FOR THE SCOPE OF ACCREDITATION UNDER A2LA TO ISO/IEC 17025:2005. REPORT 25800 COMMERCENTRE DRIVE, LAKE FOREST, CA 92630 Project No. G101786356 Date: August 19, 2014 REPORT NO. 101786356LAX-001 TEST OF ONE HIGHBAY PENDENT ROUND 150W 120-277VAC 5000K MODEL NO. MLLHP150USD12/N LED MODEL NO. LG 5152 (LEMWH51X80HZ) DRIVER MODEL NO. LG INNOTEK LLP 150W 3.2A 48V ICH RENDERED TO MAXLITE 11801 JERSEY AVE RANCHO CUCAMONGA, CA 91730 TEST: Electrical and Photometric tests as required to the IESNA test standard and In-Situ test. STATEMENT OF LIMITATION: AUTHORIZATION: STANDARDS USED: This report must not be used by the client to claim product certification, approval, or endorsement by A2LA, NIST, or any agency of the federal government. The testing performed was authorized by signed quote number Q500547495. The following American National Standards or Illuminating Engineering Society of North America Test Guides were used in part or totally to test each specimen: IESNA LM-79-2008: Electrical and Photometric Measurements of Solid State Lighting Energy Star Manufacturer s Guide Version 2.1 (2010): Guide for Qualifying Solid State Lighting Luminaires DESCRIPTION OF SAMPLE: DATES OF TESTS: The client submitted one production sample of model number MLLHP150USD12/N. The sample was received by Intertek on August 15, 2014, in undamaged condition and one sample was tested as received. The sample designation was LAN1408150821-003. August 15, 2014 through August 19, 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 and conditions 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 or service 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.
SUMMARY Model No.: Description: MLLHP150USD12/N HIGHBAY PENDENT ROUND 150W 120-277VAC 5000K Criteria Total Lumen Output (Lumens) Total Power (W) Luminaire Efficacy (LPW) Sphere 14969 154.7 96.76 Result Goniometer 14583 155.5 93.78 Criteria Power Factor at 120Vac Power Factor at 277.01Vac Result 0.989 0.938 Current ATHD % at 120Vac Current ATHD % at 277.01Vac 13.32 18.75 Correlated Color Temperature (CCT - K) 4995 Color Rendering Index (CRI - Ra) 87.2 Color Rendering Index (CRI - R9) 29.3 DUV 0.002 Chromaticity Coordinate (x) 0.345 Chromaticity Coordinate (y) 0.348 Chromaticity Coordinate (u') 0.213 Chromaticity Coordinate (v') 0.483 Maximum In-Situ Source Temperature Point ( C) 58.1 EQUIPMENT LIST Model Control Last Date Calibration Equipment Used Number Number Calibrated Due Date LabSphere Power Supply LPS-100-0833 000832 05/20/14 05/20/15 LapSphere 3M Integrating Sphere CA-11821-LRT 000830 08/08/14 09/08/14 LabSphere Spectrometer CDS-3020 000834 08/08/14 09/08/14 California Instruments Power Supply CSW5550 001339 VBU VBU Yokogawa Power Meter WT333 001319 05/15/14 05/15/15 Extech Instruments Stop Watch 365510 001380 11/05/13 11/05/14 Omega Environmental Monitor ibthx-w 000886 09/10/13 09/10/14 LSI High Speed Mirror Goniometer 6440T 000943 08/08/14 09/08/15 Elgar Power Supply CW1251 000944 VBU VBU Yokogawa Power Analyzer WT210 000945 11/14/13 11/14/14 Omega Environmental Monitor ibthx-w 000882 09/09/13 09/09/14 Extech Instruments Stop Watch 365510 001380 11/05/13 11/05/14 Tape Measure 33-428 000678 12/09/13 12/09/14 Stopwatch 365510 001380 11/05/13 11/05/14 Lab Monitor ibthx-w 000885 09/10/13 09/10/14 Power Meter WT333 001321 05/15/14 05/15/15 AC Source CW1251P-V 001334 VBU VBU Thermometer 52II 001262 09/17/13 09/17/14 Report No. 101786356LAX-001 2 of 8 Date: August 19, 2014
TEST METHODS Seasoning in Sample Orientation LED Products No seasoning was performed in accordance with IESNA LM-79. Photometric and Electrical Measurements Integrating Sphere Method A Labsphere CDS 3020 Spectrometer and Three Meter Sphere was used to measure correlated color temperature, chromaticity coordinates, and the color rendering index for each SSL unit. Ambient temperature was measured at a position inside the sphere. Each SSL unit was operated on the client provided driver at the rated input voltage in its designated orientation. Each SSL unit was allowed to stabilize for at least thirty minutes before measurements were made. Electrical measurements including voltage, current, and power were measured using the Yokogawa Power Analyzer. The calibration of the sphere spectrometer system is traceable to the National Institute of Standards and Technology. Photometric and Electrical Measurements Distribution Method A LSI Type C High Speed Model 6440 Mirror Goniometer was used to measure the intensity (candelas) at each angle of distribution for each sample. Ambient temperature was measured equal to the height of the sample mounted on the Goniometer equipment. Each sample was operated at input rated voltage in its designated orientation. Each sample was allowed to stabilize for at least thirty minutes before measurements were made. Electrical measurements including voltage, current, and power were measured using the Yokogawa Power Analyzer. Some graphics were created with Photometrics Plus software. 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 test sample per model with a thermocouple and Fluke 87 temperature meter. The SSL sample was allowed to reach thermal equilibrium for seven and a half hours before measurements were taken. Power supply or source temperature measurements were measured at the TMPPS or TS point as indicated by the included diagram in accordance with manufacturers declared hot spot location, or at a hot spot location found with a thermal camera when no diagram from the manufacturer is given. The maximum temperature was recorded for the sample. A simulated ceiling or other enclosure may be used in accordance to UL 1598 or UL 153 as applicable. Report No. 101786356LAX-001 3 of 8 Date: August 19, 2014
RESULTS OF TEST Photometric and Electrical Measurements at Ambient Temperature (25 C +/- 1 C) - Integrating Sphere Method Input Input Input Input Current Base Voltage Current Power Power ATHD Intertek Sample No. LAN1408150821-003 Orientation UP {Vac} 120.0 (ma) 1303 (Watts) 154.7 Factor 0.989 (%) 13.32 277.0 587.0 152.4 0.938 18.75 Luminous Flux (Lumens) 14969 Lumen Efficacy (LPW) 96.76 Correlated Color Temperature (K) 4995 CRI CRI -Ra -R9 DUV 87.2 29.3 0.002 CIE 31 Chromaticity Coordinate 0.345 CIE 31 Chromaticity Coordinate (y) 0.348 CIE 76 Chromaticity Coordinate (u ) 0.213 CIE 76 Chromaticity Coordinate (v ) 0.483 Spectral Distribution over Visible Wavelengths nm mw/nm nm mw/nm nm mw/nm nm mw/nm nm 350-0.393 440 114.200 530 162.30 620 172.50 710 355-0.693 445 188.900 535 166.20 625 162.40 715 360 0.020 450 287.500 540 171.10 630 151.20 720 365-0.303 455 325.400 545 175.80 635 139.60 725 370-0.228 460 261.600 550 179.90 640 127.60 730 375-0.242 465 195.000 555 184.30 645 115.70 735 380-0.241 470 159.700 560 188.20 650 104.50 740 385-0.111 475 129.900 565 192.00 655 93.53 745 390-0.281 480 113.100 570 195.70 660 83.23 750 395 0.010 485 111.700 575 198.60 665 73.43 755 400 0.216 490 116.700 580 201.10 670 64.56 760 405 0.545 495 124.000 585 202.80 675 56.22 765 410 1.720 500 132.800 590 203.00 680 48.89 770 415 4.289 505 140.600 595 201.40 685 42.40 775 420 9.700 510 146.300 600 199.10 690 36.50 780 425 20.320 515 150.800 605 195.20 695 31.53 430 38.630 520 154.800 610 189.20 700 27.13 435 68.150 525 158.100 615 181.90 705 23.32 mw/nm 19.980 17.180 14.750 12.720 10.800 9.216 7.794 6.563 5.704 4.808 4.145 3.465 2.997 2.531 2.141 Spectral Data Over Visible Wavelengths (mw/nm) 350.000 300.000 250.000 200.000 150.000 100.000 50.000 0.000 350 400 450 500 550 600 650 700 750 800 Nanometers Report No. 101786356LAX-001 4 of 8 Date: August 19, 2014
RESULTS OF TEST (cont'd) Photometric and Electrical Measurements at Ambient Temperature (25 C +/- 1 C) Distribution Method Intertek Sample No. LAN1408150821-003 Base Orientation UP Input Voltage {Vac} 120.0 Input Current (ma) 1312 Input Power (Watts) 155.5 Input Power Factor 0.990 Absolute Luminous Flux (Lumens) 14583 Lumen Efficacy (Lumens Per Watt) 93.78 Intensity (Candlepower) Summary at 25 C - Candelas Angle 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 0 10379 10188 9922 8960 7692 6784 6037 5160 3957 2876 2081 1486 999 631 344 150 54 31 17 22.5 10372 10273 10155 9230 7927 6938 6176 5214 4072 2936 2087 1487 1013 629 352 161 50 37 20 45 10371 10353 10367 9469 8180 7113 6269 5322 4143 3016 2145 1529 1021 654 356 180 81 22 9 67.5 10354 10389 10445 9629 8150 7006 6137 5190 4099 2994 2080 1501 1042 651 369 168 52 25 20 90 10326 10368 10426 9619 7951 6918 6137 5231 4100 2960 2117 1518 1021 646 371 173 76 34 16 Report No. 101786356LAX-001 5 of 8 Date: August 19, 2014
RESULTS OF TEST (cont'd) Illumination Plots Illuminance - Cone of Light Mounting Height: 10 ft. Isoillumination Plot Zonal Lumen Summary and Percentages at 25 C Zonal Lumens and Percentages at 25 C Zone 0-30 0-40 0-60 60-90 0-90 90-180 0-180 Lumens 6813 10038 13686 895.7 14581 2.2 14583 % Luminaire 46.7 68.8 93.8 6.1 100.0 0.0 100.0 Zone 0-10 10-20 20-30 30-40 40-50 50-60 60-70 70-80 80-90 90-100 Lumens 983.7 2599 3231 3225 2287 1360 661.6 194.2 39.8 2.2 % Luminaire 6.7 17.8 22.2 22.1 15.7 9.3 4.5 1.3 0.3 0.0 Report No. 101786356LAX-001 6 of 8 Date: August 19, 2014
RESULTS OF TEST (cont'd) In-Situ Maximum Measured LED Source Temperature Manufacturer Supplied Documentation: LED model identified as: X Maximum Junction Temperature from LED specification (Tj) = 110 C Thermal Resistance Formula from LED specification = 4.2 C/W Maximum Forward Voltage (Vf) from LED specification = 3.3V Measured LED Current = 341.4mA Calculated LED Wattage = Vf x Measured LED Current = 1.127W Maximum Source Temperature (Ts) = Tj (LED Wattage x Thermal Resistance) = 105.3 C Maximum Measured Manufacturer Designated Source Temperature Maximum Measured Maximum Rated Sample No. Source Temperature ( C) Location Source Temperature ( C) LAN1408150821-003 58.1 Per diagram 105.3 In-Situ Picture Ts In-Situ Picture Ts location Report No. 101786356LAX-001 7 of 8 Date: August 19, 2014
PICTURE (not to scale) X CONCLUSION The results tabulated in this report are representative of the actual test samples submitted for this report only. The data is provided to the client for further evaluation. Compliance to the referenced specification requirements was not determined in this report. In Charge Of Tests: Report Reviewed By: Ameet Alawi Technician Lighting Division Kenda Branch Engineer Lighting Division Attachment: None Report No. 101786356LAX-001 8 of 8 Date: August 19, 2014