iec609501 安规要求简介

60950标准60950标准是指IEC60950-1标准，是国际电工委员会（IEC）颁布的一项电气安全标准，适用于信息技术设备（ITE）和办公设备（OE），以及其它相关设备。

该标准旨在确保设备在正常使用条件下的安全性，包括对电气、机械、热、能量、辐射和化学等方面的安全要求。

首先，60950标准对设备的电气安全性进行了规定。

它要求设备在正常使用条件下不会对用户、操作人员或周围环境造成危险。

这包括对设备内部电路的绝缘、接地、接线等方面的要求，以及对设备外壳、插头插座等外部部件的要求。

通过严格的电气安全性规定，60950标准可以有效地保护用户免受电击、火灾等电气安全风险的威胁。

其次，60950标准还对设备的机械安全性进行了规定。

它要求设备在正常使用条件下不会对用户、操作人员或周围环境造成机械伤害。

这包括对设备的结构强度、移动部件的设计、固定部件的稳固性等方面的要求。

通过严格的机械安全性规定，60950标准可以有效地防止设备在使用过程中发生机械损坏或意外伤害。

此外，60950标准还对设备的热、能量、辐射和化学等方面的安全要求进行了规定。

它要求设备在正常使用条件下不会对用户、操作人员或周围环境造成热、能量、辐射或化学风险。

这包括对设备的散热设计、能量消耗、辐射限制、化学物质使用等方面的要求。

通过严格的热、能量、辐射和化学安全性规定，60950标准可以有效地保护用户免受过热、辐射或化学污染等安全风险的威胁。

总的来说，60950标准是一项非常重要的电气安全标准，它为信息技术设备和办公设备等相关设备的安全提供了基本保障。

遵守60950标准，不仅可以保护用户的安全，还可以提高设备的可靠性和稳定性，降低设备的故障率和维修成本，从而为用户和制造商带来更多的利益。

因此，60950标准的制定和执行对于推动信息技术设备和办公设备行业的健康发展具有重要意义。

UL60950-1是一份关于电子产品安全标准的文件，通常被称为UL电子产品安全标准。

这个标准从电气安全的角度来看对电气设备进行评估，对电源、开关电源和类似产品的部件结构、构造和性能等给出了具体的规范，目的是确保产品能够在正常和异常工作条件下提供安全的使用。

同时，它还涉及到电气产品生产过程中的质量管理要求、产品标识、技术文件等问题。

在UL60950-1标准中，对电气设备进行了多方面的评估，包括对物理安全、能源安全、电气和机械安全、媒体安全、环境安全的评估。

这些评估都是为了保证电器的安全性，避免因电器造成的人身伤害或物质损失。

UL60950-1标准适用于各种类型的电子设备，包括电源设备、电缆、电路板、分布器等等，并且广泛应用于不同的行业领域，如医疗电子、家电、自动化、电力和工业制造等领域。

应用于电子产品安全的标准不仅保证了消费者的安全，也为生产厂家提供了明确的目标和标准，从而保证产品的品质与安全性。

IEC/EN60950-1安规标准细则二、电气间隙及爬电距离1，L-N 间须至少满足基本绝缘2，保险丝两引脚间需至少满足基本绝缘3, 初次级电路之间,光藕初次级之间，变压器初次级之间(含初级绕组/初级PIN/初级铜箔对次级绕组/次级PIN/次级铜箔),Y电容初次级间均需满足双重绝缘或加强绝缘；初级带电部件同外壳外部可触及部位间需满足最少0。

4mm的穿透绝缘或双重绝缘/加强绝缘要求参考IEC60950-1 table 2H，2J,2L,基本绝缘，附加绝缘，加强绝缘（或双重绝缘)需满足以下要求(工作电压以250V AC 或354V峰值计算)：基本绝缘/附加绝缘: 电气间隙CL:2。

mm Min, 爬电距离2。

5 mm Min双重绝缘/加强绝缘: 电气间隙CL:4.。

mm Min，爬电距离5.0 mm Min备注1：计算电气间隙及爬电距离，允许对内部零件施加10N的力备注2：计算电气间隙及爬电距离时，污染等级以2级计备注3：计算电气间隙及爬电距离时,物料级别通常为IIIb备注4:计算爬电距离时，允许用插值法三、高压及绝缘要求1备注：开关电源建议用DC电压进行高压测试.2、绝缘电阻IEC/EN60950-1对绝缘电阻无要求.四、正常温升(通常带满载进行测试）1，测试电压a，测试电压为电源电压的+6%- -10%，或b，额定电压为230V时，测试电压为230V的+/—10％，或c, 生产商指定的更宽的电压范围2,测试频率为50HZ 和/或60HZ3, 环境温度最大的环境温度为25度或生产商指定的更大值4, 绕阻允许的最高温度T《零件允许的最高温度+环境温度-生产商指定的最大的环境温度举例：B级绝缘物料允许的最高温度为120度, 测试的环境温度为25度,—若生产商没有指定最大的环境温度，则T《120+25-25,即T《120度（热偶法测试时T还需减10度)-若生产商指定最大的环境温度为40度，则则T《120+25—40,即T《105度（热偶法测试时T还需减10度）具体零件的温度限定见表4B5,正常温升测试的接收标准测试过程中,温度保险丝及电流保险丝不允许动作,零部件温度不得超出表4B的要求,测试后产品需立即通过高压测试五、异常测试(通常带满载进行测试）1, 测试电压a，测试电压为电源电压的+6%- —10%，或b，额定电压为230V时，测试电压为230V的+/-10%,或c, 生产商指定的更宽的电压范围2,测试频率为50HZ 和或60HZ3，环境温度最大的环境温度为25度或生产商指定的更大值4,测试方法a）开路或短路半导体零件和电容b）组合电路中会导致出现能量过分消耗的内部错误c)满足双重绝缘或加强绝缘的Y电容不必进行单一故障测试5，异常测试的接收标准异常测试过程中不允许出现:———火蔓延到设备外部，并且-——发出金属融化物——-外壳出现变形致使电气间隙及爬电距离不符要求-——A级绝缘物料温度超过150度，E级绝缘物料温度超过165度，B级绝缘物料温度超过175度，F 级绝缘物料温度超过190度,H级绝缘物料温度超过210度异常测试过程后不允许出现：—-——-高压失败六、接触电流（泄露电流）———可接触不见及电路没有连接到保护接地时，接触电流0.25mA Max-—-手持设备测试设备端子通过主保护接地端子时，接触电流0。

iec60950对应国标IEC 60950是国际电工委员会（IEC）发布的一项标准，用于评估和测试信息技术设备的安全性。

目前，最新的版本是2014年发布的第五版。

随着信息技术设备的不断更新和演变，IEC 60950标准也在不断调整和完善，以适应不同设备的安全要求。

二、IEC 60950标准的主要内容IEC 60950标准主要包括以下内容：电气危险。

包括电源、电路和电气连接等方面的要求，规定了设备在正常工作和非正常工作状态下可能出现的电气危险，如电击、过电流、过电压等。

机械危险。

涉及设备在使用过程中可能出现的机械损伤，如尖锐边缘、机械振动、噪声等。

化学和物理危险。

涉及设备在使用过程中可能出现的化学和物理危险，如有毒物质、电磁辐射等。

要求设备在设计和制造过程中考虑材料的安全性，如采用无毒材料、设置电磁屏蔽等。

控制和安全功能。

规定了设备应具备的控制和安全功能，如电源开关、故障报警、过载保护等。

要求设备在设计和制造过程中采取必要的措施，确保设备在出现故障或异常情况时能够及时停机或报警。

标记和说明。

规定了设备的安全警示、警告标志、使用说明等方面的要求。

要求设备在销售过程中提供清晰、易懂的标志和说明，以便用户正确使用和维护设备。

三、IEC 60950对应国标的情况我国在信息技术设备安全方面也有相应的国标，即GB4943.1-2022《信息技术设备安全第1部分：通用要求》。

该标准与IEC 60950在技术内容和测试方法上基本一致，可以作为我国信息技术设备安全评估的主要依据。

GB 4943.1-2022标准主要规定了信息技术设备的以下方面要求：电气安全。

包括电源、电路和电气连接等方面的要求，规定了设备在正常工作和非正常工作状态下可能出现的电气危险，如电击、过电流、过电压等。

机械安全。

涉及设备在使用过程中可能出现的机械损伤，如尖锐边缘、机械振动、噪声等。

要求设备在设计和制造过程中采取相应的安全措施，如防护罩、减震器等。

IEC60950IEC 60950是国际标准电气委员会（IEC）制定的关于信息技术设备安全的标准。

IEC 60950是一项广泛适用于各种信息技术设备的标准，包括计算机、打印机、复印机、服务器等。

它确保了这些设备在正常使用的情况下，对用户和环境都是安全的。

1. 标准概述IEC 60950制定了一系列技术要求，用于评估和确保信息技术设备在正常使用和异常情况下的安全性。

该标准覆盖了很多方面的安全性要求，包括电气安全、机械安全、火灾安全、电磁兼容性等。

它的目标是防止任何可能对操作员和周围环境造成危害的电气、机械、热排放和其他危险。

2. 标准内容IEC 60950标准细分为几个部分，每个部分涵盖了特定的安全要求。

以下是标准的主要内容：2.1 电气安全IEC 60950标准对电气设备的安全性进行了详细的规定。

它要求设备必须符合一系列的电气要求，包括电气绝缘、耐电压、电磁兼容性等。

这些要求旨在确保设备在正常使用和异常情况下的电气安全。

2.2 机械安全该标准对设备的物理结构和机械部件的安全性进行了规定。

这包括设备的结构强度、安装孔位置、机械零件的固定等方面。

这些要求旨在防止设备在使用过程中发生机械故障，从而对使用者造成伤害。

2.3 火灾安全IEC 60950标准对设备的防火性能进行了要求。

它规定了设备的耐火性能和防火材料的使用要求。

这些要求旨在确保设备在发生火灾时不会加剧火势，并减少火灾对使用者的伤害。

2.4 电磁兼容性该标准要求设备在电磁环境下的兼容性。

设备必须满足特定的电磁辐射和电磁感受性要求，以确保设备在与其他设备一起工作时不会受到电磁干扰。

3. 应用领域IEC 60950标准适用于各种信息技术设备，包括但不限于以下领域：•个人电脑和笔记本电脑•服务器和网络设备•打印机和复印机•通信设备（例如电话、传真机）•存储设备（例如硬盘、光驱）4. 标准符合认证符合IEC 60950标准的设备通常会获得特定的认证标志。

iec 60950-1标准IEC 60950-1 是一项国际性的电气电子产品安全标准，其全称为"IEC 60950-1: Information technology equipment - Safety - Part 1: General requirements"，中文译为"信息技术设备-安全-第1部分：通用要求"。

本文将对这一标准进行解读，包括标准的背景、范围、主要内容、适用领域、测试方法等方面的详细介绍。

一、标准背景IEC 60950-1 标准起源于对信息技术设备（ITE）的安全性要求的关注。

信息技术设备包括计算机、服务器、网络设备等，在其使用中需要满足一系列的电气、机械、热、辐射等方面的安全性要求，以确保用户和环境的安全。

二、标准范围IEC 60950-1 标准主要涵盖了信息技术设备的安全性要求，其中包括但不限于以下方面：电气安全：对设备内部电气元件、电路和电源的安全性要求。

机械安全：设备的机械结构、外壳和连接部分的设计和制造要求，以防止危险的机械伤害。

热安全：设备在正常使用和异常条件下的热特性，以确保不会引起火灾或热伤害。

辐射安全：设备的辐射特性，以防止对人体和其他设备的不良影响。

危险物质控制：对使用危险物质的限制和控制，以符合环保和人体健康的要求。

三、主要内容IEC 60950-1 标准主要包含以下内容：一般要求：对设备的整体设计、生产和测试的一般要求。

电气要求：包括电气元件的要求、绝缘和绝缘距离的要求等。

机械要求：设备的外壳、连接部分、机械强度和稳定性等的要求。

热要求：设备在正常和异常条件下的热性能要求。

辐射要求：设备产生的辐射和对辐射的抗干扰能力要求。

四、适用领域IEC 60950-1 标准适用于广泛的信息技术设备，包括但不限于：个人计算机和工作站服务器和数据中心设备网络设备，如路由器和交换机存储设备，如硬盘和光盘驱动器打印机和复印机视听设备，如电视、音响系统通信设备，如电话和传真机五、测试方法IEC 60950-1 标准中包含了一系列的测试方法，以确保设备在正常和异常条件下的安全性能。

iec60950对应国标摘要：1.IEC 60950 简介2.我国对IEC 60950 的采纳情况3.IEC 60950 与国标的对应关系4.对我国电子信息产业的影响正文：一、IEC 60950 简介IEC 60950 是国际电工委员会（International Electrotechnical Commission，简称IEC）制定的一项关于安全标准和规范的国际标准，主要涉及音频、视频及多媒体设备和系统的安全要求。

该标准旨在保障使用者在操作这些设备和系统时的人身安全和设备安全。

二、我国对IEC 60950 的采纳情况我国一直积极参与IEC 60950 标准的制定和推广，并在国家标准化管理委员会的指导下，将其纳入我国的国家标准体系。

在我国，IEC 60950对应的国家标准为GB/T 18802.1-2011《消费音响设备和视频设备第1 部分：安全要求》。

三、IEC 60950 与国标的对应关系IEC 60950与我国国标GB/T 18802.1-2011 在很多方面具有一致性，但在某些细节上存在差异。

例如，IEC 60950 对设备的防护等级有较严格的要求，而我国国标则根据实际情况，对防护等级的要求略有放宽。

总体来说，我国国标在采纳IEC 60950 的基础上，结合国内实际，对部分内容进行了调整和完善。

四、对我国电子信息产业的影响IEC 60950 及其对应的国标对我国电子信息产业产生了积极影响。

首先，它为我国电子产品的设计、生产和检测提供了统一、明确的安全技术要求，有助于提高产品质量和安全性能。

其次，这一标准有助于推动我国电子产品与国际市场的接轨，提升我国电子产品在国际市场的竞争力。

IEC60950-1安规要求介绍讲义引言IEC60950-1是国际电工委员会（International Electrotechnical Commission）制定的安全标准，适用于信息技术设备（Information Technology Equipment，简称ITE）。

本文档将介绍IEC60950-1安规要求的基本概念和相关细节。

IEC60950-1的基本概念IEC60950-1是基于安全性原则的标准，其主要目的是保护使用者和操作员不受设备电气、机械和火灾等方面的危害。

该标准包含了一系列安全要求，以确保设备在正常使用中不会对人体造成伤害，并可以正常运行。

IEC60950-1的安全要求分为以下几个方面：1.电气安全：包括对设备内部电路的保护，以及对电气绝缘、接地和接触电流的要求。

2.机械安全：包括对设备结构和材料的要求，以及对可触及的部件和移动部分的安全保护。

3.火灾安全：包括对设备燃烧性能和防火措施的要求，以及对设备在故障条件下的火灾风险评估。

4.辐射安全：包括电磁辐射和光辐射的安全要求，以保护使用者和操作员的健康。

5.温度和湿度安全：包括对设备工作环境的温度和湿度要求，以确保设备的正常运行。

IEC60950-1安规的详细要求1. 电气安全要求1.1 设备内部电路的保护要求：•设备内部电路应采用双重绝缘或等效绝缘材料，以防止电气短路和触电风险。

•设备内部电路的绝缘电阻应满足规定的要求，以确保设备在正常工作和故障条件下不会引发危险。

•设备应具备过流和过压保护装置，以防止设备损坏和电气火灾。

1.2 电气绝缘和接地要求：•设备的外壳和外部连接部件应具备足够的机械强度和电气绝缘性能，以防止电气触电风险。

•设备应有可靠的接地装置，以确保设备在故障条件下能够及时排除电气故障。

2. 机械安全要求2.1 设备结构和材料的要求：•设备结构应有足够的机械强度和稳定性，以防止设备在正常使用过程中发生变形或损坏。

Page 1 of 12 Report No. 30880025.007 Myricom, Inc., 325 N. Santa Anita Ave., Arcadia CA 91006Page 2 of 12 Report No. 30880025.00710G-12U-SPINE-ENCL, 10G-7U-CLOS-ENCL, 10G-7U-SPINE-ENCL Ratings....................................................: Input: 100-240V, 50/60 Hz, 10A-5A (rating per input, up to 4 inputs)Page 3 of 12 Report No. 30880025.007General remarks:The test results presented in this report relate only to the object tested.This report shall not be reproduced, except in full, without the written approval of the Issuing testinglaboratory."(See Enclosure #)" refers to additional information appended to the report."(See appended table)" refers to a table appended to the report.Note: This TRF includes EN Group Differences together with National Differences and SpecialNational Conditions, if any. All Differences are located in the Appendix to the main body of this TRF. Throughout this report a comma (point) is used as the decimal separator.General product information:This test report is Amendment 2 to the original CB-report with document number 30880025.001 and the first amendmentCB report 30880025.004 and covers the addition of new line cards 10G-THRU-16Q, 10G-THRU-8M8ER, 10G-THRU-16WQP, 10G-SW32LC-16QP, 10G-S SW32LC-16ES, 10G-SW32LC-16EM. Each line card uses less power than linecards that have already been evaluated for the original report and subsequent amendment so no testing was performed as part of this investigation and the new line cards have been evaluated on a constructional basis only. Critical components within the line cards being added include Certified Class 1 lasers only.The product covered in this test report are LAN Switches with the model numbers: 10G-21U-CLOS-ENCL, 10G-21U-EDGE-ENCL, 10G-12U-CLOS-ENCL, 10G-12U-SPINE-ENCL, 10G-7U-CLOS-ENCL and 10G-7U-SPINE-ENCL. TheLAN Switch product comes with six different configuration codes: 10G-21U-CLOS-ENCL has the CLOS backplane boards, which accept eight 10G-2SW32LC line cards in the middle, one 10G-MONITOR-B in the top, and nearly any combination of the other line cards in the other slots. The 10G-21U-EDGE-ENCL has one 10G-MONITOR-B in the top,and the other slots accepts nearly any combination of the other line cards, excluding the 10G-2SW32LC line card (For details of line cards, see critical components list table 1.5.1). The 12U and 7U configurations are similar in functional configuration with the differences being the 12U is a smaller chassis intended for use with 2-4 power supplies and the7U is a still smaller chassis intended for use with 1-2 power supplies. The 12U configuration was tested per this investigation and it was determined via the test results and inspection that the data taken for the 21U is representativeof the 12U and 7U and as such the previously-measured 21 test results are applied to this report amendment.The enclosures contain a metal chassis, up four approved power supplies (different for each model), approved DC fans, a backplane, AC-Inlet/Filter and interface cards, which are all interchangeable. Model No. 10G-21U-CLOS-ENCL is a ‘21U high, 41-slot enclosure for switch networks up to 512 ports’ located on the rear panel of the unit. These ports areconnected to copper and fiber cables and there is no power available on these ports. All signals are AC coupled through470pF capacitorsDuring the testing the maximum power was generated by using resistive loads. Due to the expenses of each individualcard, a low-cost test configuration with these resistive loads cards generating 200W of power was used for thetemperature rise measurement and abnormal fault conditions.It should be noted that for the final configuration of the LAN Switches each individual card has two redundant temperature sensors which control the power to a card (thermal cut-out / power off at 60˚C). Also, the four DC fans at the back-side ofthe products are speed-adjustable depending on the temperature inside the LAN Switch enclosure. Individual temperature sensors are located on each line card and each fan controller PCBModel 10G-21U-CLOS-ENCL is intended to be fully operational with a minimum of three power supplies only. However,the four power supply configuration is intended for triple-AC systems( where there are three different sources of ACPage 4 of 12 Report No. 30880025.007 power), and the enclosure will continue to run will continue to run with one AC off and one power supply down. The unit contains; four fans, four power supplies and thirty cards – mixed.There are no connections to a Telecommunication Network (TNV).CDRH-Report for Optical Transceiver has to be provided by customer for US Approval.During the testing the maximum power was generated by using resistive loads. Due to the expenses ofeach individual card a low-cost test configuration with these resistive load cards, generating 200W ofpower, was used for the temperature rise measurements and abnormal fault conditions.Conditions of Acceptability:1.This unit is considered to operate under the conditions of:– Pollution Degree 2: Not sealed, not subjected to dust, dirt, and condensation– Equipment mobility: Rack mounted / fixed2. Rated ambient of 40°C at maximum rated loadPage 5 of 12 Report No. 30880025.007Page 6 of 12 Report No. 30880025.007 Summary of testing:Tests performed (name of test and test clause): = no testing performed for this amendment =Testing location:TUV Rheinland of North America, Inc.1279 Quarry Lane, Ste. A, Pleasanton, CA 94566Summary of compliance with National Differences:Comments:Summary of compliance with National Differences (for explanation of codes see below):AT, CA (temporary differences), DE, DK, FI, FR, GB, IT, JP, KR, NL, NO, PL, SE, SI, US (temporary differences).and Group Differences as listed at the end of this test reportExplanation of Codes:AT=Austria, CA-Canada, DE=Germany, DK=Denmark, FI=Finland, FR=France, GB=United Kingdom, IT=Italy,JP=Japan, KR=Korea, NL=The Netherlands, NO=Norway, PL=Poland, SE=Sweden, SI=Slovenia, US=United StatesThe following Attachments are integral part of this test report:= no attachments for this amendment =Page 7 of 12 Report No. 30880025.007Test item particulars..................................................:Equipment mobility....................................................: [] movable [] hand-held [] transportable[X] stationary [] for building-in [] direct plug-in Connection to the mains............................................: [] pluggable equipment [] type A [] type B[] permanent connection[X] detachable power supply cord[] non-detachable power supply cord[] not directly connected to the mainsOperating condition...................................................: [X] continuous[] rated operating / resting time:Access location .........................................................: [X] operator accessible[] restricted access locationOver voltage category (OVC) ...................................: [] OVC I [X] OVC II [] OVC III [] OVC IV[] other:Mains supply tolerance (%) or absolute mains supplyvalues .......................................................................:Tested for IT power systems ....................................: [X] Yes [] NoIT testing, phase-phase voltage (V) .........................: 230VClass of equipment ...................................................: [X] Class I [] Class II [] Class III[] Not classifiedConsidered current rating (A) ...................................:Pollution degree (PD) ...............................................: [] PD 1 [X] PD 2 [] PD 3IP protection class ....................................................: IPX0Altitude during operation (m) ....................................: 2000 mAltitude of test laboratory (m) ...................................: 2000 mMass of equipment (kg) ............................................: 98kgPossible test case verdicts:- test case does not apply to the test object.................:N/A- test object does meet the requirement.......................:P (Pass)- test object does not meet the requirement.................: F (Fail) Testing..........................................................................:Date of receipt of test item............................................:N/ADate(s) of performance of tests....................................:N/A[constructional check only, all test data is based onpreviously issued reports 30880025.001 and30880025.004, all changes per this amendment are eithernon-safety critical or editorial in nature only]Page 8 of 12 Report No. 30880025.007 1 GENERAL P1.5 Components P1.5.1 General Complies PComply with IEC 60950-1 or relevant component standard Refer to appended table 1.5.1(list of critical components)P1.5.2 Evaluation and testing of components All safety critical componentsare certified. All componentsare used within their specifiedratings, plastic materials,PCBs and wiring materialsare UL listed, non-certifiedcomponents were testedaccording to this standard.P 1.5.1 TABLE: List of critical components PObject/part No. Manufacturer/trademark Type/model Technical data Standard (Edition/ year)Mark(s) ofconformity1)1.) Power Supply (up to 4 each) Astec DS850-3 Input:100-240,50/60Hz, 10A;Output: +12V/70A,+3.3V/6AIEC/EN/UL60950-1UL 1449 (VDR’s)CSA, cULus, TUV2.) DC Fan (up to 8 each) Delta FFB1212EHE-F0012VDC3.0A –5.38 m3/minIEC/EN/UL 60950-1 VDE, CE, UL,CSA3.) DC Fan Controller board Myricom 05-2896 Minimumflammability rating:V-0,UL94 ULPage 9 of 12 Report No. 30880025.0074.) Internal wiring Various Various Rated 600V,105˚C,flammability ratingminimum VW-1 4wire gage type10070 from outputpower distributionboard to the powerback plane busbars (2 cables;3feet long) +/-12V.Wire gages forline/neutral/safetyground: type“1015” wire , 18gafor +12/- Backplane tosignal/power/fansto backplane 18ga to 24 ga .-- UL5.) Cards Myricom 10G-Monitor –B Minimumflammabilityrating:V-0UL94 UL6.) Cards Myricom 10G-SW32LC-16M Minimumflammabilityrating:V-0UL94 UL7.) Cards Myricom 10G-THRU-16M Minimumflammabilityrating:V-0UL94 UL8.) Cards Myricom 10G-SW32LC-16Q Minimumflammabilityrating:V-0UL94 UL9.) Cards Myricom 10G-THRU-16Q Minimumflammabilityrating;V-0UL94 UL10.) Cards Myricom 10G-SW32LC-8Q8ER Minimumflammabilityrating:V-0UL94 UL11.) Cards Myricom 10G-THRU-8Q8ER Minimumflammabilityrating:V-0UL94 UL12.) Cards Myricom 10G-SW32LC-8M8ER Minimumflammabilityrating:V-0UL94 UL13.) Cards Myricom 10G-THRU-8M8ER Minimumflammabilityrating:V-0UL94 UL14.) Cards Myricom 10G-SW32LC-8M8EM Minimumflammabilityrating:V-0UL94 UL15.) Cards Myricom 10G-THRU-8M8EM Minimumflammabilityrating:V-0UL94 UL16.) Cards Myricom 10G-SW32LC-16QP Minimumflammabilityrating:V-0UL94 ULPage 10 of 12 Report No. 30880025.007 17.) Cards Myricom 10G-THRU-16QP Minimumflammabilityrating:V-0UL94 UL18.) Cards Myricom 10G-SW32LC-8QP8ER Minimumflammabilityrating:V-0UL94 UL19.) Cards Myricom 10G-SW32LC-16ES Minimumflammabilityrating:V-0UL94 UL20.) Cards Myricom 10G-SW32LC-16EM Minimumflammabilityrating:V-0UL94 UL21.) Cards Myricom 10G-2SW32LC Minimumflammabilityrating:V-0UL94 UL22.) Cards Myricom 10G-FAN v1.0 Minimumflammabilityrating:V-0UL94 UL23.) Backplane left Myricom 10G-21U-CLOSMinimumflammabilityrating:V-0UL94 UL24.) Backplane right Myricom 10G-21U-CLOSMinimumflammabilityrating:V-0UL94 UL25.) Backplane left Myricom 10G-21U-EDGEMinimumflammabilityrating:V-0UL94 UL26.) Backplane right Myricom 10G-21U-EDGEMinimumflammabilityrating:V-0UL94 UL27.) Backplane left Myricom 10G-12U-CLOSMinimumflammabilityrating:V-0UL94 UL28.) Backplane right Myricom 10G-12U-CLOSMinimumflammabilityrating:V-0UL94 UL29.) Backplane left Myricom 10G-12U-EDGEMinimumflammabilityrating:V-0UL94 UL30.) Backplane right Myricom 10G-12U-EDGEMinimumflammabilityrating:V-0UL94 UL31.) Backplane left Myricom 10G-7U-CLOSMinimumflammabilityrating:V-0UL94 UL32.) Backplane right Myricom 10G-7U-CLOSMinimumflammabilityrating:V-0UL94 UL33.) Backplane left Myricom 10G-7U-EDGEMinimumflammabilityrating:V-0UL94 UL34.) Backplane right Myricom 10G-7U-EDGEMinimumflammabilityrating:V-0UL94 UL35.)Power Cord (U.K.) Volex 2922 250V, 10A, 13Afuse, 1mm2-- ASTA,BSIPage 11 of 12 Report No. 30880025.00736.) Power Cord (Germany / Europe) Volex orequivalent17850or equivalentRating: 300V, 10A,1.0mm2-- VDE, N, FI, S, D, I37.) Power Cord (U.S.) Volex 17504 125V, 15A, 14AWG-- UL,CSA38.) Power Cord (Japan) Feller 5330-440 125V,15A,2.0mm2-- DENTORI39.) Transceiver (10G-SW32LC-16Q/10G-THRU-16Q/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER)Zarlink ZL60304-MKDA Class I M laser IEC/EN 60825-1 TUV, UL40.) Transceiver (10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-16Q/10G-THRU-16Q)Avago HFBR-7934EHZ Class I M laser IEC/EN 60825-1 TUV, UL41.) Transceiver (10G-SW32LC-8M8ER/10G-THRU-8M8ER/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-8QP8ER)Finisar FLTX8511D3 Class I M laser IEC/EN 60825-1 TUV, UL42.) Transceiver (10G-SW32LC-8M8ER/10G-THRU-8M8ER/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-8QP8ER)Finisar FTLX1411D3 Class I M laser IEC/EN 60825-1 TUV, ULPage 12 of 12 Report No. 30880025.00743.) Transceiver ( 10G-SW32LC-8M8ER/10G-THRU-8M8ER/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-8QP8ER) Finisar FTLX1412D3BCL Class I laser EN 60825-1EN 60825-2EN 60950-1CSA 60950-1-03CDRHTUV, CSA, FDA44.) Transceiver (10G-SW32LC-8QP8ER/10G-SW32LC-16QP/10G-THRU-16QP)Zarlink ZL60505MJDA Class I M laser IEC/EN 60825-1 TUV, UL45.) Transceiver ( 10G-SW32LC-16ES) Finisar FTLX8571D3BCL Class I laser EN 60825-1EN 60825-2EN 60950-1CDRHTUV, FDA46.) Transceiver ( 10G-SW32LC-16ES) Finisar FTLX1471D3BCL Class I laser EN 60825-1EN 60825-2EN 60950-1CDRHTUV, FDA47.) Transceiver ( 10G-SW32LC-8QP8ER/10G-SW32LC-16QP/10G-THRU-16QP) Tyco Electronics 1985554-x1985861-x1-198554-01-1985861-01-1985861-1Class I M laser EN 60825-1EN 60825-2EN 60950-1CSA 60950-1-03CDRHTUV, CSA, FDA48.) InsulationTape/ used on theinternal chassisadjacent to metalbus bar3M Type 1206 Rated 155˚C UL510 UL49.) Temperature Sensor NationalSemiconductorLM74 3.0V/2.65V to5.5V, -10˚C to65˚C- -50.) Power Distribution Board Myricom 10G-POWERv1.1.Minimumflammabilityrating:V-0UL94 UL END of TEST REPORT。

STANDARD & APPLICATION引言浪涌被称为瞬态过电压，是电路中出现的一种短暂电流、电压波动，会对电子设备造成危害。

压敏电阻作为信息技术设备等产品中常见的抗雷击浪涌的元器件，可以有效防止这种危害。

但是压敏电阻的使用位置、选型不当都可能造成整机产品不满足安全标准要求。

本文分析了IEC 60950-1: 2013中对压敏电阻的要求，以期对压敏电阻的正确使用提供帮助。

1 压敏电阻相关定义解析电子电路中的浪涌保护元器件，也称为浪涌抑制器。

常见的浪涌抑制器包括电压敏感电阻器（VDR）、碳块、气体放电管（GDT）和其他一些具有非线性电压电流特性的半导体器件，如瞬态抑制二极管（TVS diode）。

其中电压敏感电阻器按其使用材料的不同可分为碳化硅压敏电阻器、金属氧化物压敏电阻器（MOV）、钛酸钡压敏电阻器等，其中以氧化锌为主的金属氧化物压敏电阻是目前开关电源中最广泛使用的浪涌保护元器件。

本文所分析的压敏电阻特指金属氧化物压敏电阻。

2 典型浪涌保护元器件介绍浪涌的保护元器件一般分为开关型和钳位型。

压敏电阻属于钳位型的典型代表，而气体放电管属于开关型的典型代表。

两者的区别也使得在使用时有极大不同。

2.1 压敏电阻压敏电阻实物和电路图中符号如图1，位号一般为VR、RV、X。

压敏电阻在正常电压下呈现高阻抗状态。

当外界浪涌电压超过压敏电阻电压时，压敏电阻会迅速击穿导通，工作电流急剧增大，将电压钳位；当外界电压恢复正常时，压敏电阻又恢复高阻抗状态（图2）。

压敏电阻响应时间快，一般用于电网电源的相线与中线之间。

但由于压敏电阻的电容值较大，不宜直接用于对高频电子系统的保护。

应用于相线与地之间时也要充分考虑漏电流。

2.2 气体放电管气体放电管实物和电路图符号如图3，位号一般为SG、SA。

气体放电管通常采用陶瓷封装，内部充满惰性气压敏电阻在IEC 60950-1中的要求解析Analysis on Request of Varistor in IEC 60950-1北京海关技术中心 武鹏 齐玮摘要阐述了压敏电阻和气体放电管的特性以及两者在开关电源单独或串联使用的情况；详细分析了 IEC 60950-1:2013对压敏电阻的要求，并结合型式试验时的不合格实例及整改方案来加以说明，有助于相关检测人员更好地理解标准。

Page 1 of 12 Report No. 30880025.007 Myricom, Inc., 325 N. Santa Anita Ave., Arcadia CA 91006Page 2 of 12 Report No. 30880025.00710G-12U-SPINE-ENCL, 10G-7U-CLOS-ENCL, 10G-7U-SPINE-ENCL Ratings....................................................: Input: 100-240V, 50/60 Hz, 10A-5A (rating per input, up to 4 inputs)Page 3 of 12 Report No. 30880025.007General remarks:The test results presented in this report relate only to the object tested.This report shall not be reproduced, except in full, without the written approval of the Issuing testinglaboratory."(See Enclosure #)" refers to additional information appended to the report."(See appended table)" refers to a table appended to the report.Note: This TRF includes EN Group Differences together with National Differences and SpecialNational Conditions, if any. All Differences are located in the Appendix to the main body of this TRF. Throughout this report a comma (point) is used as the decimal separator.General product information:This test report is Amendment 2 to the original CB-report with document number 30880025.001 and the first amendmentCB report 30880025.004 and covers the addition of new line cards 10G-THRU-16Q, 10G-THRU-8M8ER, 10G-THRU-16WQP, 10G-SW32LC-16QP, 10G-S SW32LC-16ES, 10G-SW32LC-16EM. Each line card uses less power than linecards that have already been evaluated for the original report and subsequent amendment so no testing was performed as part of this investigation and the new line cards have been evaluated on a constructional basis only. Critical components within the line cards being added include Certified Class 1 lasers only.The product covered in this test report are LAN Switches with the model numbers: 10G-21U-CLOS-ENCL, 10G-21U-EDGE-ENCL, 10G-12U-CLOS-ENCL, 10G-12U-SPINE-ENCL, 10G-7U-CLOS-ENCL and 10G-7U-SPINE-ENCL. TheLAN Switch product comes with six different configuration codes: 10G-21U-CLOS-ENCL has the CLOS backplane boards, which accept eight 10G-2SW32LC line cards in the middle, one 10G-MONITOR-B in the top, and nearly any combination of the other line cards in the other slots. The 10G-21U-EDGE-ENCL has one 10G-MONITOR-B in the top,and the other slots accepts nearly any combination of the other line cards, excluding the 10G-2SW32LC line card (For details of line cards, see critical components list table 1.5.1). The 12U and 7U configurations are similar in functional configuration with the differences being the 12U is a smaller chassis intended for use with 2-4 power supplies and the7U is a still smaller chassis intended for use with 1-2 power supplies. The 12U configuration was tested per this investigation and it was determined via the test results and inspection that the data taken for the 21U is representativeof the 12U and 7U and as such the previously-measured 21 test results are applied to this report amendment.The enclosures contain a metal chassis, up four approved power supplies (different for each model), approved DC fans, a backplane, AC-Inlet/Filter and interface cards, which are all interchangeable. Model No. 10G-21U-CLOS-ENCL is a ‘21U high, 41-slot enclosure for switch networks up to 512 ports’ located on the rear panel of the unit. These ports areconnected to copper and fiber cables and there is no power available on these ports. All signals are AC coupled through470pF capacitorsDuring the testing the maximum power was generated by using resistive loads. Due to the expenses of each individualcard, a low-cost test configuration with these resistive loads cards generating 200W of power was used for thetemperature rise measurement and abnormal fault conditions.It should be noted that for the final configuration of the LAN Switches each individual card has two redundant temperature sensors which control the power to a card (thermal cut-out / power off at 60˚C). Also, the four DC fans at the back-side ofthe products are speed-adjustable depending on the temperature inside the LAN Switch enclosure. Individual temperature sensors are located on each line card and each fan controller PCBModel 10G-21U-CLOS-ENCL is intended to be fully operational with a minimum of three power supplies only. However,the four power supply configuration is intended for triple-AC systems( where there are three different sources of ACPage 4 of 12 Report No. 30880025.007 power), and the enclosure will continue to run will continue to run with one AC off and one power supply down. The unit contains; four fans, four power supplies and thirty cards – mixed.There are no connections to a Telecommunication Network (TNV).CDRH-Report for Optical Transceiver has to be provided by customer for US Approval.During the testing the maximum power was generated by using resistive loads. Due to the expenses ofeach individual card a low-cost test configuration with these resistive load cards, generating 200W ofpower, was used for the temperature rise measurements and abnormal fault conditions.Conditions of Acceptability:1.This unit is considered to operate under the conditions of:– Pollution Degree 2: Not sealed, not subjected to dust, dirt, and condensation– Equipment mobility: Rack mounted / fixed2. Rated ambient of 40°C at maximum rated loadPage 5 of 12 Report No. 30880025.007Page 6 of 12 Report No. 30880025.007 Summary of testing:Tests performed (name of test and test clause): = no testing performed for this amendment =Testing location:TUV Rheinland of North America, Inc.1279 Quarry Lane, Ste. A, Pleasanton, CA 94566Summary of compliance with National Differences:Comments:Summary of compliance with National Differences (for explanation of codes see below):AT, CA (temporary differences), DE, DK, FI, FR, GB, IT, JP, KR, NL, NO, PL, SE, SI, US (temporary differences).and Group Differences as listed at the end of this test reportExplanation of Codes:AT=Austria, CA-Canada, DE=Germany, DK=Denmark, FI=Finland, FR=France, GB=United Kingdom, IT=Italy,JP=Japan, KR=Korea, NL=The Netherlands, NO=Norway, PL=Poland, SE=Sweden, SI=Slovenia, US=United StatesThe following Attachments are integral part of this test report:= no attachments for this amendment =Page 7 of 12 Report No. 30880025.007Test item particulars..................................................:Equipment mobility....................................................: [] movable [] hand-held [] transportable[X] stationary [] for building-in [] direct plug-in Connection to the mains............................................: [] pluggable equipment [] type A [] type B[] permanent connection[X] detachable power supply cord[] non-detachable power supply cord[] not directly connected to the mainsOperating condition...................................................: [X] continuous[] rated operating / resting time:Access location .........................................................: [X] operator accessible[] restricted access locationOver voltage category (OVC) ...................................: [] OVC I [X] OVC II [] OVC III [] OVC IV[] other:Mains supply tolerance (%) or absolute mains supplyvalues .......................................................................:Tested for IT power systems ....................................: [X] Yes [] NoIT testing, phase-phase voltage (V) .........................: 230VClass of equipment ...................................................: [X] Class I [] Class II [] Class III[] Not classifiedConsidered current rating (A) ...................................:Pollution degree (PD) ...............................................: [] PD 1 [X] PD 2 [] PD 3IP protection class ....................................................: IPX0Altitude during operation (m) ....................................: 2000 mAltitude of test laboratory (m) ...................................: 2000 mMass of equipment (kg) ............................................: 98kgPossible test case verdicts:- test case does not apply to the test object.................:N/A- test object does meet the requirement.......................:P (Pass)- test object does not meet the requirement.................: F (Fail) Testing..........................................................................:Date of receipt of test item............................................:N/ADate(s) of performance of tests....................................:N/A[constructional check only, all test data is based onpreviously issued reports 30880025.001 and30880025.004, all changes per this amendment are eithernon-safety critical or editorial in nature only]Page 8 of 12 Report No. 30880025.007 1 GENERAL P1.5 Components P1.5.1 General Complies PComply with IEC 60950-1 or relevant component standard Refer to appended table 1.5.1(list of critical components)P1.5.2 Evaluation and testing of components All safety critical componentsare certified. All componentsare used within their specifiedratings, plastic materials,PCBs and wiring materialsare UL listed, non-certifiedcomponents were testedaccording to this standard.P 1.5.1 TABLE: List of critical components PObject/part No. Manufacturer/trademark Type/model Technical data Standard (Edition/ year)Mark(s) ofconformity1)1.) Power Supply (up to 4 each) Astec DS850-3 Input:100-240,50/60Hz, 10A;Output: +12V/70A,+3.3V/6AIEC/EN/UL60950-1UL 1449 (VDR’s)CSA, cULus, TUV2.) DC Fan (up to 8 each) Delta FFB1212EHE-F0012VDC3.0A –5.38 m3/minIEC/EN/UL 60950-1 VDE, CE, UL,CSA3.) DC Fan Controller board Myricom 05-2896 Minimumflammability rating:V-0,UL94 ULPage 9 of 12 Report No. 30880025.0074.) Internal wiring Various Various Rated 600V,105˚C,flammability ratingminimum VW-1 4wire gage type10070 from outputpower distributionboard to the powerback plane busbars (2 cables;3feet long) +/-12V.Wire gages forline/neutral/safetyground: type“1015” wire , 18gafor +12/- Backplane tosignal/power/fansto backplane 18ga to 24 ga .-- UL5.) Cards Myricom 10G-Monitor –B Minimumflammabilityrating:V-0UL94 UL6.) Cards Myricom 10G-SW32LC-16M Minimumflammabilityrating:V-0UL94 UL7.) Cards Myricom 10G-THRU-16M Minimumflammabilityrating:V-0UL94 UL8.) Cards Myricom 10G-SW32LC-16Q Minimumflammabilityrating:V-0UL94 UL9.) Cards Myricom 10G-THRU-16Q Minimumflammabilityrating;V-0UL94 UL10.) Cards Myricom 10G-SW32LC-8Q8ER Minimumflammabilityrating:V-0UL94 UL11.) Cards Myricom 10G-THRU-8Q8ER Minimumflammabilityrating:V-0UL94 UL12.) Cards Myricom 10G-SW32LC-8M8ER Minimumflammabilityrating:V-0UL94 UL13.) Cards Myricom 10G-THRU-8M8ER Minimumflammabilityrating:V-0UL94 UL14.) Cards Myricom 10G-SW32LC-8M8EM Minimumflammabilityrating:V-0UL94 UL15.) Cards Myricom 10G-THRU-8M8EM Minimumflammabilityrating:V-0UL94 UL16.) Cards Myricom 10G-SW32LC-16QP Minimumflammabilityrating:V-0UL94 ULPage 10 of 12 Report No. 30880025.007 17.) Cards Myricom 10G-THRU-16QP Minimumflammabilityrating:V-0UL94 UL18.) Cards Myricom 10G-SW32LC-8QP8ER Minimumflammabilityrating:V-0UL94 UL19.) Cards Myricom 10G-SW32LC-16ES Minimumflammabilityrating:V-0UL94 UL20.) Cards Myricom 10G-SW32LC-16EM Minimumflammabilityrating:V-0UL94 UL21.) Cards Myricom 10G-2SW32LC Minimumflammabilityrating:V-0UL94 UL22.) Cards Myricom 10G-FAN v1.0 Minimumflammabilityrating:V-0UL94 UL23.) Backplane left Myricom 10G-21U-CLOSMinimumflammabilityrating:V-0UL94 UL24.) Backplane right Myricom 10G-21U-CLOSMinimumflammabilityrating:V-0UL94 UL25.) Backplane left Myricom 10G-21U-EDGEMinimumflammabilityrating:V-0UL94 UL26.) Backplane right Myricom 10G-21U-EDGEMinimumflammabilityrating:V-0UL94 UL27.) Backplane left Myricom 10G-12U-CLOSMinimumflammabilityrating:V-0UL94 UL28.) Backplane right Myricom 10G-12U-CLOSMinimumflammabilityrating:V-0UL94 UL29.) Backplane left Myricom 10G-12U-EDGEMinimumflammabilityrating:V-0UL94 UL30.) Backplane right Myricom 10G-12U-EDGEMinimumflammabilityrating:V-0UL94 UL31.) Backplane left Myricom 10G-7U-CLOSMinimumflammabilityrating:V-0UL94 UL32.) Backplane right Myricom 10G-7U-CLOSMinimumflammabilityrating:V-0UL94 UL33.) Backplane left Myricom 10G-7U-EDGEMinimumflammabilityrating:V-0UL94 UL34.) Backplane right Myricom 10G-7U-EDGEMinimumflammabilityrating:V-0UL94 UL35.)Power Cord (U.K.) Volex 2922 250V, 10A, 13Afuse, 1mm2-- ASTA,BSIPage 11 of 12 Report No. 30880025.00736.) Power Cord (Germany / Europe) Volex orequivalent17850or equivalentRating: 300V, 10A,1.0mm2-- VDE, N, FI, S, D, I37.) Power Cord (U.S.) Volex 17504 125V, 15A, 14AWG-- UL,CSA38.) Power Cord (Japan) Feller 5330-440 125V,15A,2.0mm2-- DENTORI39.) Transceiver (10G-SW32LC-16Q/10G-THRU-16Q/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER)Zarlink ZL60304-MKDA Class I M laser IEC/EN 60825-1 TUV, UL40.) Transceiver (10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-16Q/10G-THRU-16Q)Avago HFBR-7934EHZ Class I M laser IEC/EN 60825-1 TUV, UL41.) Transceiver (10G-SW32LC-8M8ER/10G-THRU-8M8ER/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-8QP8ER)Finisar FLTX8511D3 Class I M laser IEC/EN 60825-1 TUV, UL42.) Transceiver (10G-SW32LC-8M8ER/10G-THRU-8M8ER/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-8QP8ER)Finisar FTLX1411D3 Class I M laser IEC/EN 60825-1 TUV, ULPage 12 of 12 Report No. 30880025.00743.) Transceiver ( 10G-SW32LC-8M8ER/10G-THRU-8M8ER/10G-SW32LC-8Q8ER/10G-THRU-8Q8ER/10G-SW32LC-8QP8ER) Finisar FTLX1412D3BCL Class I laser EN 60825-1EN 60825-2EN 60950-1CSA 60950-1-03CDRHTUV, CSA, FDA44.) Transceiver (10G-SW32LC-8QP8ER/10G-SW32LC-16QP/10G-THRU-16QP)Zarlink ZL60505MJDA Class I M laser IEC/EN 60825-1 TUV, UL45.) Transceiver ( 10G-SW32LC-16ES) Finisar FTLX8571D3BCL Class I laser EN 60825-1EN 60825-2EN 60950-1CDRHTUV, FDA46.) Transceiver ( 10G-SW32LC-16ES) Finisar FTLX1471D3BCL Class I laser EN 60825-1EN 60825-2EN 60950-1CDRHTUV, FDA47.) Transceiver ( 10G-SW32LC-8QP8ER/10G-SW32LC-16QP/10G-THRU-16QP) Tyco Electronics 1985554-x1985861-x1-198554-01-1985861-01-1985861-1Class I M laser EN 60825-1EN 60825-2EN 60950-1CSA 60950-1-03CDRHTUV, CSA, FDA48.) InsulationTape/ used on theinternal chassisadjacent to metalbus bar3M Type 1206 Rated 155˚C UL510 UL49.) Temperature Sensor NationalSemiconductorLM74 3.0V/2.65V to5.5V, -10˚C to65˚C- -50.) Power Distribution Board Myricom 10G-POWERv1.1.Minimumflammabilityrating:V-0UL94 UL END of TEST REPORT。