lm82 luma 2
TRANSCRIPT
-
8/18/2019 LM82 Luma 2
1/10
FOR THE SCOPE OF .ACCREDITATION UNDER NVLAP LAB
CODE 100402-0. .
G101731733 Date:
LIGHT ENGINE MODEL NO.LED BOARD MODEL NO.
DRIVER MODEL NO.LED MODEL NO.
TEST:
Energy Star Mfr’s Guide V. 2.1 (2010)
Guide for Qualifying Solid State Lighting Luminaires
Energy Star V.1.2 (2012) Energy Star Version 1.2 (2012): Program Requirements for Luminaires (Light Fixtures)
TEST OF ONE Roadway Luminaire
Intertek sample designation: CRT1408181526-002
DATES OF TESTS: September 24, 2014
REPORT3933 US ROUTE 11 CORTLAND, NEW YORK 13045
Project No. September 25, 2014
101731733CRT-011
STANDARDS USED: The following American National Standards or Illuminating Engineering Society of NorthAmerica Test Guides were used in part or totally to test each specimen:
IESNA LM-79: 2008 Approved Method for Electrical and Photometric Measurements of Sol id-State Lighting Products
DUBAI, UNITED ARAB EMIRATES
Electrical and Photometric tests over different temperatures as required to the IESNA LM-82test standard.
STATEMENT OFLIMITATION:
This report must not be used by the client to claim product certification, approval, orendorsement by NVLAP, NIST, or any agency of the federal government.
AUTHORIZATION: The testing performed was authorized by signed quote number - 500537328
REPORT NO.
IES LM-82-12: 2012 Approved Method for Characterization of LED Light Engines and LED Lamps for Electrical and PhotometricProperties and a Function of Temperature
SAMPLE DESCRIPTION
L303501228Philips L303501228Xitanium 75W 0.35-0.7A GL Prog+ sXtOsram Oslon
RENDERED TOPhilips Lighting Middle East & Turkey
Dubai Knowledge Village - Al Sofouh 2 PO Box 7785
ANSI NEMA ANSLGC78.377: 2008
Specifications of the Chromaticity of Solid State Lighting Products
Client submitted one undamaged sample of model: L303501228received on: August 18, 2014
This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms andconditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report.Only the Client is authorized to copy or distribute this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product orservice must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product,or service is or has ever been under an Intertek certification program.
-
8/18/2019 LM82 Luma 2
2/10
445703 T1355 12/30/2013 12/30/2014CW1251 NA VBU VBUWT1600 E440 4/18/2014 4/18/2015
CDS 1100 O235 NA NACSLMS- 2M3 VBU VBUOmega 2M3 VBU VBU
XFR 150-8 N/A VBU VBU
445703 T1355 12/30/2013 12/30/201487 E259 3/20/2014 3/20/2015
53 II N1324 3/21/2014 3/21/2015
ResultMaximum In-Situ Source Temperature Point (°C)
Criteria62.3
Extech Hygro-ThermometerElgar AC Power Supply
LM-82 Equipment Used ModelNumber
ControlNumber
Last Cal.Date
Cal. DueDate
Chromaticity Coordinate (u’) 0.227 0.226 0.227Chromaticity Coordinate (v’) 0.499 0.500 0.499
Chromaticity Coordinate (x) 0.380 0.379
Labsphere Chamber controlerSorensen DC Power Supply
YokoGawa Power AnalyzerCCD Spectroradiometer
ITS 2 Meter Integ. Sphere Chamber
In-Situ Equipment Used ModelNumber
ControlNumber
Last Cal.Date
Cal. DueDate
Extech Hygro-ThermometerFluke Multimeter
Fluke Temp Meter
Power Factor ( ) 0.966 0.966 0.966
Chromaticity Coordinate (y) 0.371 0.372 0.372
74.2 74.2Duv ( ) -0.003 -0.002 -0.002
0.380
Color Rendering Index (CRI - Ra) 74.3
203.3
Td (°C) 53.6 87.1 79.4Ts (°C) 58.5 83.4 75.4
Total Power (W)
Osram Oslon
Criteria Initial Reading Second Reading Final Reading(25C Ambient) (Tb + 25C) (=client choice)
SUMMARY
Light Engine Model No.: L303501228
Description: Roadway Luminaire
Current ATHD (%) 15.1 15.7 15.5Correlated Color Temp.(CCT-K) 3965 3996 3983
EQUIPMENT LIST
Luminaire Efficacy (LPW) 113.4 110.6 111.9
Driver Model No.: Xitanium 75W 0.35-0.7A GL Prog+ sXtLED Source Model No.:
Ambient Temperature (°C) 25.0 52.0 42.0Tb (°C) 58.5 83.5 75.0
Total Lumen Output (Lumens) 23271.0 22400.7 22747.5205.2 202.6
Report No. 101731733CRT-011 2 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
3/10
Seasoning in Sample Orientation – LED Products
No seasoning was performed in accordance with IESNA LM-79 and IESNA LM-82.
Tb is increased to initial plus 25°C, the sample is allowed to stabilize and measurements are taken again.
In-Situ Maximum Measured Power Supply Case and LED Source Point Temperature
Power supply case and/or LED source operating temperature measurements were taken on one testsample per model with a thermocouple and Fluke 87 temperature meter. The SSL sample was allowed toreach thermal equilibrium for seven and a half hours before measurements were taken. Power supply orsource temperature measurements were measured at the TMPPS or TS point as indicated by the includeddiagram in accordance with manufacturers declared hot spot location, or at a hot spot location found with athermal camera when no diagram from the manufacturer is given. The maximum temperature was recordedfor the sample. A simulated ceiling or other enclosure may be used in accordance to UL 1598 or UL 153 asapplicable.
The calibration of the sphere photometer-spectroradiometer system is traceable to the National Institute ofStandards and Technology.
Estimated Total Operating Time
Sample No.CRT1408181526-002
Ambient or Tb is increased to “client choice”, the sample is allowed to stabilize and measurements aretaken again.
A custom test box, thermoelectric cooler, or environmental chamber may be used as appropriate.
Photometric and Electrical Measurements – Integrating Sphere Method
The sample was operated at an ambient temperature of 25°C ± 1°C in a 30 inch integrating sphere inaccordance with LM-79-08. The sample was allowed to stabilize for at least 30 minutes. Measurementswere recorded for electrical, lumens, color and temperature at Ts, Tb and/or Td.
TEST METHODS
Total Hours2.92
Report No. 101731733CRT-011 3 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
4/10
Ambient = 25 °C
nm mW/nm nm mW/nm nm mW/nm nm mW/nm
350 0.001179 460 0.047780 570 0.165407 680 0.042125355 0.001056 465 0.031699 575 0.167996 685 0.037436360 0.001017 470 0.024130 580 0.170371 690 0.032932365 0.001019 475 0.022135 585 0.171008 695 0.028950370 0.000947 480 0.023146 590 0.169551 700 0.025523375 0.000911 485 0.028073 595 0.167890 705 0.022312380 0.000816 490 0.036998 600 0.164151 710 0.019592385 0.001049 495 0.048436 605 0.158986 715 0.017152390 0.001307 500 0.061290 610 0.152768 720 0.015153395 0.001890 505 0.073881 615 0.145469 725 0.013166400 0.003105 510 0.085827 620 0.137338 730 0.011473405 0.005498 515 0.095784 625 0.128841 735 0.010011410 0.010339 520 0.104924 630 0.119175 740 0.008751415 0.020224 525 0.113090 635 0.109823 745 0.007741420 0.039104 530 0.120169 640 0.101167 750 0.006740425 0.069249 535 0.126167 645 0.092138 755 0.005912430 0.112471 540 0.132220 650 0.083652 760 0.005326435 0.166457 545 0.139020 655 0.075320 765 0.004612440 0.213960 550 0.144830 660 0.067560 770 0.004032445 0.190352 555 0.150895 665 0.060358 775 0.003555450 0.112638 560 0.156673 670 0.053867 780 0.003142455 0.068677 565 0.161315 675 0.047741
Spectral Distribution over Visible Wavelengths at
Spectral Data Over Visible Wavelengths
Sample No. Model No.CRT1408181526-002 L303501228
CRT1408181526-002
RESULTS OF TEST
0
0.05
0.1
0.15
0.2
0.25
350 400 450 500 550 600 650 700 750
m W / n m
Nanometers
Report No. 101731733CRT-011 4 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
5/10
Tb = 83.5 °C
nm mW/nm nm mW/nm nm mW/nm nm mW/nm
350 0.001229 460 0.053971 570 0.160240 680 0.040435355 0.000976 465 0.037331 575 0.162234 685 0.035890360 0.000938 470 0.027613 580 0.164405 690 0.031731365 0.000951 475 0.024535 585 0.164647 695 0.027906370 0.000882 480 0.024973 590 0.162674 700 0.024678375 0.000826 485 0.028857 595 0.160679 705 0.021656380 0.000718 490 0.036493 600 0.156784 710 0.018970385 0.001006 495 0.046791 605 0.151573 715 0.016743390 0.001271 500 0.058615 610 0.145232 720 0.014806395 0.001843 505 0.070211 615 0.138169 725 0.012879400 0.003122 510 0.081499 620 0.130484 730 0.011242405 0.005437 515 0.091272 625 0.122219 735 0.009835410 0.010022 520 0.100187 630 0.113192 740 0.008661415 0.019117 525 0.108295 635 0.104223 745 0.007639420 0.035514 530 0.115515 640 0.095922 750 0.006726425 0.060927 535 0.121496 645 0.087494 755 0.005846430 0.096610 540 0.127688 650 0.079479 760 0.005256435 0.139130 545 0.134413 655 0.071568 765 0.004569440 0.183163 550 0.140391 660 0.064366 770 0.004043445 0.184973 555 0.146404 665 0.057571 775 0.003533450 0.125888 560 0.151973 670 0.051497 780 0.003137455 0.077205 565 0.156421 675 0.045665
Spectral Distribution over Visible Wavelengths at
RESULTS OF TESTS (cont’d)
CRT1408181526-002
Sample No. CRT1408181526-002 Model No. L303501228
Spectral Data Over Visible Wavelengths
0
0.02
0.04
0.06
0.08
0.1
0.12
0.14
0.16
0.18
0.2
350 400 450 500 550 600 650 700 750
m W / n m
Nanometers
Report No. 101731733CRT-011 5 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
6/10
Tb = 75 °C
nm mW/nm nm mW/nm nm mW/nm nm mW/nm
350 0.001229 460 0.051828 570 0.162363 680 0.041132355 0.001016 465 0.035345 575 0.164571 685 0.036515360 0.000985 470 0.026316 580 0.166902 690 0.032315365 0.000919 475 0.023680 585 0.167084 695 0.028309370 0.000858 480 0.024351 590 0.165462 700 0.024955375 0.000883 485 0.028517 595 0.163564 705 0.021903380 0.000739 490 0.036746 600 0.159773 710 0.019269385 0.001055 495 0.047429 605 0.154517 715 0.016898390 0.001242 500 0.059574 610 0.148152 720 0.014968395 0.001827 505 0.071639 615 0.140987 725 0.013056400 0.003112 510 0.083200 620 0.133126 730 0.011319405 0.005462 515 0.092896 625 0.124825 735 0.009940410 0.010204 520 0.101979 630 0.115614 740 0.008713415 0.019619 525 0.110103 635 0.106534 745 0.007683420 0.036868 530 0.117402 640 0.098012 750 0.006738425 0.063733 535 0.123366 645 0.089295 755 0.005914430 0.101842 540 0.129520 650 0.081194 760 0.005318435 0.148166 545 0.136182 655 0.073047 765 0.004602440 0.194015 550 0.142277 660 0.065673 770 0.004015445 0.188354 555 0.148225 665 0.058674 775 0.003552450 0.121922 560 0.153910 670 0.052516 780 0.003154455 0.074221 565 0.158451 675 0.046486
Model No. L303501228
Spectral Data Over Visible Wavelengths
Spectral Distribution over Visible Wavelengths at
RESULTS OF TESTS (cont’d)
CRT1408181526-002
Sample No. CRT1408181526-002
0
0.05
0.1
0.15
0.2
0.25
350 400 450 500 550 600 650 700 750
m W / n m
Nanometers
Report No. 101731733CRT-011 6 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
7/10
Test Tb (°C) Td (°C) Ts (°C)
LuminousFlux
(Lumens)
LumenEfficacy(LPW)
CorrelatedColor
Temp. (K)CRI-Ra
Ambient (25C°) 58.5 53.6 58.5 23271.0 113.4 3965 74Tb + 25C° 83.5 87.1 83.4 22400.7 110.6 3996 74
Choice 75.0 79.4 75.4 22747.5 111.9 3983 74
Test BaseAmbient (25C°) Horizontal 230.1 923.4 205.2 0.966 15.1Tb + 25C° Horizontal 230.1 911.6 202.6 0.966 15.7
Choice Horizontal 230.1 915.1 203.3 0.966 15.5
TestCRI-R9
Ambient (25C°) -10.8 -0.003 0.380 0.371 0.227 0.499Tb + 25C° -12.4 -0.002 0.379 0.372 0.226 0.500
Choice -11.8 -0.002 0.380 0.372 0.227 0.499
CIE 31’ChromaticityCoordinate
(x)
CIE 31’ChromaticityCoordinate
(y)
CIE 76’ChromaticityCoordinate
(u’)
CIE 76’ChromaticityCoordinate
(v’)DUVIntertek Sample No.CRT1408181526-002CRT1408181526-002CRT1408181526-002
CRT1408181526-002
InputVoltage
(Vac)
InputCurrent
(mA)Intertek Sample No.
RESULTS OF TESTS (cont’d)
Photometric and Electrical Measurements– Integrating Sphere Method
Intertek Sample No.CRT1408181526-002CRT1408181526-002CRT1408181526-002
CRT1408181526-002CRT1408181526-002
InputPower(Watts)
InputPowerFactor
CurrentATHD
(%)
Report No. 101731733CRT-011 7 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
8/10
In-Situ Maximum Measured LED Source Temperature
Manufacturer Supplied Documentation:
125.0 ° C9.4 °C/W3.5 V
696.0 mA2.4 W
102.1 °C
Ts
Maximum Junction Temperature from LED specification (Tj)Thermal Resistance Formula from LED specificationMaximum Forward Voltage (Vf) from LED specificationMeasured LED CurrentCalculated LED Wattage = Vf x Measured LED CurrentMaximum Source Temperature (Ts)
LocationMaximum Measured
Source Temperature (°C)Maximum Rated
Sample No. Source Temperature
RESULTS OF TESTS (cont’d)
CRT1408181526-002CRT1408181526-002
62.366.8
125.080.0
TbTd
CRT1408181526-002 62.3 102.1
Report No. 101731733CRT-011 8 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
9/10
Lumen Efficacy vs. Board Temperature
linear non eff lin23271.0 58.5 113.4 58.5 23271.0 113.422835.9 71.0 112.0 75.0 22747.5 111.922400.7 83.5 110.6 83.5 22400.7 110.6
linearforecast in-sit23138.8 62.3 113.0
Lumen Output vs. Board Temperature(at manufacturer monitoring point)
Lumen Efficacy vs. Board Temperature(at manufacturer monitoring point)
RESULTS OF TESTS (cont’d)
22300.022400.0
22500.022600.0
22700.0
22800.0
22900.0
23000.0
23100.0
23200.023300.0
23400.0
55.0 60.0 65.0 70.0 75.0 80.0 85.0
L u m e n s
Temperature (°C)
In-Situ Tb vs.Linear Proje tion
Linear Proje tion!L"-82 Lu#ensvs. L"-82 Tb$
L"-82 Lu#ens vs.L"-82 Tb
110.0
110.5
111.0
111.5
112.0
112.5
113.0
113.5
114.0
55.0 60.0 65.0 70.0 75.0 80.0 85.0
E f f i c a c y
Temperature (°C)
In-Situ Tb vs.Linear Proje tion
Linear Proje tion!L"-82 %&&i a 'vs. L"-82 Te#(.$
L"-82 %&&i a ' vs.L"-82 Tb
Report No. 101731733CRT-011 9 of 10 Date: September 25, 2014
-
8/18/2019 LM82 Luma 2
10/10
Pictures (not to scale)
Attachment: None
Lighting DivisionAssociate EngineerGerald Gray Jeffrey Davis
Engineering Manager
CONCLUSION
The results tabulated in this report are representative of the actual test samples submitted for this report only. The datais provided to the client for further evaluation. Compliance to the referenced specification requirements was not
In Charge Of Tests: Report Reviewed By:
Lighting Division
CRT1408181526-002 Manufacturer Monitoring Point (Tb)
Td monitoring point Ts monitoring point
Report No. 101731733CRT-011 10 of 10 Date: September 25, 2014