美国能源之星LM-80测试报告 源磊科技LED产品
LED能源之星标准LM79与LM80的区别
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LED能源之星标准LM79与LM80的区别LM-79:主要测试为光电性能测试,由于某些测试项目需要借助分布式光度计才能完成,所以一般的厂家没有能力做一份完整的报告,这个测试一般针对的是整灯的厂家。
主要的测试项目如下:总光通量:发光效率:光强分布:相关色温(CCT):显色指数(CRI):色品坐标(或称色度坐标):输入交流(或直流)电压:输入交流(或直流)电流:输入功率(DC或AC):输入电压频率:功率因子:LM-80主要测的是LED光源的流明维持,这一测试针对的是光源厂家,所以生产灯具的厂家只需要向你们的光源厂家要这一份测试报告就好了。
LM-79是固态照明产品电气和光度测量的方法针对所有LED产品的测试方法,包含测试内容:1、电参数(功率、电压、电流、功率因数)2、颜色参数3、光通量、光效4、光强分布5、色度不均匀性LM-79和LM-80与能源之星的关系:LM-79:能源之星中有大量光色参数的要求,其测试方法均引用LM-79作为测试方法标准LM-80:LM-80是针对LED光源光通维持率的测试方法针对LED光源而非LED灯泡和灯具,包含测试内容:1、光源在不同温度下的光通维持率2、光源在不同温度下的色度维持率LM-80的测试数据作为成品光源光通量的引用数据以计算成品灯的光通维持率和色度维持率并非有了LM-80数据就不需做光通维持率,同样需要测试验证。
LM79是IESNA(北美照明工程学会)批准的灯具能效标准。
而LM80光通维持率(LED寿命)标准. IES LM79测试是指固态照明产品的光电测量,主要是测试产品的光通量,光强,颜色度等等。
而IES LM80是LED光源流明维持测试,主要测试的是光通量输出的维持率,也就是LED光源的的寿命测试。
注:光通量是指光源表面辐射出能被人眼视觉感知的光能量。
其计算单位是流明(lm)。
【精品】:最新最齐全的北美IES LM-79和LM-80标准中文版本
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【精品】:最新最齐全的北美IES LM-79和LM-80标准中文版本LM-79和LM-80是北美照明协会针对LED产品的测试方法标准:LM-79是固态照明产品电气和光度测量的方法针对所有LED产品的测试方法,包含测试内容:1、电参数(功率、电压、电流、功率因数)2、颜色参数3、光通量、光效4、光强分布5、色度不均匀性LM-80是针对LED光源光通维持率的测试方法针对LED光源而非LED灯泡和灯具,包含测试内容: 1、光源在不同温度下的光通维持率2、光源在不同温度下的色度维持率LM-79和LM-80与能源之星的关系:LM-79:能源之星中有大量光色参数的要求,其测试方法均引用LM-79作为测试方法标准LM-80:LM-80的测试数据作为成品光源光通量的引用数据以计算成品灯的光通维持率和色度维持率并非有了LM-80数据就不需做光通维持率,同样需要测试验证。
IES LM-79-08标准版权所有2008照明工程协会。
照明工程协会董事会于2007年12月31日认定该报告为照明工程协会学报。
保留所有权利。
未经照明工程协会事先书面许可,不得以任何形式、电子检索系统或者其他方式复制该出版物的任何内容。
该报告由照明工程协会出版,所在地为纽约华尔街120号(邮编:10005)。
照明工程协会标准与准则经委员会一致同意制定,并由位于纽约的照明工程协会办事处编制。
请注意文体与准确度。
若发现该文件存在任何错误,请按照上述地址将其发送至教育与技术部门总监Rita Harrold,以获验证和修改。
照明工程协会热诚欢迎并希望收到反馈意见与评论。
ISBN # 978-0-87995-226-6该报告在美国印刷。
免责声明照明工程协会出版物按照一致同意的标准制定过程制定,该过程获得美国国家标准协会的批准。
该过程总结了代表不同观点与利益的志愿者的意见,以对照明参数推荐值达成一致。
而照明工程协会在管理该过程以及制定政策和程序以提高一致意见制定的公正性时,并没有对此处出版的任何信息的准确性或完整性作出保证或担保。
美国能源之星简介CTI
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LED 能源之星重点测试要求
测试项目:颜色空间均匀性,颜色维持
设备: 标准:
空间分布光谱仪 空间分布色度计 IESNA LM-79-08, CIE 15:2004, IESNA LM-58-94, 要求
测试项目:局部流明密度(光通量空间分 布) 设备: 分布光度计
CIE TC2-46 CIE/ISO LED intensity measurements
CIE TC2-50 Optical properties of LED arrays (远方参与编写)
CIE TC2-58 Luminance and radiance of LEDs(远方参与编写)
LED 测试要求介绍—Color
美国能源之星介绍
能源之星标志
美国能源之星介绍
能源之星在美国的影响力
美国能源之星介绍
能源之星官网
LED 测试要求介绍—光度测量
Photometry IESNA LM-79 Electrical and Photometric Measurements of SSL Products IESNA LM-80 Approved Method for Measuring Lumen Maintenance of LED Light Source CIE TC2-45 CIE 127-2007 Measurement of LEDs
申请能源之星所要求的测试项目
• 二、SSL灯具(商用或宅用)能源之星(该标准 即将与RLF能源之星标准合并) 1.光电色参量 2.颜色空间均匀性 3.流明维持:LED光源 4.电磁和辐射频率干扰(FCC) 5.瞬态保护 6.噪音 7.安全(UL1993) 8.减小空气泄漏(仅宅用的嵌入式筒灯)
能源之星灯具标准2.0版本 中文翻译(1)
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本文为中文译文,仅作参考,判定以原标准为依据
具或翻新套件内,也可能放在外面。
相关色温:黑体曲线上距离样品光源色坐标最近一点的色温值。(IES RP-16-10)
暗槽安装(灯具):灯具光源被突起的边缘遮住或水平凹进去,光主要射在天花和上面的墙上。在本标准中, 暗槽安装灯具的特点是透镜覆盖了灯泡、LED 光源、LED 光引擎或一体式 LED 灯。(IES RP-16-10)
灯具不能归类为定向灯范围内的,默认归类为非定向。
定向灯具(评估灯具的光度特性)
划定了范围,在标准范围和灯具分类章节中列出。
评估灯具的光度特性(光效),要求涉及灯具的光学配件。
也要满足特定的最低光通量要求和环带光通密度要求
固态(LED)灯具类型为不可拆分的(用户不可以更换/升级 LED 光引擎或一体式 LED 灯),并且没有在定向范围内列出的,应被视为不可拆分式固态照明灯具并且评估灯 具的光度特性。
LED 阵列或模组:一种一体式装配的 LED 封装或多个 LED 晶片焊在 PCB 或基板上,可能带有光学组件以及
Daniel 2015-7-13
本文为中文译文,仅作参考,判定以原标准为依据
附带散热,机械固定和用于连接 LED 驱动输出端的电气接口。该设备定义不包含电源部分和 ANSI 标准灯头。 该设备不能够直接连入电网电路。(IES RP-16-10)
Daniel 2015-7-13
本文为中文译文,仅作参考,判定以原标准为依据
1. 标准范围和灯具分类
本节概括能源之星灯具标准(下称本标准)覆盖的灯具类型。本标准限定适用于家用类型的照明产品,但 标准范围内某些产品是销售到商用市场的,他们可能会被囊括进来并以合适的方式列名给最终用户。认证 范围限于总输入功率低于 250W,直接接入电网的灯具。参考第四章节详细了解下述定向产品类型的定义。 有关产品范围的任何疑问可以直接联络 EPA 认可的认证机构或邮件至 lighting@
灯珠的lm80报告
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灯珠的lm80报告:报告lm80 l m80是什么认证l ed灯珠能耐高温吗能源之星lm80标准介绍篇一:LM80随着经济的迅猛发展,日趋严峻的能源与环境问题成为人们关注的焦点。
由于LED相比较传统照明光源拥有环保、节能和寿命长的优点,已经逐渐取代传统照明光源成为主要照明光源。
在全球照明行业进行LED全面革命的浪潮下,全球很多国家都在推行LED照明产品标准的制定、测试和认证,以规范和推动LED市场的良性蓬勃发展,其中以美国的LED照明能源之星?认证走在世界最前列。
目前,美国和加拿大政府在加大力度推行能源之星测试认证,在北美,当地经销商出售有能源之星?的产品可以获得20%-80%的政府补贴,所以,目前越来越多的LED照明厂家在大力着手能源之星?的申请和认证。
由于LED发热量大,导致LED的光衰大和寿命短,光衰和寿命是目前灯具以及LED器件厂家急需解决的难题。
所以,寿命和光衰是出口至美国市场和获得能源之星?认证的LED照明厂家最为关注的问题。
如果LED器件没有得到测试认可,LED厂家至少需要进行6000小时(9个月)的寿命测试并达到标准的光衰要求才能获得能源之星?的认证和标志,将近一年的测试周期给这个需要快速反应才能赢得先机的厂商来讲等于扼住喉咙。
为此,IESNA(北美照明工程协会)提出LM-79与LM-80的测试方法,以实验室数据加上数学统计模式获得一致性的寿命资料,使得LED器件所进行的光衰与寿命测试数据与LED成品灯的光衰与寿命资料两者获得一致性和共通性,也更使得LED成品灯可以参考LED器件所进行的光衰与寿命测试数据。
而且,EPA(美国环保署)针对LED照明成品所颁发的能源之星标准也以此方法作为LED器件与成品照明光衰和寿命的判断标准。
所以,当LED灯在进行能源之星认证的时候,如果LED器件拥有被认可的LM-80测试报告,成品灯可以大大缩短认证和拥有能源之星标志的周期。
比如LED灯具,完全不需要进行寿命和光衰测试,只需要两周时间就可以获得能源之星认证和标志;而LED 一体式灯具也只需3000小时就可以提前拥有能源之星的标志。
美国灯具灯泡能源之星认证与测试介绍
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• 发光效能、光输出、区域光输出密度要求 -------------定向性 商业照明灯具
• 光源寿命要求
-------------所有的灯具
• 光输出流明维持要求
-------------定向 和非定向 灯具
• 色温要求
-----------—所有室内照明
• 显色要求
---------------所有室内灯具
• not include street and area, wall packs, canopy, high bay, recessed troffers • or other types employed for general office illumination, adapters or
converters. • Questions: luminaires@
------定向 和非定向 灯具
• 光源可替换要求(Replaceability)
----定向性商业照明灯具
• 调光要求(dimming)
----所有的灯具
• 功率因数要求(PF)
----定向 和非定向 灯具
美国能源部 第14轮 LED灯具测试报告
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1 Preface
The U.S. Department of Energy (DOE) CALiPER program has been purchasing and testing general illumination solid‐state lighting (SSL) products since 2006. CALiPER relies on standardized photometric testing (following the Illuminating Engineering Society of North America [IES] approved method LM‐79‐081) conducted by accredited, independent laboratories.2 Results from CALiPER testing are available to the public via detailed reports for each product or through summary reports, which assemble data from several product tests and provide comparative analyses.3 It is not possible for CALiPER to test every SSL product on the market, especially given the rapidly growing variety of products and changing performance characteristics. Beginning in 2012, each CALiPER summary report focuses on a single product type or application. Products are selected with the intent of capturing the current state of the market—a cross section ranging from expected low to high performing products with the bulk characterizing the average of the range. The selection does not represent a statistical sample of all available products. To provide further context, CALiPER test results may be compared to data from LED Lighting Facts,4 ENERGY STAR® performance criteria,5 technical requirements for the DesignLights™ Consortium Qualified Products List,6 or other established benchmarks. CALiPER also tries to purchase conventional (i.e., non‐SSL) products for comparison, but because the primary focus is SSL, the program can only test a limited number. It is important for buyers and specifiers to reduce risk by learning how to compare products and by considering every potential SSL purchase carefully. CALiPER test results are a valuable resource, providing photometric data for anonymously purchased products as well as objective analysis and comparative insights. However, LM‐79‐08 testing alone is not enough to fully characterize a product—quality, reliability, controllability, physical attributes, warranty, compatibility, and many other facets should also be considered carefully. For more information on the DOE SSL program, please visit .
美国能源之星LM-80
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美国能源之星LM-80项目背景在一片节能照明的呼唤声中,各国开始针对固态照明领域制订相关的标准,经过近一年的草案修订后,美国能源之星固态照明灯具标准于2007年9月发布最终版。
在各国积极推广节能政策,而照明占全球总用电量近五分之一的情形下,LED发光二极管是目前最受期待可达成节能照明的最佳方式之一,随技术的快速发展,半导体照明产业的商机也指日可待。
照明灯具标准能源之星对固态照明灯具制订的标准,除依据符合现行照明工业参考标准和测试程序外,同时也由相关的照明工业组织开发新增或修订的标准和测试程序。
本标准适用的范围为一般照明使用之固态照明产品,其中包括具有显著照明功能的装饰用产品,产品若要符合能源之星资格,则须满足其标准规定之所有规范,其同时规范住宅及商用产品,且只适用于被设计连接至电力网(Electric Power Grid)之产品。
除此之外,指示用的固态照明产品,如交通灯和出口标志、专供装饰之产品,以及被用于改造现有设备的固态照明产品都不适用于此标准。
在本标准中,固态照明产品被分为A类产品(Category A)和B类产品(Category B),该标准对各产品的规范中,一般规定的部分均适用于A类和B类产品。
表1 固态照明灯具的相关色温范围列表标称相关色温(K)色温(K)2,700 2,725±1453,000 3,045±1753,500 3,465±2454,000 3,985±2754,500 4,503±2435,000 5,028±2835,700 5,665±3556,500 6,530±510表2 A类产品个别规范即效能目标一览表项目厨房橱柜照明架装橱柜工作灯便携式案头工作灯嵌灯户外阳台壁灯户外台阶灯户外走道灯最小光输出灯具应提供每直线英尺最低125流明(初始值)。
该光输出的要求是按备注公式计算。
灯具应提供每直线英尺最低125流明(初始值)。
能源之星
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第一篇SSL/LED照明产品美国能源之星—引用标准及测试方法一、背景:能源之星(Energy Star)是一项由美国政府(美国环保署(EPA)与能源部(DOE))所主导,并结合产品制造业、零售业共同参与,主要针对消费性电子产品的能源节约计划。
能源之星认证要求所有制造商必须提交由得到NVLAP审核授权,并经美国能源部和美国环保署认可及批准的实验室出具的测试结果方可有效。
进入美国市场的照明类产品,能源之星并非强制性认证,但是美国政府强有力支持此项认证,同时规定对销售有能源之星认证产品的厂家和使用的家庭进行补贴,并要求联邦政府机构选择有能源之星Energy Star 认证的产品。
因此中国销往美国的大部分灯类产品,都拥有Energy Star认证。
了解SSL灯具和整体式LED灯能源之星要求,我们首先要了解IES LM-79和IES LM-80。
LM-79是适用于基于LED、集成控制电路和散热片,只需AC和DC电源便可运行的SSL 产品;不适用于需要外部运行电路或外部散热片(如LED芯片,LED封装,LED模块)的SSL产品;LM-80适用于只包括基于无机LED的封装、阵列和模块的流明维持的测试。
LED 的能源之星标准发布了近两年时间,但却有较少完整的中文版本的整理和解析,本文将通过对LM-79和LM-80标准要求进行解析,希望对各位有所帮助。
二、相关定义与术语:LM-79和LM-80标准中涉及较多的术语。
在介绍标准之前,我们先来了解一些基本的光电定义和术语,对后续的标准理解会有帮助。
光通量Φv(流明,lm):光源表面辐射出能被人眼视觉感知的光能量。
总光通量:光源向整个空间发出的光通量的总和。
光强Iv(坎德拉,cd=lm ·sr-1):光源在指定方向的单位立体角内发出的光通量。
亮度Lv(cd·m-2=lm·sr-1·m-2):发光表面在指定方向的光强与垂直且指定方向的发光面的面积之比。
CREE-LM80测试报告
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CLD-AP57 Rev 16Aapplication notecree ® leD componentsieS lM-80-2008 testing ResultsRevision: 16A (July 2, 2014)R e e .C O M /X L A M Ptable of contentSintRoDuctionThis document provides the results of Cree’s IeS LM-80-2008 (“LM-80”) testing on its LeD components. Cree is providing this data so that the public can verify the reliability of Cree LeDs as part of a complete LeD lighting system.Note that this document only provides the end results of the LM-80 tests. This is not a complete LM-80 report. Do not use this document to submit luminaires or lamps to an agency. Cree customers who need the full LM-80 reports should contact their Cree sales representative.Cree’s customers who wish to share LM-80 results with their customers have permission to link to this document from their website. This document is subject to change without notice, so please do not link to a local copy.nVlap accReDitation foR lM-80-2008 teStingCree’s SSL testing laboratory in Durham, NC, USA is accredited by the National voluntary Laboratory Accreditation Program (NvLAP) to perform IeS LM-80-2008 testing. All LM-80-2008 results produced by Cree are generated in Cree’s accredited laboratory. Full details on Cree’s NvLAP accreditation are available here:/standards/scopes/5000410.htm This report must not be used to claim product certification, approval, or endorsement by NVLAP , NIST or any other agency of the federal government.LeD Modules (Rev 2) ............................................2XLamp ® CXA1304 White LeDs (Rev 0) ....................3XLamp ® CXA1507 White LeDs (Rev 1) ....................4XLamp ® CXA1512 White LeDs (Rev 0) ....................5XLamp ® CXA1816 White LeDs (Rev 0) ....................6XLamp ® CXA1820 White LeDs (Rev 0) ....................7XLamp ® CXA1830 White LeDs (Rev 0) ....................8XLamp ® CXA2011 White LeDs (Rev 0) ....................9XLamp ® CXA2520 White LeDs (Rev 0) ..................10XLamp ® CXA2530 White LeDs (Rev 0) ..................11XLamp ® CXA2540 White LeDs (Rev 0) ..................12XLamp ® CXA3050 White LeDs (Rev 0) ..................13XLamp ® MC-e White LeDs (Rev 1) .......................14XLamp ® ML-B White LeDs (Rev 1) ........................15XLamp ® ML-C & ML-e White LeDs (Rev 1) .............16XLamp ® ML-e White LeDs (Rev 1) ........................17XLamp ® MP-L easyWhite LeDs (Rev 0) .................18XLamp ® MT-G easyWhite LeDs (Rev 1) .................19XLamp ® MT-G2 easyWhite LeDs (Rev 1) ...............20XLamp ® MX-3 White LeDs (Rev 0) .......................21XLamp ® MX-6 White LeDs (Rev 2) .......................22XLamp ® XB-D White LeDs (Rev 2) .......................23XLamp ® XB-e High voltage White LeDs (Rev 0) .....24XLamp ® XB-G High voltage White LeDs (Rev 0) .....25XLamp ® XM-L easyWhite LeDs (Rev 1) .................26XLamp ® XM-L High voltage White LeDs (Rev 0) .....27XLamp ® XM-L White LeDs (Rev 2) ........................28XLamp ® XM-L2 White LeDs (Rev 1) ......................30XLamp ® XP-e White LeDs (Rev 3) ........................31XLamp ® XP-E High Efficiency White LEDs (Rev 4) ...32XLamp ® XP-E2 High Efficiency White LEDs (Rev 0) .33XLamp ® XP-G White LeDs (Rev 6) ........................34XLamp ® XP-G2 White LeDs (Rev 3) ......................35XLamp ® XQ-B White LeDs (Rev 0) .......................36XLamp ® XQ-D White LeDs (Rev 0) .......................37XLamp ® XR-e White LeDs (Rev 1) ........................38XLamp ® XT-e High voltage White LeDs (Rev 0) ......39XLamp ® XT-e White LeDs (Rev 6) (40)NvLAP Lab Code 500041-0leD MoDuleS (ReV 2)Revision: 2 (October 15, 2013)Description of leD light SourcesNo failures occurred during testing.test SummaryNotes:• Max. LeD Current: These values are the maximum current that the white and single-color LeDs will receive during operation in the specified module.• Max. Tc: There is no practical way to directly measure LeD Tsp inside Cree’s module without adversely affecting the module’s optical, thermal or mechanical properties. Therefore, Cree has characterized samples of our LeD modules for the temperature difference between LED Tsp and the Cree-specified Tc measurement point on the outside of the module. Cree recommends using the external Tc measurement point and the maximum Tc values listed in the table above.* Data sets marked with a (+) are extended versions of some of the data sets above, but have sample sizes less than25 units each. Please refer to each individual data set for the exact number of samples included. These data setsare projected according to IeS TM-21-11 standards and the Reported L70 lifetimes presented are valid under TM-21-11. However, the use of these extended data sets may not be allowed by a particular program because of the sample size of the data set. Cree recommends reviewing the details on LM-80 lumen maintenance for each program to verify that data sets with fewer than 25 samples are considered valid. If not, then the data sets above should be referenced.XlaMp® cXa1304 White leDS (ReV 0) Revision: 0 (June 10, 2013)Description of leD light SourcesXLamp® CXA1304 White LeDs (Series: CXA1304)This LM-80 report is applicable to the following order codes: CXA1304-xxxx-xxxCxxxxxxx (9V)CXA1304-xxxx-xxxNxxxxxxx (37V)No failures occurred during testing.test SummaryXlaMp® cXa1507 White leDS (ReV 1) Revision: 1 (August 8, 2013)Description of leD light SourcesXLamp CXA1507 White LeDs (Series: CXA1507)This LM-80 report is applicable to the following order codes: CXA1507-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa1512 White leDS (ReV 0) Revision: 0 (April 19, 2013)Description of leD light SourcesXLamp CXA1512 White LeDs (Series: CXA1512)This LM-80 report is applicable to the following order codes: CXA1512-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa1816 White leDS (ReV 0) Revision: 0 (June 10, 2013)Description of leD light SourcesXLamp CXA1816 White LeDs (Series: CXA1816)This LM-80 report is applicable to the following order codes: CXA1816-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa1820 White leDS (ReV 0) Revision: 0 (October 11, 2013)Description of leD light SourcesXLamp CXA1820 White LeDs (Series: CXA1820)This LM-80 report is applicable to the following order codes: CXA1820-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa1830 White leDS (ReV 0) Revision: 0 (October 11, 2013)Description of leD light SourcesXLamp CXA1830 White LeDs (Series: CXA1830)This LM-80 report is applicable to the following order codes: CXA1830-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa2011 White leDS (ReV 0) Revision: 0 (May 18, 2012)Description of leD light SourcesXLamp CXA2011 White LeDs (Series: CXA2011)This LM-80 report is applicable to the following order codes: CXA2011-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa2520 White leDS (ReV 0) Revision: 0 (April 22, 2013)Description of leD light SourcesXLamp CXA2520 White LeDs (Series: CXA2520)This LM-80 report is applicable to the following order codes: CXA2520-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa2530 White leDS (ReV 0) Revision: 0 (April 18, 2013)Description of leD light SourcesXLamp CXA2530 White LeDs (Series: CXA2530)This LM-80 report is applicable to the following order codes: CXA2530-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa2540 White leDS (ReV 0) Revision: 0 (April 19, 2013)Description of leD light SourcesXLamp CXA2540 White LeDs (Series: CXA2540)This LM-80 report is applicable to the following order codes: CXA2540-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® cXa3050 White leDS (ReV 0) Revision: 0 (April 19, 2013)Description of leD light SourcesXLamp CXA3050 White LeDs (Series: CXA3050)This LM-80 report is applicable to the following order codes: CXA3050-xxxx-xxxxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® Mc-e White leDS (ReV 1)Revision: 1 (December 8, 2010)Description of leD light SourcesXLamp MC-e White LeDs (MCe4WT) & XLamp MC-e easyWhite LeDs (MCeeZW)All measurements provided are LeD package measurements with all LeDs on simultaneously. No failures occurred during testing. test SummaryXlaMp® Ml-b White leDS (ReV 1) Revision: 1 (May 1, 2012)Description of leD light Sources XLamp ML-B White LeDs (MLBAWT)No failures occurred during testing.test SummaryXlaMp® Ml-c & Ml-e White leDS (ReV 1) Revision: 1 (March 19, 2012)Description of leD light SourcesXLamp ML-C (MLCxWT) & ML-e (MLexWT) White LeDsThis LM-80 report is applicable to the following order codes:• ML-C Parallel : MLCAWT-xx-xxxx-xxxxxx• ML-C Series : MLCSWT-xx-xxxx-xxxxxx• ML-e Parallel : MLEAWT-xx-xxxx-xxxxxx• ML-e Series : MLESWT-xx-xxxx-xxxxxxNo failures occurred during testing.test SummaryXlaMp® Ml-e White leDS (ReV 1)Revision: 1 (June 14, 2013)Description of leD light SourcesXLamp ML-e (MLeAWT) White LeDsThis LM-80 report is applicable to the following order codes:MLEAWT-xx-xxxx-xxxxxxNo failures occurred during testing.test SummaryThe following data sets are extended versions of some of the data sets above, but have sample sizes less than 25 units each. These data sets are projected according to IeS TM-21-11 standards and the Reported L70 lifetimes presented are valid under TM-21-11. However, the use of these extended data sets may not be allowed by a particular program because of the sample size of the data set. Cree recommends reviewing the details on LM-80 lumen maintenance for each program to verify that data sets with fewer than 25 samples are considered valid. If not, then the data sets above should be referenced.XlaMp® Mp-l eaSyWhite leDS (ReV 0) Revision: 0 (September 30, 2010)Description of leD light SourcesXLamp MP-L easyWhite LeDs (MPLeZW)No failures occurred during testing.test SummaryXlaMp® Mt-g eaSyWhite leDS (ReV 1) Revision: 1 (February 16, 2012)Description of leD light SourcesXLamp MT-G easyWhite LeD arrays (Series: MTGeZW) This LM-80 report is applicable to the following order codes:• MT-G 6v : MTGEZW-xx-xxxx-xBxxxxxxx• MT-G 36v : MTGEZW-xx-xxxx-xNxxxxxxxNo failures occurred during testing.test SummaryXlaMp® Mt-g2 eaSyWhite leDS (ReV 1)Revision: 1 (June 14, 2013)Description of leD light SourcesXLamp MT-G2 easyWhite LeD arrays (Series: MTGBeZ)This LM-80 report is applicable to the following order codes:• MT-G2 6v : MTGBEZ-xx-xxxx-xBxxxxxxx• MT-G2 9v : MTGBEZ-xx-xxxx-xCxxxxxxx• MT-G2 36v : MTGEZW-xx-xxxx-xNxxxxxxxNo failures occurred during testing.test SummaryThe following data sets are extended versions of some of the data sets above, but have sample sizes less than 25 units each. Please refer to each individual data set for the exact number of samples included. These data sets are projected according to IeS TM-21-11 standards and the Reported L70 lifetimes presented are valid under TM-21-11. However, the use of these extended data sets may not be allowed by a particular program because of the sample size of the data set. Cree recommends reviewing the details on LM-80 lumen maintenance for each program to verify that data sets with fewer than 25 samples are considered valid. If not, then the data sets above should be referenced.XlaMp® MX-3 White leDS (ReV 0)Revision: 0 (March 29, 2011)Description of leD light SourcesXLamp MX-3 White LEDs: parallel (MX3AWT) & series (MX3SWT) configurations. No failures occurred during testing.test SummaryXlaMp® MX-6 White leDS (ReV 2)Revision: 2 (September 2, 2011)Description of leD light SourcesXLamp MX-6 White LEDs: parallel (MX6AWT) & series (MX6SWT) configurations No failures occurred during testing.test SummaryXlaMp® Xb-D White leDS (ReV 2) Revision: 2 (October 10, 2013)Description of leD light SourcesXLamp XB-D White LeDs (Series: XBDAWT)This LM-80 report is applicable to the following order codes: XBDAWT-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® Xb-e high Voltage White leDS (ReV 0) Revision: 0 (October 11, 2013)Description of leD light SourcesXLamp XB-e White LeDs (Series: XBeHvW)This LM-80 report is applicable to the following order codes: XBEHVW-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® Xb-g high Voltage White leDS (ReV 0) Revision: 0 (October 11, 2013)Description of leD light SourcesXLamp XB-G White LeDs (Series: XBGHvW)This LM-80 report is applicable to the following order codes: XBGHVW-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® XM-l eaSyWhite leDS (ReV 1) Revision: 1(August 8, 2013)Description of leD light SourcesXLamp XM-L easyWhite LeD arrays (Series: XMLeZW)This LM-80 report is applicable to the following order codes:• XM-L eZW 6v : XMLEZW-xx-xxxx-xBxxxxxxx • XM-L eZW 12v : XMLEZW-xx-xxxx-xDxxxxxxxNo failures occurred during testing.test SummaryXlaMp® XM-l high Voltage White leDS (ReV 0) Revision: 0 (November 13, 2012)Description of leD light SourcesXLamp XM-L High voltage White LeDs (Series: XMLHvW)This LM-80 report is applicable to the following order codes: XMLHVW-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® XM-l White leDS (ReV 2) Revision: 2 (October 31, 2012)Description of leD light SourcesXLamp XM-L White LeD packages (Series: XMLAWT)This LM-80 report is applicable to the following order codes: XMLAWT-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® XM-l White leDS (ReV 2) - continueDThe following data sets are extended versions of some of the data sets listed on the previous page, but have sample sizes less than 25 units each. These data sets are projected according to IeS TM-21-11 standards and the Reported L70 lifetimes presented are valid under TM-21-11. However, the use of these extended data sets may not be allowed by a particular program because of the sample size of the data set. Cree recommends reviewing the details on LM-80 lumen maintenance for each program to verify that data sets with fewer than 25 samples are considered valid. If not, then the data sets on the previous page should be referenced.XlaMp® XM-l2 White leDS (ReV 1)Revision: 1 (July 31, 2013)Description of leD light SourcesXLamp XM-L2 White LeDs (Series: XMLBWT)This LM-80 report is applicable to the following order codes:XMLBWT-xx-xxxx-xxxxxxxxxNo failures occurred during testing.Cree classifies these LED packages as “successors to previously tested subcomponents” (Section 5) per Sep 9, 2011 eNeRGY STAR® guidelines1. The XLamp XM-L2 White LeD is a successor to the previously tested XLamp XM-L White LeD and meets all the criteria listed in Section 5.1 of the eNeRGY STAR guidelines.comparison of existing & Successor Data SetsThe following table compares the lumen maintenance, color maintenance and luminous flux for the existing and successor data sets to fulfill the requirements of ENERGY STAR Guidance Regarding Lumen Maintenance Performance, Section5.2.e.1 /ia/partners/prod_development/new_specs/downloads/luminaires/eNeRGY_STAR_Final_Lumen_Maintenance_Guidance.pdfXlaMp® Xp-e White leDS (ReV 3) Revision: 3 (November 9, 2011)Description of leD light SourcesXLamp XP-e White LeD packages (Series: XPeWHT)This LM-80 report is applicable to the following order codes: XPEWHT-xx-xxxx-xxxxxNo failures occurred during testing.test SummaryXlaMp® Xp-e high efficiency White leDS (ReV 4) Revision: 4 (April 25, 2012)Description of leD light SourcesXLamp XP-E High Efficiency White LEDs (XPEHEW)This LM-80 report is applicable to the following order codes:XPEHEW-xx-xxxx-xxxxxNo failures occurred during testing.test SummaryXlaMp® Xp-e2 high efficiency White leDS (ReV 0) Revision: 0 (Sept 3, 2013)Description of leD light SourcesXLamp XP-e2 (XPeBWT)This LM-80 report is applicable to the following order codes:XPEBWT-xx-xxxx-xxxxxNo failures occurred during testing.test SummaryXlaMp® Xp-g White leDS (ReV 6) Revision: 6 (September 10, 2013)Description of leD light SourcesXLamp XP-G White LeDs (Series: XPGWHT)This LM-80 report is applicable to the following order codes: XPGWHT-xx-xxxx-xxxxxNo failures occurred during testing.test SummaryXlaMp® Xp-g2 White leDS (ReV 3) Revision: 3 (November 19, 2013)Description of leD light SourcesXLamp XP-G2 White LeDs (Series: XPGBWT)This LM-80 report is applicable to the following order codes: XPGBWT-xx-xxxx-xxxxxNo failures occurred during testing.test SummaryXlaMp® XQ-b White leDS (ReV 0) Revision: 1 (October 15, 2013)Description of leD light SourcesXLamp XQ-B White LeDs (Series: XQBAWT)This LM-80 report is applicable to the following order codes: XQBAWT-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® XQ-D White leDS (ReV 0) Revision: 0 (October 14, 2013)Description of leD light SourcesXLamp XQ-D White LeDs (Series: XQDAWT)This LM-80 report is applicable to the following order codes: XQDAWT-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® XR-e White leDS (ReV 1) Revision: 1 (September 20, 2010)Description of leD light Sources XLamp XR-e White LeDs (Series: XReWHT)No failures occurred during testing.test SummaryXlaMp® Xt-e high Voltage White leDS (ReV 0) Revision: 0 (August 21, 2012)Description of leD light SourcesXLamp XT-e High voltage White LeDs (Series: XTeHvW)This LM-80 report is applicable to the following order codes: XTEHVW-Qx-xxxx-xxxxxxxxxNo failures occurred during testing.test SummaryXlaMp® Xt-e White leDS (ReV 6) Revision: 6 (November 13, 2013)Description of leD light SourcesXLamp XT-e White LeDs (Series: XTeAWT)This LM-80 report is applicable to the following order codes: XTEAWT-xx-xxxx-xxxxxxxxxNo failures occurred during testing.test Summary。
图文解析能源之星LED照明测量标准及检测细节
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图文解析能源之星LED照明测量标准及检测细节•为加速LED照明商品化,北美能源之星针对LED照明产品特性,订定迥异于传统照明的测试规范,包含环境温度测试、积分球量测、配光曲线等,透过LED照明产品测试方式定义的一致性,区分出LED照明装置的优良,有利于质量升级。
美国能源之星(Energy Star)已陆续发布针对固态照明产品的检测规范定义,文件当中包含检测项目、检测方法依据的规范、须检测的样品数量及合格判定的规格数值,另外对于可进行测试的授权实验室也有明确说明。
在能源之星对固态照明产品测试所引用的规范当中,异于传统照明的部分,包含ANSI C78.377-2008、北美照明协会(IESNA)LM-79-08、IESNA LM-80-08三份规范(图1),本篇文章将仅就ANSIC78.377-2008及IESNA LM-79-08的检测细节进行说明,并针对检测所需的仪器设备原理介绍。
图1 能源之星对固态照明之检测规范依据:ANSI C78.377‐2008、IESNA LM‐79‐08、IESNA LM‐80‐08固态照明灯具色温等级较广此规范包含美国国家标准中针对固态照明产品的光色特性规格定义,适用于室内使用的灯具,不包括户外灯具。
其中,重点有两部分,其一是定义相对色温(CCT)的分级,其次是针对同一相对色温标称等级其允许的色温变异范围作定义。
规范中所述固态照明的光色规格要求,源自于荧光灯的光色分级规格,但有鉴于固态照明尚处于起步阶段,未如荧光灯发展已趋于成熟,因此在定义光色要求时,采取较大的变异范围。
目前规范对固态照明灯具区分为八个色温等级,分别为2700K、3000K、3500K、4000K、4500K、5000K、5700K及6500K(图2)。
图2 八个相对色温指定值在CIE 1931之区域定义图2中六个椭圆区块为ANSI C78.376定义荧光灯的色温等级区块,其所采取的色温允许变异范围为七阶Mac Adam椭圆范围。
LM-80 LED光源流明维持率的测量方法试验规程
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**有限公司试验规程——LED光源流明维持率的测量方法(适用于IES LM-80-08)版本状态Edition:A/0受控状态Control:分发号Distribution No:目录1.目的 (1)2.范围 (1)3.研究参数 (1)4.相关参数 (1)5.测试仪器 (2)6.测试准备 (2)7.测试方法 (2)8.数据分析 (3)9.报告 (4)10.附录 (4)1.目的LED光源流明维持率的测量2.范围本文件参考IES LM-80-08LED光源流明维持率的测量方法,旨在受控条件下测量的性能,测试的条件与程序的设计可提供参照结果。
3.研究参数光通量(Φ)单位:lm,光源单位时间内的辐射光量。
色温(T)单位:K,光源发出光颜色与黑体(标准照明体)在某一温度下发出的光色相同时,黑体的温度。
显色指数(Ra)光源呈现物体本来颜色的程度,与参照光源对比得到。
色坐标(x,y)光源在xy 色品图中的坐标,反映光源的颜色。
温度(t m=1,2,3…) ℃定义的热电偶安装点的基座温度—Ts,厂家包装中规定。
测量单位电气测量单位是V,安培A和瓦特W。
4.相关参数LED光源LED封装、阵列或模组。
注明维持流明维持是保持的输出在任一选定的实际时间里输出的光通量(通常以最大输出量的百分数表示)。
流明维持与流明衰减相反。
流明维护寿命指定的流明降落或流明维护百分数达到的时间,用小时表示。
操作时间不包括灯源重复打开或关闭以及周期性打开的实际时间。
LED光源故障无法发光等故障,如生产缺陷引起的过早故障,需进行报告,但是不包含在LED光源流明维护的计算中。
额定流明维护寿命(Lp)LED光源的实际操作时间将保持为起始光输出的百分数,如:L70 (小时): 时间70%流明维护,L50 (小时): 时间50% 流明维护。
5.测试仪器HAAS-2000光色电综合测试系统、FLUKE温度仪、FLUKE万用表、远方DJ5000LED加速老化仪、K型感温线、34970A数据采集仪温湿度表、高温箱6.测试准备1)样品的制备与标识选取不同封装、不同结构、不同功率级别的LED光源,建立详细的档案信息,填入附件《光源记录表》;并做好标识,标签考虑暴露于光和热的效果,以得到长期的辨认与查看。
CREE-LM80测试报告
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XLamp XP-E White LEDs (Revision 1)1. Number of LED light sources tested /LED光源数量试验See individual test reports.见测试报告2. Description of LED light sources LED光源的描述XLamp XP-E White LEDs (XPEWHT)All measurements provided are LED package measurements.3. Description of auxiliary equipment测试设备描述Instrument Systems ISP-500 Integrating SphereInstrument Systems CAS-140 Spectrometer Keithley 2420 Sourcemeter4. Operating cycle 循环周期LED packages are driven at constant current.5. Ambient conditions 环境条件LED packages are operated in environmentalcontrol chambers. The temperature of theambient air around the LED packages is activelycontrolled by air flowing through the chamber.TA : See individual test reportsRH : < 45%Air flow : 800 CFM 包装是运作了环境控制室。
周围的空气的温度在LED包是乘飞机主动控制流过室。
助教:看个人测试报告湿度,< 45%空气流动:800 CFM立方英尺每分钟6. Case temperature情况下温度The case temperature measurement point is shown inthe XLamp XP-E Soldering & Handling document(AP25). 如此的温度测量点被证明在XLamp XP-E焊接和处理文件(AP25)。
美国能源之星LED灯标准及中国行业设计的达标对策
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电磁兼容与EMI滤波器
(4.2)电磁兼容与EMI滤波器; 如果用纯直流来直接点LED灯,那是不会发生EMC问题的。 但是,如果用开关电源调控LED恒流和稳压,就必然会有 / 、 / 的瞬变过程, 于是就发生电磁兼容的问题。 解决的办法是EMI滤波器,可以滤除差模干扰和共模干扰,使LED灯名符其实 是绿色光源。应用“磁集成技术”可以大幅度提升EMI滤波器的性能价格比。那超出 今天讲座的内容,且时间有限,以后有机会再向各位讲述吧。
LED灯串联、并联
LED并联工作用稳压电源供电,当温度升高,某最亮的LED灯工作电流分散 性,可能发生恶性循环,而把最亮光的LED先烧坏。 LED灯串联工作是用恒流电源供电,当温度升高时某最亮的LED灯的工作电压 下降,抵制了发生恶性循环的过程。但某灯烧断可能导致整串不亮,是其不足之 处。 LED先并后串的阵列方法,可靠性较好,但筛选更须严格。 LED先串,分别控制每串恒流电源供电,然后,若干串之间并联,由稳压源供 电,是业界广泛认可的优选阵列方法之一。虽然较复杂,成本较高,但LED较昂 贵,为使其可靠性和安全性较好,还是值得推荐的。
最小光输出要求
(4.3)外形、尺寸、规格不同寻常的,旨在替换低压白炽灯泡的LED灯的最小光 输出,已从400流明下降至200流明的达标要求。对应的LED灯泡四瓦就达标了。 (意味着不妨考虑用多个4W的小功率LED的组合,也可能是达标组合方案之一。) (4.4)LED装饰灯最小光输出要求:
LED 灯泡最小光输出(流明)
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【2019年整理】美国灯具灯泡能源之星认证与测试介绍
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开关实验—10个样品
能源之星- 灯泡 :标准替换型 -装饰 灯泡(B,
BA, C, CA, DC, F, G (per ANSI C79.1))
6000小时老化 在25度 环境下,光通测试,开关实验 10个 样品—5个上,5个下 (--理论上不需要配光测试)
•
能源之星 灯具-非定向灯具 (家用类别), (光源的光学特
性); 包含的户外产品,举例,不限如此
吸顶和近吸顶灯 门廊灯 安防灯(感应灯)
能源之星 灯具
-能源之星 ,不包括的灯具: • Qualification only below a total input power of 250 watts (electric power grid) luminaires employing screw base lampholders (E26, E12, E17, E39, ..) without dedicated ballasts.(With the exception of halogen incandescent outdoor luminaires and some high intensity discharge luminaires, ); not include street and area, wall packs, canopy, high bay, recessed troffers or other types employed for general office illumination, adapters or converters. Questions: luminaires@
------定向 和非定向 灯具
最新LED照明认证检测标准分析欧美版
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欧美市场有关LED照明产品检测认证现实状况及分析伴随LED照明产品旳逐渐普及应用, 出于对产品安全性、可靠性和节能环境保护性能旳考虑, 出口到欧美地区旳LED照明产品需要通过对应旳检测认证, 这有助于提高照明产品在市场中旳品质, 同步协助消费者迅速精确地识别安全节能旳照明产品。
与一般旳电子电器产品旳检测认证有区别旳是, 半导体照明产品除了需要关注产品旳安全性能和电磁兼容性能外, 还需要尤其关注其光学性能和流明维持特性。
因此, 我们首先分析一下目前LED照明产品出口到欧盟和美国地区需要做哪些检测认证, 以及这些检测环节中需要注意哪些问题。
最终, 重点简介目前对于LED灯检测认证影响力最大旳美国能源之星认证, 以及分享某些我们试验室旳检测研究经验。
一、欧盟市场旳检测认证出口到欧盟各国旳LED灯具必须通过CE认证, 该认证规定产品需要通过LVD和EMC指令旳规定。
LED灯具产品欧盟CE认证旳LVD指令是2023/95/EEC, 重要旳测试原则有EN 60598-1, EN 60598-2系列, EN 61347-1, EN 61347-2-13, EN 62031和EN 62471。
其中, EN 60598-1是灯具旳通用安全原则, 对于特定类别旳灯具, 一般需要将EN 60598-1和EN 60598-2系列中有关特定类别灯具旳特殊规定结合起来考量灯具旳安全特性。
EN 61347-1是对灯控制器旳通用安全规定, 而EN61347-2-13是针对LED驱动旳安全规定。
EN 62031是有关一般照明LED模块旳安全规范, 对模块旳标志、端子、保护接地、防触电保护、潮态后旳绝缘电阻、电气强度、故障状态、构造、爬电距离和电气间隙、耐热、防火和耐电痕化、防腐蚀等进行了有关旳规定。
EN 62471是评价灯和灯具系统光生物学安全性旳原则, 其中旳光源包括了LED, 不过不包括激光, 该原则根据光辐射危害旳程度将持续辐射灯分为豁免类、1类危害(低危害)、2类危害(中危害)和3类危害(高危害)等四大类。
如何利用LM-80报告数据利用TM-21方法有效推估LED寿命
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美国环保署(Environmental Protection Agency, EPA)与能源部(Department of Energy, DOE),自2010年起陆续对LED光源灯具/灯泡发布能源之星(Energy Star®)及Lighting Facts标准,让相关业者的LED照明产品规格有所依循,目前国际LED大厂针对LED产品的寿命评估与产品规格,也以此为依归。
也就是说,LED厂商若想打入国际LED照明市场,势必取得LED能源之星认证这张门票。
在能源之星部份,去年(2011年)7月6日,EPA为了简化资格审查程式,特别将住宅照明(RLF)及固态照明(SSL Luminaires)两大型态的灯具规范整合成【ENERGY STAR®Luminaires Program Requirement V1.1】,并订定今年(2012年)4月1日正式开始实施,此外灯泡的部分也整合成【ENERGY STAR® Program Requirements for Integral LED Lamps V1.4】,两份规范中除了审核的资料项目增加外,引起较多讨论的应该是【LM-82光电特性规范】与【TM-21寿命预估规范】的要求已纳入其中。
LM-82目前在北美照明协会(IESNA)尚未正式出版,其内容主要为LED Light Engines及Integrated LED Lamps的电性与光学特性在不同温度下的特征验证方式,其量测方式相似于LM-79-08计划,但重点为温度对电/光参数的特征影响性评估。
另一部分则为IESNA于2011年7月25日出版的TM-21-11 (Projecting Long Term Lumen Maintenance of LED Light Sources),此规范主要是针对LED光源表现与寿命进行预测,并与日前所公告的LM-80-08 LED流明维持率实验进行连结,应用LM-80-08的实验资料来推估LED元件及灯具/灯泡的长期寿命表现。
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Report No.: SHES1107041295605 Page 1 of 11Client : Shen zhen Runlite T echnology Co., LtdAddress : 5F east, 3 building, Tian Fu An Industry Zone, Le ZhuJiao, Xi Xiang, BaoAnDistrict, ShenZhen, GuangDong Province, CHINADescription of the submitted sample(s): Sample Name : White SMD LEDModel/Type : YL-T3528 W-AA-60CRatings : 20mA, 6.5lm, 75(Ra), 6000KT est Item: Lumen Maintenance and Chromaticity Maintenance State of Sample(s) : Normal Sample Quantity : 60pcsManufacturer : Shen zhen Runlite T echnology Co., LtdSample Received Date : Jul. 14, 2011Sample tested Date : Jul. 15, 2011 to Feb. 06, 2012 T est Requested : According to IESNA LM-80-2008Equipment list:Test Equipment ModelEquipment No.CalibrationDateCalibration Due DateSpectroradiometer CDS 2100 ATTEELSH00111Oct. 11, 2011 Oct. 10, 2012 Integrating Sphere LMS-200 ATTEELSH00115 Oct. 11, 2011 Oct. 10, 2012 Digital RecorderHIOKILR8400-21 TTE20100242Aug. 02, 2011Oct. 10, 2012Digital CC&CV DC Power SupplyGPD-3303S TTE20110239 Aug. 02, 2011Dec. 01, 2012High T emperature Chamber NMT-1001 ATTEELSH00149 -- -- High T emperature Chamber NMT-1200 TTE20100237 -- -- High T emperature ChamberNMT-1200TTE20100240----Reviewed by: , Approved by: , Approved date: Feb. 16, 2012Engineer SupervisorCheck No.: 456786456CENTRE TESTING INTERNATIONAL CORPORATIONNO.1996, Xin jin qiao Road, Pudong New District, Shanghai, 201206, ChinaL M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 2 of 111. TEST RESULTS1.1. 55℃, 20mACase Temperature [T s ] : 55 ℃ Ambient T emperature [T A ] : 53 ℃ Drive Current [I F ]: 20 mA Measurement Current : 20 mA Failures observed : NoneΦv [lm] V F [V] Φv [lm]No. 0 h (Initial)1000 h 2000 h 3000 h4000 h5000 h6000 h1 6.979 3.131 7.384 7.593 7.523 6.9542 6.834 3.129 7.6517.5217.458 6.896 3 6.626 3.117 7.444 7.297 7.263 6.694 4 6.788 3.116 7.621 7.466 7.4346.841 5 6.948 3.1277.825 7.642 7.629 7.001 6 7.016 3.129 7.769 7.638 7.618 7.039 7 7.153 3.125 7.823 7.724 7.694 7.113 8 6.817 3.125 7.520 7.473 7.430 6.881 9 6.877 3.127 7.407 7.549 7.531 6.982 10 6.863 3.116 7.344 7.502 7.509 6.933 11 7.038 3.108 7.461 7.573 7.5566.979 12 6.728 3.1137.222 7.3377.308 6.747 13 6.489 3.1297.1037.243 7.226 6.682 14 6.349 3.113 6.906 7.106 7.086 6.577 15 6.902 3.118 7.753 7.500 7.478 6.926 16 6.493 3.125 7.380 7.219 7.186 6.667 17 6.448 3.170 7.456 7.301 7.281 6.726 18 6.883 3.117 7.411 7.551 7.491 6.918 19 6.654 3.109 7.157 7.330 7.277 6.737 20 6.845 3.121 7.243 7.433 7.380 6.821 n Mean Median St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 3 of 11Lumen MaintenanceNo. 0 h 1000 h 2000 h 3000 h4000 h5000 h6000 h1 1.0000 1.0580 1.0880 1.0779 0.99642 1.0000 1.1195 1.1005 1.0913 1.0091 3 1.0000 1.1235 1.1013 1.0961 1.01034 1.0000 1.1227 1.0999 1.0952 1.00785 1.0000 1.1262 1.0999 1.0980 1.0076 6 1.0000 1.1073 1.0887 1.0858 1.0033 7 1.0000 1.0937 1.0798 1.0756 0.9944 8 1.0000 1.1031 1.0962 1.0899 1.0094 9 1.0000 1.0771 1.0977 1.0951 1.0153 10 1.0000 1.0701 1.0931 1.0941 1.0102 11 1.0000 1.0601 1.0760 1.0736 0.9916 12 1.0000 1.0734 1.0905 1.0862 1.0028 13 1.0000 1.0946 1.1162 1.1136 1.0297 14 1.0000 1.0877 1.1192 1.11611.0359 15 1.0000 1.1233 1.0866 1.0835 1.0035 16 1.0000 1.1366 1.11181.1067 1.0268 17 1.0000 1.1563 1.1323 1.1292 1.0431 18 1.0000 1.0767 1.0971 1.0883 1.0051 19 1.0000 1.0756 1.1016 1.0936 1.0125 20 1.00001.05811.08591.07820.9965 nMeanMedian St. dev. Min.Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 4 of 11u' v' Chromaticity Shift ∆u'v'No. 0 h (Initial) 1000 h2000 h3000 h4000 h5000 h 6000 h1 0.1994 0.47760.0028 0.0045 0.0049 0.00552 0.1987 0.4763 0.0034 0.0048 0.0053 0.0059 3 0.1981 0.4722 0.0032 0.0046 0.0054 0.0060 4 0.1992 0.4725 0.0033 0.0047 0.0054 0.0060 5 0.2001 0.4768 0.0032 0.0045 0.0051 0.00556 0.2000 0.4771 0.0032 0.0045 0.0051 0.00567 0.2000 0.4818 0.0025 0.0038 0.0044 0.0050 8 0.1993 0.4767 0.0028 0.0043 0.0051 0.00569 0.1987 0.4759 0.0028 0.0048 0.0056 0.0063 10 0.1994 0.4767 0.0030 0.0044 0.0047 0.0056 11 0.1999 0.4771 0.0026 0.0039 0.0047 0.0049 12 0.1980 0.4719 0.0030 0.0048 0.0058 0.0065 13 0.1991 0.4712 0.0036 0.0053 0.0061 0.0070 14 0.1970 0.4694 0.0038 0.0051 0.0061 0.0068 15 0.1983 0.4733 0.0034 0.0044 0.0053 0.0061 16 0.1972 0.4731 0.0034 0.0048 0.0056 0.0065 17 0.2001 0.4773 0.0032 0.0043 0.0050 0.0057 18 0.1998 0.4745 0.0030 0.0047 0.0053 0.0061 19 0.1973 0.4727 0.0032 0.0048 0.0055 0.0065 20 0.1980 0.4723 0.0034 0.0047 0.0052 0.0061nAverage Median St. dev. Min.Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 5 of 111.2. 85℃, 20mACase Temperature [T s ] : 85 ℃ Ambient T emperature [T A ] : 83 ℃ Drive Current [I F ]: 20 mA Measurement Current : 20 mA Failures observed : NoneΦv [lm] V F [V] Φv [lm]No. 0 h (Initial)1000 h 2000 h3000 h4000 h5000 h 6000 h1 7.027 3.132 7.788 7.450 7.317 6.955 2 6.971 3.125 7.609 7.253 7.112 6.773 3 6.598 3.122 7.341 7.049 6.940 6.5854 6.784 3.126 7.640 7.300 7.191 6.7085 6.680 3.124 7.412 7.110 7.010 6.5526 6.989 3.126 7.708 7.380 7.249 6.7757 7.031 3.125 7.692 7.348 7.203 6.780 8 7.140 3.129 7.759 7.397 7.255 6.807 9 7.085 3.128 7.805 7.452 7.303 6.870 10 6.630 3.125 7.401 7.098 6.977 6.548 11 6.759 3.121 7.551 7.220 7.105 6.693 12 6.865 3.127 7.616 7.342 7.214 6.747 13 6.648 3.130 7.298 7.152 7.044 6.584 14 6.819 3.126 7.579 7.291 7.173 6.706 15 7.377 3.130 7.886 7.564 7.418 6.943 16 6.640 3.125 7.338 7.075 6.966 6.538 17 6.859 3.126 7.512 7.220 7.083 6.638 18 7.124 3.128 7.7867.482 7.298 6.868 19 6.659 3.117 7.360 7.088 6.906 6.544 20 6.669 3.118 7.258 6.961 6.8426.440nMeanMedian St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 6 of 11Lumen MaintenanceNo. 0 h 1000 h 2000 h 3000 h4000 h5000 h6000 h1 1.0000 1.1083 1.0602 1.0413 0.9898 2 1.0000 1.0915 1.0405 1.0202 0.9716 3 1.0000 1.1126 1.0684 1.0518 0.9980 4 1.0000 1.1262 1.0761 1.0600 0.98885 1.0000 1.1096 1.0644 1.0494 0.9808 6 1.0000 1.1029 1.0559 1.0372 0.96947 1.0000 1.0940 1.0451 1.0245 0.96438 1.0000 1.0867 1.0360 1.0161 0.95349 1.0000 1.1016 1.0518 1.0308 0.9697 10 1.0000 1.1163 1.0706 1.0523 0.9876 11 1.0000 1.11721.0682 1.0512 0.9902 12 1.0000 1.1094 1.0695 1.0508 0.9828 13 1.0000 1.0978 1.0758 1.0596 0.9904 14 1.0000 1.1115 1.06921.05190.9834 15 1.0000 1.0690 1.0253 1.0056 0.9412 16 1.0000 1.1051 1.0655 1.0491 0.9846 17 1.0000 1.0952 1.0526 1.0327 0.9678 18 1.0000 1.0929 1.0503 1.0244 0.9641 19 1.0000 1.1053 1.0644 1.0371 0.9827 20 1.00001.08831.04381.02590.9657nMeanMedian St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 7 of 11u' v' Chromaticity Shift ∆u'v'No. 0 h (Initial) 1000 h2000 h3000 h4000 h5000 h6000 h1 0.1997 0.4766 0.0039 0.0046 0.0054 0.00542 0.1992 0.4730 0.0037 0.0046 0.0053 0.0053 3 0.1983 0.4699 0.0034 0.0045 0.0053 0.0053 4 0.1984 0.4755 0.0039 0.0049 0.0055 0.0055 5 0.19770.4729 0.0038 0.0049 0.0056 0.00566 0.1985 0.4743 0.0033 0.0042 0.0048 0.00487 0.1985 0.4772 0.0031 0.0040 0.0047 0.00478 0.1998 0.4782 0.0031 0.0041 0.0048 0.00489 0.1993 0.4778 0.0031 0.0040 0.0047 0.0047 10 0.1986 0.4716 0.0042 0.0052 0.0058 0.0058 11 0.1986 0.4765 0.0037 0.0046 0.0052 0.0052 12 0.1989 0.4740 0.0033 0.0048 0.0054 0.0054 13 0.1979 0.4737 0.0035 0.0058 0.0065 0.0065 14 0.2009 0.4785 0.0036 0.0048 0.0054 0.0054 15 0.1972 0.4796 0.0032 0.0043 0.0050 0.0050 16 0.1986 0.4719 0.0038 0.0049 0.0056 0.0056 17 0.1977 0.3147 0.0031 0.0042 0.0048 0.0048 18 0.1992 0.4775 0.0032 0.0045 0.0050 0.0050 19 0.1984 0.4693 0.0039 0.0052 0.0055 0.0055 20 0.1994 0.4715 0.0033 0.0045 0.0051 0.0051nAverage Median St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 8 of 111.3. 105℃, 20mACase Temperature [T s ] : 105 ℃ Ambient T emperature [T A ] : 103 ℃ Drive Current [I F ]: 20 mA Measurement Current : 20 mA Failures observed : NoneΦv [lm] V F [V]Φv [lm]No. 0 h (Initial)1000 h 2000 h3000 h4000 h5000 h6000 h1 6.832 3.116 7.114 6.1115.238 4.216 2 7.348 3.121 7.4826.428 5.443 4.102 3 6.929 3.1237.308 6.132 5.561 4.345 4 6.927 3.128 7.357 6.279 5.236 3.909 5 6.907 3.125 7.210 6.166 5.140 3.888 6 7.069 3.125 7.419 6.374 5.399 4.266 7 7.123 3.126 7.302 6.252 5.069 4.145 8 6.704 3.124 7.196 6.162 5.044 4.155 9 7.104 3.126 7.364 6.357 5.321 4.157 10 7.033 3.122 7.230 6.183 5.157 4.149 11 7.129 3.128 7.374 6.386 5.370 4.221 12 7.039 3.136 7.362 6.295 5.086 4.016 13 7.314 3.128 7.460 6.412 5.390 4.231 14 6.916 3.124 7.191 6.082 4.894 4.072 15 7.062 3.133 7.274 6.258 5.010 3.777 16 6.697 3.126 7.034 6.046 4.868 3.744 17 6.777 3.123 7.108 6.062 4.841 3.821 18 7.210 3.131 7.441 6.434 5.371 4.263 19 6.726 3.124 7.082 6.136 5.138 4.118 20 6.741 3.122 7.095 6.100 5.024 3.958 nMeanMedian St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 9 of 11Lumen MaintenanceNo. 0 h 1000 h 2000 h 3000 h4000 h5000 h6000 h1 1.0000 1.0413 0.85900.76670.61712 1.0000 1.0182 0.8591 0.7407 0.55823 1.0000 1.0547 0.8391 0.8026 0.62714 1.0000 1.0621 0.8535 0.7559 0.5643 5 1.0000 1.0439 0.8552 0.7442 0.56296 1.0000 1.0495 0.8591 0.7638 0.60357 1.0000 1.0251 0.8562 0.7116 0.58198 1.0000 1.0734 0.8563 0.7524 0.61989 1.0000 1.0366 0.8633 0.7490 0.5852 10 1.0000 1.0280 0.8552 0.7333 0.5899 11 1.0000 1.0344 0.8660 0.7533 0.5921 12 1.0000 1.0459 0.8551 0.7225 0.5705 13 1.0000 1.0200 0.8595 0.7369 0.5785 14 1.0000 1.0398 0.8458 0.7076 0.5888 15 1.0000 1.0300 0.8603 0.7094 0.5348 16 1.0000 1.0503 0.8595 0.7269 0.5591 17 1.0000 1.0488 0.8528 0.7143 0.5638 18 1.0000 1.0320 0.8647 0.7449 0.5913 19 1.0000 1.0529 0.8664 0.7639 0.6123 20 1.00001.05250.85980.74530.5872nMeanMedian St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Report No.: SHES1107041295605 Page 10 of 11u' v' Chromaticity Shift ∆u'v'No. 0 h (Initial)1000 h2000 h3000 h4000 h5000 h 6000 h1 0.1986 0.4735 0.0021 0.0030 0.0052 0.0122 2 0.1994 0.4794 0.0023 0.0033 0.0055 0.0117 3 0.1989 0.4746 0.0030 0.0039 0.0049 0.00864 0.1980 0.4763 0.0029 0.0031 0.0051 0.01195 0.1980 0.4748 0.0026 0.0034 0.0060 0.0119 6 0.1993 0.4778 0.0026 0.0033 0.0039 0.00907 0.1989 0.4755 0.0026 0.0037 0.0061 0.01348 0.1979 0.4722 0.0033 0.0032 0.0045 0.0101 9 0.1975 0.4767 0.0025 0.0033 0.0040 0.0099 10 0.1993 0.4755 0.0025 0.0033 0.0040 0.0077 11 0.1997 0.4782 0.0027 0.0034 0.0036 0.0088 12 0.2000 0.4786 0.0027 0.0032 0.0047 0.0128 13 0.2001 0.4802 0.0023 0.0031 0.0052 0.0115 14 0.1989 0.4749 0.0026 0.0036 0.0066 0.0128 15 0.1998 0.4774 0.0027 0.0033 0.0058 0.0130 16 0.1986 0.4710 0.0023 0.0028 0.0052 0.0118 17 0.1998 0.4734 0.0030 0.0034 0.0060 0.011118 0.1975 0.4755 0.0027 0.0030 0.0034 0.0108 19 0.1989 0.4729 0.0027 0.0027 0.0026 0.0096 20 0.1991 0.4738 0.0027 0.0032 0.0044 0.0100nAverage Median St. dev. Min. Max.L M-80 D r a f tR e p o r t (4000 h o u r s)Test ReportReport No.: SHES1107041295605 Page 11 of 11Photos of the sample Fig.1- Overview of product *** 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.L M -80 D r a f t R e p o r t (4000 h o u r s )。