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LED灯具检验报告近年来,随着节能环保理念的普及和LED技术的发展,LED灯具逐渐成为传统照明产品的替代品。
然而,市场上存在着一些质量不达标的LED灯具,为了保障消费者的权益,LED灯具的检验与监管工作变得尤为重要。
本文将对LED灯具的检验报告进行详细的介绍和分析。
首先,LED灯具的检验项目包括光通量、色温、色彩还原指数、功率因数、光电参数等多个方面。
光通量是指单位时间内经过单位面积的光能量,是LED灯具亮度的重要指标。
色温是指光线的颜色,常用单位为开尔文(K)。
色彩还原指数是评价光源将物体的颜色还原为自然光颜色的能力。
功率因数则是指LED灯具输入电流与输入电压的相位差。
光电参数还包括光衰曲线、光直接度、均匀度等。
LED灯具的检验过程一般分为样品采购和实验室检测两个环节。
样品采购是从市场上随机选取一些LED灯具样品,以保证样品的代表性。
实验室检测是通过一系列的仪器和设备,对样品进行检测和分析。
检验的过程中,需要进行全谱分析、瑕疵检测、电性能测试、光学参数测试等多个步骤。
在实验室检测过程中,LED灯具的光通量是一个重要的指标。
通过对LED灯泡的耐久性、能耗、优质附件的质量和光通量的测试和评估,可以有效判断LED灯具的品质。
同时,色温和色彩还原指数也是衡量LED灯具品质的关键因素。
高品质的LED灯具应具有较高的色温稳定性和良好的色彩还原性能。
此外,功率因数也是评价LED灯具质量的一个重要指标。
功率因数的大小直接影响到LED灯具的能源利用率和电能质量。
LED灯具功率因数大于0.9被认为是高效能的产品,而低于0.5的LED灯具则被认为是不合格品。
因此,在检验过程中,需要对LED灯具的功率因数进行测试,以确保其符合国家标准。
最后,LED灯具的检验报告应当给出明确的测试结果和评估意见。
对于合格的LED灯具,可以标注为“合格”;对于不合格的产品,则应给出具体的不合格原因和改进措施。
同时,还应附带检验人员的签名和日期,以确保报告的真实性和有效性。
led灯具检测报告一、引言近年来,随着绿色环保理念的普及和科技的发展,LED(Light Emitting Diode)灯具的应用逐渐增多。
然而,市面上存在着一些低质量和不合格的LED灯具产品,这不仅影响了用户的体验,还可能对健康和环境造成潜在的风险。
为了保障消费者的权益和社会的可持续发展,本报告对LED灯具进行了综合检测。
二、检测内容1. 光效与能效检测光效和能效是衡量LED灯具质量的重要指标之一。
我们对样本中的LED灯具进行了光通量、功率和效率的检测。
结果显示,90%的样本光效和能效达到或超过了国家标准要求,证明其具有较高的能源利用率和较高的亮度输出。
2. 色温和色彩指数检测LED灯具的色温和色彩指数对照明效果和用户体验有着重要的影响。
我们采用色温计和色彩指数仪对样本进行了测试。
结果显示,80%的样本的色温在国家标准允许范围内,而90%的样本的色彩指数达到或超过了市场要求,可以提供较为真实的色彩还原效果。
3. 显色性和光束角度检测显色性和光束角度是LED灯具在特定应用场景中的重要考量因素。
我们采用光谱分析仪和角度测量仪对样本进行了测试。
结果表明,大部分样本的显色性满足市场要求,并且光束角度在国家标准允许范围内,适用于不同的照明场景。
4. 散热和寿命测试散热和寿命是衡量LED灯具可靠性的重要指标。
我们对样本进行了散热测试和寿命测试。
结果显示,80%的样本的散热表现良好,可以有效降低灯具温度,延长使用寿命。
寿命测试结果也表明,90%的样本的使用寿命超过了国家标准,具有较高的可靠性。
三、结论与建议通过对LED灯具的综合检测,我们得出以下结论:1. 大部分样本的光效和能效达到或超过了国家标准要求,具有较高的能源利用率和亮度输出。
2. 大部分样本的色温、色彩指数、显色性和光束角度满足市场和用户需求,提供较为真实的照明效果。
3. 大部分样本的散热表现良好,可以有效降低灯具温度,延长使用寿命。
4. 大部分样本的使用寿命超过了国家标准要求,具有较高的可靠性。
LED Floodlight FMV Series 25L Industrial LED FloodlightFMV LED Floodlights construction is designed for use indoors and outdoors in marine and wet locations, where moisture, dirt, corrosion, vibration and rough usage may be present.• UL1598 Luminaires, UL1598A Marine, UL8750, UL844 Hazardous (Classified), CSAC22.2 No. 137• cUL• Class I, Division 2, Groups A,B,C,D • Class II, Division 1, Groups E,F,G • Class III• Wet Locations, NEMA 4X •IP66FMV LED Floodlights are supplied for use with achoice of voltages:• 100VAC – 277VAC, 50/60Hz and 108VDC – 250VDC • 277VAC - 480VAC, 50/60HzTo avoid the risk of fire, explosion, or electric shock, should be installed, inspected, and maintained by a qualified electrician WARNINGBe certain electrical power is OFF before and during installation and WARNINGTo avoid potentially unsafe operating conditions:WARNINGsupporting the fixture’s 50 lb (22.7 kg) weight and cantilevered mass (asapplicable).2. Using the floodlight yoke as a template, mark and drill desired location on mounting surface.3.Secure floodlight yoke to mounting surface by applying proper torque to corrosion resistant 1/2 in bolts or lag screws accompanied by lock washers.4.Ensure that the safety chain is securely fastened between the yoke bracket and back cover.WIRINGDirective EU 2019/2015This product contains a light source of energy efficiency class D or E.Figure 4Figure 42.Ensure gasket joint, back cover and driver housing surfaces are clean and free of damage or debris. Put back cover in place on driver housing and start all (8) back cover screws hand-tight. Initially torque back cover screws to 40 In-lbs in sequence of A-B-C-D-E-F-G-H as shown in Figure 3. Next torque back cover screws up to 79 In-lbs again in the sequence of A-B-C-D-E-F-G-H. Finally torque screws through A-B-C-D-E-F-G-H sequence one final time and ensure torque values are at 79 In-lbs.3.To make final vertical adjustment, loosen the pivot bolts on the floodlight yoke to position floodlight at the desired angle (limited to 60 degrees forward and 45 degrees back).4. Rotate the floodlight housing to the desired position.5. Tighten the two 1/2”-13 bolts to 45 ft-lbs (61.0 N-m). Tighten the5/16”-18 bolts in the adjustment slots to 12 ft-lbs (16.3 N-m).6. Turn power on.MAINTENANCE•Perform visual, electrical, and mechanical inspections on a regular basis. The environment and frequency of use should determine this.However, it is recommended that checks be made at least once ayear. We recommend an Electrical Preventive Maintenance Program as described in the National Fire Protection Association Bulletin NFPA 70B: Recommended Practice for Electrical Equipment Maintenance ().•The lens should be cleaned periodically to ensure continued lighting performance. To clean, wipe the lens with a clean damp cloth. If this is not sufficient, use a mild soap or a liquid cleaner. Do not use an abrasive, strong alkaline, or acid cleaner. Damage may result.•Visually check for undue heating evidenced by discoloration of wires or other components, damaged parts, or leakage evidenced by water or corrosion in the interior. Replace all worn, damaged, or malfunctioning components and clean gasket seals before putting the luminaire back into service.• Electrically check to make sure that all connections are clean and tight.•Mechanically check that all parts are properly assembled.REPLACEMENT PARTSCrouse-Hinds FMV LED Floodlights are designed to provide years ofreliable lighting performance. However, should the need for replacement parts arise, they are available through your authorized Crouse-Hindsdistributor. Assistance may also be obtained through your local Crouse-Hinds representative or the Crouse-Hinds Sales Service Department, P.O. Box 4999, Syracuse, New York 13221, Phone 866-764-5454.Figure 3All statements, technical information and recommendations contained herein are based on information and tests we believe to be reliable. The accuracy or completeness thereof are not guaranteed. In accordance with Crouse-Hinds “Terms and Conditions of Sale,” and since conditions of use are outside our control, the purchaser should determine the suitability of the product for his intended use and assumes all risk and liability whatsoever in connection therewith.Eaton’s Crouse-Hinds DivisionIF 17111201 Wolf Street, Syracuse, New York 13208 • U.S.A. Revision 3Copyright© 2022Revised 04/22VISOR INSTALLATION INSTRUCTIONS1. Remove power from floodlight.2.Place floodlight face up.3. Carefully align visor with two (2) screw holes at the top of the fixture shown in the image above.GUARD INSTALLATION INSTRUCTIONS1. Remove power from floodlight.2. Place floodlight face up.3. Carefully align guard with four (4) screw holes on each side of the fixture shown in the image above.4. Install screws provided with guard taking care to not scratch the finish of the floodlight. Torque to 80 in-lbs (9.0 N-m).5.Install floodlight per above instructions.NOTE: Guard can be installed before or after floodlight has been inoperation.NOTE: Visor and guard can both be used on a floodlight at the same time.Visor and guard are always installed in the field and are not factory installed.。
灯具防水测试报告模板测试概述灯具是室内外常见的照明设备,而防水性能重要性必不可少。
本文主要针对灯具防水性能进行测试,测试涵盖了如下指标:•防护等级:IP44、IP65、IP67•破坏性测试:水淋、按摩、振动•非破坏性测试:水压实验、泼水实验测试设备以下是测试所需的设备:•防水等级测试仪•高、低温恒温箱•恒温水槽•高压喷淋设备•振动测试设备•高压水泵测试流程防护等级测试1.根据测试要求,放置任意灯具在防水等级测试仪中2.测试仪以恒定的水压和时间对灯具进行高压水冲击测试3.使用测定器检测灯具的防护等级破坏性测试1.进行水淋测试:将灯具放入测试池中,打开水龙头,向灯具倾倒水,时间为2小时2.进行按摩测试:将灯具放入按摩仪中,依据标准化程序按摩20次,每次持续5分钟3.进行振动测试:将灯具放入振动台上,进行5个方向的振动(每个方向持续15分钟)非破坏性测试1.进行水压实验:将灯具放入恒温水槽中,在恒温的条件下,进行3个不同压力的水压实验(每个压力持续30分钟)2.进行泼水实验:将灯具固定好,使用高压喷淋设备喷淋水,在不同的方向进行2个小时的测试测试结果防护等级测试结果测试结果如下表所示:防护等级IP44 IP65 IP67测试结果合格合格合格破坏性测试结果1.水淋测试:合格2.按摩测试:合格3.振动测试:合格非破坏性测试结果1.水压实验:合格2.泼水实验:合格结论此次测试结果显示,本次所测试的灯具具备防水能力,符合其使用场合的要求。
led屏防火试验检测报告
LED屏通常用于室内和室外的广告、信息发布和显示等用途,因此对其防火性能的测试和检测非常重要。
LED屏的防火试验检测报告通常会包括以下几个方面的内容:
1. 材料成分和防火等级,报告会详细描述LED屏所使用的各种材料的成分和防火等级。
这些材料可能包括屏幕面板、外壳、电路板等。
报告会说明这些材料是否符合相关的防火标准和要求。
2. 火焰传播性能,报告会对LED屏在火焰作用下的燃烧性能进行测试。
这项测试会评估LED屏在火灾发生时火焰的传播速度和范围,以及燃烧产物的有害程度。
3. 阻燃性能,报告会对LED屏的阻燃性能进行测试。
这项测试会评估LED屏在火灾条件下的自熄性能和阻燃剂的有效性,以及其对火灾蔓延的抑制作用。
4. 电气安全性能,报告还可能包括LED屏的电气安全性能测试结果,以确保在火灾发生时电气部分不会加剧火灾的危害。
5. 结论和建议,最后,报告会对测试结果进行总结和分析,给出LED屏防火性能的评价,并提出改进建议或注意事项。
总的来说,LED屏的防火试验检测报告是对其防火性能进行全面评估的重要文件,对于确保LED屏在使用过程中的安全性具有重要意义。
灯具防水等级报告模板本报告旨在测试和评估不同灯具的防水等级,以便消费者选择最适合其需求的灯具。
防水等级是一个由国际防护等级联合会(IP Code)制定的标准,该标准衡量电子设备的防水程度。
IP Code由两个数字组成,第一个数字代表固体防护等级,第二个数字代表液体防护等级。
例如,IP65表示设备具有良好的防尘能力,能够在喷水的情况下使用。
实验设计我们对12个具有不同防水等级的灯具进行了测试。
这些灯具包括室内和室外灯具,包括吊灯、吸顶灯、壁灯和路灯。
我们的测试环境是在室内进行的,使用各类水源模拟不同的天气条件。
为了测试这些灯具的防水等级和性能,我们使用了以下实验设计:1.浸泡测试:将灯具放入水里,持续时间为30分钟。
2.喷淋测试:使用不同的水压和喷洒角度测量灯具的防水性能,持续时间为5分钟。
3.雾度测试:使用水雾模拟不同的湿度和雨露天气,持续时间为2小时。
测试结果下面是所有灯具的防水等级和测试结果:灯具防水等级浸泡测试喷淋测试雾度测试灯具1 IP20 未受损未受损未受损灯具2 IP44 可能渗水有些部位泄露无法开启灯具3 IP55 无渗漏无渗漏无渗漏灯具4 IP65 无渗漏无渗漏无渗漏灯具5 IP50 可能渗水有些部位泄露无法开启灯具6 IP67 无渗漏无渗漏无渗漏灯具7 IP40 可能渗水有些部位泄露无法开启灯具8 IP68 无渗漏无渗漏无渗漏灯具9 IP55 无渗漏无渗漏无渗漏灯具10 IP66 无渗漏无渗漏无渗漏灯具11 IP67 无渗漏无渗漏无渗漏灯具12 IP20 未受损未受损未受损结论根据我们的测试结果,我们可以得出以下结论:1.灯具3,6,8,9,10和11的防水等级可以达到或超过IP55。
2.灯具2,5和7的防水等级不是很高,可能存在渗水和泄露的现象。
3.灯具1和12的防水等级较低,不适合使用在潮湿或多雨的环境中。
总的来说,消费者应该根据灯具所在的环境和其防水等级来决定选择哪种灯具。
LED灯检测报告一、引言LED(Light Emitting Diode)灯作为一种新型的照明设备,具有高效节能、寿命长、色彩饱满等诸多优点,逐渐取代传统的白炽灯和荧光灯成为主流的照明产品。
然而,市场上面对各式各样的LED灯,消费者需要一个权威的检测报告来判断产品的质量和性能。
本报告旨在对一种LED灯进行全面的检测和评估,为消费者提供参考和决策依据。
二、检测目标和方法1.检测目标本次检测的目标是一款市售的LED灯,主要关注其亮度、电功率、色温、显色指数和寿命等性能指标,同时也会对产品的外观和结构进行检查。
2.检测方法(1)亮度检测:使用光度计测量LED灯的光亮度,以勒克(Lux)为单位进行记录。
(2)电功率检测:通过连接电流表和电压表,在额定电压下测量LED灯的电流和电压,计算得到电功率。
(3)色温检测:使用色温计测量LED灯的色温,以克尔文(K)为单位进行记录。
(4)显色指数检测:参照相关标准,使用显色指数测试仪测量LED灯的显色指数,以Ra值表示。
(5)寿命检测:将LED灯连续点亮一定时间,并记录其使用寿命。
三、检测结果和评估1.亮度:经检测,LED灯在额定电压下的光亮度为1000勒克,符合产品说明书中的标称值。
2.电功率:经检测,LED灯在额定电压下的电功率为10瓦特,与产品说明书中的标称值相符。
3.色温:经检测,LED灯的色温为5000K,接近白色光,适合日常照明使用。
4.显色指数:经检测,LED灯的显色指数为80,达到一般家庭照明的要求,色彩还原效果较好。
5.寿命:经过72小时连续点亮测试,LED灯的寿命正常,没有出现亮度衰减或其他故障。
四、结论与建议根据上述检测结果和评估,可以得出以下结论:该LED灯在亮度、电功率、色温、显色指数和寿命等性能指标上符合产品说明书中的标称值,属于合格的产品。
同时,产品外观和结构也没有发现明显的质量问题。
建议消费者在购买LED灯时,可以参考本检测报告中的结果和评估,选择性能稳定、高效节能的产品,同时注意检查产品的生产日期和厂家信息,以保证产品质量和售后服务的可靠性。
LED灯检测报告一、测试目的本次测试旨在对LED灯进行全面检测,确保其性能符合要求。
二、测试方法本次测试采用以下方法进行:1.外观检查:检查灯的整体外观是否完好,有无明显损坏或变形。
2.光色检测:使用专业的光色检测工具,检测灯的光色是否符合预期,是否偏色。
3.亮度检测:使用光度计检测灯的亮度、光通量和光效。
4.色温和色纯度检测:使用色温仪和光谱仪,检测灯的色温和色纯度是否符合要求。
5.抗震性能测试:将灯固定在振动台上,进行振动测试,检测灯的抗震性能。
6.寿命测试:对灯进行长时间连续工作测试,检测灯的寿命。
三、测试结果根据以上测试方法,我们对LED灯进行了全面的检测,以下是测试结果:1.外观检查:LED灯外观完好,没有任何明显损坏或变形。
2.光色检测:LED灯的光色非常符合预期,没有偏色。
3.亮度检测:LED灯的亮度达到了预期的要求,光通量和光效也保持在良好水平。
4.色温和色纯度检测:LED灯的色温和色纯度都在合理范围内,符合要求。
5.抗震性能测试:在振动测试中,LED灯表现出良好的抗震性能,没有出现松动或损坏现象。
6.寿命测试:在长时间连续工作测试中,LED灯表现出良好的稳定性和耐用性,没有出现异常情况。
四、结论与建议根据以上测试结果,LED灯的性能符合要求,没有任何明显缺陷或问题。
建议在生产中继续保持良好的质量控制,确保每个LED灯的性能都能达到标准要求。
五、总结通过本次LED灯的全面检测,不仅确认了LED灯的各项性能指标都符合要求,还为生产厂商提供了重要的质量控制依据。
只有确保每个LED灯的质量过关,我们才能提供更好的照明产品给消费者,并为环境保护做出贡献。
希望通过本次检测报告的发布,能够促使每个生产厂商关注产品质量,提高生产工艺,确保每个LED灯都具备良好的性能和可靠性。
LED检验报告一、引言近年来,LED(Light Emitting Diode)作为一种高效、节能、环保的照明产品,得到了广泛的应用和发展。
为了确保LED产品的质量,需要进行检验和测试。
本报告旨在对LED产品进行检验,并编制相应的检验报告。
二、检验目的本次检验的目的是评估LED产品的性能和质量,确保其满足相关的标准和要求。
具体的检验项目包括外观质量、光电性能、电气特性等。
三、检验方法1.外观检验:对样品的外观进行检查,包括外观缺陷、外观尺寸等方面的评估。
2.光电性能检验:测量样品的光通量、发光效率、色温、颜色坐标等指标,以评估其亮度和色彩性能。
3.电气特性检验:测试样品的电压、电流、功率等电气参数,以评估其工作稳定性和能耗情况。
四、检验结果1.外观检验结果:样品外观无明显缺陷,无划痕、破损或变形等现象,符合设计要求。
2.光电性能检验结果:样品的光通量为XXXX流明,发光效率达到XX lm/W,色温为XXXXK,颜色坐标为XXXX。
以上指标均符合相关标准要求。
3.电气特性检验结果:样品在额定电压(XXV)下的电流为XXA,功率为XXW,工作稳定性良好。
五、结论经过各项检验,本次LED产品符合相关标准要求,具有良好的外观质量、光电性能和电气特性。
在生产、销售和使用过程中可放心使用。
六、意见和建议在检验过程中未发现明显的质量问题,但建议在质量控制过程中加强对外观缺陷的检查和控制,以确保产品质量的稳定和提升。
八、附件清单1.LED检验报告照片附件:共XX张照片,记录了样品的外观、测试过程和测量结果。
2.电气测试记录表:详细记录了样品的电气参数测试结果。
灯具雷击浪涌测试标准
灯具雷击浪涌测试的标准通常会根据不同的国家和地区有所不同。
以下是一些常见的测试标准:
1. 国际电工委员会(IEC)的标准:
- IEC 61000-4-5:针对雷电冲击进行测试的标准。
- IEC 61000-4-4:针对电涌冲击进行测试的标准。
- IEC 61347-2-13:针对LED照明的电气安全测试的标准。
- IEC 62493:针对室内照明的电磁兼容性测试的标准。
2. 美国标准:
- ANSI/IEEE C62.41:对小型电力设备和系统进行电涌冲击
测试的标准。
3. 欧洲标准(使用CE认证):
- EN 61000-4-5:针对雷电冲击进行测试的标准。
- EN 61000-4-4:针对电涌冲击进行测试的标准。
- EN 61547:针对灯具电气安全性和电磁兼容性进行测试的
标准。
需要注意的是,不同类型的灯具可能需要符合不同的测试标准。
因此,在进行灯具雷击浪涌测试之前,应该仔细阅读相关的产品标准,并确保符合适用的标准要求。
Report No.: TCT11209190002LR-1LVD REPORTPrepared For: Shenzhen Benwei Lighting Technology Co., Ltd.Yuanfen Industrial Zone,Longhua District Shenzhen Trade Mark:Product Name: LED Flood Light Model :BW-FL50W01, BW-FL10W01, BW-FL20W01, BW-FL30W01, BW-FL50W01, BW-FL70W01, BW-FL80W01, BW-FL100W01, BW-FL60W01Prepared By :Shenzhen TCT Testing Technology Co., Ltd.11-12F, Henglin Building, Baoyuan Road, Xixiang Street, Baoan District, Shenzhen, Guangdong, China Test Date:Sept.15–Sept.19, 2012Date of Report : Sept.19, 2012 Report No.:TCT11209190002LR-1Report No.: TCT11209190002LR-1LVD REPORTEN 60598-1 & EN 60598-2-5Luminaires- Part 1: General requirements and testsPart 2: Particular requirements-Section Five – FloodlightTesting Laboratory Name ................: Shenzhen TCT Testing Technology Co., Ltd.Address ............................................: 11-12F, Henglin Building, Baoyuan Road, Xixiang Street, BaoanDistrict, Shenzhen, Guangdong, ChinaTesting location ...............................: Shenzhen TCT Testing Technology Co., Ltd.Applicant's Name .............................: Shenzhen Benwei Lighting Technology Co., Ltd.Address ............................................: Yuanfen Industrial Zone,Longhua District ShenzhenManufacturer …………… …………: Shenzhen Benwei Lighting Technology Co., Ltd.Address ………………… ………… : Yuanfen Industrial Zone,Longhua District ShenzhenTest specification Standard...........................................: EN 60598-2-5:1998 used in conjunction withEN 60598-1:2008+A11:2009Procedure deviation .........................: N/ANon-standard test method ...............: N/ATest item description .......................: LED Flood LightTrademark .......................................:Model and/or type reference : BW-FL50W01Rating(s)...........................................: 85-265V~, 50-60Hz, 50WTest case verdictsTest case does not apply to the test object ...:N/ATest item does meet the requirement ............:P(ass)Test item does not meet the requirement ......:F(ail)Report No.: TCT11209190002LR-1General remarksThis report shall not be reproduced except in full without the written approval of the testing laboratory.The test results presented in this report relate only to the item(s) tested.”(see remark #)" refers to a remark appended to the report."(see Annex #)" refers to an annex appended to the report.Clause numbers between brackets refer to clauses in IEC 60 598-1 (EN 60 598-1)Throughout this report a comma is used as the decimal separator.Copy of marking plate:LED Flood LightModel: BW-FL50W01Rated: 85-265V~, 50-60Hz, 50WShenzhen Benwei Lighting Technology Co., Ltd.Test by :SignatureEN 60598-2-5Cl. Requirement – Test Result Verdict5.1 (0) SCOPE P 5.1 (0.1) More sections applicable....................................:Yes [√ ] No [ ] ⎯5.4 (2) CLASSIFICATION5.4 (2.2) Type of protection...............................................:Class I ⎯5.4 (2.3) Degree of protection...........................................:-- ⎯5.4 (2.4) Portable or handheld luminaire ..........................:No ⎯Yes ⎯Fixed luminaire suitable for normally flammablesurfaces..............................................................:No ⎯Fixed luminaire suitable for non-combustiblematerials only .....................................................:5.4 (2.5) Luminaire for normal use ...................................:Yes ⎯Luminaire for rough service ...............................:No ⎯5.5 (3) MARKING P 5.5 (3.2) Mandatory markings PPosition of the marking On the enclosure PFormat of symbols/text Symbols>5mm Text>2mm P 5.5 (3.3) Additional information PLanguage of instructions English P 5.5 (3.3.1) Combination luminaires N 5.5 (3.3.2) Nominal frequency in Hz 50-60Hz P 5.5 (3.3.3) Operating temperature P 5.5 (3.3.4) Symbol or warning notice N 5.5 (3.3.5) Wiring diagram P 5.5 (3.3.6) Special conditions P 5.5 (3.3.7) Metal halid lamp luminaire – warning N 5.5 (3.3.8) Limitation for semi-luminaires N 5.5 (3.3.9) Power factor and supply current PSuitability for use indoors P 5.5(3.3.10)Luminaires with remote control N 5.5(3.3.11)5.5Clip-mounted luminaire - warning N (3.3.12)Specifications of protective shields N 5.5(3.3.13)Symbol for nature of supply ~ P 5.5(3.3.14)5.5(3.3.15)Rated current of socket outlet N5.5(3.3.16)Rough service luminaire N5.5 (3.3.17) Mounting instruction for type Y, type Z and sometype X attachmentsType Y attachment P4.5(3.3.18)Non-ordinary luminaires with PVC cable N5.5 (3.4) Test with water 15s with water PTest with hexane 15s with hexane PLegible after test The marking is legible PLabel attached The marking not be easilyremovable and shows nocurlingP5.6 (4) CONSTRUCTION P5.6.1 (-) At least IPX3 P5.6.2 (-) Lampholder brackets N5.6.3 (-) Adjusting means N5.6.4 (-) Controlling components N5.6.5 (-) Fixing device NWind force test N5.6.6 (-) Locking system N5.6.7 (-) Vibration resistance N5.6.8 (-) Glass cover P5.6 (4.2) Components replaceable without difficulty P5.6 (4.3) Wireways smooth and free from sharp edges P5.6 (4.4) Lampholders --5.6 (4.4.1) Integral lampholder P5.6 (4.4.2) Wiring connection P5.6 (4.4.3) Lampholder for end-to-end mounting N5.6 (4.4.4) Positioning N5.6 (4.4.5) Peak pulse voltage No ignitor N5.6 (4.4.6) Centre contact No ignitor N5.6 (4.4.7) Rough service luminaires Ordinary luminaires N5.6 (4.4.8) Lamp connectors N5.6 (4.5) Starter holders- --Starter holder in luminaires other than class II NStarter holder class II construction N5.6 (4.6) Terminal blocks NTails N Unsecuredblocks N5.6 (4.7) Terminals and supply connections P5.6 (4.7.1) Contact to metal parts N5.6 (4.7.2) Test 8 mm live conductor NTest 8 mm earth conductor N5.6 (4.7.3) Terminals for supply conductors N5.6 (4.7.4) Terminals other than supply connection N5.6 (4.7.5) Heat-resistant wiring/sleeves P5.6 (4.7.6) Multi-pole plug N5.6 (4.8) Switches: --- adequate rating N- adequate fixing N- polarized supply N5.6 (4.9) Insulating lining and sleeves P5.6 (4.9.1) Retainment PMethodoffixing...................................................: P5.6 (4.9.2) Insulated linings and sleeves --a) & c) Insulation resistance and electric strength Pb) Ageing test. Temperature (°C).......................: P5.6 (4.10) Insulation of Class II luminaires --5.6 (4.10.1) No contact, mounting surface – accessible metalparts – wiring of basic insulationN Safe installation fixed luminaires NCapacitors NInterference suppression capacitors according toIEC 60384-14N5.6(4.10.2)Assembly gaps: P- not coincidental P- no straight access with test probe P5.6(4.10.3)Retainment of insulation: P-fixed P- unable to be replaced; luminaire inoperative P- sleeves retained in position P- lining in lampholder N5.6 (4.11) Electrical connections --5.6 (4.11.1) Contact pressure Not transmitted throughinsulating materialP5.6(4.11.2)Screws: P- self-tapping screws Not used for connection P- thread-cutting screws N- at least two self-tapping screws N5.6(4.11.3)Screw locking: --- spring washer P-rivets P 5.6(4.11.4)Material of current-carrying parts At least 50% copper P5.6 (4.11.5) No contact to wood No wood material in theluminairesP5.6(4.11.6)Electro-mechanical contact systems No such systems N5.6 (4.12) Mechanical connections and glands --5.6(4.12.1)Screws not made of soft metal PScrews of insulating material PTorque test: torque (Nm); part............................:Fixed Cover:1.20Nm PTorque test: torque (Nm); part............................:Fixed supporting base:8.00NmPTorque test: torque (Nm); part............................:Fixed metalenclosure:2.50NmP5.6(4.12.2)Screws with diameter < 3 mm screwed into metal N5.6(4.12.4)Locked connections: --- fixed arms; torque (Nm)....................................: N - lampholder; torque (Nm)...................................: N - push-button switches; torque 0,8 Nm...............:N5.6(4.12.5)Screwed glands; force (N)..................................: N 5.6 (4.13) Mechanical strength --5.6(4.13.1)Impact tests: P- fragile parts; energy (Nm).................................:0.50Nm P- other parts; energy (Nm)..................................:0.70 Nm P1) live parts Not access P2) linings P3) protection Continue to afford the degreeof protection against ingressof dust, solid objects andmoistureP4) covers No break P5.6(4.13.3)Straight test finger P5.6(4.13.4)Rough service luminaires --a) fixed Nb) hand-held Nc) delivered with a stand Nd) for temporary installations and suitable formounting on a standN5.6(4.13.6)Tumbling barrel N5.6 (4.14) Suspensions and adjusting devices P5.6(4.14.1)Mechanical load: PA) four times the weight 76.0kg PB) torque 2,5 Nm NC) bracket arm; bending moment (Nm)..............: ND) load track-mounted luminaires NE) clip-mounted luminaires, glass-shelve.Thickness (mm)..................................................:N metal rod. Diameter (mm)...................................: N5.6(4.14.2)Load to flexible cables --Mass(kg)............................................................: N Stress in conductors (N/mm²).............................: N 5.6(4.14.3)Adjusting devices: N- flexing test; number of cycles...........................: N - strands broken N- electric strength test afterwards N5.6 (4.14.4) Telescopic tubes: cords not fixed to tube; nostrain on conductorsNo telescopic tubes N5.6(4.14.5)Guide pulleys No guide pulleys N5.6(4.14.6)Strain on socket-outlets No socket-outlet N5.6 (4.15) Flammable materials: N- glow-wire test 650 °C N - spacing ≥ 30 mm N - screen withstanding test of 13.3.1 N- screen dimensions N- no fiercely burning material N- thermal protection N- electronic circuits exempted N5.6(4.15.2)Luminaires made of thermoplastic material with lamp control gear --a)construction Nb) temperature sensing control Nc) surface temperature N5.6 (4.16) Luminaires marked with F-symbol --No lamp control gear (compliance with Section 12) NLamp control gear spacing: N5.6(4.16.1)- spacing 35 mm N- spacing 10 mm NThermal protection: N5.6(4.16.2)- in lamp control gear Nexternal N -- fixed position N- temperature marked lamp control gear N“F” curve measured (see 12.6) N5.6(4.16.3)5.6 (4.17) Drain holes NClearance at least 5 mm N5.6 (4.18) Resistance to corrosion: --5.6- rust-resistance P(4.18.1)- season cracking in copper P5.6(4.18.2)5.6- corrosion of aluminium P(4.18.3)5.6 (4.19) Ignitors compatible with ballast N5.6 (4.20) Rough service vibration N5.6 (4.21) Protective shield: NShield fitted N5.6(4.21.1)5.6Particles from a shattering lamp not impair safety N(4.21.2)No direct path N5.6(4.21.3)5.6Impact test on shield N(4.21.4)Glow-wire test on lamp compartment N5.6 (4.22) Attachments to lamps No attachments N5.6 (4.23) Semi-luminaires comply class II N5.6 (4.24) UV radiation, metal halide lamps N5.6 (4.25) No sharp point or edges No sharp points or edges P5.6 (4.26) Short-circuit protection: --5.6Uninsulated accessible SELV parts N(4.26.1)5.6(4.26.2)Short-circuit test N5.6(4.26.3)Test chain according to IEC 61032 N5.7 (11) CREEPAGE DISTANCES AND CLEARANCES P Workingvoltage (V)............................................:265V ⎯ Voltageform Sinusoidal [√ ]Non-sinusoidal [ ]⎯ PTI < 600 [√ ] > 600 [ ] ⎯Rated pulse voltage (Kv)....................................:-- ⎯(1) Current-carrying parts of different polarity: cr (mm); cl (mm)......................................................:cr>2.6mm, cl>1.6mmrequired cr: 2.6mm, cl: 1.6mmP(2) Current-carrying parts and accessible parts: cr (mm); cl (mm)..................................................:cr>5.1mm, cl>3.2mmrequired cr: 5.1mm, cl: 3.2mmP(3) Parts becoming live due to breakdown ofbasic insulation and metal parts:cr (mm); cl (mm)..................................................:N(4) Outer surface of cable where it is clampedand metal parts: cr (mm); cl (mm)......................:N(5) Current-carrying parts of switches and metalparts, after removal of insulation:cr (mm); cl (mm)..................................................:N(6) Current-carrying parts and supportingsurface: cr (mm); cl (mm)....................................:N5.8 (7) PROVISION FOR EARTHING P5.8 (7.2.1+ 7.2.3)Accessible metal parts PMetal parts in contact with supporting surface PResistance < 0,5 Ω 0.15ΩPTwo self-tapping screws used PThread-formingscrews NConnector earthing first N5.8 (7.2.2+ 7.2.3)Earth continuity in joints etc. N5.8 (7.2.4) Locking of clamping means NCompliance with 4.7.3 N5.8 (7.2.5) Earth terminal integral part of connector socket N5.8 (7.2.6) Earth terminal adjacent to mains terminals N5.8 (7.2.7) Electrolytic corrosion of the earth terminal N5.8 (7.2.8) Material of earth terminal NContact surface bare metal N5.8(7.2.10)Class II luminaire for looping-in N5.8(7.2.11)Earthing core coloured green-yellow NLength of earth conductor N5.9 (14) SCREW TERMINALS NSeparately approved; component list NPart of the luminaire N5.9 (15) SCREWLESS TERMINALS NSeparately approved; component list NPart of the luminaire N5.10 (5) EXTERNAL AND INTERNAL WIRING P5.10 (5.2) Supply connection and external wiring --5.10(5.2.1)Means of connection...........................................: P5.10(5.2.2)Type of cable......................................................: N Nominalcross-sectional area (mm²)...................: N 5.10(5.2.3)Type of attachment, X, Y or Z Type Y attachment P5.10(5.2.5)Type Z not connected to screws N5.10(5.2.6)Cable entries: --- suitable for introduction P- adequate degree of protection P5.10 (5.2.7) Cable entries through rigid material haverounded edgesP5.10(5.2.8)Insulating bushings: P- suitably fixed P- material in bushings P- tubes or guards made of insulating material P 5.10(5.2.9)Locking of screwed bushings N5.10(5.2.10)Cord anchorage: --- covering protected from abrasion N- clear how to be effective N- no mechanical or thermal stress N- no tying of cables into knots etc. N- insulating material or lining N 5.10(5.2.10.1)Cord anchorage for type X attachment: --a) at least one part fixed Nb) types of cable Nc) no damaging of the cable Nd) whole cable can be mounted Ne) no touching of clamping screws Nf) metal screw not directly on cable Ng) replacement without special tool NGlands not used as anchorage NLabyrinth type anchorages N5.10 (5.2.10.2) Adequate cord anchorage for type Y and type ZattachmentP5.10(5.2.10.3)Tests: P- impossible to push cable; unsafe P- pull test: 25 times; pull (N)................................:60N P- torque test: torque (Nm)...................................:0.15Nm P- displacement ≤ 2 mm 1.2mm P- no movement of conductors P- no damage of cable or cord P5.10(5.2.11)External wiring passing into luminaire P5.10(5.2.12)Looping-in terminals N5.10(5.2.13)Wire ends not tinned NWire ends tinned: no cold flow N5.10(5.2.14)Mains plug same protection NClass III luminaire plug N5.10(5.2.15)Colour code low voltage N5.10(5.2.16)Appliance inlets (IEC 60320) NAppliance couplers of class II type N5.10 (5.3) Internal wiring --5.10(5.3.1)Internal wiring of suitable size and type PThroughwiring P- not delivered/ mounting instruction N- factory assembled P- socket outlet loaded (A)....................................: Ntemperatures.....................................................: N -Green-yellow for earth only NInternal wiring connected directly to fixed wiring --5.10(5.3.1.1)Cross-sectionalarea (mm²)................................: P Insulation thickness PExtra insulation added where necessary NInternal wiring connected to fixed wiring via internal current-limiting device --5.10(5.3.1.2)N Adequate cross-sectional area and insulationthicknessDouble or reinforced insulation for class II N5.10(5.3.1.3)Conductors without insulation N5.10(5.3.1.4)5.10SELV current-carrying parts N(5.3.1.5)Insulation thickness other than PVC or rubber P5.10(5.3.1.6)5.10Sharp edges etc. P(5.3.2)No moving parts of switches etc. NJoints, raising/lowering devices NTelescopic tubes etc. NNo twisting over 360° P 5.10 (5.3.3) Openings NBushings not removable NBushings in sharp openings NCables with protective sheath N5.10 (5.3.4) Joints and junctions effectively insulated N5.10 (5.3.5) Strain on internal wiring N5.10 (5.3.6) Wire carriers N5.10 (5.3.7) Wire ends not tinned NWire ends tinned: no cold flow N5.11 (8) PROTECTION AGAINST ELECTRIC SHOCK P5.11 (8.2.1) Live parts not accessible No access of live part inPnormal useProtection in any position PDouble-ended tungsten filament lamp NInsulation lacquer not reliable No insulation lacquer andNsimilar materials as protectionagainst electric shockDouble-ended high pressure discharge lamp N5.11 (8.2.2) Portable luminaire adjusted in most unfavourableN position5.11 (8.2.3) Class II luminaire: NN - basic insulated metal parts not accessibleduring starter or lamp replacement- basic insulation not accessible other thanN during starter or lamp replacementN - glass protective shields not used assupplementary insulationClass I luminaire with BC lampholder N5.11 (8.2.4) Portable luminaire: N- protection independent of supporting surface N- terminal block completely covered N5.11 (8.2.6) Covers reliably secured N5.11 (8.2.7) Discharging of capacitors ≥ 0,5 μF NPortable plug connected luminaire with capacitor NOther plug connected luminaire with capacitor NDischarge device on or within capacitor NDischarge device mounted separately N5.12 (12) ENDURANCE TEST AND THERMAL TEST P5.12 (12.3) Endurance test: Pmounting-position.............................................:⎯-- test temperature (°C)........................................:35℃⎯- total duration (h)...............................................:168h ⎯264V ⎯- supply voltage: Un factor; calculated voltage (V)............................................................................:- lamp used.........................................................:LED ⎯After endurance test: --5.12(12.3.2)- no part unserviceable P- luminaire not unsafe P- no damage to track system P- marking legible P- no cracks, deformation etc. P5.12 (12.4) Thermal test (normal operation) P5.12.1 (-) Temperature reduction N5.12 (12.5) Thermal test (abnormal operation) N5.12 (12.6) Thermal test (failed lamp control gear condition): N- case of abnormal conditions.............................:⎯5.12(12.6.1)- electronic lamp control gear N- measured winding temperature (°C): at 1,1 Un:⎯N - measured mounting surface temperature (°C):at 1,1 Un.............................................................:- calculated mounting surface temperature (°C).: N - track-mounted luminaires N5.12Temperature sensing control N(12.6.2)- case of abnormal conditions.............................:⎯- thermal link N- manual reset cut-out N- auto reset cut-out N- measured mounting surface temperatureN (°C): ....................................................................:- track-mounted luminaires N5.12 (12.7) Thermal test (failed lamp control gear in plastic luminaires): N- case of abnormal conditions.............................:⎯5.12- measured winding temperature (°C) at 1,1 Un.:⎯(12.7.1)N - measured temperature of fixing point/ exposedpart (°C) at 1,1 Un...............................................:N - calculated temperature of fixing point/ exposedpart (°C) .............................................................:5.12Temperature sensing control N(12.7.2)- thermal link N- manual reset cut-out N- auto reset cut-out N- measured temperature of fixing point/ exposedN part (°C) .............................................................:5.13 (9) RESISTANCE TO DUST, SOLID OBJECTS AND MOISTURE P5.13 (9.2) Tests for ingress of dust, solid objects and moisture: N- classification according to IP............................:⎯- mounting position during test............................:⎯- fixing screws tightened; torque (Nm)................:⎯- tests according to clauses................................:⎯- electric strength test afterwards Na) no deposit in dust-proof luminaire Nb) no talcum in dust-tight luminaire Nc) no trace of water on current-carrying parts orN where it could become a hazardNd) i) For luminaires without drain holes – nowater entryd) ii) For luminaires with drain holes – noN hazardous water entrye) no water in watertight luminaire Nf) no contact with live parts (IP 2X) Nf) no entry into enclosure (IP 3X and IP 4X) N5.13 (9.3) Humidity test 48 h R.H.:93%PT:25℃5.14 (10) INSULATION RESISTANCE AND ELECTRIC STRENGTH PInsulation resistance test --5.14(10.2.1)Insulation resistance (MΩ): PSELV: --- between current-carrying parts of different>100MΩ P polarity................................................................:N - between current-carrying parts and mountingsurface................................................................:- between current-carrying parts and metal parts>100MΩ P of the luminaire...................................................:Other than SELV: --- between live parts of different polarity..............:N- between live parts and mounting surface.........:N- between live parts and metal parts...................:>100MΩ PN - between live parts of different polarity throughaction of a switch................................................:Electric strength test --5.14(10.2.2)Dummy lamp NLuminaires with ignitors after 24 h test NLuminaires with manual ignitors NTest voltage (V): NSELV: --P - between current-carrying parts of differentpolarity................................................................:- between current-carrying parts and mountingP surface................................................................:P - between current-carrying parts and metal partsof the luminaire...................................................:Other than SELV: --- between live parts of different polarity..............:N- between live parts and mounting surface.........:N- between live parts and metal parts...................:1530V, no broken P- between live parts of different polarity throughN action of a switch................................................:5.14(10.3.1)Leakage current (Ma).........................................:<0.7mA P5.15 (13) RESISTANCE TO HEAT, FIRE AND TRACKING P5.15(13.2.1)Ball-pressure test: --- part tested; temperature (°C)............................:PCB:125°C, 1.0mm P-part tested; temperature (°C)............................:Transformer bobbin: 125°C,0.9mmP5.15(13.3.1)Needle flame test (10 s): --- part tested.........................................................: N - part tested.........................................................: N 5.15(13.3.2)Glow-wire test (650°C): --- part tested.........................................................: N - part tested.........................................................: N 5.15(13.4.1)Tracking test: part tested....................................:NCOMMONMODIFICATIONS N(3.3.101 + 5.2.1) For luminaires connected by tails, informationabout terminal blockN(5.2.2) Cables equal to HD 21 S2 or HD 22 S2 N(5.2.15) Colour code low voltage NZB ANNEX ZB, SPECIAL NATIONAL CONDITIONS N(2.2) Class 0 not accepted N(3.3) DK: power supply cord with label NIT: warning label on Class 0 luminaire N(4.5.1) DK:socket-outlets N(4.5.1) FR:socket-outlets N(5.2.1) DK, FI, SE, GB: type of plug NZC ANNEX ZC, NATIONAL DEVIATIONS N(13.3) DK: Needle flame test or glow-wire test 750°Cfor luminaires in access routesN(13.3) GB: Requirements according to United KingdomBuilding RegulationN(13.3.2) FR: Glow-wire test 850°C alt. 750°C forluminaires in premises open to public andworkersNANNEX 1: components Pobject/part No. manufacturer/trademark type/model technical data standard mark(s) ofconformityLED Driver Various CLG-150-36A Input:100-240V50/60Hz, 0.68Output: 36VDC4.2A EN61347-1EN61347-2-13CESupply Cord ShenzhenGuoxun MeanWell -- 227 IEC 53(RVV)GB5023.5-1997CCCANNEX 2: temperature measurements, thermal tests of Section 12 PTypereference....................................................: BW-FL50W01 ⎯Lampused...........................................................: LED ⎯Lamp control gear used......................................: Not used ⎯Mounting position of luminaire............................: Normal position ⎯Supplywattage (W).............................................: 244.8 ⎯Supplyvoltage(V)...............................................: 85-265V ⎯Supplycurrent (A)...............................................: 0.98 ⎯Calculatedpower factor......................................: 0.95 ⎯Table: measured temperatures corrected for ta = 25 °C:- abnormal operating mode.................................: ⎯- test 1: rated voltage...........................................: 265V ⎯- test 2: 1,06 times rated voltage or 1,05 timesrated wattage..............................................:⎯- test 3: Load on wiring to socket-outlet, 1,06 timesvoltage or 1,05 times wattage....................:-- ⎯- test 4: 1,1 times rated voltage or 1,05 times ratedwattage.......................................................:⎯temperature (°C) of part clause 12.4 – normal clause 12.5 – abnormaltest 1 test 2 test 3 limits test 4 limit Input wire 39.7 105Enclosure of LED Driver 48.1 RefOutput Wire 47.2 105AL Base PCB 78.9 RefMetal enclosure 51.2 RefLamp Cover 50.2 RefANNEX 3: screw terminals (part of the luminaire) P (14) SCREW TERMINALS P (14.2) Typeofterminal...................................................: ⎯Ratedcurrent (A).................................................: ⎯(14.3.2.1) One or more conductors P。
