Report No.: EASZE03220005 Page 2 of 14 1 SUMMARY Parameter Result Total Luminous Flux 1680.9 lm Luminous Efficacy 83.34 lm/w Power Factor 0.9829 Color Rendering Index (Ra) 83.7 Correlated Color Temperature (CCT) 3210 K (x) 0.4157 (y) 0.3827 (u') 0.2460 (v') 0.5094 Spatial Non-uniformity of ( u'v') 0.0055 2 EQUIPMENT LIST Test Equipment Model Equipment No. Calibration Date Calibration Due Date Goniophotometer GO-R5000 ATTEELSH00105 Oct. 11, 2011 Oct. 10, 2012 Gonio-spectroradiometer HAAS-2000 ATTEELSH00105 Oct. 11, 2011 Oct. 10, 2012 Digital Power Meter PF2010A ATTEELSH00107 Dec. 02, 2011 Dec. 01, 2012
Report No.: EASZE03220005 Page 3 of 14 3 TEST METHODS 3.1 Requirements of Ambient Condition The ambient temperature in which measurements are being taken shall be maintained at 25 ± 1, measured at a point not more than 1 m from the SSL product and at the same height as the SSL product. Air flow around the SSL product being tested should be such that normal convective air flow induced by device under test is not affected. 3.2 Seasoning of SSL Product For the purpose of rating new SSL products, SSL products shall be tested with no seasoning. Therefore, no seasoning was performed. 3.3 Stabilization of SSL Product Before measurements are taken, the SSL product under test shall be operated long enough to reach stabilization and temperature equilibrium. The time required for stabilization depends on the type of SSL products under test. The stabilization time typically ranges from 30 minutes for small integrated LED lamps to 2 or more hours for large SSL luminaires. It can be judged that stability is reached when the variation (maximum minimum) of at least 3 readings of the light output and electrical power over a period of 30 minutes, taken 15 minutes apart, is less than 0.5%. Therefore, the stabilization time of the sample was 1 hour, and the total operating time including stabilization was 3 hours. 3.4 Operating Orientation The SSL product under test shall be evaluated in the operating orientation recommended by the manufacturer for an intended use of the SSL product. Stabilization and photometric measurements of SSL products shall be done in such operating orientation. Therefore, the orientation of the sample as mounted for measurement was shown in Section 4.2 figure. 3.5 Photometric and Electrical Measurements - Goniophotometer Method An EVERFINE Type C Model GO-R5000 Goniophotometer was used to measure the intensity at each angle of distribution for each sample. The photometric distance is 2.1m for near-field measurement or 26m for far-field measurement. Ambient temperature was measured at the same height of the sample mounted on the Goniophotometer equipment. Electrical measurements including voltage, current, and power were measured using the Digital Power Meter. Some graphics were created with Photometric Plus software.
Report No.: EASZE03220005 Page 4 of 14 3.6 Color Characteristics Measurements The color characteristics of SSL products include chromaticity coordinates, correlated color temperature, and color rendering index. These characteristics of SSL products may be spatially non-uniform, and thus, in order that they can be specified accurately, the color quantities shall be measured as values that are spatially average, weighted to intensity, over the angular range where light is intentionally emitted from the SSL product. The color characteristics measurements are using gonio-spectroradiometer. 3.7 Color Spatial Uniformity The characteristics of SSL products may be spatially non-uniform, the chromaticity coordinate shall be measured at two vertical planes (C=0 /180 and C=90 /270 ) and at 10 or less intervals for vertical angle until the light output dropped to below 10% of the peak intensity. The averaged weighted chromaticity coordinate was calculated from these points. The data was then analyzed to check for delta color differences of the u', v' chromaticity coordinates. The spatial non-uniformity of chromaticity, u'v', is determined as the maximum deviation (distance on the CIE (u', v') diagram) among all measured points from the spatially averaged chromaticity coordinate. The geometry for the chromaticity measurement using gonio-spectroradiometer is shown as following.
Report No.: EASZE03220005 Page 5 of 14 4 TEST RESULTS 4.1 Photometric and Electrical Measurements at 25 Sample Model Voltage (Vac) Current (A) Power (W) Power Factor L05G 1200MM 120.0 0.1710 20.17 0.9829 Total Luminous Luminous Correlated Color Color Rendering Sample Model Flux Efficacy Temperature Index (lm) (lm/w) (K) / CRI L05G 1200MM 1680.9 83.34 3210 83.7 Sample Model x y u' v' L05G 1200MM 0.4157 0.3827 0.2460 0.5094 Note: According to CIE 1976 (u',v') diagram, u' = u = 4x/(-2x+12y+3), v' = 3v/2 = 9y/(-2x+12y+3).
Report No.: EASZE03220005 Page 6 of 14 4.2 Luminous Intensity Distribution
Report No.: EASZE03220005 Page 7 of 14 4.3 Luminous Intensity Data
Report No.: EASZE03220005 Page 8 of 14
Report No.: EASZE03220005 Page 9 of 14 4.4 Zonal Lumen Density
Report No.: EASZE03220005 Page 10 of 14 4.5 Planar Illuminance Curve
Report No.: EASZE03220005 Page 11 of 14 4.6 Color Spatial Uniformity C Angle = 0 /180 C Angle = 90 /270 γ Angle ( ) Luminous Intensity (cd) u' v' Luminous Intensity (cd) u' v' -90 0.0403 0.2506 0.5143 9.7594 0.2401 0.5067-80 59.038 0.2468 0.5103 68.129 0.2465 0.5146-70 182.43 0.2464 0.5098 163.67 0.2470 0.5146-60 299.82 0.2456 0.5089 259.68 0.2466 0.5134-50 394.06 0.2457 0.5083 346.92 0.2466 0.5125-40 460.95 0.2456 0.5079 417.88 0.2464 0.5114-30 512.42 0.2456 0.5076 481.38 0.2459 0.5094-20 542.99 0.2456 0.5074 514.99 0.2460 0.5088-10 559.32 0.2456 0.5072 559.15 0.2458 0.5077 0 563.65 0.2456 0.5073 562.18 0.2460 0.5078 10 556.02 0.2456 0.5073 539.96 0.2458 0.5072 20 535.88 0.2456 0.5076 507.25 0.2459 0.5075 30 500.89 0.2457 0.5082 457.37 0.2455 0.5077 40 451.54 0.2457 0.5087 394.4 0.2457 0.5082 50 379.46 0.2458 0.5095 321.11 0.2460 0.5092 60 284.46 0.2459 0.5102 232.58 0.2466 0.5104 70 167.02 0.2461 0.5110 140.29 0.2469 0.5117 80 48.598 0.2468 0.5119 48.432 0.2472 0.5123 Weighted Average u' v' 0.2460 0.5094
Report No.: EASZE03220005 Page 12 of 14 γ Angle ( ) C Angle = 0 /180 C Angle = 90 /270 u' v' u' v' -90 0.0046 0.0049-0.0059-0.0027-80 0.0008 0.0009 0.0005 0.0052-70 0.0004 0.0004 0.0010 0.0052-60 -0.0004-0.0005 0.0006 0.0040-50 -0.0003-0.0011 0.0006 0.0031-40 -0.0004-0.0015 0.0004 0.0020-30 -0.0004-0.0018-0.0001 0.0000-20 -0.0004-0.0020 0.0000-0.0006-10 -0.0004-0.0022-0.0002-0.0017 0-0.0004-0.0021 0.0000-0.0016 10-0.0004-0.0021-0.0002-0.0022 20-0.0004-0.0018-0.0001-0.0019 30-0.0003-0.0012-0.0005-0.0017 40-0.0003-0.0007-0.0003-0.0012 50-0.0002 0.0001 0.0000-0.0002 60-0.0001 0.0008 0.0006 0.0010 70 0.0001 0.0016 0.0009 0.0023 80 0.0008 0.0025 0.0012 0.0029 Spatial non-uniformity of chromaticity u'v': 0.0055
Report No.: EASZE03220005 Page 13 of 14 Photos of the sample Fig.1- Overall view Fig.2- Back view
Report No.: EASZE03220005 Page 14 of 14 Fig.3- Partial view *** End of Report *** This report is considered invalidated without the Special Seal for Inspection of the CTI. This report shall not be altered, increased or deleted. The results shown in this test report refer only to the sample(s) tested. Without written approval of CTI, this test report shall not be copied except in full and published as advertisement.