IPEX SCEPTALIGHT Series Manual
ipexna.com
NONMETALLIC
LIGHT
FIXTURES
Technical Information
•LED Light Fixtures
•Incandescent Light Fixtures
•Compact Fluorescent Light Fixtures
Fixtures
ELECTRICAL SYSTEMS
2
SCEPTALIGHTTM NONMETALLIC LIGHT FIXTURES
• CSA certified to U.S. standards for wet location use C22.2 No. 250/UL 1598
• CSA certified to U.S. standards for use in hazardous locations.
(Approved for hazardous locations only when factory-assembled with heat-treated globe and not applicable to LEDs.) UL 844
• UL approved for marine locations (salt water) UL 1598A (Not applicable to LEDs)
• LEDs approved for NEMA 4X and IP66 CSA C22.2 250/UL 1598
• LED Light Engine: CSA T.I.L B-79A UL 1598C
Use Sceptalight fixtures in all types of indoor or outdoor agricultural, marine and industrial applications.
Typical applications include:
The fixtures are ideal for illuminating walkways, bridges, tunnels, refrigeration coolers and task areas where corrosion of
metallic fixtures are a concern – like the food processing industry and car washes. They are also well suited for security,
warning, deterrent, directional or general-purpose area lighting. ‘Hazardous Location’ ratings permit use in many industrial
applications as well.
• Agricultural facilities
• Manufacturing facilities
• Petrochemical processing
• Water & Sewage treatment plants
• Chemical plants
• Off-shore & marine
• Mining facilities
PRODUCT DIMENSIONS
6"
5 1/2"
3 3/4"
5" 5"
6 1/2"
4 3/4"
11 3/4"
4 3/4"
10"
6"
9 1/2"
Pendant Mount
4 3/4"
12"
4 3/4"
10 1/4"
Wall Mount
7 1/4"
2 7/8"
13 1/4"
5 1/8"
9 7/8"
3 1/2"
5 1/8"
11"
Ceiling Mount
Ceiling Mount Utility Fixtures
3
APPLICATIONS
Wet Location Use
Wet Locations are defined as locations in which liquids may
drip, splash or flow on or against electrical equipment. This
can include places subject to saturation with water and other
liquids such as vehicle washing areas and unprotected
locations exposed to weather.
Marine Location Use
The marine location certification, UL 1598A, is a
supplemental approval to the wet location standard that
allows the luminaires to be used in salt water environments.
The standard specifically evaluates for conditions such as
salt spray corrosion, ignition protection, UV exposure and
water ingress. (Not applicable to LEDs)
Class I: In Class I locations, flammable gases or vapors are or
may be present in the air in sufficient quantities that they
may ignite or become explosive.
Class II: In Class II locations, it is the presence of
combustible or electrically conductive dusts that pose the
hazard.
Division 2: In Division 2 locations, the potential hazard is
confined in containers or in a closed system and/or the area
has positive ventilation that normally prevents the gases,
vapors or dusts from reaching ignitable concentrations.
Explosive characteristics of gases, vapors or dusts vary with
the specific material; it is therefore necessary that
equipment installed within the hazardous location is
identified for the specific group of gas, vapor or dust for
which it is approved.
Hazardous Location Use
Sceptalight fixtures are listed and approved for
‘Hazardous Location’ use in:
Class I, Div. 2 Groups A, B, C, & D
Class II, Div. 2 Groups F & G
The following information is provided as an overview of
Hazardous Location environments only. Refer to the NEC for
the complete requirements of Hazardous Locations.
The determination of a Hazardous Location (Class and
Division) is the responsibility of the project engineer just as
it is the installer’s responsibility to be both knowledgeable
and certified to perform work in hazardous locations. Always
consult with the local electrical inspection authority
regarding appropriate use and installation of products.
Hazardous Locations are areas classified according to the
nature of the hazard and divided into divisions that further
define the potential hazard based on conditions that exist.
GROUP A GROUP B GROUP C GROUP D GROUP F GROUP G
Acetylene Hydrogen Ethylene Propane Carbon Black Dust Flour Dust
Ethylene Oxide Hydrogen Sulfide Natural Gas Coal Dust Starch Dust
Butadiene Diethyl Ether Alcohol Coke Dust Grain Dust
Propylene Oxide Acetaldehyde Ammonia
and Other Dusts of
Similar Characteristics
Cyclopropane Benzine
Butane
Acetone
Gasoline
Lacquer
Solvent Vapors
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire. Dec. 8, 2004
1Dowcorning.com – rubber physical and chemical properties
2Dupont.com – product information Rynite®PET
4
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire. Dec. 8, 2004
All of the ballasts offered include an Auto Restart after
Hot feature, which allows the lamp to be pulled out and
replaced while the power is still on and the lamp will
re-strike automatically. The Total Harmonic Distortion (THD)
for all ballasts is less than 15%.
Dielectric Strength
Dielectric strength is the measurement (in volts per mil) of
the maximum electric field strength an insulating material
can withstand intrinsically without breaking down (i.e.
without experiencing failure of its insulating properties).
Rubber, one of the better insulating materials available,
offers a good example for comparing dielectric strength.
Evaluating values on a 1/8"thick sample, the dielectric
strength of general purpose rubber is ~400 V/mil1while the
dielectric strength of PET material (Rynite) is 355 V/mil2.
Installation
The ceiling and wall mount boxes each have four 3/4"
threaded hubs with liquid-tight knockouts. Two feet are
spaced at 5-1/4"for base up installation. Pendant mount
fixtures have a single 3/4"threaded hub. The minimum
supply wires must be rated as shown below:
It should be noted that the Wet location light fixtures require
minimum 60°C supply wires; however, the label on the
fixture states that minimum 90°C supply wires must be
used. If requested by a customer, a letter of certification
supporting this fact can be provided.
LEDs
NOMINAL
WATTAGE (W)
BALLAST
TYPE
INPUT CURRENT
(AMPS)
POWER
FACTOR
7Magnetic 0.21A NPF
9Magnetic 0.21A NPF
13 Magnetic 0.26A NPF
18 Electronic 0.15A >0.99
26 Electronic 0.21A >0.99
LOCATION MIN. SUPPLY WIRE RATING
Wet 60 °C
Wet (Utility Fixture) 75 °C
Marine 110 °C
Hazardous 90 °C
LUMEN OUTPUT 1000 LM
INPUT VOLTAGE 120 VAC
FREQUENCY 60 HZ
NOMINAL POWER 15 W
COLOR TEMPERATURE 5000 K 5000 K
POWER FACTOR > 0.98
TOTAL HARMONIC DISTORTION 10.50%
OPERATING TEMPERATURE -40 C to 40 C
DIMMABILITY RANGE down to 5%
CRI > 80
Temperature Codes
The temperature marking, specified by the T code on the
fixture label, indicates the maximum surface temperature of
the specific electrical equipment. In Class I Hazardous
Locations, equipment shall not be installed in an area where
vapors or gases are present that have an ignition temperature
less than the maximum external temperature rating of the
equipment.
• Incandescent – Temperature Code T2B 500ºF (260ºC)
• Fluorescent – Temperature Code T3A 356ºF (180ºC)
Threaded Hub Connection
Many of the diverse threaded conduit fitting products are
tapered to ensure tight connections are made. To avoid
potential for stress cracking as a result of over-tightening,
install the terminal adapter fitting into the hub 1/2 turn past
hand-tight. Teflon®tape or Teflon®pipe dope may be used to
ensure a watertight connection.
Compact Fluorescent Lamps
The compact fluorescent lamps provided with the
Sceptalight fixture have either 2 pins or 4 pins. Each 2-pin
lamp has an internal starter and is designed for preheat,
magnetic operation. The 4-pin lamps are designed for
electronic ballast operation and do not have an internal
starter; starting the lamps is a function of the ballast
provided with each fixture.
Ballasts
Sceptalight 18W and 26W fluorescents include high power
factor electronic ballasts with inherent thermal protection for
a minimum start temperature -13°F (-25°). Also, these
ballasts have an end-of-life (de-active lamp) protection
circuit to prevent damage to the light fixture components
from potential high current flow. At start-up, fluorescent
fixtures require a high current, which stabilizes once the
lamp is lit. However, if the lamp is broken or burnt out, the
high starting current could cause damage to the electrical
components of the fixture.
Sceptalight 7W, 9W and 13W fluorescents include normal
power factor (typically 40-60%) magnetic ballasts with a
minimum start temperature of 50°F (10°C).
NOMINAL
WATTAGE (W)
AVG. RATED LIFE
(HRS) BASE NO. PINS
710000 G23 2
910000 G23 2
13 10000 GX23 2
18 12000 G24Q-2 4
26 12000 G24Q-3 4
5
RoHS
The Sceptalight product offering is compliant with the new
RoHS Directive. RoHS, established by the European Union
(EU), restricts the use of six hazardous materials listed
below that can be manufactured within electronic/electrical
equipment. The maximum concentrations are 0.1% (except
for Cadmium which is limited to 0.01%) by weight of
homogeneous material.
RoHS restricts the use of several substances:
1. Lead,
2. Mercury,
3. Cadmium,
4. Cadmium VI
(also known as hexavalent chromium or Cr6+),
5. Polybrominated Biphenyls (PBB), and
6. Polybrominated Diphenyl Ester/Ether (PBDE).
Bonding
As stated in the NEC, metal raceways are required to meet
the ground-fault current performance requirements of 250.4
(A) & (B), which states that "non-current carrying conductive
materials enclosing electrical conductors or equipment, or
forming part of such equipment, shall be connected together
and to the electrical supply source in a manner that
establishes an effective ground-fault current path".
Several methods for effective bonding are provided within
section 250 of the NEC for various types of applications,
such as; Bonding at the Service (250.92 (A) & (B)), Bonding
Other Enclosures (250.96), Bonding in Hazardous
(Classified) Locations (250.100), etc. Each of these
applications requires different bonding methods to establish
the necessary ground-fault current path.
The NEC indicates that for all applications and locations
that the Sceptalight nonmetallic light fixtures will be used,
bonding-type locknuts and bushings can be used to bond a
metal raceway.
The Underwriters Laboratories General Information Directory
(commonly referred to as the UL White Book) describes
bonding bushings and grounding bushings as follows:
Bonding Bushing: A bonding bushing provides a means to
make a reliable connection between a metal conduit and an
enclosure. This means is typically one or more set screws.
Grounding Bushing: Provide a means to make a bonding
connection between a conduit and enclosure, and also have
some mechanism for connecting a bonding wire.
6
ANGLE MEAN CP ANGLE MEAN CP
0230 90 46
5230 95 39
10 228 100 33
15 224 105 27
20 220 110 21
25 212 115 16
30 204 120 12
35 196 125 8
40 296 130 6
45 173 135 4
50 161 140 3
55 147 145 1
60 132 150 1
65 113 155 0
70 94 160 0
75 72 165 0
80 59 170 0
85 52 175 0
90 46 180 0
180 150
120
80
160
240
90
60
ACROSS
45
ALONG
30
80
40
10
CANDLEPOWER SUMMARY
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire.
Determined in accordance with current IES published procedures Luminaire input watts = 15
Laboratory result may not be representative of field performance.
CC 80 70 50 30 10 0
WALL 70 50 30 10 70 50 30 10 50 30 10 50 30 10 50 30 10 0
RCR
01.16 1.16 1.16 1.16 1.12 1.12 1.12 .89 1.05 1.05 1.05 .98 .98 .98 .92 .92 .92 .89
11.04 .98 .93 .88 1.00 .95 .90 .71 .88 .85 .81 .83 .80 .77 .77 .75 .73 .70
2.94 .84 .77 .70 .90 .81 .75 .58 .76 .70 .65 .71 .66 .62 .66 .63 .59 .526
3.85 .73 .64 .57 .81 .71 .63 .48 .66 .59 .54 .62 .56 .51 .58 .53 .49 .46
4.77 .64 .55 .48 .74 .62 .54 .41 .58 .51 .45 .55 .48 .43 .51 .46 .42 .39
5.71 .57 .48 .41 .68 .55 .47 .35 .52 .44 .39 .49 .42 .37 .46 .40 .36 .33
6.65 .51 .42 .35 .63 .50 .41 .31 .47 .39 .33 .44 .37 .32 .41 .36 .31 .29
7.60 .46 .37 .31 .58 .45 .36 .27 .42 .35 .29 .40 .33 .28 .38 .32 .27 .25
8.56 .42 .33 .27 .54 .41 .33 .24 .39 .31 .26 .37 .30 .25 .35 .29 .24 .22
9.52 .38 .30 .24 .50 .37 .29 .22 .35 .28 .23 .34 .27 .23 .32 .26 .22 .20
10 .49 .35 .27 .22 .47 .34 .27 .20 .33 .26 .21 .31 .25 .20 .30 .24 .20 .18
COEFFICIENTS OF UTILIZATION ZONAL CAVITY METHOD
EFFECTIVE FLOOR CAVITY REFLECTANCE = .20
ZONE LUMENS % LUMINAIRE
0 – 30 183 19.9
0 – 40 306 33.2
0 – 60 572 62
60 – 90 250 27.1
70 – 100 179 19.5
90 – 120 88 9.6
0 – 90 821 89.1
90 – 180 101 10.9
0 – 180 922 100
ANGLE LUMINANCE
017955
45 11624
55 10405
65 8802
75 6423
85 5585
AVERAGE LUMINANCE DATA ZONAL, LUMENS AND PERCENTAGES
Certified IESNA LM-79 Test Report for LLED-15/LVPE-LED/LVPF-LED
Sceptalight LED products include the LLED-15 Retrofit Light Engine and LVPE-LED and LVPF-LED light fixture models.
One LLED-15 Light Engine 15W 120v frosted globe.
For photometric files, visit ipexna.com.
7
Certified Test Report No. LSC A510 Computed by LSC Program “Test-Lite”, Dec. 8, 2004
IPEX Non-metallic ceiling mount light fixture Cat. No. LVPF150 with clear glass jar lens and plastic protective guard.
One 150w 120v coated A21 soft white incandescent lamp.
Lumen Rating = 2780 LMS.
For photometric files, visit ipexna.com.
ANGLE MEAN CP LMS ANGLE MEAN CP LMS
0176 90 205
5175 17 95 214 232
10 175 100 213
15 174 50 105 210 221
20 177 110 203
25 179 83 115 191 189
30 181 120 175
35 181 114 125 159 142
40 184 130 142
45 187 145 135 123 95
50 191 140 99
55 197 177 145 73 47
60 203 150 48
65 208 206 155 28 14
70 213 160 13
75 216 227 165 3 1
80 216 170 0
85 215 233 175 0 0
90 205 180 0
ZONE LUMENS % LAMP % LUMINAIRE
0 – 30 149 5.37 6.82
0 – 40 263 9.47 12.01
0 – 60 584 21.03 26.67
0 – 90 1250 45.00 57.06
40 – 90 987 35.52 45.05
60 – 90 666 23.96 30.39
90 – 180 941 33.86 42.94
0 – 180 2192 78.85 100.00
180 150
120
90
60
ACROSS
45
ALONG
30
200
0
100
ANGLE LUMINANCE
028413 (8292)
30 16907 (4934)
40 15457 (4511)
45 15147 (4421)
50 15075 (4399)
55 15169 (4427)
60 15448 (4508)
65 15764 (4601)
70 16143 (4711)
75 16541 (4827)
80 16860 (4920)
85 17187 (5016)
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire.
Determined in accordance with current IES published procedures Luminaire input watts = 146.2
Laboratory result may not be representative of field performance. Ballast factors have not be applied.
CC 80 70 50 30 10 0
WALL 70 50 30 10 70 50 30 10 50 30 10 50 30 10 50 30 10 0
RCR
0.86 .86 .86 .86 .80 .80 .80 .80 .69 .69 .69 .59 .59 .59 .49 .49 .49 .45
1.75 .70 .65 .61 .69 .64 .60 .56 .55 .52 .49 .46 .44 .41 .38 .36 .34 .30
2.66 .59 .52 .47 .61 .54 .48 .43 .46 .41 .37 .38 .35 .32 .31 .28 .26 .22
3.60 .50 .43 .37 .55 .46 .40 .35 .39 .34 .30 .32 .29 .25 .26 .23 .20 .17
4.54 .44 .37 .31 .50 .41 .34 .29 .34 .29 .25 .29 .24 .21 .23 .20 .17 .14
5.49 .38 .31 .26 .45 .36 .29 .24 .30 .25 .21 .25 .21 .17 .20 .17 .14 .11
6.45 .34 .27 .22 .41 .32 .25 .20 .27 .21 .17 .22 .18 .15 .18 .14 .12 .09
7.41 .30 .23 .18 .38 .28 .22 .17 .24 .18 .15 .20 .15 .12 .16 .13 .10 .08
8.38 .27 .21 .16 .35 .25 .19 .15 .21 .16 .13 .18 .14 .11 .15 .11 .09 .07
9.35 .25 .18 .14 .33 .23 .17 .13 .19 .15 .11 .16 .12 .09 .13 .10 .07 .06
10 .33 .23 .16 .12 .30 .21 .15 .11 .18 .13 .10 .15 .11 .08 .12 .09 .06 .05
CANDLEPOWER SUMMARY
AVERAGE LUMINANCE DATA
COEFFICIENTS OF UTILIZATION ZONAL CAVITY METHOD
EFFECTIVE FLOOR CAVITY REFLECTANCE = .20
ZONAL, LUMENS AND PERCENTAGES
Efficiency = 78.9% S/MH = 1.6 SC = 1.6
8
Certified Test Report No. LSC A511 Computed by LSC Program “Test-Lite”, Dec. 9, 2004
IPEX Non-metallic ceiling mount light fixture Cat. No. LVPF150C with clear glass jar lens and plastic protective guard.
One 100w 120v coated A19 soft white incandescent lamp.
Lumen Rating = 1470 LMS.
For photometric files, visit ipexna.com.
ANGLE MEAN CP LMS ANGLE MEAN CP LMS
091 90 107
591 995 112 121
10 89 100 111
15 88 25 105 108 114
20 85 110 104
25 81 38 115 99 98
30 82 120 91
35 86 54 125 82 73
40 91 130 71
45 96 74 135 59 46
50 101 140 45
55 105 94 145 31 20
60 109 150 17
65 112 111 155 7 4
70 114 160 1
75 116 122 165 0 0
80 116 170 0
85 114 123 175 0 0
90 107 180 0
ZONE LUMENS % LAMP % LUMINAIRE
0 – 30 71 4.84 6.32
0 – 40 125 8.52 11.12
0 – 60 293 19.96 26.07
0 – 90 649 44.18 57.71
40 – 90 524 35.67 46.58
60 – 90 356 24.22 31.63
90 – 180 475 32.38 42.29
0 – 180 1125 76.56 100.00
180 150
120
90
60
ACROSS
45
ALONG
30
200
0
100
ANGLE LUMINANCE
014732 (4299)
30 7668 (2238)
40 7631 (2227)
45 7754 (2263)
50 7917 (2310)
55 8109 (2366)
60 8297 (2421)
65 8463 (2470)
70 8654 (2525)
75 8895 (2596)
80 9020 (2632)
85 9107 (2658)
CC 80 70 50 30 10 0
WALL 70 50 30 10 70 50 30 10 50 30 10 50 30 10 50 30 10 0
RCR
0.83 .83 .83 .83 .78 .78 .78 .78 .67 .67 .67 .57 .57 .57 .48 .48 .48 .44
1.72 .67 .63 .59 .67 .62 .59 .55 .53 .50 .47 .45 .42 .40 .37 .35 .33 .29
2.64 .57 .50 .45 .59 .52 .47 .42 .44 .40 .36 .37 .33 .30 .30 .27 .25 .21
3.58 .48 .41 .36 .53 .45 .38 .33 .38 .33 .28 .31 .27 .24 .25 .22 .20 .16
4.52 .42 .35 .29 .48 .39 .33 .27 .33 .28 .24 .27 .23 .20 .22 .19 .16 .13
5.48 .37 .30 .24 .44 .34 .28 .23 .29 .24 .19 .24 .20 .16 .19 .16 .13 .11
6.44 .33 .26 .20 .40 .30 .24 .19 .26 .20 .16 .21 .17 .14 .17 .14 .11 .09
7.40 .29 .22 .17 .37 .27 .21 .16 .23 .17 .14 .19 .15 .11 .15 .12 .09 .07
8.37 .26 .20 .15 .34 .24 .18 .14 .21 .16 .12 .17 .13 .10 .14 .11 .08 .06
9.34 .24 .17 .13 .31 .22 .16 .12 .19 .14 .10 .16 .12 .09 .13 .09 .07 .05
10 .32 .22 .15 .11 .29 .20 .14 .11 .17 .12 .09 .14 .10 .07 .12 .08 .06 .04
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire.
Determined in accordance with current IES published procedures Luminaire input watts = 96.2
Laboratory result may not be representative of field performance. Ballast factors have not be applied.
CANDLEPOWER SUMMARY
AVERAGE LUMINANCE DATA
COEFFICIENTS OF UTILIZATION ZONAL CAVITY METHOD
EFFECTIVE FLOOR CAVITY REFLECTANCE = .20
ZONAL, LUMENS AND PERCENTAGES
Efficiency = 76.6% S/MH = 1.5 SC = 1.5
9
Certified Test Report No. LSC A512 Computed by LSC Program “Test-Lite”, Dec. 14, 2004
IPEX Non-metallic ceiling mount light fixture Cat. No. LVPL13C with clear glass jar lens and plastic protective guard.
One 13w twin-tube compact fluorescent lamp. One Etlin-Daniels 120v 1-lamp magnetic ballast no. CF-1322T-CC-TP.
Lumen Rating = 800 LMS.
For photometric files, visit ipexna.com.
ANGLE MEAN CP LMS ANGLE MEAN CP LMS
0 5 90 66
5 7 1 95 67 73
10 12 100 65
15 17 5105 62 65
20 22 110 57
25 27 13 115 52 51
30 32 120 45
35 38 24 125 39 35
40 44 130 33
45 49 38 135 27 21
50 53 140 20
55 56 51 145 14 9
60 60 150 8
65 63 63 155 4 2
70 66 160 1
75 68 72 165 0 0
80 69 170 0
85 69 74 175 0 0
90 66 180 0
ZONE LUMENS % LAMP % LUMINAIRE
0 – 30 18 2.32 3.12
0 – 40 42 5.33 7.16
0 – 60 131 16.38 21.99
0 – 90 339 42.47 57.03
40 – 90 297 37.14 49.87
60 – 90 208 26.10 35.04
90 – 180 255 32.00 42.97
0 – 180 595 74.47 100.00
180 150
120
90
60
ACROSS
45
ALONG
30
80
0
40
ANGLE LUMINANCE
0726 (212)
30 3031 (884)
40 3694 (1078)
45 3973 (1159)
50 4146 (1210)
55 4351 (1270)
60 4562 (1331)
65 4802 (1401)
70 5014 (1463)
75 5212 (1521)
80 5368 (1566)
85 5511 (1608)
CC 80 70 50 30 10 0
WALL 70 50 30 10 70 50 30 10 50 30 10 50 30 10 50 30 10 0
RCR
0.81 .81 .81 .81 .75 .75 .75 .75 .65 .65 .65 .55 .55 .55 .47 .47 .47 .42
1.70 .65 .60 .56 .64 .60 .56 .52 .50 .47 .44 .42 .40 .37 .34 .32 .31 .27
2.61 .54 .47 .42 .56 .49 .44 .39 .41 .37 .33 .34 .31 .27 .27 .25 .22 .19
3.55 .45 .38 .32 .50 .42 .35 .30 .35 .30 .25 .28 .24 .21 .23 .19 .17 .13
4.50 .39 .32 .26 .45 .36 .30 .24 .30 .25 .21 .25 .20 .17 .19 .16 .13 .10
5.45 .34 .27 .21 .41 .32 .25 .20 .26 .21 .17 .21 .17 .14 .17 .13 .10 .08
6.41 .30 .23 .18 .37 .28 .21 .16 .23 .18 .14 .19 .14 .11 .15 .11 .08 .06
7.37 .27 .20 .15 .34 .24 .18 .13 .20 .15 .11 .16 .12 .09 .13 .09 .07 .05
8.34 .24 .17 .12 .31 .22 .16 .11 .18 .13 .09 .15 .11 .07 .12 .08 .06 .04
9.32 .21 .15 .11 .29 .20 .14 .10 .16 .11 .08 .13 .09 .06 .10 .07 .05 .03
10 .29 .19 .13 .09 .27 .18 .12 .08 .15 .10 .07 .12 .08 .05 .10 .06 .04 .02
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire.
Determined in accordance with current IES published procedures Luminaire input watts = 15.1
Laboratory result may not be representative of field performance. Ballast factors have not be applied.
CANDLEPOWER SUMMARY
AVERAGE LUMINANCE DATA
COEFFICIENTS OF UTILIZATION ZONAL CAVITY METHOD
EFFECTIVE FLOOR CAVITY REFLECTANCE = .20
ZONAL, LUMENS AND PERCENTAGES
Efficiency = 74.5% S/MH = 5.9 SC = 5.4
10
Certified Test Report No. LSC A513 Computed by LSC Program “Test-Lite”, Dec. 13, 2004
IPEX Non-metallic ceiling mount light fixture Cat. No. LVPL18C with clear glass jar lens and plastic protective guard.
One 18w quad compact fluorescent lamp. One Hatch 120v 1-lamp electronic ballast no. FR-1800
Lumen Rating = 1250 LMS.
For photometric files, visit ipexna.com.
ANGLE MEAN CP LMS ANGLE MEAN CP LMS
021 90 94
524 395 97 104
10 30 100 94
15 36 10 105 89 94
20 40 110 82
25 45 21 115 73 72
30 52 120 63
35 59 37 125 52 47
40 66 130 42
45 73 56 135 32 25
50 79 140 23
55 84 75 145 16 10
60 89 150 9
65 94 93 155 2 2
70 97 160 0
75 99 105 165 0 0
80 100 170 0
85 99 107 175 0 0
90 94 180 0
ZONE LUMENS % LAMP % LUMINAIRE
0 – 30 33 2.71 3.93
0 – 40 71 5.69 8.25
0 – 60 202 16.23 23.52
0 – 90 507 40.59 58.82
40 – 90 436 34.90 50.58
60 – 90 304 24.36 35.31
90 – 180 355 28.41 41.18
0 – 180 862 69.00 100.00
180 150
120
90
60
ACROSS
45
ALONG
30
120
0
60
ANGLE LUMINANCE
03430 (1001)
30 4845 (1414)
40 5586 (1630)
45 5907 (1724)
50 6193 (1807)
55 6470 (1888)
60 6804 (1986)
65 7097 (2071)
70 7346 (2144)
75 7620 (2224)
80 7802 (2277)
85 7945 (2319)
CC 80 70 50 30 10 0
WALL 70 50 30 10 70 50 30 10 50 30 10 50 30 10 50 30 10 0
RCR
0.75 .75 .75 .75 .70 .70 .70 .70 .61 .61 .61 .52 .52 .52 .44 .44 .44 .41
1.65 .60 .56 .52 .60 .56 .52 .48 .47 .44 .42 .40 .37 .35 .33 .31 .29 .26
2.57 .50 .44 .39 .53 .46 .41 .36 .39 .35 .31 .32 .29 .26 .26 .24 .21 .18
3.51 .42 .36 .30 .47 .39 .33 .28 .33 .28 .24 .27 .23 .20 .22 .19 .16 .13
4.46 .37 .30 .25 .42 .34 .28 .23 .28 .23 .19 .23 .19 .16 .19 .16 .13 .10
5.42 .32 .25 .20 .38 .30 .23 .19 .25 .20 .16 .20 .16 .13 .16 .13 .10 .08
6.38 .28 .21 .17 .35 .26 .20 .15 .22 .17 .13 .18 .14 .11 .14 .11 .08 .06
7.35 .25 .18 .14 .32 .23 .17 .13 .19 .14 .11 .16 .12 .09 .13 .09 .07 .05
8.32 .22 .16 .12 .29 .21 .15 .11 .17 .13 .09 .14 .10 .07 .11 .08 .06 .04
9.30 .20 .14 .10 .27 .19 .13 .09 .16 .11 .08 .13 .09 .06 .10 .07 .05 .03
10 .28 .18 .12 .09 .25 .17 .12 .08 .14 .10 .07 .12 .08 .05 .09 .06 .04 .03
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire.
Determined in accordance with current IES published procedures Luminaire input watts = 17.6
Laboratory result may not be representative of field performance. Ballast factors have not be applied.
CANDLEPOWER SUMMARY
AVERAGE LUMINANCE DATA
COEFFICIENTS OF UTILIZATION ZONAL CAVITY METHOD
EFFECTIVE FLOOR CAVITY REFLECTANCE = .20
ZONAL, LUMENS AND PERCENTAGES
Efficiency = 69.0% S/MH = 3.6 SC = 3.4
11
Certified Test Report No. LSC A514 Computed by LSC Program “Test-Lite”, Dec. 13, 2004
IPEX Non-metallic ceiling mount light fixture Cat. No. LVPL26C with clear glass jar lens and plastic protective guard.
One 26w quad compact fluorescent lamp. One Hatch 120v 1-lamp electronic ballast no. FR-2600
Lumen Rating = 1825 LMS.
For photometric files, visit ipexna.com.
ANGLE MEAN CP LMS ANGLE MEAN CP LMS
023 90 120
526 395 122 132
10 34 100 118
15 41 12 105 111 117
20 48 110 103
25 55 26 115 94 93
30 64 120 83
35 73 46 125 72 65
40 83 130 60
45 91 71 135 47 37
50 99 140 35
55 105 94 145 24 16
60 112 150 15
65 117 116 155 7 4
70 122 160 2
75 125 132 165 0 0
80 126 170 0
85 125 136 175 0 0
90 120 180 0
ZONE LUMENS % LAMP % LUMINAIRE
0-30 40 2.22 3.70
0-40 86 4.77 7.92
0-60 251 13.80 22.94
0-90 635 34.80 57.83
40-90 548 30.04 49.91
60-90 383 21.00 34.89
90-180 463 25.38 42.17
0-180 1098 60.18 100.00
180 150
120
90
60
ACROSS
45
ALONG
30
120
0
60
ANGLE LUMINANCE
03683 (1075)
30 5980 (1745)
40 6997 (2042)
45 7397 (2158)
50 7764 (2266)
55 8116 (2368)
60 8491 (2478)
65 8871 (2589)
70 9226 (2692)
75 9572 (2793)
80 9841 (2872)
85 10035 (2929)
CC 80 70 50 30 10 0
WALL 70 50 30 10 70 50 30 10 50 30 10 50 30 10 50 30 10 0
RCR
0.66 .66 .66 .66 .61 .61 .61 .61 .53 .53 .53 .45 .45 .45 .38 .38 .38 .35
1.56 .52 .49 .45 .52 .48 .45 .42 .41 .38 .36 .34 .32 .30 .28 .27 .25 .22
2.50 .43 .38 .34 .46 .40 .35 .31 .34 .30 .27 .28 .25 .22 .23 .20 .18 .15
3.44 .37 .31 .26 .41 .34 .29 .24 .28 .24 .21 .23 .20 .17 .19 .16 .14 .11
4.40 .32 .26 .21 .37 .30 .24 .20 .25 .20 .17 .20 .17 .14 .16 .13 .11 .09
5.37 .28 .22 .17 .33 .26 .20 .16 .21 .17 .14 .18 .14 .11 .14 .11 .09 .07
6.33 .24 .19 .15 .30 .23 .17 .13 .19 .15 .11 .15 .12 .09 .12 .09 .07 .05
7.30 .22 .16 .12 .28 .20 .15 .11 .17 .12 .09 .14 .10 .07 .11 .08 .06 .04
8.28 .19 .14 .10 .26 .18 .13 .09 .15 .11 .08 .12 .09 .06 .10 .07 .05 .03
9.26 .18 .12 .09 .24 .16 .11 .08 .13 .10 .07 .11 .08 .05 .09 .06 .04 .03
10 .24 .16 .11 .08 .22 .15 .10 .07 .12 .08 .06 .10 .07 .05 .08 .05 .03 .02
Tested according to IES procedures. Test distance exceeds five times the greatest luminous opening of luminaire.
Determined in accordance with current IES published procedures Luminaire input watts = 22.8
Laboratory result may not be representative of field performance. Ballast factors have not be applied.
CANDLEPOWER SUMMARY
AVERAGE LUMINANCE DATA
COEFFICIENTS OF UTILIZATION ZONAL CAVITY METHOD
EFFECTIVE FLOOR CAVITY REFLECTANCE = .20
ZONAL, LUMENS AND PERCENTAGES
Efficiency = 60.2% S/MH = 3.8 SC = 3.7
This literature is published in good faith and is believed to be reliable.
However, it does not represent and/or warrant in any manner the
information and suggestions contained in this brochure. Data presented
is the result of laboratory tests and field experience.
A policy of ongoing product improvement is maintained. This may result
in modifications of features and/or specifications without notice.
SALES AND CUSTOMER SERVICE
Canadian Customers call IPEX Electrical Inc.
Toll Free: (866) 473-9462 (IPEX INC)
ipexna.com
About the IPEX Group of Companies
As leading suppliers of thermoplastic piping systems,
the IPEX Group of Companies provides our customers with some of
the largest and most comprehensive product lines. All IPEX products
are backed by more than 50 years of experience. With state-of-the-
art manufacturing facilities and distribution centers across North
America, we have established a reputation for product innovation,
quality, end-user focus and performance.
Markets served by IPEX group products are:
• Electrical systems
• Telecommunications and utility piping systems
• PVC, CPVC, PVCO, PP, ABS, PEX, FR-PVDF and PE pipe
and fittings (1/4” to 48”)
• Industrial process piping systems
• Municipal pressure and gravity piping systems
• Plumbing and mechanical piping systems
• PE Electrofusion systems for gas and water
• Industrial, plumbing and electrical cements
• Irrigation systems
SceptalightTM is manufactured by IPEX Electrical Inc.
SceptalightTM is a trademark of IPEX Branding Inc.
MNELLFIP160704C
© 2016 IPEX EL0032C
Table of contents
