is 12′.
#2 Using same unit as in #1, determine
footcandle value at floor level at a point 7 feet
away from luminaire.
Use this method to determine the footcandle
value at a point on a surface that is
illuminated by direct light from a luminaire or
luminaires.
When the light hits a point on the surface
head on (such as directly under a luminaire),
use formula ‘‘A’’, but when the light hits the
surface at an angle (such as between
luminaires) formula ‘‘B’’ must be used.
Figure 4/Methods of Measurement
Figure 6
Problem #1 – use Formula ‘‘A’’
CP
fc=
x LLF
d2
Fig. 5/Candlepower Distribution
Curve
Luminaire With Globe, Dome Reflector and
With or Without Guard
200 Watt, A-23 Incandescent
Formula ‘‘A’’
Footcandles = Candlepower
Light Loss
x factor
d2 (Distance)
715(a)
x 0.69(b) = 3.4 fc
(12)2
(a) Candlepower at 0° (from Light Distribution
Curve at left)
fc=
(b) Light loss factor from page 686
Candelas at 25 Feet
Formula ‘‘B’’
Footcandles ⍧ Candlepower x cosine of
angleΘ
d2 (Distance)
Light
x Loss
factor
Mid-zone
Angle
0
5
15
25
35
45
55
65
75
85
90
135
145
Without
Guard
715
722
736
764
793
715
615
531
197
42
14
13
28
Problem #2 – use Formula ‘‘B’’
CP x CosΘ
x LLF
fc=
d2
With
Guard
575
575
595
650
674
605
534
473
166
35
14
12
21
779(c) x 0.866
x 0.69 = 2.4 fc
(13.9)2
(c) Candlepower at 30° (from light
Distribution Table at left). Interpolate between
25° and 35°
fc=
Candlepower (at the proper angle) is found
from the Light Distribution Curve on the
luminaire catalog page. Distance ‘‘d’’ and
angle are found by measurement of a scaled
sketch of the lighting situation or through
trigonometric calculations.
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