开关电源中英文翻译

Switching Power Supply User Manual1.IntroductionThis switching power supply is designed for use in a wide range of electronic equipment, including computers, printers, televisions, and many other products that require a stable and efficient power supply.2.Features2.1 Efficient: The switching power supply has a high power conversion efficiency, which reduces energy waste and heat generation.2.2 Safe: The switching power supply has built-in safety features, such as over-voltage protection, over-current protection, and short-circuit protection, to ensure the safety of the equipment.2.3 Compact: The switching power supply is small and lightweight, saving space and making it easy to carry.2.4 Easy to Use: The switching power supply is easy to use and requires only a few simple steps to operate.3.Operating Instructions3.1 Connecting the Power CordConnect the power cord to the back of the switching power supply and insert it into the wall socket.3.2 Turning on the Power SupplyPress the ON/OFF button on the front panel of the switching power supply to turn it on. The power indicator will illuminate to show that the power supply is on.3.3 Adjusting the Voltage OutputUse the voltage adjustment knob on the front panel of the switching power supply to adjust the voltage output to the desired level. The user manual included with the switching power supply provides information on the correct voltage output settings for different equipment.3.4 Turning off the Power SupplyPress the ON/OFF button on the front panel of the switching power supply to turn it off. The power indicator will extinguish to show that the power supply is off.4.Safety Precautions4.1 Do not open the switching power supply or modify its internal components. This could result in electric shock or equipment failure.4.2 Ensure that the power cord is not loose or damaged and that the wall socket is in good condition. Damaged power cords should be replaced immediately.4.3 Do not insert foreign objects into the power socket or power cord to prevent electric shock or equipment failure.。

各种开关英文词汇————————————————————————————————作者: ————————————————————————————————日期:ﻩＡＣsｔatic swｉｔch 交流静态开关ﻫAC sｗiｔcｈ交流转换开关aｕxiliaｒy heａteｒswitｃh 辅助加热器开关ﻫａuxiｌｉaｒy sｗitｃh 辅助开关ﻫauxiliaｒy switchgeaｒ厂用配电装置ﻫbandｓwitｃｈ波段选择器；波段转换开关baｎd swiｔcｈing波段变换ﻫｂanｄ-ｓｗｉｔching频段转换ﻫﻫbanｋswｉｔｃhiｎg 存储库开关ﻫbank-and－wiper switch触排和接帚开关; 触排及弧刷转接器；双动选择器ﻫbaｒｏmｅｔrｉc prｅｓsuｒe sｗitch 气压继电器baroｍetｒic swｉｔｃｈ气压开关ﻫﻫbarrｅｌｓｗiｔch 筒形开关; 鼓形开关bａｓic switcｈinｇterm 基本转换项bat-hａndｌｅswiｔch 铰链式开关；棒球柄开关; 手柄开关batｔeｒｙchargingｓｗitch 充电转换开关ﻫｂatteｒy reversｅｓwｉtｃｈ电池转向电闸ﻫbattery swｉtｃｈ电池转换开关ﻫﻫｂatteｒy-coｎserviｎg switch 节电开关ﻫＢaud raｔｅswitｃh波特速率选择开关ﻫbeamｌｏbe swｉtｃhing波束瓣转换法ﻫｂeａmｓｗｉtch 束开关ﻫbeaｍswitching 波束转换；射束变向; 射束转换法beam switching fｒequency 射束开关频率ﻫﻫｂeam switcｈing ｔube 射束开关管; 射束转换管; 射线开关管ﻫbeam ｓwｉｔｃｈyaｒd束流分配装置ﻫbeam－ｓwitｃhiｎg tube电子注开关管ﻫbeaｒiｎg-sense switch 定向转换开关ﻫｂilａteｒal diode sｗiｔｃｈ双向二极管开关ﻫﻫbilaｔｅｒａｌｓwitching 双通开关; 双向转换ﻫbilｌet swiｔch 坯料分配器ﻫbin ｈｏmｅｓｗitch分页格位开关ﻫﻫbｉnaｒy-coded switch 二进制码开关ﻫﻫｂit ｓwitｃh按位开关ﻫblｏck sｗitｃh 分组开关ﻫblock sｗitching 字组交换bloｃk-swiｔch tｅｃｈnoloｇy 分组交换技术ﻫﻫｂlｏw out sｗiｔch放气开关ﻫｂody switｃhoveｒ(双向犁的）犁体翻转机构ﻫｂraｃｈ-on ｓwitch seｔtinｇ按预置开关转移ﻫbrakｅlａｍp switｃh 刹车灯开关ﻫﻫｂｒaｋe switch制动开关ﻫﻫbraｋing siｇnal switch制动信号开关ﻫbrａnch switch 分支开关; 分路开关ﻫbrａncｈｓwitchboard 分路配电盘ﻫbｒanch tｙｐe switｃh board 分立型配电盘ｂｒａnching sｗｉｔcｈｂoａｒd 并联复式交换机ﻫﻫbrａnｄswitch 品牌转换ﻫｂrａnｄswitｃhｉng转换牌子; 商标转换ﻫﻫｂrand－switchiｎｇｍｏdeｌ牌子改用模型brｅａkdown ｓwitch 故障开关ﻫbｒeakpoint swiｔch 断点开关bubｂle floｗ－steeriｎg switch 磁泡流导向开关ﻫｂubble transfer sｗitｃh磁泡转移开关ﻫbucｋet brigadeｓｗitch 组桶式开关ﻫﻫbｕｆfer intｅrface switｃh 缓冲器接口开关ﻫﻫbuｌl swｉtch 照明控制开关bｕｓbar disconnectｉng swiｔｃh 分段母线隔离开关bus tie switｃh母线联络开关ﻫﻫｂuｓｂａr sectional ｉzing sｗitｃh母线分段开关ﻫｂuｔton switｃh按钮开关ｂy-paｓs switcｈ旁路开关ﻫcabinetｓwｉtｃh 开关箱ｃaｂinet water-pｒｏof ｓwitch 柜式防水开关ﻫcａbiｎet－ｔypeｓｗitch柜式开关ﻫcable lenｇth switch电缆长度转换开关ﻫﻫｃaｇe switcｈｃontroｌ锁定转换控制ﻫcaｌｌassignment switch 呼叫分配器ｃａll sｗｉtch 呼叫开关cam ｓwｉｔｃh凸轮操纵开关; 凸轮开关ﻫcａｍ-opｅratｅd ｓｗｉtｃh 凸轮开关ﻫcaｍｅrａsｗｉtcｈing摄像机切换ﻫcａｍera videoｓwitｃｈiｎg syｓtem 摄像机视频信号切换装置ﻫcanoｐy ｓwitch 天棚开关；顶盖开关ﻫﻫcａｐaｃitivｅapｐｒoach sｗitch 电容式接近开关ﻫﻫcaｒｓwitcｈｉngｅqｕipmeｎｔ空重车交换装置ﻫﻫcaｒ-switcｈcoｎｔrol 车厢开关控制; 笼内开关控制ﻫcarｂoｎbｒeaｋswiｔｃh碳触点开关ﻫcaｒbon sｗｉtch contａct 炭质开关接点ﻫcaｒriage-type swｉtchｇear车架式开关装置ceiｌiｎｇpull switcｈ顶棚拉线开关ﻫceilinｇswitch拉线开关;顶棚拉线开关; 天棚拉线开关ｃｅll switch 电池转换开关ｃｅllular ｓwｉtch bｏarｄ分区开关板ｃellularｓｗｉtｃhbｏard 分格式配电盘ceｎtraｌswitｃhiｎg 中心转接centｒａｌiｚing ｓｗiｔcｈ集中开关ﻫﻫｃｅntrifugaｌｓtaｒting ｓwｉtcｈ离心式起动开关centｒifugal switｃh 离心开关;离心式开关ﻫｃentrifuｇaｌsｗitｃｈｉｎg 离心切换ﻫchain bilｌetｓｗitch 链式坯料分配器ｃhａin-ｐｕlｌsｗitch 拉线开关ﻫchaｌleｎge switch 振铃电键；呼叫开关ﻫchanｇｅ-tune sｗitcｈ变换调谐开关ﻫchangeｏver switｃｈ转换开关; 转接开关ﻫｃhangeoveｒswｉtcｈｃｏｎtroｌler 转换开关控制器cｈanging swｉtch 转接开关ﻫchannel sｗｉtch波道开关ﻫchannel switcｈer 频道转换电路; 频道转换开关ﻫchannel-sｗitｃhing equｉpmｅｎt波道倒换机ﻫchargｅs switcｈ充电开关ﻫﻫchopｐｅr ｓwitch 刀形开关ｃiｒcuit chａｎging ｓwitch 电路转换开关ﻫﻫcircｕit swｉtcｈ电路开关; 电路转接ﻫcirｃuit switcｈeｄｎｅtｗｏrk 线路开关网ciｒcｕｉt switching 线路交换; 线路转接; 电路转接ﻫciｒcuit－chａnｇing switｃh 换路开关cistern with ｃoｖer ａnd switch handle带盖及开关拉手水箱ﻫclａpperｓwitcｈ铃锤式开关ﻫｃｌｅａｒkey switch 清机键盘开关ﻫｃlear swｉtｃh 清除开关ﻫclip－ｓpｒiｎg swｉtch 弹簧开关ﻫﻫcｌoｃkｓｗｉtｃh 时间开关ﻫclｏsiｎg sｗitcｈ闸刀开关ﻫcluｓter switcｈ组开关coaｘiaｌswitch 同轴开关ﻫﻫcoｃkeｄswｉtｃｈ待动开关ﻫcode switch 代码开关；码开关; 码条式接线器ﻫﻫcoｄe switcｈａutomatic telephone sｙstｅｍ码条式自动电话交换机ﻫﻫｃｏｌour ｓwｉtｃhinｇ颜色变换; 彩色图像开关ﻫcomｂｉnatｉoｎsｗitcｈ复合开关ﻫcoｍbineｄlinｅｓwitchboard 结合寻线机台; 混合接续制开关台coｍbｉned ｓwｉtcｈ组合开关ﻫcｏmmanｄsｗitch 命令开关common battｅry switchbｏａrd 共电式交换机ﻫﻫcomｍoｎｃｏntroｌswitchｉng arraｎgement (C ＣSA) 公共控制开关装置; 公用控制交换网;公用控制转换设备coｍmuniｃation switｃhinｇ通信转接ﻫﻫｃommuｎicａtｉon switchｉng uｎｉｔ通信转接部件ﻫｃoｍmｕtator sｗｉtｃh 换向开关;换向器开关; 按序切换开关ﻫｃoｍpiｌｅr swｉtch编译程序开关ﻫcｏmｐｌｅmentarｙlogic switcｈ互补逻辑开关compouｎｄａutomaｔic ａir swiｔｃh 复合自动空气开关ﻫcompressor togglｅswｉtch压气机扳钮开关ﻫcondｉtiｏｎｓwitｃh 情况选择开关ﻫcｏnference tｅlephｏneｓwitch system 会议电话汇接机ﻫﻫcoｎsole switｃh 控制台开关; 操作开关ﻫcｏｎsｔruｃtion oｆswitch 开关结构cｏntaｃｔswｉtch 接触开关; 触簧开关ﻫｃontactoｒｓwiｔching staｒter 接触器开关起动器ﻫcontｅxt ｓwｉtch上下文开关; 上下文转换；关联转换ﻫcｏnｔext switcｈｉng 关联转换; 上下文开关程序; 上下文转换ﻫﻫcontrｏｌlimit swｉtch 控制极限开关; 极限控制开关ﻫﻫcｏｎｔrol sｗitch总开关；主令开关ﻫcｏnｔrol sｗitｃｈinｇｐoinｔ(CSP)控制交换中心; 控制开关点；控制切换点ｃord switch 拉线开关ﻫcoｒd-pull sｗitch 拉线开关ﻫcorｄｌｅss switｃhboaｒd 无塞绳交换台coreｓwitｃｈcircuit 磁芯开关电路; 磁心开关电路ﻫcoｒe－swiｔchiｎg ciｒcuit 磁心换向电路ﻫﻫcｏunter ｓwitｃｈ计数开关ﻫﻫｃoupｌed ｓwｉtch 联动开关ﻫcraｄle switch 活动开关ﻫﻫcrane switｃｈ起重机开关ﻫﻫｃroｓs baｒsｗitch交叉开关cｒosｓ-switｃh 十字开关crｏssｂar swｉtｃh 纵横开关; 纵横式交换器ﻫﻫcrowbar sｗｉtｃh 撬杆开关ﻫﻫcryｓtａｌｍarkeｒswiｔｃh 晶体指示开关ﻫcｒyｓtａｌsｗiｔｃｈ晶体开关ﻫｃubiclｅswitch 组合开关; 室内开关; 室内用配电箱cｕbicle switchboａrd 开关柜ﻫｃｕbｉclｅswitcｈgeaｒ组合开关装置ﻫｃumuｌaｔive sｗitchiｎg ｏff 累积断开ﻫcurrentｌｉmit swiｔｃh限流开关ﻫcｕrreｎt moｄｅswｉtｃh 电流型开关ﻫｃurrenｔsｅlected switcｈ电流选择开关ﻫcurrent switcｈ电流开关ﻫﻫｃuｒrent-controｌlｅd ｓwitｃｈ电流控制开关ﻫcut－off switch 切断开关; 断流开关;断路接触器ﻫｃut-out swｉｔch 断路开关; 断路器ﻫﻫｃutterｓwitcｈ截煤机起动器dａta mｅssage sｗitｃhing systeｍ数据通路交换系统ﻫdata samｐlingｓwitch 数据采样开关ﻫﻫｄａta ｓｗitch 数据转接ﻫdata switｃhing 数据交换ﻫdaｔa－ｓｗｉｔcｈing center 数据交换中心; 数据转换中心ﻫdeaｄｆrｏｎt switcｈｂｏaｒd 面板无接线的配电盘ﻫdeaｄfrｏnｔtype swｉtchbｏard 固定面板式配电盘dｅad－enｄsｗitch 终端开关; 空端开关ﻫｄｅbug switｃh 调试开关ﻫdeｃade switｃh十进位开关ﻫdeｃｋswｉtch 同轴开关ﻫﻫdefeａt ｓwitch消除开关ﻫﻫdｅｌay-actioｎsｗitch 延迟动作开关ﻫdeｒａｉliｎg ｓwｉtｃh 开关器ﻫacｃess sｗitcｈ进入开关ﻫｄiaｌswitch拨号式开关; 拨码盘式开关; 盘式开关ﻫdiaphragm switch 薄片开关ﻫDicke swｉｔch 迪克开关ﻫdesｋswitcｈboard台式配电板; 台式配电盘digｉt ｓｗitchiｎg 数字交换ﻫdigitａl switch数字开关ﻫﻫdigital switｃhｉng 直接数字交换ｄim sｗitch减光开关ﻫdｉoｄe-sｗitｃh二极管开关ｄipping switｃh 减光器开关; 近光开关ﻫdirecｔｓｗitching stａｒtｅr直接开关启动器ﻫｄirect ｓｗitchiｎg-ｉn 直接合闸ﻫdireｃt-on-lｉｎe sｗｉtｃhing 直接合闸; 直接起动direction contｒoｌsｗiｔch 换向开关ﻫdｉrection switch方向开关; 升降开关disaｂlｅswitｃｈ禁止开关ﻫﻫdisabled motoｒsｗitch 电动机故障断路器ﻫﻫｄｉｓabｌedｓwitｃh 禁用开关ﻫｄischａrｇe swiｔｃh 放电换接器disｃｏnｎeｃｔｉng sｗitch 断路开关; 阻断开关；隔离开关ﻫｄiｓcｏnnectｉｎg switch rｅvｅrｓer 隔离反向器ﻫdiscｒepａncy ｓwitcｈ差速开关ﻫdｉstant switching-in远距离合闸ﻫﻫdiｓtｒibｕtedｍｅssaｇe switcｈiｎg ｓystｅｍ分布式报文交换系统ﻫｄistriｂｕtｅd paｃｋet ｓwitcｈiｎg 分布式包交换ﻫｄｉstribｕtiｎg swiｔcｈ电流分配器ﻫdiｓｔrｉbution ｓwitｃhｉnｇｍｅｔwoｒｋ分配接续网络diｓtｒｉbuｔor sｗitching转换分销商ﻫdiverter swｉtch 转换开关ﻫﻫdomain-ｓwiｔchiｎg prｏceｓs磁畴开关过程ﻫdomaiｎ-wall sｗｉｔｃhｉｎg 畴壁翻转ﻫdoｏｒinterｌock ｓwitｃｈ门锁开关door ｓwitｃh 门动开关; 门开关ﻫﻫdouble bｌadeｄｋnife switch 双闸刀开关ﻫﻫｄoubｌe control sw ｉtch 双控开关dｏuble sｗiｔｃh 两路开关ｄｏｕbｌe ｓwitｃhｃaｌｌ双转换呼叫ﻫdouｂｌe-bank swiｔch 双触排开关ﻫﻫｄoｕbｌe-breaｋｓｗiｔch 双断开关ｄouｂｌｅ－coinciｄencｅsｗitch 双重合开关; 二重符合开关ﻫﻫdouble-pｏｉnt ｓwｉtch 双刀开关ﻫｄoｕble-pole dｏubｌe throw switch双刀双掷开关(dpdｔswitｃh)双极双投开关(dpdｔｓwitｃh) 双极双投开关ﻫﻫ(dpst swｉtch) 双极单投开关(dpst switｃh)双极单投开关ﻫdouble-polｅswitch 双刀开关; 双极开关doublｅ-slip sｗitｃh 双动转辙器ﻫｄoｕｂlｅ－ｔhrow disconnｅｃting switcｈ双投隔离开关ﻫﻫdｏｕｂｌe-tｈrｏｗsｗｉtch 双投开关；双掷开关ﻫﻫdrａw-out meｔal-clad sｗｉtchｇeaｒ拉出式铠装开关装置ﻫﻫｄｒａｗ-out swiｔchb ｏard 抽出式开关板ﻫdrum switｃh 鼓形开关ｄual presｓure ｃｏnｔｒｏl sｗitｃh高压控制开关ﻫduaｌ－eｍiｔtｅr sｗｉtch 双射极开关ﻫdust-proof ｓwｉtｃhgｅaｒ防尘式开关装置ﻫﻫｅarthｉng swｉｔcｈ接地转换开关ｅffectiｖｅsｗｉｔcｈing field 有效开关场eleｃtｒiｃdｉal ｓｗitch 电动拨号开关ﻫelectric ｓwｉtcｈ电开关; 电器开关ﻫeleｃtｒｉc ｓwitch boarｄ电掣板ﻫeｌeｃｔricｓｗitｃh cirｃuit ｃontroller 转辙电路控制器ﻫelectrｉc sｗｉtch heater 道岔电热器ﻫﻫelectric sｗitch lock 电锁ﻫﻫｅlｅcｔric sｗｉｔｃｈmａch ｉne电动转辙机ｅlectric ｓwitｃh mｅｃhａnism 电动转辙机ﻫeleｃtric sｗitch oil电键油ﻫﻫelectriｃswitcｈiｎg locoｍotｉve 调度电力机车eｌeｃｔric traｉlable switch ｍａｃｈｉｎｅ可拉式电动转辙机ﻫｅlectｒｉcal switｃhｉｎg 电气开关ﻫeｌectro-optic ｓwitch 电光开关ﻫelectrｏ-ｏpticａl switcｈ电光开关ﻫelectrｏlytiｃｓwiｔｃｈ电解开关ﻫelｅcｔｒomagnｅtｉc soleｎoｉd switch 电磁螺线管开关ﻫﻫｅleｃｔromａgｎetｉc switch电磁开关ﻫelｅｃtｒoｍechaniｃａl selectｏr swｉtcｈ机电选择机键ﻫﻫelecｔroｎsｗitch电子开关ﻫelectrｏnic AＣswiｔｃh 交流电子开关ﻫﻫｅlectronｉc auｔomatｉc swiｔcｈ电子自动开关ﻫelectronｉc dａtａ-swiｔchinｇcenｔer 电子数据交换中心electroniｃsａmpling switcｈ电子取样开关;电子转换器electroｎiｃswiｔch 电子开关ﻫｅlectroniｃswitch bｏarｄ电子交换台ﻫelectrｏnic ｓｗiｔchinｇ电子交换设备；电子开关作用eleｃtrｏｎic sｗitching center 电子交换中心elｅｃtroｎic sｗitcｈing syｓｔｅm 电子交换装置electｒoｎic swｉｔcｈing sysｔｅm(ESS) 电子交换系统; 电子转换系统；电子转接系统ｅｌecｔronic ｓｗitching tｕbe电子开关管ﻫﻫeｌeｃtrooptical swiｔcｈ电光开关ﻫelectｒｏoptical sｗitcｈing 电光开关elecｔｒｏpｎeuｍａtｉｃswiｔch电动气动开关ﻫelecｔropnｅuｍatic switｃｈapｐaraｔｕs 电动气动转辙机eleｃtropneumatｉｃswｉtｃｈcirｃuit controller 电动气动转辙电路控制器ｅlectrｏpｎeｕmatｉc swiｔch macｈine 电动气动转辙机；电动气动转辙机器ﻫeleｃtroｐnｅumatiｃｓwｉtcｈoperａtｉng appaｒａtｕs 电动气动转辙机eｌectｒopneｕmａtic traｎsｆｅr swiｔcｈ电动气动转换开关ｅlecｔｒｏsｕｒgicａl switcｈ-ｉng knife电动转换手术刀ﻫｅlｅｖatｉon stｏwing swｉtｃｈ仰角限制器ﻫemergency brake switch紧急刹车开关; 紧急闸开关ﻫemergｅncyｐushｂｕtton switch 备用按钮开关ﻫｅｍeｒgencｙｓtoｐsｗｉtch 紧急停车开关ﻫemergｅncy ｓwitｃｈ紧急保险开关; 紧急开关;应急开关ﻫemeｒgenｃy switchｂoarｄ应急配电盘ﻫﻫｅmｅｒgｅｎcy ｓwitching-ofｆ应急切断; 事故切断ﻫeｍｅｒgency tｅrmｉnａl switch 终端安全开关ﻫﻫｅmeｒgency tｒip swｉtch紧急脱钩开关eｎclosｅｄknife swｉｔch 铁壳开关；封闭式闸刀开关;金属盒开关ﻫﻫenclｏsｅd switcｈ封闭式低压开关; 封闭型开关ﻫencloｓed swiｔcｈboard 封闭式配电盘ｅnd ｃell ｓwiｔｃh 末端电池转换开关ﻫｅｎgage switch 啮合器ｅngageｄｓwｉtｃh接通开关ﻫﻫengine hiｇh ｔemｐeraｔｕrｅalarm switch 发动机高温告警开关ﻫenginｅｏｖeｒspeｅd swiｔch 发动机超速开关ﻫﻫeｎgine start switch 发动机起动开关equalizｅr ｓｗｉtch均衡开关; 均衡开关; 均压开关；均压开关ﻫｅquipmｅnt cｏntｒol sｗiｔcｈ设备控制开关ﻫEuropｅan swｉtchiｎg neｔwork 欧洲交换网络ﻫexhauｓt by-pａsｓｖａlｖeｃontroｌwiｒe swｉｔch 排气旁通阀控制线转环ﻫexit switｃｈactuator出纸口开关致动器ﻫexpendiｔuｒe-switｃhinｇｐoliｃieｓ支出转移政策ﻫexpｅrｉmenｔalｅleｃｔrｏnic switcｈboaｒd 实验电子交换机ﻫeｘｐerimental pａckｅt ｓwitchiｎg servｉcｅ（EPSS) 实验包交换业务; 包交换实验网络ﻫexplodiｎg fiｌm Q－switｃhing 爆炸膜Ｑ开关ﻫexｐlosion-prｏof sｗｉtｃh 防爆式开关ﻫfａst sｗitch over快速转接faｓt－ｓwiｔｃhｉng arｒａngｅment快速开关装置ﻫﻫfeｅd－through switcｈ穿线开关ﻫfｅeder switch 馈路开关ﻫfeeler ｓwitch测试键ﻫfeet switch 地脚开关ｆerreｅd switcｈ铁簧开关fieｌd break-up swiｔcｈ励磁分段开关field ｂｒeakiｎgｓwitch 削磁开关ﻫfiｅｌｄswｉtｃｈ场开关；励磁开关ﻫfieｌd-brｅaｋing swｉｔｃh 消磁开关ﻫfield－dｉschargｅｓwitcｈ消磁开关ﻫｆiｅｌd－effecｔcｏntrolｌed sｗitｃh场效应控制开关fiｅld-ｓpliｔting sｗitch分场开关ﻫﻫfilaｍenｔsｗitｃｈ灯丝开关ﻫfｉlm optｉcal switch 薄膜光开关ﻫｆilm Q-swｉtchｉｎg 薄膜Q开关ﻫｆｉlter-coupler-switch-ｍｏｄuｌaｔor 滤波耦合开关调制器ﻫfinａl contact sｗiｔｃh 最后接触开关；精磨用接触开关ﻫﻫｆiniteｓwｉtｃhｉng tiｍe限定开关时间ﻫﻫｆiring swｉtch起动开关ﻫfirst liｎe switch 第一预选器ﻫｆixed trip switｃh 手动跳闸开关ﻫｆixeｄtypｅmetａl-ｃlad sｗiｔchgear 固定型铠装开关装置flaｇswｉtch旗形开关ﻫｆlaｍe-ｐroof ｓwiｔch防爆开关ﻫflaｔswiｔｃhbｏard 平面交换机ﻫｆlｏat ｏpｅｒated ｅｘｐlosion-pｒｏｏf mercurｙswｉtch 浮子操动防爆水银开关ﻫflｏaｔoperａteｄswｉtｃｈ浮子控制开关ﻫfloat switch 浮动开关; 浮控开关；浮球开关ﻫﻫfloat－cｏnｔroｌledｓwitch浮子控制开关floor ｐatteｒn maｇｎeto telephone switｃhbｏaｒｄ磁石落地式电话交换机ﻫfｌooｒswitch 平台开关; 层位开头ﻫﻫｆloor type swｉtｃhboaｒd 固定式交换机ﻫﻫfloｗcontｒolｓwitch流量调节开关flｏｗｓｗitch 流量开关; 气流换向器fluｉｄｉc switcｈ射流开关flｕsh snap－swｉtch埋装式活动开关ﻫｆlｕsｈｓｗitch 嵌入开关;埋入式开关；埋装开关fluｓh－swｉtch 平装开关ﻫfooｔ(ｐedal)sｗitch脚踏开关ﻫfooｔswｉｔch脚踏拍子开关ﻫfoot switch sｅlecｔor 脚踏拍子开关选择钮ﻫfoot-swiｔch 脚踏开关fｏrｗａrd sｗitcｈing lｏsｓ正向开关损耗ﻫfoｕr-channel ｓwitcｈ四路转换开关ﻫﻫfour-lａｙer sｗitcｈ四层开关ﻫｆｏur-ｐoint sｗitch 四接点开关ｆouｒ-wａy ｓwitch四路开关; 四通开关ﻫﻫｆour-wire crosｓbar swｉtcｈing syｓｔｅm 四线纵横交换制ﻫﻫfour－wｉrｅｓｗｉtｃｈｉｎｇ四线制交换ﻫﻫｆｏuｒ－ｗiｒｅsｗitｃｈing cｅntre 四线制交换中心ﻫﻫｆｒａｍe-type swｉtｃh-board 骨架式配电盘ｆreｑｕenｃy swｉtｃhing 频率开关ﻫfroｎt ｃoｎnected ｓwitcｈ前面接线开关ﻫfｒonｔporch sｗｉtｃhｉnｇ前肩切换; 前沿切换ﻫfueｌcｕｔｏfｆswitch 燃料停供开关ﻫﻫｆｕeｌgａ(ｕ)ge control switｃh 油表操纵开关ﻫfuel-ｐreｓｓuｒe switｃh 燃油压力开关ﻫfｕll eleｃtronic sｗitching 全电子式交换ﻫfulｌelecｔrｏnic swｉｔcｈing syｓteｍ全电子电话交换机系统；全电子式交换制ﻫfull time ｍessage ｓｗitchｉng 全部时间消息交换ｆｕｌｌy autoｍatic reperｆorator sｗiｔchiｎｇ全自动复凿孔机交换制ﻫfｕlly ａutomatic switｃhing全自动交换fuｌｌyａutomatic swiｔching nｅtｗｏrk 全自动交换网ﻫﻫｆｕlly auｔomatic ｓwiｔchｉng system 全自动交换系统ﻫｆunctionｓwitｃh 操作开关；函数开关ﻫｆunctioｎal sｗiｔch 功能开关; 逻辑开关ﻫfｕｓe dｉsconnｅctｉngｓwiｔcｈ熔丝隔离开关fｕse switｃh 熔丝开关ﻫfuse-sｗitch unit 带保险丝的开关fused ｓwitｃｈ保险开关ﻫfusiｂｌｅdiｓconnecting switcｈ熔线式隔离开关;带保险丝的断路器; 保险丝断路器ﻫfｕsｉble ｓwｉtcｈ熔丝开关ﻫﻫfusiｂlｅswitｃh power pａnｅl 熔丝开关动力箱fuzｚy switchinｇｆunｃtioｎ模糊开关函数ﻫＧｓwitch 惯性开关gaiｎswitch 增益开关ﻫgaiｎ－ｓelｅcｔｏr swiｔｃh 增益选择开关ﻫgａng swiｔch 同轴开关ﻫgaｎg（ed) ｓwitch 联动开关ﻫﻫgaｎged switch 双联开关ﻫgapping ｓwitch 桥接开关ﻫgas gauｇe swiｔch 汽油表开关ﻫﻫgas tｈeｒmoｓtatiｃswitｃh 气体恒温开关gaｓ-dｉoｄe swiｔch 充气二极管开关ﻫﻫｇａsoliｎe gauge ｓwiｔch 汽油油量表开关ﻫﻫgate contｒｏlｌed sｗiｔｃh 门控开关; 键控开关ﻫgatｅouｔswiｔch 出口开关ﻫｇaｔe ｓwｉtch 门开关ﻫﻫgate-coｎtｒolled switｃh(GCS) 闸控开关ﻫﻫgaｔinｇsｗitch 选通开关ﻫgｅar ｅｎｇaginｇswitch 合齿开关ﻫﻫgeaｒed liｍｉt switch 齿轮传动的限制开关ﻫﻫgｅnｅraｌｓwi ｔｃhｅd ｔelephoｎｅｎetwｏrｋ通用电话网glassｓwitｃh 玻璃开关ﻫﻫglobａl swｉtch 整体开关ﻫgloｗｓwitch 辉光放电开关; 引燃开关ﻫｇlｏw-sｗitｃh staｒter辉光点燃器；辉光启动器goｖernor sｗitcｈ调速器开关ﻫgｒaph of a fuzｚｙｓwiｔchｉng funcｔｉon模糊开关函数的图ﻫﻫgｒaph of fuｚzｙ-swｉtｃhｉｎg fuｎｃtｉons 模糊开关函数图ｇｒavｉｔy sensing sｗitch重力传感开关ﻫgrｏup line switch 区组预选器; 分组预选器grｏup ｓwiｔch 组开关ﻫgrｏup sｗｉtｃhboaｒd 组交换台ﻫﻫguarded switch 保险开关ﻫｈalt swiｔch 停机开关hand switch手动开关hand switcｈｂoｘ手动搬道机ﻫhａｎd-opｅratedｓwｉｔｃh 手动开关ﻫhaｎdwheel ｓwitcｈ手轮开关ﻫﻫhard-switcｈmodｕlａtor刚性开关调制器head sｗitch 读头开关ﻫheaｄlight swiｔch 头灯开关ﻫﻫhｅaｄｌiｇｈt sｗiｔｃh ｋnob 头灯开关钮heat swｉtcｈ热开关ﻫｈeａtｅr aｉr fｌow pressure swｉtｃｈ加温气流压力开关ﻫheater swｉtch加热器开关ﻫhｅｒmeticaｌlｙｓealed ｓｗｉtchbｏx密封式开关箱ﻫﻫhｉgh fｒequency ｒoｔａtinｇｓwiｔch 高频旋转开关ﻫhｉgh leｖeｌｓwiｔch 高液位开关ﻫhigh power swｉtｃhing device大功率转换设备ﻫhｉgh ｓpeeｄａiｒswｉｔcｈ高速空气开关high speed oｐtiｃａl switｃh 高速光学开关hiｇh ｓpeed-opticａl switch 高速开关hiｇh ｔemｐeｒature limiｔswitｃh高温限制开关ﻫhigｈtｅnｓioｎｓwiｔch ｃabinet 高压开关柜ﻫｈigh tenｓiｏn ｓｗiｔｃｈgear 高压开关柜ﻫhiｇｈtensioｎswitchｂｏａrd 高压开关板hｉｇh vｏlｔage loａｄdｉｓcoｎｎeｃｔing switch高压负荷切断开关ﻫﻫhigh ｖoltａgｅloaｄsｗiｔcｈ高压负荷开关ﻫhｉｇh volｔaｇe switcｈ高压开关ﻫｈｉgh voltaｇe switchｃabinｅｔ高压开关柜ﻫhigh voｌtaｇｅｓwiｔchbｏａｒd 高压开关板ﻫﻫhigｈ-currｅnｔswitcｈ大电流开关ﻫﻫhigh-frequen ｃy change oveｒswｉｔch 高频转换开关ﻫｈigh-lｏw-rａnｇe sｗｉｔｃｈ高低量程转换开关ﻫｈiｇh－sｐeｅd dｉvｅｒｔer swｉｔch高速分流器开关ﻫhigh－ｓｐeeｄswitcｈ快速开关ﻫﻫhigh-tｅnsiｏn oil switcｈ高压油开关ﻫhｉｇｈ-ｔension swｉtcｈ高压开关hｉgh-tension switch ｃabinet 高压开关柜ｈigh－ｔenｓｉon swｉtch geaｒ高压开关设备;高压开关装置ﻫﻫhigh－ｖacｕｕm ｓwitchinｇtuｂe 高真空开关管ﻫﻫhigh-voｌｔaｇｅceramｉc vａｃuｕm switch tuｂe高压陶瓷真空开关管high-ｖoｌtaｇｅlｏad switch高压负荷切断开关ﻫhiｇh-vｏｌｔａｇｅsｗｉtch caｂinet 高压柜ﻫhiｇh－voltａｇe ｓｗitch gｅar 高压开关设备ﻫﻫhｉgh－volｔage swiｔchboard 高压板ﻫﻫｈigｈwａy swiｔcｈing 多路交换ﻫhoist baｃｋ-out switch吊车退回开关ﻫhｏｉst slaｃk－brake ｓwitch吊车制动器过松开关hold ｒｅｓet sｗｉtch 复位保持开关ﻫｈold switｃh ｔｒansｉstoｒ保持开关晶体管ﻫhｏmｅoｆfiｃｅswiｔｃh 防电击开关ﻫhoｍinｇtype lｉne sｗitcｈ归位式导线机ﻫﻫhook switch 钩键；挂钩开关;叉簧horizoｎｔａｌbreak sｗitcｈ水平断路开关ﻫhorizｏｎtａl draｗ－oｕt mｅtａlｃｌad switchgｅaｒ水平抽出的铠装开关装置ﻫhｏrｎｓｗiｔch喇叭开关ﻫhoｒn switｃh ｂuttoｎ喇叭按钮开关horn-ｂreaｋswiｔｃｈ角形开关; 灭弧角开关;锥形开关ﻫﻫhoｒn-gap swiｔch 角隙开关ﻫｈｏspitaｌｓwitch 故障转换开关; 自动转换开关ﻫｈot overｒide sｗitｃｈ热断开关ﻫﻫhot－wｉrｅvaｃｕum switｃh 热线式真空开关huｍp sｗitching 驼峰调车法huntinｇｓwiｔcｈ混合选择器hydraulｉc prｅssure swｉtch水压开关ﻫIF switｃｈiｎg 中频转换ﻫignitｉon ｓｗitｃh 点火开关ﻫｉlluminated diagrａm swiｔch boarｄ照明配电盘ﻫｉｌｌuminａted ｓwitch 发光开关ﻫimaｇe swｉtchinｇ图像切换ﻫﻫimｍersible swｉtｃｈgeaｒ潜水开关装置impaｃt crasｈswiｔch 撞击应急开关ﻫiｍpａｃt iｏnizａtion swｉｔch 碰撞电离开关ﻫimpaｃｔｓwitch 碰撞式开关ﻫimpulse ｓｗiｔcｈ脉冲开关；冲击式断路器inｃhｉng switch 微动开关inｃｏｍｉｎg ｓeｌｅcｔor swiｔch 入局选择开关ﻫﻫindeｐｅndeｎt swｉtｃｈ独立开关ﻫindicａtor swiｔch 指示器开关ﻫiｎｄｏor coｍｂined loaｄswｉtｃh户内式组合负荷开关indooｒｈｉgｈ-voｌtage isolaｔing sｗitｃh户内高压隔离开关ﻫﻫiｎdoor single-pｏle isolatiｎｇｓwiｔcｈ户内单极隔离开关ﻫﻫinductanｃe apprｏaｃh switch 电感式接近开关ﻫｉｎdｕctancｅswitｃh 电感转换开关ﻫｉndｕctive ｓｗitch 感应开关ﻫｉneｒtia of transistor swｉtcｈｉng circuit晶体管开关器的惰性ﻫﻫｉnerｔia sｗｉtｃｈ延时开关ﻫiｎertial ｓwｉｔch 惯性开关ﻫinｉｔial prｏgram lｏad mｏｄe switch 初始程序装入方式开关ﻫinsertion swｉtch引入开关; 插入开关iｎstanｔ－on switｃh 瞬动开关ﻫinｓtaｎtａneous ｓｗitcｈ瞬时开关ﻫﻫｉnstaｎtａneｏus switｃｈｉnｇ瞬时转换ﻫﻫinsｔrument switch仪表开关ﻫｉnｔegrａted ｏpｔical switcｈ集成光学开关ﻫﻫinteｒｃommｕniｃatioｎｐlug swｉtｃhｂoard内部通信插塞式交换机ﻫiｎtercommunicａtioｎswｉｔch内部通话开关ﻫintｅrconｎｅctｉoｎswiｔｃh 联络开关iｎterfacｅｓｗitch 接口开关ﻫiｎteｒlｏcｋswitch 联锁开关ﻫﻫinｔerｌockeｄswｉｔch 联锁开关ﻫinteｒlocking ｓwｉtｃh gｒoup 联锁组合开关ﻫｉnteｒｍｅdiateｓwitｃh中间开关ﻫinｔeｒmediａte ｓｗitchiｎｇｓtａｔion(输电线的)中间开关站ﻫinternａl Q-swiｔch 内腔Q开关ｉnternal switch内部开关ﻫｉnｔerrupt ｐuｓh switｃｈ中断按钮开关ﻫintervenｔiｏn switch 应急开关; 应争保险开关ﻫﻫirｏn coverｓwitｃｈ铁壳开关ﻫﻫiroｎ(-）clad switc ｈ铁壳开关iron(－)ｃlad switｃｈgｅａｒ铁壳开关装置ﻫﻫｉｓolａted phasｅswitｃh gｅａr 隔离相开关设备ﻫisoｌated phase sｗitcｈgｅar 分离相位开关设备ﻫｉｓolaｔing switｃｈ隔离开关; 切断开关jack ｓwitch 插塞开关ﻫﻫｊeｔｓwｉtchinｇ射流转换ﻫkey switch 电键开关；钥匙开关; 琴键开关；键开关ﻫﻫｋey-liｆting ｓｗitch 扳键开关ﻫｋeyｌock ｓwitch 钥匙锁定开关kicｋdown sｗｉtｃh 低速档开关ﻫkiｃk-down switch加速系统自动开关ﻫkicｋ-dowｎsｗiｔch pｌungeｒ加速系统自动开关柱塞ﻫﻫkiｃkdoｗn swｉtch fixed terminａｌ加速系统自动开关接线柱ﻫkiller switch 断路器开关ﻫknife oｆswitch开关闸刀ﻫknife swｉtcｈ闸刀; 闸刀开关ﻫkｎife-ｅdgｅｓwｉtch 刀形开关ﻫﻫknifeｂlade swｉｔch 刀形开关ﻫｌａmｉnated ｂrush swｉtch叠层刷型开关ﻫｌａｍiｎated－brush swｉｔch 刷形开关；叠片开关; 叠片刷触点开关lampｈoｌder sｗitch灯头开关ﻫﻫlamp ｓwｉｔch 灯开关;电灯开关ﻫlａndｉｎｇ-switcｈ层位开头ﻫﻫlaｓer fｒeｑueｎcｙswiｔch 激光频率开关ﻫﻫｌaseｒＱ-switching mechanism 激光Q开关机制ﻫlaseｒ－ｔｒｉggereｄswitｃh 激光触发开关ｌｅad limiｔｓｗiｔch 引先限位开关;行程限位开关levｅl switch 电平开关; 钳拉电平转换；箝位电平开关ﻫﻫlever switｃh 杠杆操纵开关;杠杆开关ﻫﻫｌiｆt slaｃｋ-ｃaｂlｅ－switch电梯行索松断保护开关ﻫﻫlｉght activａｔeｄsilicon sｗiｔcｈ光激硅开关ﻫﻫlｉｇht activaｔed swｉtｃh 光激开关ﻫlｉｇｈｔactive ｓwitch光敏开关ﻫﻫlightａctｉvｅｓwitch光敏开关ﻫﻫlight switch 照明开关; 电灯开关ｌighｔswiｔｃh tｏggｌe 照明开关肘节ﻫlighｔ-couplｅd semi-cｏnductorｓwitｃh光耦合半导体开关light-ｏperated swiｔcｈ光控开关ﻫﻫliｇhｔ－sｅnsitive flaｇｓwitcｈ光电旗形开关ﻫﻫlighting swit ｃｈbｕshing 灯开关衬套ﻫlｉghting switch ｈaｎｄle 照明开关手柄lｉghting switｃｈopｅrating spｉder 灯开关操作十字架ﻫlｉｇhｔiｎg switchｇｅａr 照明开关装置ﻫlightｎing sｗitch 避雷开关ﻫlimiｔswitcｈ限位开关;限制开关；极限开关；终端开关ﻫlｉmit ｓwｉｔches guａrding progrｅssive diｅ限位开关保护的连接模ﻫｌine discoｎnectｉnｇswｉｔｃh 线路隔离开关ﻫlinｅswｉtch 寻线机; 预选器ﻫline sｗｉtchｉｎg 线路交换；线路开关; 传输线路开关line ｓwitcｈing cｏnｃentrator 线交换集中器；线路交换集中器ﻫｌｉne swiｔcｈｉｎｇtecｈniquｅ线路转换技术line-ｂy-lｉｎe switｃh 逐行倒相开关ｌine-by-ｌiｎe sｗitchｉng ｃircuit逐行切换电路ﻫﻫlinｅ-finder swiｔch寻线器开关ﻫline-ｓwｉtch bｏａｒd 预选器架ﻫﻫｌine-ｓwitｃhiｎg tｙｐe线路交换型line-terminａｌｓwｉtｃhboard 线路末端交换台ﻫliｎear ｏｒｄer of gene switｃh基因直线排列ﻫlinｅar selｅcｔｉｏｎswitch 线选开关ﻫﻫｌinear ｓｗitch 线性开关lｉneａｒswｉtching线性开关;断路ﻫﻫliｎkｅd swｉtcｈ联动开关; 连接开关ﻫlｉｑuid lｅvel swｉtch液位开关ﻫﻫlｉve froｎｔsｗitｃhboａｒd 盘面接线式配电盘ﻫﻫｌoad limit switch 负荷极限开关ﻫｌoad selｅctｏｒｓwitch负荷选择开关;负载选择开关ﻫｌoａd shaｒing ｍａｇｎeｔｉc switch 均分负载磁开关; 均分负载磁开关ﻫｌｏad sharing maｔrｉx swiｔch 均分负载矩阵开关; 均分负载矩阵开关ﻫﻫlｏad ｓｈａrｉｎg swit ｃh 负载分配开关loaｄｓwiｔcｈ负荷开关;负载开关ﻫﻫload-break switｃh 负载断连开关ﻫloａd-ｓharing matrix ｓｗitch 负荷分配矩阵开关ﻫloｂe swｉtｃh瓣变换开关;波瓣变换开关; 波瓣转换开关ﻫﻫloｂe ｓwitchiｎg波瓣转换; 射束转换法ﻫlobe ｓwitｃｈiｎg method 波瓣晃动法;波瓣转换法ﻫﻫlobe-ｓwitｃｈｏscillator 波瓣转换开关振荡器ﻫｌｏｃal bａtｔeｒy sｗitｃhboard 磁石式电话交换机ﻫｌocal baｔtery ｔelephｏne sｗitｃｈｂoaｒd 磁石式电话交换机loｃal switｃｈ局部开关; 局部开关; 局部转换; 局部转换ﻫloｃaｌswiｔch ｂoard 市内交换机ﻫｌocａl－ｄｉｓtａnt switch 本地远区转换开关ﻫlｏckedｃoｖeｒｓwitch 锁盖开关ﻫﻫｌoｃkiｎｇswiｔcｈ锁盖开关ﻫﻫｌoｃkoｕt switch 联锁开关logic switchｉng cｉrcｕｉt逻辑开关电路lonｇhａul tｏllｔransit swｉtch长途电话转换开关lｏuｄ-break sｗｉtch 高压大电流开关ﻫloudnesｓcｏnｔrol switｃh响度控制开关ﻫlowｔｅｎsｉｏn ｓｗitch 低压开关low tenｓiｏn switchboａrｄ低压开关板ﻫloｗvoltage switch 低压开关ｌow vｏltａｇe switｃｈboarｄ低压开关板ﻫﻫlow－dutｙ-cyclｅｓwｉtｃh 瞬时转换开关; 短时工作开关low-imｐedaｎce swｉtｃｈｉnｇｔｕbe 低阻抗开关管ﻫﻫloｗ-tenｓion swｉtch 低压开关ﻫｌｏw－tｅnｓioｎswｉｔcｈgeaｒ低压开关装置low－voｌtaｇe ｓwitｃh ｇear低压开关ﻫlumiｎosity-chaｎｇing swｉｔcｈ变光开关ﻫmaｃhiｎｅswitcｈgeaｒ机器开头设备ﻫmａchinｅswｉtｃhiｎg 自动交换ﻫmachiｎe swｉtcｈｉng ｓysｔem 自动交换机ﻫmａgne-ｓwｉtch 磁力开关ﻫﻫｍagｎet reed sｗｉtｃh 磁性舌簧开关ﻫmagnetｓwitｃh电磁开关ｍagｎeｔic ｂeam-switchｉnｇｔｕbe 磁旋管ﻫmagneｔic blow-ｏuｔswiｔｃｈ灭磁开关ﻫﻫmａgnetiｃcｏmbinational ｓｗiｔｃh 磁组合开关ﻫmagnetic mｅrｃuryｓｗitch 磁性水银开关magnetic sｔar dｅlta switch 磁力星形三角开关ﻫﻫｍagnｅｔic sｔartiｎg switｃh 磁力起动开关ﻫｍagnｅtic swｉtch 磁开关;磁力开关ﻫﻫmagｎetiｃswｉtcｈｃｏnｔrｏｌleｒ磁开关控制器mａgｎｅtic switcｈing systｅm磁力开关系统ﻫmagneｔｉｃtape swiｔchｉnｇunit磁带转接部件ﻫmａgnｅtic-cｏre accｅss ｓｗｉtcｈ磁心数据存取开关ﻫmaｇnetic-corｅswiｔcｈ磁心开关ﻫmagnetic-coｒｅswitchｉng tｉｍｅ磁心开关时间ﻫﻫmagnetic-maｔrix switch 磁模开关；磁膜开关; 磁性矩阵开关; 磁阵开关ﻫmａgｎeto switｃｈ磁电机开关ｍaｇｎeto ｓｗｉtcｈboaｒｄ磁石式交换机ﻫmａgneｔo tｅlepｈｏne sｗiｔcｈboarｄ磁石电话交换机ﻫｍaｇneｔron beａｍswｉｔｃhinｇtube 磁控电子束开关管; 磁控注型开关管main ciｒcuｉt sｗitｃh 主电路开关ﻫﻫmain curreｎt tｅrmiｎａl swiｔch 主电流终端开关ﻫmａin ｌiｍit ｓwitch主限制开关ﻫmａiｎstｏraｇeｓwitch 主存储器转换机构ﻫmaiｎsｕｐｐlｙｓwiｔch 总开关ﻫﻫmain switch总开关ﻫmａｉn switch （MS）主开关maｉnｓwitchboard 主配电盘; 总开关盘; 总控制板ﻫmain sｗｉtching compｏund主配电装置ﻫﻫmaｉns swｉtcｈ电源开关ﻫｍaｉntｅnａｎｃe switching维修轮换ﻫﻫmake－ｂｅfｏre－brｅak changeover ｓｗiｔｃh contａｃt 先闭后断换向开关接点ﻫmake-ｂeｆore-break switｃh 先合后断开关ﻫmanｕａl addreｓs switcｈ手动地址开关ﻫmanual cｏmmon bａtｔery sｗitchboａrd 人工共电式交换台ﻫｍanｕal muｌtiple type switｃhbｏaｒd人工复式交换台ﻫｍanual roｔarｙswｉtch 手动旋转开关ﻫﻫｍaｎual safetｙswｉtch （MSS)手控安全开关ﻫﻫmanｕal selｅcｔorｓwitch 手控选择开关ﻫmanual staｒtｅrｓwｉｔch 手控起动开关ﻫmanｕal starｔing sｗｉtch 手动起动开关ﻫｍanual storagｅswitｃh (信号)手控存储开关ｍanual switｃh 手控开关ﻫﻫmanual sｗｉtch storage手动开关存储器manuaｌsｗitchboard 人工交换机ﻫmａnｕaｌsｗitｃｈgroup 手动组合开关manual switｃhing 人工切换ﻫｍanual telegraph ｓwitchinｇequipment 手工电报交换机；人工电报交换机ﻫmａnual tｅleｐhone sｗitcｈｂｏard 人工电话交换机ﻫmanuaｌ-ａutomａtiｃswitch 手动自动开关ﻫｍａnuaｌ-swｉtch storａge 手控开关存储器ﻫmａnually opeｒated sｗitcｈ手扳道岔;手动开关ﻫｍaｒblｅsｗitｃhboarｄ大理石配电盘ﻫﻫmarineｌowｖolｔage swｉｔch 船用低压开关mａst ｓwｉtch 杆上开关masｔer cｏnｔrｏｌsｗitch 主控开关mａstｅｒpower switch 主功率开关ﻫmaster ｓwitch主开关;主控开关; 总开关ﻫmaster switｃheｒ主转换开关；校准用转换开关mａster ｓｗitｃhinｇ主控切换masteｒｓｗitchｉｎg centrｅ主转换中心matrix sｗｉｔch 矩阵开关; 矩阵开关ﻫmeｃhａｎicaｌoptiｃａl swｉtch 机械光开关ﻫﻫmｅchaｎｉｃal Q－sｗitｃh 机械Ｑ开关ﻫmｅdｉum-ｖｏｌtage swｉtcｈgeaｒ中压开关装置meｒｃoidｓｗｉｔｃh 水银开关ﻫmerｃuryｓwitch水银开关mercury switch intｅrlｏck 水银开关联锁装置ﻫmｅrcｕｒy-coｎtaｃtｓwitch水银接点开关meｒcurｙ-weｔteｄrｅeｄswitcｈ水银池簧片开关meｓsaｇe ｓwitch 报文交换; 报文转接ﻫﻫｍessaｇe switchinｇ报文交换; 报文转接;信息转接ﻫｍessagｅswiｔchinｇceｎtｅr 报文交换中心ﻫmｅssage switｃｈing ｃｏｍputer 信息转接计算机ﻫmessage ｓwｉｔchingｐroｃｅｓsor 报文交换处理器ﻫmｅｓsａgｅｓｗitcｈing systｅm 报文交换系统; 信息交换系统mｅssagｅ－switching 报文交接ﻫﻫｍessａgｅ-ｓwｉtching cenｔer 信息转接中心ﻫﻫmeｓsａｇe-swｉtchiｎg netｗoｒk信息转接网络ﻫmｅsｓage-sｗiｔｃhingｓysｔem 信息转接系统ﻫmessａge－sｗｉｔcｈiｎg ｔechnｉqｕe信息交换技术ﻫﻫmeｔeｒscalｅswitch量程开关ﻫmｅｔer sｗitch 仪表开关；仪表转换开关ﻫｍｉｃro-ａctive swiｔch 微动开关ﻫﻫmicro－ｓｗitch 微动电门ｄifferentiaｌpressurｅswｉtch 差压开关ﻫﻫｍｉｃｒosecoｎd swｉtch微秒开关ﻫﻫmicｒowａvｅswitcｈinｇｔｕbeｓ微波开关管ﻫmｉmic-disconneｃｔing swｉtｃh 模拟断路开关; 模拟断路器ﻫｍiniatuｒe sｗｉtch 微型开关minorｓwｉtｃh 小型开关;小型选择器; 小选择器ﻫmiｃrogaｐswiｔch微间隙开关ﻫﻫmodｅsｅleｃtor sｗｉｔcｈ工件状态选择开关ﻫmoｄe swiｔch 波模转换开关; 模转换器; 方式开关ﻫmode switｃｈing波型转换开关ﻫﻫmodulatｉon－type switｃｈed ｔｒanｓponｄer 调制变换转发器ﻫﻫmomentaｒｙｃontactｓwitｃｈ瞬时接触开关ﻫmｏnocｏrd sｗiｔｃh boarｄ单塞绳交换机mｏnoｌｅver switch 单手柄十字形开关ﻫﻫmoｎopｏle dｏuble ｔhrow ｓwｉtch 单刀双掷开关ﻫmonｏpole singｌeｔhｒow swiｔcｈ单刀单掷开关moｔor cｕｔ-oｕt swｉｔch 电动机停机开关ﻫmｏtor ｄrｉvenｓwiｔｃh 电机驱动开关ﻫﻫｍoｔoｒoｆf swｉtch 电动机切断开关motoｒoｎ-ｏff switcｈ马达启停开关ﻫﻫmotor swiｔch 电动机开关; 电动开关ﻫmotor switch ｏil 电气开关油; 马达开关油ﻫｍoｔor-cｉｒｃuit swｉｔch 电动机馈线开关ﻫﻫmotｏｒ-driven ｓｗｉｔｃｈ电动机驱动开关motｏr-driｖen swiｔch－group 机动组合开关ﻫmｏtor－operatｅd sｗｉｔch 电动断路器; 电动开关mｏtorcycle petrｏlｓｗitch 摩托车汽油开关ﻫﻫmoulｄcａse ｆuseｄknｉｆe swｉtch 模型箱闸刀开moｖabｌe swiｔｃh 活动开关ｍｕｌti contａctｓwｉtｃh 多触点开关ﻫﻫｍuｌti－ｂreaｋsｗｉtch or cｉrｃuiｔ－brｅaker 多重开关muｌti-iｎｐuｔｓwitch 多输入开关ﻫmulti－sｐｅed drｕｍswitcｈ多速鼓轮开关multi-vaｌueｄｓｗｉtcｈiｎg thｅorｙ多值开关理论ﻫmultiａperture relucｔaｎce switcｈ多孔磁阻开关ﻫmｕltibｒeａk switcｈ多断点开关ﻫﻫmuｌticiｒcuiｔswiｔｃｈ多路转换开关ﻫｍｕｌｔｉganｇswitch多联开关mｕltipｌe cｏntａcｔswitch 多触点开关；多接点开关multipｌｅｓwｉｔｃhboard 复接式人工交换机ﻫmultiｐle-bｒeakｓwｉtch 多断式开关ﻫmultｉｐle-contacｔswitｃh 多触点开关; 选择器开关ﻫﻫmｕltipｌe－pole sｗｉｔch 多级开关ﻫmultiplｅ-ｓwitch 复联开关ﻫmultiple-sｗitch ｃonｔrｏlleｒ多开关控制器ﻫｍultｉplｅ-ｓｗitｃｈｓtaｒｔeｒ复式电门起动器; 复式开关起动器ﻫmｕlｔipｌe-swｉtch－boａrｄ复式交换机ﻫmultipｌe-way switch 多路开关ｍultiplex swｉtch 多次转换开关；多路传输转换开关ﻫﻫmultipｌexｅr sｗiｔｃh多路复用器开关ﻫﻫmultiｐlexer swｉtch circuｉt多路转换器开关电路ﻫmulｔiｐoint ｓwiｔch 多接点开关ﻫﻫmultｉｐolｅｓwｉtｃh 多刀开关;多端开关;多极开关multiｐｏｓｉｔｉon sｗitｃｈ多触点开关ﻫmulｔitｈrow switch 多掷开关muｌtivaｌued swiｔcｈing tｈeoｒy 多值开关论ﻫmultiｗａfｅred ｓwitｃh 多片开关ｍultiway switcｈ多路开关; 多路转换开关mutｉlpｌe output switｃhiｎg funcｔiｏn 多输出开关函数N-valｕeｄsｗｉtching ｔheory 多值开关理论ﻫﻫｎｅutrａl ｓwiｔch中性线开关ﻫﻫｎight-ａlarm swi ｔｃh夜间信号开关ﻫNo １Ｅlｅctｒｏnｉc ＳwitcｈｉngＳystem (ESS1）电子交换机系统1ﻫno－fuse switcｈ无保险丝开关ﻫno-ｌoad switch 空载断路器no－lｏａd sｗｉtｃhｉng off 无载切断ﻫnｏ-lｏad switching-in无载合闸ﻫnodｅsｗitching 节点转接ﻫﻫnoise canｃｅｌｓｗｉtｃh 噪声消除开关ﻫｎoｉse swiｔｃｈing 噪声倒换ｎon-automaｔｉｃｓwiｔｃｈｉｎg非自动转换ﻫﻫnon-binａｒy ｓwitｃhｉng ｔheorｙ多值开关理论ﻫﻫnｏn-bｌockiｎg swｉｔcｈ非封锁转接设备ﻫﻫnon-hｏminｇsｗｉtcｈ不归位机键ﻫﻫnｏn-ｈo ｍing ｔype lｉｎe switch 不归位寻线机ﻫｎon－hominｇｔypｅｒotaｒｙsｗiｔch不归零位ﻫnon-hoｍinｇ－tｙpe ｒotａｒy sｗｉtch 不归位旋转机键ﻫnon－mｕltｉple ｓwｉtｃｈｂoaｒd 单式交换机ﻫｎon-Q-swiｔchｅd lasｅｒ非Q开关激光器ﻫｎon-saｔuｒａted sｗｉｔｃhinｇcircｕit非饱和式开关器ﻫmiｒror iｍage ｓｗiｔch 镜像开关；镜像开关ﻫﻫnｏｎiｎｓulated swｉtｃh 非绝缘开关ｎｏnｉnterlockｅｄswitch 非联锁道岔nonｍultiple swｉtchboarｄ简式交换机ﻫnonshorting contact switch 无短路接触开关;不短接接触开关ｎｏｎsｔop swｉtch 不停开关ﻫｎｏrmａlｌｙcｌoseｄpush bｕtton switch 常闭按钮开关ﻫnｏｒmaｌly open push bｕtｔon swｉtch 常开按钮开关number switｃｈ数字开关; 号控机ﻫｎｕｍericaｌswｉtｃh 数字开关;号控机ｎut sｗiｔch 螺帽型开关oｉl interｒupter swiｔch 断油开关ﻫﻫｏil prｅｓｓure ｓｈuｔ-ofｆsｗiｔｃｈ油压开关ﻫﻫｏiｌpｒｅssureｓｗｉtch 油压开关ﻫﻫoil pressure switcｈscrew 油压开关螺丝ﻫｏil sｗｉｔch 油开关ﻫﻫｏiｌswiｔｃｈｔｒip 油开关脱扣ﻫoiｌ-bｌａst swｉtch油灭弧开关ｏil-bｒｅak ｓwiｔｃh 油断路器;油开关ﻫoiｌ-ｉｍmｅｒsed sｗitｃh油浸开关oｉｌ-prｅssuｒｅshut-ofｆsｗｉｔch油压遮断器on-ｏff switch 双位开关; 双控开关ﻫone tｏuch switchｅｒ单触转换开关; 单触自动转换开关ｏnｅ－cｅlｌsｗｉｔchｉng单元选通ﻫｏｎe-ｐｏle ｋnｉfe sｗｉｔcｈ单极闸刀开关one-polｅswｉｔch单极开关ﻫonｅ-ｓhoｔｓｗiｔch 单触发开关；冲息开关ﻫone－way phase switcheｒ单向相位转换开关ﻫﻫone－ｗａy pｈaｓe-ｓwitcher 单向移相器ﻫｏｎe-wayｓwiｔｃh 单路开关ﻫoperating switch工作开关ﻫopeｒation coｎtｒol ｓwitcｈ操作控制开关opticaｌfｏcｕｓswitcｈ光聚焦开关; 光学聚焦转换开关ﻫﻫoptical swｉtch光学开关ﻫﻫoptiｃal ｗａｖｅgｕidｅｓwitch光波导开关ﻫﻫoptiｍal switｃh suｒfaｃe 最佳开关面ﻫopｔimum swｉｔcｈinｇfunction最佳开关函数ﻫoptiｍum sｗitchiｎｇｌine 最佳开关线路oｐtionｓwｉtcｈ选择开关ﻫﻫｏptoeｌectronic multiplex sｗitcｈ光电转换开关ﻫﻫoｐｔoｅlectroｎic ｓwitｃh 光电子开关ﻫｏuｔsｗitcｈ输出开关ﻫﻫoｕt－of－sｔｅｐsｗiｔching失步开合outdoor singlｅｐｏle isoｌａｔｉng ｓwitch户外单极隔离开关ﻫｏuｔdoor tyｐe sｗitｃh gｅａr室外开关装置ﻫoutgｏiｎg secｏｎdarｙｌinｅｓwitｃh 出中继第二级寻线机ﻫouｔｇoｉｎｇtｒunk switch 出中继键ﻫｏｖeｒｌoaｄlimｉt sｗｉtch 超载限制开关overlｏad sｗitch 过载开关ﻫoverriｄe switch 超越控制开关overtｒaｖel-lｉmit switch行程开关; 终端开关ovoniｃｍemｏry ｓwitch（OMS) 双向记忆开关ﻫﻫnon-ｓwitcｈｅd netｗork无交换网络ovonｉc ｔhｒesｈｏld swｉtch(OＴＳ)双向阈值开关ﻫpａｃket switch 包交换; 信息包交换ﻫpacket switch (PS)报文分组转接paｃｋet switｃhed data tｒansmissioｎseｒｖｉce包交换数据传输服务ﻫﻫpacket swiｔｃhing 包交换;报文分组交换;分组交换；分组接转ﻫﻫpaｃｋｅｔswitcｈing ceｎteｒ包交换中心ﻫpaｃｋｅt switcｈｉng eｘchangｅ（PSＥ)包交换ﻫｐacket switching nｅtwork 报文分组交换网络; 分组交换网络; 分封式交换网络pａcket ｓwitchｉng proｃessor 分组交换处理机ﻫpacket swｉtｃhing ｐｒｏtocｏl 包交换协议ﻫﻫpacket sｗiｔcｈing ｓervice (PSS) 包交换业务ﻫﻫｐacｋｅt swiｔｃhｉngｓystem 报文分组交换制packet sｗiｔｃhinｇｕnit (PSU）包交换部件ﻫﻫpackｅｔｔｙｐeｓwｉtch 组合式开关ﻫｐａcｋｅt-swｉtｃheｄｄatａｎｅtwork包交换数据网络ﻫﻫpaddｌe lｅｖeｌｓwitｃh 扳钮开关ﻫﻫpanel swｉtch面板开关ﻫﻫｐanel typｅautomａtic sｗｉtch boａrd面板型自动交换机ｐanelｔype swiｔchbｏarｄ面板式开关板ﻫﻫｐarallel iｎveｒter switcｈ并联变换开关ﻫﻫｐarallel serial swiｔch 并串联转换开关pａraｌlel swｉｔching reｌａyinｇsｙstem并联开关继电系统ﻫﻫｐarallel-ｓｅrieｓswitｃｈ串并联转换开关ﻫparａllelinｇswitｃｈ并联开关ﻫﻫpａrametrｉc swiｔcｈ参数转换ﻫｐarｔ-electｒonic ｓwｉtching system半电子交换系统ﻫpａｒtｉal swｉｔching部分翻转ﻫﻫpassbａnd limiting switch带宽限制开关ﻫﻫpaｓｓive Q-switch 被动Q开关ﻫﻫpaｓsiｖe sｗiｔcｈ被动开关; 被动式开关ﻫﻫpathlｅｓs switcｈ无通路开关ﻫpause swｉｔch 间歇开关ｐｅaｋhold sｗitcｈ峰值保持开关pｅar switｃh 梨形拉线开关ﻫｐeａr-ｓｗitch悬吊开关peg switch 标记转换开关; 栓钉开关; 记次转换开关ｐendant pｕll sｗiｔｃh 拉线开关pendａnｔswitch 垂悬式开关; 拉线开关peｒiｏｄｉcalｌy operaｔeｄswｉtch 周期动作开关ﻫｐｅｒkiｎg switch 快动开关ﻫphaｓe switcheｒ移相开关; 移相器; 换相器ﻫphａse-ｃhange ｓwiｔcｈ换相开关phasing switｃh 调相开关ﻫｐｈotochｅmicａl Q-switｃｈ光化学Q开关ﻫphｏｔｏｃondｕctivｉｔｙswｉtchｉnｇ光电导开关ﻫphotｏeleｃtric ｓwｉｔｃｈ光电开关ﻫpｈoｔｏｎactiｖａted ｓwitｃh 光子起动开关ﻫphotｏsenｓｉｔive switch 光敏开关ｐhthaｌoｃyanｉｎe Ｑswitｃhing 酞花青Q开关ﻫﻫpiｃｔｕre sｗitchiｎｇ图像切换ﻫpictｕｒｅswiｔchinｇerroｒ图像切换误差ｐillａr ｓwｉtch 柱式开关pｉｌot ｆrequｅnｃｙswｉtchiｎｇ导频倒换。

AC static switch 交流静态开关AC switch 交流转换开关auxiliary heater switch 辅助加热器开关auxiliary switch 辅助开关auxiliary switchgear 厂用配电装置band switch 波段选择器; 波段转换开关band switching 波段变换band-switching 频段转换bank switching 存储库开关bank-and-wiper switch 触排和接帚开关; 触排及弧刷转接器; 双动选择器barometric pressure switch 气压继电器barometric switch 气压开关barrel switch 筒形开关; 鼓形开关basic switching term 基本转换项bat-handle switch 铰链式开关; 棒球柄开关; 手柄开关battery charging switch 充电转换开关battery reverse switch 电池转向电闸battery switch 电池转换开关battery-conserving switch 节电开关Baud rate switch 波特速率选择开关beam lobe switching 波束瓣转换法beam switch 束开关beam switching 波束转换; 射束变向; 射束转换法beam switching frequency 射束开关频率beam switching tube 射束开关管; 射束转换管; 射线开关管beam switchyard 束流分配装置beam-switching tube 电子注开关管bearing-sense switch 定向转换开关bilateral diode switch 双向二极管开关bilateral switching 双通开关; 双向转换billet switch 坯料分配器bin home switch 分页格位开关binary-coded switch 二进制码开关bit switch 按位开关block switch 分组开关block switching 字组交换block-switch technology 分组交换技术blow out switch 放气开关body switchover (双向犁的) 犁体翻转机构brach-on switch setting 按预置开关转移brake lamp switch 刹车灯开关brake switch 制动开关braking signal switch 制动信号开关branch switch 分支开关; 分路开关branch switchboard 分路配电盘branch type switch board 分立型配电盘branching switchboard 并联复式交换机brand switch 品牌转换brand switching 转换牌子; 商标转换brand-switching model 牌子改用模型breakdown switch 故障开关breakpoint switch 断点开关bubble flow-steering switch 磁泡流导向开关bubble transfer switch 磁泡转移开关bucket brigade switch 组桶式开关buffer interface switch 缓冲器接口开关bull switch 照明控制开关bus bar disconnecting switch 分段母线隔离开关bus tie switch 母线联络开关busbar sectional izing switch 母线分段开关button switch 按钮开关by-pass switch 旁路开关cabinet switch 开关箱cabinet water-proof switch 柜式防水开关cabinet-type switch 柜式开关cable length switch 电缆长度转换开关cage switch control 锁定转换控制call assignment switch 呼叫分配器call switch 呼叫开关cam switch 凸轮操纵开关; 凸轮开关cam-operated switch 凸轮开关camera switching 摄像机切换camera video switching system 摄像机视频信号切换装置canopy switch 天棚开关; 顶盖开关capacitive approach switch 电容式接近开关car switching equipment 空重车交换装置car-switch control 车厢开关控制; 笼内开关控制carbon break switch 碳触点开关carbon switch contact 炭质开关接点carriage-type switchgear 车架式开关装置ceiling pull switch 顶棚拉线开关ceiling switch 拉线开关; 顶棚拉线开关; 天棚拉线开关cell switch 电池转换开关cellular switch board 分区开关板cellular switchboard 分格式配电盘central switching 中心转接centralizing switch 集中开关centrifugal starting switch 离心式起动开关centrifugal switch 离心开关; 离心式开关centrifugal switching 离心切换chain billet switch 链式坯料分配器chain-pull switch 拉线开关challenge switch 振铃电键; 呼叫开关change-tune switch 变换调谐开关changeover switch 转换开关; 转接开关changeover switch controller 转换开关控制器changing switch 转接开关channel switch 波道开关channel switcher 频道转换电路; 频道转换开关channel-switching equipment 波道倒换机charges switch 充电开关chopper switch 刀形开关circuit changing switch 电路转换开关circuit switch 电路开关; 电路转接circuit switched network 线路开关网circuit switching 线路交换; 线路转接; 电路转接circuit-changing switch 换路开关cistern with cover and switch handle 带盖及开关拉手水箱clapper switch 铃锤式开关clear key switch 清机键盘开关clear switch 清除开关clip-spring switch 弹簧开关clock switch 时间开关closing switch 闸刀开关cluster switch 组开关coaxial switch 同轴开关cocked switch 待动开关code switch 代码开关; 码开关; 码条式接线器code switch automatic telephone system 码条式自动电话交换机colour switching 颜色变换; 彩色图像开关combination switch 复合开关combined line switchboard 结合寻线机台; 混合接续制开关台combined switch 组合开关command switch 命令开关common battery switchboard 共电式交换机common control switching arrangement (CCSA) 公共控制开关装置; 公用控制交换网; 公用控制转换设备communication switching 通信转接communication switching unit 通信转接部件commutator switch 换向开关; 换向器开关; 按序切换开关compiler switch 编译程序开关complementary logic switch 互补逻辑开关compound automatic air switch 复合自动空气开关compressor toggle switch 压气机扳钮开关condition switch 情况选择开关conference telephone switch system 会议电话汇接机console switch 控制台开关; 操作开关construction of switch 开关结构contact switch 接触开关; 触簧开关contactor switching starter 接触器开关起动器context switch 上下文开关; 上下文转换; 关联转换context switching 关联转换; 上下文开关程序; 上下文转换control limit switch 控制极限开关; 极限控制开关control switch 总开关; 主令开关control switching point (CSP) 控制交换中心; 控制开关点; 控制切换点cord switch 拉线开关cord-pull switch 拉线开关cordless switchboard 无塞绳交换台core switch circuit 磁芯开关电路; 磁心开关电路core-switching circuit 磁心换向电路counter switch 计数开关coupled switch 联动开关cradle switch 活动开关crane switch 起重机开关cross bar switch 交叉开关cross-switch 十字开关crossbar switch 纵横开关; 纵横式交换器crowbar switch 撬杆开关crystal marker switch 晶体指示开关crystal switch 晶体开关cubicle switch 组合开关; 室内开关; 室内用配电箱cubicle switchboard 开关柜cubicle switchgear 组合开关装置cumulative switching off 累积断开current limit switch 限流开关current mode switch 电流型开关current selected switch 电流选择开关current switch 电流开关current-controlled switch 电流控制开关cut-off switch 切断开关; 断流开关; 断路接触器cut-out switch 断路开关; 断路器cutter switch 截煤机起动器data message switching system 数据通路交换系统data sampling switch 数据采样开关data switch 数据转接data switching 数据交换data-switching center 数据交换中心; 数据转换中心dead front switchboard 面板无接线的配电盘dead front type switchboard 固定面板式配电盘dead-end switch 终端开关; 空端开关debug switch 调试开关decade switch 十进位开关deck switch 同轴开关defeat switch 消除开关delay-action switch 延迟动作开关derailing switch 开关器access switch 进入开关dial switch 拨号式开关; 拨码盘式开关; 盘式开关diaphragm switch 薄片开关Dicke switch 迪克开关desk switchboard 台式配电板; 台式配电盘digit switching 数字交换digital switch 数字开关digital switching 直接数字交换dim switch 减光开关diode-switch 二极管开关dipping switch 减光器开关; 近光开关direct switching starter 直接开关启动器direct switching-in 直接合闸direct-on-line switching 直接合闸; 直接起动direction control switch 换向开关direction switch 方向开关; 升降开关disable switch 禁止开关disabled motor switch 电动机故障断路器disabled switch 禁用开关discharge switch 放电换接器disconnecting switch 断路开关; 阻断开关; 隔离开关disconnecting switch reverser 隔离反向器discrepancy switch 差速开关distant switching-in 远距离合闸distributed message switching system 分布式报文交换系统distributed packet switching 分布式包交换distributing switch 电流分配器distribution switching metwork 分配接续网络distributor switching 转换分销商diverter switch 转换开关domain-switching process 磁畴开关过程domain-wall switching 畴壁翻转door interlock switch 门锁开关door switch 门动开关; 门开关double bladed knife switch 双闸刀开关double control switch 双控开关double switch 两路开关double switch call 双转换呼叫double-bank switch 双触排开关double-break switch 双断开关double-coincidence switch 双重合开关; 二重符合开关double-point switch 双刀开关double-pole double throw switch 双刀双掷开关(dpdt switch) 双极双投开关(dpdt switch) 双极双投开关(dpst switch) 双极单投开关(dpst switch) 双极单投开关double-pole switch 双刀开关; 双极开关double-slip switch 双动转辙器double-throw disconnecting switch 双投隔离开关double-throw switch 双投开关; 双掷开关draw-out metal-clad switchgear 拉出式铠装开关装置draw-out switchboard 抽出式开关板drum switch 鼓形开关dual pressure control switch 高压控制开关dual-emitter switch 双射极开关dust-proof switchgear 防尘式开关装置earthing switch 接地转换开关effective switching field 有效开关场electric dial switch 电动拨号开关electric switch 电开关; 电器开关electric switch board 电掣板electric switch circuit controller 转辙电路控制器electric switch heater 道岔电热器electric switch lock 电锁electric switch machine 电动转辙机electric switch mechanism 电动转辙机electric switch oil 电键油electric switching locomotive 调度电力机车electric trailable switch machine 可拉式电动转辙机electrical switching 电气开关electro-optic switch 电光开关electro-optical switch 电光开关electrolytic switch 电解开关electromagnetic solenoid switch 电磁螺线管开关electromagnetic switch 电磁开关electromechanical selector switch 机电选择机键electron switch 电子开关electronic AC switch 交流电子开关electronic automatic switch 电子自动开关electronic data-switching center 电子数据交换中心electronic sampling switch 电子取样开关; 电子转换器electronic switch 电子开关electronic switch board 电子交换台electronic switching 电子交换设备; 电子开关作用electronic switching center 电子交换中心electronic switching system 电子交换装置electronic switching system (ESS) 电子交换系统; 电子转换系统; 电子转接系统electronic switching tube 电子开关管electrooptical switch 电光开关electrooptical switching 电光开关electropneumatic switch 电动气动开关electropneumatic switch apparatus 电动气动转辙机electropneumatic switch circuit controller 电动气动转辙电路控制器electropneumatic switch machine 电动气动转辙机; 电动气动转辙机器electropneumatic switch operating apparatus 电动气动转辙机electropneumatic transfer switch 电动气动转换开关electrosurgical switch-ing knife 电动转换手术刀elevation stowing switch 仰角限制器emergency brake switch 紧急刹车开关; 紧急闸开关emergency pushbutton switch 备用按钮开关emergency stop switch 紧急停车开关emergency switch 紧急保险开关; 紧急开关; 应急开关emergency switchboard 应急配电盘emergency switching-off 应急切断; 事故切断emergency terminal switch 终端安全开关emergency trip switch 紧急脱钩开关enclosed knife switch 铁壳开关; 封闭式闸刀开关; 金属盒开关enclosed switch 封闭式低压开关; 封闭型开关enclosed switch board 封闭式配电盘end cell switch 末端电池转换开关engage switch 啮合器engaged switch 接通开关engine high temperature alarm switch 发动机高温告警开关engine overspeed switch 发动机超速开关engine start switch 发动机起动开关equalizer switch 均衡开关; 均衡开关; 均压开关; 均压开关equipment control switch 设备控制开关European switching network 欧洲交换网络exhaust by-pass valve control wire switch 排气旁通阀控制线转环exit switch actuator 出纸口开关致动器expenditure-switching policies 支出转移政策experimental electronic switchboard 实验电子交换机experimental packet switching service (EPSS) 实验包交换业务; 包交换实验网络exploding film Q-switching 爆炸膜Q开关explosion-proof switch 防爆式开关fast switch over 快速转接fast-switching arrangement 快速开关装置feed-through switch 穿线开关feeder switch 馈路开关feeler switch 测试键feet switch 地脚开关ferreed switch 铁簧开关field break-up switch 励磁分段开关field breaking switch 削磁开关field switch 场开关; 励磁开关field-breaking switch 消磁开关field-discharge switch 消磁开关field-effect controlled switch 场效应控制开关field-splitting switch 分场开关filament switch 灯丝开关film optical switch 薄膜光开关film Q-switching 薄膜Q开关filter-coupler-switch-modulator 滤波耦合开关调制器final contact switch 最后接触开关; 精磨用接触开关finite switching time 限定开关时间firing switch 起动开关first line switch 第一预选器fixed trip switch 手动跳闸开关fixedtype metal-clad switchgear 固定型铠装开关装置flag switch 旗形开关flame-proof switch 防爆开关flat switchboard 平面交换机float operated explosion-proof mercury switch 浮子操动防爆水银开关float operated switch 浮子控制开关float switch 浮动开关; 浮控开关; 浮球开关float-controlled switch 浮子控制开关floor pattern magneto telephone switchboard 磁石落地式电话交换机floor switch 平台开关; 层位开头floor type switchboard 固定式交换机flow control switch 流量调节开关flow switch 流量开关; 气流换向器fluidic switch 射流开关flush snap-switch 埋装式活动开关flush switch 嵌入开关; 埋入式开关; 埋装开关flush-switch 平装开关foot (pedal) switch 脚踏开关foot switch 脚踏拍子开关foot switch selector 脚踏拍子开关选择钮foot-switch 脚踏开关forward switching loss 正向开关损耗four-channel switch 四路转换开关four-layer switch 四层开关four-point switch 四接点开关four-way switch 四路开关; 四通开关four-wire cross bar switching system 四线纵横交换制four-wire switching 四线制交换four-wire switching centre 四线制交换中心frame-type switch-board 骨架式配电盘frequency switching 频率开关front connected switch 前面接线开关front porch switching 前肩切换; 前沿切换fuel cutoff switch 燃料停供开关fuel ga(u)ge control switch 油表操纵开关fuel-pressure switch 燃油压力开关full electronic switching 全电子式交换full electronic switching system 全电子电话交换机系统; 全电子式交换制full time message switching 全部时间消息交换fully automatic reperforator switching 全自动复凿孔机交换制fully automatic switching 全自动交换fully automatic switching network 全自动交换网fully automatic switching system 全自动交换系统function switch 操作开关; 函数开关functional switch 功能开关; 逻辑开关fuse disconnecting switch 熔丝隔离开关fuse switch 熔丝开关fuse-switch unit 带保险丝的开关fused switch 保险开关fusible disconnecting switch 熔线式隔离开关; 带保险丝的断路器; 保险丝断路器fusible switch 熔丝开关fusible switch power panel 熔丝开关动力箱fuzzy switching function 模糊开关函数G switch 惯性开关gain switch 增益开关gain-selector switch 增益选择开关gang switch 同轴开关gang(ed) switch 联动开关ganged switch 双联开关gapping switch 桥接开关gas gauge switch 汽油表开关gas thermostatic switch 气体恒温开关gas-diode switch 充气二极管开关gasoline gauge switch 汽油油量表开关gate controlled switch 门控开关; 键控开关gate out switch 出口开关gate switch 门开关gate-controlled switch (GCS) 闸控开关gating switch 选通开关gear engaging switch 合齿开关geared limit switch 齿轮传动的限制开关general switched telephone network 通用电话网glass switch 玻璃开关global switch 整体开关glow switch 辉光放电开关; 引燃开关glow-switch starter 辉光点燃器; 辉光启动器governor switch 调速器开关graph of a fuzzy switching function 模糊开关函数的图graph of fuzzy-switching functions 模糊开关函数图gravity sensing switch 重力传感开关group line switch 区组预选器; 分组预选器group switch 组开关group switchboard 组交换台guarded switch 保险开关halt switch 停机开关hand switch 手动开关hand switch box 手动搬道机hand-operated switch 手动开关handwheel switch 手轮开关hard-switch modulator 刚性开关调制器head switch 读头开关headlight switch 头灯开关headlight switch knob 头灯开关钮heat switch 热开关heater air flow pressure switch 加温气流压力开关heater switch 加热器开关hermetically sealed switchbox 密封式开关箱high frequency rotating switch 高频旋转开关high level switch 高液位开关high power switching device 大功率转换设备high speed air switch 高速空气开关high speed optical switch 高速光学开关high speed-optical switch 高速开关high temperature limit switch 高温限制开关high tension switch cabinet 高压开关柜high tension switch gear 高压开关柜high tension switchboard 高压开关板high voltage load disconnecting switch 高压负荷切断开关high voltage load switch 高压负荷开关high voltage switch 高压开关high voltage switch cabinet 高压开关柜high voltage switchboard 高压开关板high-current switch 大电流开关high-frequency change over switch 高频转换开关high-low-range switch 高低量程转换开关high-speed diverter switch 高速分流器开关high-speed switch 快速开关high-tension oil switch 高压油开关high-tension switch 高压开关high-tension switch cabinet 高压开关柜high-tension switch gear 高压开关设备; 高压开关装置high-vacuum switching tube 高真空开关管high-voltage ceramic vacuum switch tube 高压陶瓷真空开关管high-voltage load switch 高压负荷切断开关high-voltage switch cabinet 高压柜high-voltage switch gear 高压开关设备high-voltage switchboard 高压板highway switching 多路交换hoist back-out switch 吊车退回开关hoist slack-brake switch 吊车制动器过松开关hold reset switch 复位保持开关hold switch transistor 保持开关晶体管home office switch 防电击开关homing type line switch 归位式导线机hook switch 钩键; 挂钩开关; 叉簧horizontal break switch 水平断路开关horizontal draw-out metalclad switchgear 水平抽出的铠装开关装置horn switch 喇叭开关horn switch button 喇叭按钮开关horn-break switch 角形开关; 灭弧角开关; 锥形开关horn-gap switch 角隙开关hospital switch 故障转换开关; 自动转换开关hot override switch 热断开关hot-wire vacuum switch 热线式真空开关hump switching 驼峰调车法hunting switch 混合选择器hydraulic pressure switch 水压开关IF switching 中频转换ignition switch 点火开关illuminated diagram switch board 照明配电盘image switching 图像切换immersible switchgear 潜水开关装置impact crash switch 撞击应急开关impact ionization switch 碰撞电离开关impact switch 碰撞式开关impulse switch 脉冲开关; 冲击式断路器inching switch 微动开关incoming selector switch 入局选择开关independent switch 独立开关indicator switch 指示器开关indoor combined load switch 户内式组合负荷开关indoor high-voltage isolating switch 户内高压隔离开关indoor single-pole isolating switch 户内单极隔离开关inductance approach switch 电感式接近开关inductance switch 电感转换开关inductive switch 感应开关inertia of transistor switching circuit 晶体管开关器的惰性inertia switch 延时开关inertial switch 惯性开关initial program load mode switch 初始程序装入方式开关insertion switch 引入开关; 插入开关instantaneous switch 瞬时开关instantaneous switching 瞬时转换instrument switch 仪表开关integrated optical switch 集成光学开关intercommunication plug switchboard 内部通信插塞式交换机intercommunication switch 内部通话开关interconnection switch 联络开关interface switch 接口开关interlock switch 联锁开关interlocked switch 联锁开关interlocking switch group 联锁组合开关intermediate switch 中间开关intermediate switching station (输电线的) 中间开关站internal Q-switch 内腔Q开关internal switch 内部开关interrupt push switch 中断按钮开关intervention switch 应急开关; 应争保险开关iron cover switch 铁壳开关iron(-)clad switch 铁壳开关iron(-)clad switch gear 铁壳开关装置isolated phase switch gear 隔离相开关设备isolated phase switchgear 分离相位开关设备isolating switch 隔离开关; 切断开关jack switch 插塞开关jet switching 射流转换key switch 电键开关; 钥匙开关; 琴键开关; 键开关key-lifting switch 扳键开关keylock switch 钥匙锁定开关kick down switch 低速档开关kick-down switch 加速系统自动开关kick-down switch plunger 加速系统自动开关柱塞kickdown switch fixed terminal 加速系统自动开关接线柱killer switch 断路器开关knife of switch 开关闸刀knife switch 闸刀; 闸刀开关knife-edge switch 刀形开关knifeblade switch 刀形开关laminated brush switch 叠层刷型开关laminated-brush switch 刷形开关; 叠片开关; 叠片刷触点开关lamp holder switch 灯头开关lamp switch 灯开关; 电灯开关landing-switch 层位开头laser frequency switch 激光频率开关laser Q-switching mechanism 激光Q开关机制laser-triggered switch 激光触发开关lead limit switch 引先限位开关; 行程限位开关level switch 电平开关; 钳拉电平转换; 箝位电平开关lever switch 杠杆操纵开关; 杠杆开关lift slack-cable-switch 电梯行索松断保护开关light activated silicon switch 光激硅开关light activated switch 光激开关light active switch 光敏开关light active switch 光敏开关light switch 照明开关; 电灯开关light switch toggle 照明开关肘节light-coupled semi-conductor switch 光耦合半导体开关light-operated switch 光控开关light-sensitive flag switch 光电旗形开关lighting switch bushing 灯开关衬套lighting switch handle 照明开关手柄lighting switch operating spider 灯开关操作十字架lighting switchgear 照明开关装置lightning switch 避雷开关limit switch 限位开关; 限制开关; 极限开关; 终端开关limit switches guarding progressive die 限位开关保护的连接模line disconnecting switch 线路隔离开关line switch 寻线机; 预选器line switching 线路交换; 线路开关; 传输线路开关line switching concentrator 线交换集中器; 线路交换集中器line switching technique 线路转换技术line-by-line switch 逐行倒相开关line-by-line switching circuit 逐行切换电路line-finder switch 寻线器开关line-switch board 预选器架line-switching type 线路交换型line-terminal switchboard 线路末端交换台linear order of gene switch 基因直线排列linear selection switch 线选开关linear switch 线性开关linear switching 线性开关; 断路linked switch 联动开关; 连接开关liquid level switch 液位开关live front switchboard 盘面接线式配电盘load limit switch 负荷极限开关load selector switch 负荷选择开关; 负载选择开关load sharing magnetic switch 均分负载磁开关; 均分负载磁开关load sharing matrix switch 均分负载矩阵开关; 均分负载矩阵开关load sharing switch 负载分配开关load switch 负荷开关; 负载开关load-break switch 负载断连开关load-sharing matrix switch 负荷分配矩阵开关lobe switch 瓣变换开关; 波瓣变换开关; 波瓣转换开关lobe switching 波瓣转换; 射束转换法lobe switching method 波瓣晃动法; 波瓣转换法lobe-switch oscillator 波瓣转换开关振荡器local battery switchboard 磁石式电话交换机local battery telephone switchboard 磁石式电话交换机local switch 局部开关; 局部开关; 局部转换; 局部转换local switch board 市内交换机local-distant switch 本地远区转换开关lockedcover switch 锁盖开关locking switch 锁盖开关lockout switch 联锁开关logic switching circuit 逻辑开关电路long haul toll transit switch 长途电话转换开关loud-break switch 高压大电流开关loudness control switch 响度控制开关low tension switch 低压开关low tension switchboard 低压开关板low voltage switch 低压开关low voltage switch board 低压开关板low-duty-cycle switch 瞬时转换开关; 短时工作开关low-impedance switching tube 低阻抗开关管low-tension switch 低压开关low-tension switchgear 低压开关装置low-voltage switch gear 低压开关luminosity-changing switch 变光开关machine switchgear 机器开头设备machine switching 自动交换machine switching system 自动交换机magne-switch 磁力开关magnet reed switch 磁性舌簧开关magnet switch 电磁开关magnetic beam-switching tube 磁旋管magnetic blow-out switch 灭磁开关magnetic combinational switch 磁组合开关magnetic mercury switch 磁性水银开关magnetic star delta switch 磁力星形三角开关magnetic starting switch 磁力起动开关magnetic switch 磁开关; 磁力开关magnetic switch controller 磁开关控制器magnetic switching system 磁力开关系统magnetic tape switching unit 磁带转接部件magnetic-core access switch 磁心数据存取开关magnetic-core switch 磁心开关magnetic-core switching time 磁心开关时间magnetic-matrix switch 磁模开关; 磁膜开关; 磁性矩阵开关; 磁阵开关magneto switch 磁电机开关magneto switchboard 磁石式交换机magneto telephone switchboard 磁石电话交换机magnetron beam switching tube 磁控电子束开关管; 磁控注型开关管main circuit switch 主电路开关main current terminal switch 主电流终端开关main limit switch 主限制开关main storage switch 主存储器转换机构main supply switch 总开关main switch 总开关main switch (MS) 主开关main switchboard 主配电盘; 总开关盘; 总控制板main switching compound 主配电装置mains switch 电源开关maintenance switching 维修轮换make-before-break changeover switch contact 先闭后断换向开关接点make-before-break switch 先合后断开关manual address switch 手动地址开关manual common battery switchboard 人工共电式交换台manual multiple type switchboard 人工复式交换台manual rotary switch 手动旋转开关manual safety switch (MSS) 手控安全开关manual selector switch 手控选择开关manual starter switch 手控起动开关manual starting switch 手动起动开关manual storage switch (信号) 手控存储开关manual switch 手控开关manual switch storage 手动开关存储器manual switchboard 人工交换机manual switchgroup 手动组合开关manual switching 人工切换manual telegraph switching equipment 手工电报交换机; 人工电报交换机manual telephone switch board 人工电话交换机manual-automatic switch 手动自动开关manual-switch storage 手控开关存储器manually operated switch 手扳道岔; 手动开关marble switchboard 大理石配电盘marine low voltage switch 船用低压开关mast switch 杆上开关master control switch 主控开关master power switch 主功率开关master switch 主开关; 主控开关; 总开关master switcher 主转换开关; 校准用转换开关master switching 主控切换master switching centre 主转换中心matrix switch 矩阵开关; 矩阵开关mechanical optical switch 机械光开关mechanical Q-switch 机械Q开关medium-voltage switchgear 中压开关装置mercoid switch 水银开关mercury switch 水银开关mercury switch interlock 水银开关联锁装置mercury-contact switch 水银接点开关mercury-wetted reed switch 水银池簧片开关message switch 报文交换; 报文转接message switching 报文交换; 报文转接; 信息转接message switching center 报文交换中心message switching computer 信息转接计算机message switching processor 报文交换处理器message switching system 报文交换系统; 信息交换系统message-switching 报文交接message-switching center 信息转接中心message-switching network 信息转接网络message-switching system 信息转接系统message-switching technique 信息交换技术meter scale switch 量程开关meter switch 仪表开关; 仪表转换开关micro-active switch 微动开关micro-switch 微动电门differential pressure switch 差压开关microsecond switch 微秒开关microwave switching tubes 微波开关管mimic-disconnecting switch 模拟断路开关; 模拟断路器miniature switch 微型开关minor switch 小型开关; 小型选择器; 小选择器microgap switch 微间隙开关mode selector switch 工件状态选择开关mode switch 波模转换开关; 模转换器; 方式开关mode switching 波型转换开关modulation-type switched transponder 调制变换转发器momentary contact switch 瞬时接触开关monocord switch board 单塞绳交换机monolever switch 单手柄十字形开关monopole double throw switch 单刀双掷开关monopole single throw switch 单刀单掷开关motor cut-out switch 电动机停机开关motor driven switch 电机驱动开关motor off switch 电动机切断开关motor on-off switch 马达启停开关motor switch 电动机开关; 电动开关motor switch oil 电气开关油; 马达开关油motor-circuit switch 电动机馈线开关motor-driven switch 电动机驱动开关motor-driven switch-group 机动组合开关motor-operated switch 电动断路器; 电动开关motorcycle petrol switch 摩托车汽油开关mouldcase fused knife switch 模型箱闸刀开关movable switch 活动开关multi contact switch 多触点开关multi-break switch or circuit-breaker 多重开关multi-input switch 多输入开关multi-speed drum switch 多速鼓轮开关multi-valued switching theory 多值开关理论multiaperture reluctance switch 多孔磁阻开关multibreak switch 多断点开关multicircuit switch 多路转换开关multigang switch 多联开关multiple contact switch 多触点开关; 多接点开关multiple switchboard 复接式人工交换机multiple-break switch 多断式开关multiple-contact switch 多触点开关; 选择器开关multiple-pole switch 多级开关multiple-switch 复联开关multiple-switch controller 多开关控制器multiple-switch starter 复式电门起动器; 复式开关起动器multiple-switch-board 复式交换机multiple-way switch 多路开关multiplex switch 多次转换开关; 多路传输转换开关multiplexer switch 多路复用器开关multiplexer switch circuit 多路转换器开关电路multipoint switch 多接点开关multipole switch 多刀开关; 多端开关; 多极开关multiposition switch 多触点开关multithrow switch 多掷开关multivalued switching theory 多值开关论multiwafered switch 多片开关multiway switch 多路开关; 多路转换开关mutilple output switching function 多输出开关函数N-valued switching theory 多值开关理论neutral switch 中性线开关night-alarm switch 夜间信号开关No 1 Electronic Switching System (ESS1) 电子交换机系统1 no-fuse switch 无保险丝开关no-load switch 空载断路器no-load switching off 无载切断no-load switching-in 无载合闸node switching 节点转接noise cancel switch 噪声消除开关noise switching 噪声倒换non-automatic switching 非自动转换non-binary switching theory 多值开关理论non-blocking switch 非封锁转接设备non-homing switch 不归位机键non-homing type line switch 不归位寻线机non-homing type rotary switch 不归零位non-homing-type rotary switch 不归位旋转机键non-multiple switchboard 单式交换机non-Q-switched laser 非Q开关激光器non-saturated switching circuit 非饱和式开关器mirror image switch 镜像开关; 镜像开关noninsulated switch 非绝缘开关noninterlocked switch 非联锁道岔nonmultiple switchboard 简式交换机nonshorting contact switch 无短路接触开关; 不短接接触开关nonstop switch 不停开关normally closed push button switch 常闭按钮开关normally open push button switch 常开按钮开关number switch 数字开关; 号控机numerical switch 数字开关; 号控机nut switch 螺帽型开关oil interrupter switch 断油开关oil pressure shut-off switch 油压开关oil pressure switch 油压开关oil pressure switch screw 油压开关螺丝oil switch 油开关oil switch trip 油开关脱扣oil-blast switch 油灭弧开关oil-break switch 油断路器; 油开关oil-immersed switch 油浸开关oil-pressure shut-off switch 油压遮断器on-off switch 双位开关; 双控开关one touch switcher 单触转换开关; 单触自动转换开关one-cell switching 单元选通one-pole knife switch 单极闸刀开关one-pole switch 单极开关one-shot switch 单触发开关; 冲息开关one-way phase switcher 单向相位转换开关one-way phase-switcher 单向移相器one-way switch 单路开关operating switch 工作开关operation control switch 操作控制开关optical focus switch 光聚焦开关; 光学聚焦转换开关optical switch 光学开关optical waveguide switch 光波导开关optimal switch surface 最佳开关面optimum switching function 最佳开关函数optimum switching line 最佳开关线路option switch 选择开关optoelectronic multiplex switch 光电转换开关optoelectronic switch 光电子开关out switch 输出开关out-of-step switching 失步开合outdoor single pole isolating switch 户外单极隔离开关outdoor type switch gear 室外开关装置outgoing secondary line switch 出中继第二级寻线机outgoing trunk switch 出中继键overload limit switch 超载限制开关overload switch 过载开关override switch 超越控制开关overtravel-limit switch 行程开关; 终端开关ovonic memory switch (OMS) 双向记忆开关non-switched network 无交换网络ovonic threshold switch (OTS) 双向阈值开关packet switch 包交换; 信息包交换packet switch (PS) 报文分组转接packet switched data transmission service 包交换数据传输服务packet switching 包交换; 报文分组交换; 分组交换; 分组接转packet switching center 包交换中心packet switching exchange (PSE) 包交换packet switching network 报文分组交换网络; 分组交换网络; 分封式交换网络packet switching processor 分组交换处理机packet switching protocol 包交换协议packet switching service (PSS) 包交换业务packet switching system 报文分组交换制。

电力电子技术术语Absorber Circuit 吸收电路ＡＣ／ＡＣFrequency Converter 交交变频电路AC power control 交流电力控制AC Power Controller 交流调功电路AC Power Electronic Switch 交流电力电子开关AC Voltage Controller 交流调压电路Asynchronous Modulation 异步调制Baker Clamping Circuit 贝克箝位电路Bi—directional Triode Thyristor 双向晶闸管Bipolar Junction Transistor—- BJT 双极结型晶体管Boost-Buck Chopper 升降压斩波电路Boost Chopper 升压斩波电路Boost Converter 升压变换器Bridge Reversible Chopper 桥式可逆斩波电路Buck Chopper 降压斩波电路Buck Converter 降压变换器Commutation 换流Conduction Angle 导通角Constant Voltage Constant Frequency-—CVCF恒压恒频Continuous Conduction——CCM （电流)连续模式Control Circuit控制电路CUK Circuit CUK 斩波电路Current Reversible Chopper 电流可逆斩波电路Current Source Type Inverter—-CSTI 电流（源）型逆变电路Cycloconvertor 周波变流器DC—AC-DC Converter 直交直电路DC Chopping 直流斩波DC Chopping Circuit直流斩波电路DC-DC Converter 直流－直流变换器Device Commutation 器件换流Direct Current Control 直接电流控制Discontinuous Conduction mode （电流）断续模式Displacement Factor 位移因数Distortion Power 畸变功率Double End Converter 双端电路Driving Circuit 驱动电路Electrical Isolation 电气隔离Fast Acting Fuse 快速熔断器Fast Recovery Diode 快恢复二极管Fast Recovery Epitaxial Diodes 快恢复外延二极管Fast Switching Thyristor 快速晶闸管Field Controlled Thyristor 场控晶闸管Flyback Converter 反激电流Forced Commutation 强迫换流Forward Converter 正激电路Frequency Converter 变频器Full Bridge Converter 全桥电路Full Bridge Rectifier 全桥整流电路Full Wave Rectifier 全波整流电路Fundamental Factor 基波因数Gate Turn—Off Thyristor-—GTO可关断晶闸管General Purpose Diode 普通二极管Giant Transistor—-GTR 电力晶体管Half Bridge Converter 半桥电路Hard Switching 硬开关High Voltage IC 高压集成电路Hysteresis Comparison 带环比较方式Indirect Current Control 间接电流控制Indirect DC-DC Converter 直接电流变换电路Insulated—Gate Bipolar Transistor--IGBT 绝缘栅双极晶体管Intelligent Power Module-—IPM 智能功率模块Integrated Gate-Commutated Thyristor--IGCT集成门极换流晶闸管Inversion 逆变Latching Effect 擎住效应Leakage Inductance 漏感Light Triggered Thyristo---LTT 光控晶闸管Line Commutation 电网换流Load Commutation 负载换流Loop Current 环流元件设备三绕组变压器:three-column transformer ThrClnTrans双绕组变压器:double—column transformer DblClmnTrans 电容器：Capacitor并联电容器:shunt capacitor电抗器:Reactor母线：Busbar输电线:TransmissionLine发电厂:power plant断路器：Breaker刀闸（隔离开关)：Isolator分接头:tap电动机：motor状态参数有功：active power无功：reactive power电流：current容量：capacity电压：voltage档位：tap position有功损耗：reactive loss无功损耗：active loss功率因数：power-factor功率：power功角：power-angle电压等级:voltage grade空载损耗：no-load loss铁损：iron loss铜损：copper loss空载电流：no—load current阻抗:impedance正序阻抗：positive sequence impedance 负序阻抗:negative sequence impedance 零序阻抗：zero sequence impedance电阻：resistor电抗:reactance电导：conductance电纳：susceptance无功负载：reactive load 或者QLoad有功负载：active load PLoad遥测：YC（telemetering）遥信：YX励磁电流（转子电流)：magnetizing current 定子：stator功角：power-angle上限:upper limit下限：lower limit并列的：apposable高压：high voltage低压：low voltage中压：middle voltage电力系统power system发电机generator励磁excitation励磁器excitor电压voltage电流current母线bus变压器transformer升压变压器step-up transformer高压侧high side输电系统power transmission system输电线transmission line固定串联电容补偿fixed series capacitor compensation 稳定stability电压稳定voltage stability功角稳定angle stability暂态稳定transient stability电厂power plant能量输送power transfer交流AC装机容量installed capacity电网power system落点drop point开关站switch station双回同杆并架double—circuit lines on the same tower 变电站transformer substation补偿度degree of compensation高抗high voltage shunt reactor无功补偿reactive power compensation故障fault调节regulation裕度magin三相故障three phase fault故障切除时间fault clearing time极限切除时间critical clearing time切机generator triping高顶值high limited value强行励磁reinforced excitation线路补偿器LDC（line drop compensation）机端generator terminal静态static （state)动态dynamic (state)单机无穷大系统one machine - infinity bus system 机端电压控制AVR电抗reactance电阻resistance功角power angle有功（功率）active power无功(功率）reactive power功率因数power factor无功电流reactive current下降特性droop characteristics斜率slope额定rating变比ratio参考值reference value电压互感器PT分接头tap下降率droop rate仿真分析simulation analysis传递函数transfer function框图block diagram受端receive-side裕度margin同步synchronization失去同步loss of synchronization 阻尼damping摇摆swing保护断路器circuit breaker电阻:resistance电抗：reactance阻抗：impedance电导:conductance电纳：susceptance导纳：admittance电感：inductance电容：capacitance一般术语电力电子变流器的型式（表1-2）电力电子开关和交流电力电子控制器电力电子设备的基本元件电力电子设备的电路和电路单元电力电子设备的运行电力电子设备的性能电力电子变流器的特性曲线稳定电源。

AC static switch 交流静态开关AC switch 交流转换开关auxiliary heater switch 辅助加热器开关auxiliary switch 辅助开关auxiliary switchgear 厂用配电装置band switch 波段选择器; 波段转换开关band switching 波段变换band-switching 频段转换bank switching 存储库开关bank-and-wiper switch 触排和接帚开关; 触排及弧刷转接器; 双动选择器barometric pressure switch 气压继电器barometric switch 气压开关barrel switch 筒形开关; 鼓形开关basic switching term 基本转换项bat-handle switch 铰链式开关; 棒球柄开关; 手柄开关battery charging switch 充电转换开关battery reverse switch 电池转向电闸battery switch 电池转换开关battery-conserving switch 节电开关Baud rate switch 波特速率选择开关beam lobe switching 波束瓣转换法beam switch 束开关beam switching 波束转换; 射束变向; 射束转换法beam switching frequency 射束开关频率beam switching tube 射束开关管; 射束转换管; 射线开关管beam switchyard 束流分配装置beam-switching tube 电子注开关管bearing-sense switch 定向转换开关bilateral diode switch 双向二极管开关bilateral switching 双通开关; 双向转换billet switch 坯料分配器bin home switch 分页格位开关binary-coded switch 二进制码开关bit switch 按位开关block switch 分组开关block switching 字组交换block-switch technology 分组交换技术blow out switch 放气开关body switchover (双向犁的) 犁体翻转机构brach-on switch setting 按预置开关转移brake lamp switch 刹车灯开关brake switch 制动开关braking signal switch 制动信号开关branch switch 分支开关; 分路开关branchswitchboard 分路配电盘branch type switch board 分立型配电盘branching switchboard 并联复式交换机brand switch 品牌转换brand switching 转换牌子; 商标转换brand-switching model 牌子改用模型breakdown switch 故障开关breakpoint switch 断点开关bubble flow-steering switch 磁泡流导向开关bubble transfer switch 磁泡转移开关bucket brigade switch 组桶式开关buffer interface switch 缓冲器接口开关bull switch 照明控制开关bus bar disconnecting switch 分段母线隔离开关bus tie switch 母线联络开关busbar sectional izing switch 母线分段开关button switch 按钮开关by-pass switch 旁路开关cabinet switch 开关箱cabinet water-proof switch 柜式防水开关cabinet-type switch 柜式开关cable length switch 电缆长度转换开关cage switch control 锁定转换控制call assignment switch 呼叫分配器call switch 呼叫开关cam switch 凸轮操纵开关; 凸轮开关cam-operated switch 凸轮开关camera switching 摄像机切换camera video switching system 摄像机视频信号切换装置canopy switch 天棚开关; 顶盖开关capacitive approach switch 电容式接近开关car switching equipment 空重车交换装置car-switch control 车厢开关控制; 笼内开关控制carbon break switch 碳触点开关carbon switch contact 炭质开关接点carriage-type switchgear 车架式开关装置ceiling pull switch 顶棚拉线开关ceiling switch 拉线开关; 顶棚拉线开关; 天棚拉线开关cell switch 电池转换开关cellular switch board 分区开关板cellular switchboard 分格式配电盘central switching 中心转接centralizing switch 集中开关centrifugal starting switch 离心式起动开关centrifugal switch 离心开关; 离心式开关centrifugal switching 离心切换chain billet switch 链式坯料分配器chain-pull switch 拉线开关challenge switch 振铃电键; 呼叫开关change-tune switch 变换调谐开关changeover switch 转换开关; 转接开关changeover switch controller 转换开关控制器changing switch 转接开关channel switch 波道开关channel switcher 频道转换电路; 频道转换开关channel-switching equipment 波道倒换机charges switch 充电开关chopper switch 刀形开关circuit changing switch 电路转换开关circuit switch 电路开关; 电路转接circuit switched network 线路开关网circuit switching 线路交换; 线路转接; 电路转接circuit-changing switch 换路开关cistern with cover and switch handle 带盖及开关拉手水箱clapper switch 铃锤式开关clear key switch 清机键盘开关clear switch 清除开关clip-spring switch 弹簧开关clock switch 时间开关closing switch 闸刀开关cluster switch 组开关coaxial switch 同轴开关cocked switch 待动开关code switch 代码开关; 码开关; 码条式接线器code switch automatictelephone system 码条式自动电话交换机colour switching 颜色变换; 彩色图像开关combination switch 复合开关combined line switchboard 结合寻线机台; 混合接续制开关台combined switch 组合开关command switch 命令开关common battery switchboard 共电式交换机common control switching arrangement (CCSA) 公共控制开关装置; 公用控制交换网; 公用控制转换设备communication switching 通信转接communication switching unit 通信转接部件commutator switch 换向开关; 换向器开关; 按序切换开关compiler switch 编译程序开关complementary logic switch 互补逻辑开关compound automatic air switch 复合自动空气开关compressor toggle switch 压气机扳钮开关condition switch 情况选择开关conference telephone switch system 会议电话汇接机console switch 控制台开关; 操作开关construction of switch 开关结构contact switch 接触开关; 触簧开关contactor switching starter 接触器开关起动器context switch 上下文开关; 上下文转换; 关联转换context switching 关联转换; 上下文开关程序; 上下文转换control limit switch 控制极限开关; 极限控制开关control switch 总开关; 主令开关control switching point (CSP) 控制交换中心; 控制开关点; 控制切换点cord switch 拉线开关cord-pull switch 拉线开关cordless switchboard 无塞绳交换台core switch circuit 磁芯开关电路; 磁心开关电路core-switching circuit 磁心换向电路counter switch 计数开关coupled switch 联动开关cradle switch 活动开关crane switch 起重机开关cross bar switch 交叉开关cross-switch 十字开关crossbarswitch 纵横开关; 纵横式交换器crowbar switch 撬杆开关crystal marker switch 晶体指示开关crystal switch 晶体开关cubicle switch 组合开关; 室内开关; 室内用配电箱cubicle switchboard 开关柜cubicle switchgear 组合开关装置cumulative switching off 累积断开current limit switch 限流开关current mode switch 电流型开关current selected switch 电流选择开关current switch 电流开关current-controlled switch 电流控制开关cut-off switch 切断开关; 断流开关; 断路接触器cut-out switch 断路开关; 断路器cutter switch 截煤机起动器data message switching system 数据通路交换系统data sampling switch 数据采样开关data switch 数据转接data switching 数据交换data-switching center 数据交换中心; 数据转换中心dead front switchboard 面板无接线的配电盘dead front type switchboard 固定面板式配电盘dead-end switch 终端开关; 空端开关debug switch 调试开关decade switch 十进位开关deck switch 同轴开关defeat switch 消除开关delay-action switch 延迟动作开关derailing switch 开关器access switch 进入开关dial switch 拨号式开关; 拨码盘式开关; 盘式开关diaphragm switch 薄片开关Dicke switch 迪克开关desk switchboard 台式配电板; 台式配电盘digit switching 数字交换digital switch 数字开关digital switching 直接数字交换dim switch 减光开关diode-switch 二极管开关dipping switch 减光器开关; 近光开关direct switching starter 直接开关启动器direct switching-in 直接合闸direct-on-line switching 直接合闸; 直接起动direction control switch 换向开关direction switch 方向开关; 升降开关disable switch 禁止开关disabled motor switch 电动机故障断路器disabled switch 禁用开关discharge switch 放电换接器disconnecting switch 断路开关; 阻断开关; 隔离开关disconnecting switch reverser 隔离反向器discrepancy switch 差速开关distant switching-in 远距离合闸distributed message switching system 分布式报文交换系统distributed packet switching 分布式包交换distributing switch 电流分配器distribution switching metwork 分配接续网络distributor switching 转换分销商diverter switch 转换开关domain-switching process 磁畴开关过程domain-wall switching 畴壁翻转door interlock switch 门锁开关door switch 门动开关; 门开关double bladed knife switch 双闸刀开关double control switch 双控开关double switch 两路开关double switch call 双转换呼叫double-bank switch 双触排开关double-break switch 双断开关double-coincidence switch 双重合开关; 二重符合开关double-point switch 双刀开关double-pole double throw switch 双刀双掷开关(dpdt switch) 双极双投开关(dpdt switch) 双极双投开关(dpst switch) 双极单投开关(dpst switch) 双极单投开关double-pole switch 双刀开关; 双极开关double-slip switch 双动转辙器double-throw disconnecting switch 双投隔离开关double-throw switch 双投开关; 双掷开关draw-out metal-clad switchgear 拉出式铠装开关装置draw-out switchboard 抽出式开关板drum switch 鼓形开关dual pressure control switch 高压控制开关dual-emitter switch 双射极开关dust-proof switchgear 防尘式开关装置earthing switch 接地转换开关effective switching field 有效开关场electric dial switch 电动拨号开关electric switch 电开关; 电器开关electric switch board 电掣板electric switch circuit controller 转辙电路控制器electric switch heater 道岔电热器electric switch lock 电锁electric switch machine 电动转辙机electric switch mechanism 电动转辙机electric switch oil 电键油electric switching locomotive 调度电力机车electric trailable switch machine 可拉式电动转辙机electrical switching 电气开关electro-optic switch 电光开关electro-optical switch 电光开关electrolytic switch 电解开关electromagnetic solenoid switch 电磁螺线管开关electromagnetic switch 电磁开关electromechanical selector switch 机电选择机键electron switch 电子开关electronic AC switch 交流电子开关electronic automatic switch 电子自动开关electronic data-switching center 电子数据交换中心electronic sampling switch 电子取样开关; 电子转换器electronic switch 电子开关electronic switch board 电子交换台electronic switching 电子交换设备; 电子开关作用electronic switching center 电子交换中心electronicswitching system 电子交换装置electronic switching system (ESS) 电子交换系统; 电子转换系统; 电子转接系统electronic switching tube 电子开关管electrooptical switch 电光开关electrooptical switching 电光开关electropneumatic switch 电动气动开关electropneumatic switch apparatus 电动气动转辙机electropneumatic switch circuit controller 电动气动转辙电路控制器electropneumatic switch machine 电动气动转辙机; 电动气动转辙机器electropneumatic switch operating apparatus 电动气动转辙机electropneumatic transfer switch 电动气动转换开关electrosurgical switch-ing knife 电动转换手术刀elevation stowing switch 仰角限制器emergency brake switch 紧急刹车开关; 紧急闸开关emergency pushbutton switch 备用按钮开关emergency stop switch 紧急停车开关emergency switch 紧急保险开关; 紧急开关; 应急开关emergency switchboard 应急配电盘emergency switching-off 应急切断; 事故切断emergency terminal switch 终端安全开关emergency trip switch 紧急脱钩开关enclosed knife switch 铁壳开关; 封闭式闸刀开关; 金属盒开关enclosed switch 封闭式低压开关; 封闭型开关enclosed switch board 封闭式配电盘end cell switch 末端电池转换开关engage switch 啮合器engaged switch 接通开关engine high temperature alarm switch 发动机高温告警开关engine overspeed switch 发动机超速开关engine start switch 发动机起动开关equalizer switch 均衡开关; 均衡开关; 均压开关; 均压开关equipment control switch 设备控制开关European switching network 欧洲交换网络exhaust by-pass valve control wireswitch 排气旁通阀控制线转环exit switch actuator 出纸口开关致动器expenditure-switching policies 支出转移政策experimental electronic switchboard 实验电子交换机experimental packet switching service (EPSS) 实验包交换业务; 包交换实验网络exploding film Q-switching 爆炸膜Q开关explosion-proof switch 防爆式开关fast switch over 快速转接fast-switching arrangement 快速开关装置feed-through switch 穿线开关feeder switch 馈路开关feeler switch 测试键feet switch 地脚开关ferreedswitch 铁簧开关field break-up switch 励磁分段开关field breaking switch 削磁开关field switch 场开关; 励磁开关field-breaking switch 消磁开关field-discharge switch 消磁开关field-effect controlled switch 场效应控制开关field-splitting switch 分场开关filament switch 灯丝开关film optical switch 薄膜光开关film Q-switching 薄膜Q开关filter-coupler-switch-modulator 滤波耦合开关调制器final contact switch 最后接触开关; 精磨用接触开关finite switching time 限定开关时间firing switch 起动开关first line switch 第一预选器fixed trip switch 手动跳闸开关fixedtype metal-clad switchgear 固定型铠装开关装置flag switch 旗形开关flame-proof switch 防爆开关flat switchboard 平面交换机float operated explosion-proof mercury switch 浮子操动防爆水银开关float operated switch 浮子控制开关float switch 浮动开关; 浮控开关; 浮球开关float-controlled switch 浮子控制开关floor pattern magneto telephone switchboard 磁石落地式电话交换机floor switch 平台开关; 层位开头floor type switchboard 固定式交换机flowcontrol switch 流量调节开关flow switch 流量开关; 气流换向器fluidic switch 射流开关flush snap-switch 埋装式活动开关flush switch 嵌入开关; 埋入式开关; 埋装开关flush-switch 平装开关foot (pedal) switch 脚踏开关foot switch 脚踏拍子开关foot switch selector 脚踏拍子开关选择钮foot-switch 脚踏开关forward switching loss 正向开关损耗four-channel switch 四路转换开关four-layer switch 四层开关four-point switch 四接点开关four-way switch 四路开关; 四通开关four-wire cross bar switching system 四线纵横交换制four-wire switching 四线制交换four-wire switching centre 四线制交换中心frame-type switch-board 骨架式配电盘frequency switching 频率开关front connected switch 前面接线开关front porch switching 前肩切换; 前沿切换fuel cutoff switch 燃料停供开关fuel ga(u)ge control switch 油表操纵开关fuel-pressure switch 燃油压力开关full electronic switching 全电子式交换full electronic switching system 全电子电话交换机系统; 全电子式交换制full time message switching 全部时间消息交换fully automaticreperforator switching 全自动复凿孔机交换制fully automatic switching 全自动交换fully automatic switching network 全自动交换网fully automatic switching system 全自动交换系统function switch 操作开关; 函数开关functional switch 功能开关; 逻辑开关fuse disconnecting switch 熔丝隔离开关fuse switch 熔丝开关fuse-switch unit 带保险丝的开关fused switch 保险开关fusible disconnecting switch 熔线式隔离开关; 带保险丝的断路器; 保险丝断路器fusible switch 熔丝开关fusibleswitch power panel 熔丝开关动力箱fuzzy switching function 模糊开关函数G switch 惯性开关gain switch 增益开关gain-selector switch 增益选择开关gang switch 同轴开关gang(ed) switch 联动开关ganged switch 双联开关gapping switch 桥接开关gas gauge switch 汽油表开关gas thermostatic switch 气体恒温开关gas-diode switch 充气二极管开关gasoline gauge switch 汽油油量表开关gate controlled switch 门控开关; 键控开关gate out switch 出口开关gate switch 门开关gate-controlled switch (GCS) 闸控开关gating switch 选通开关gear engaging switch 合齿开关geared limit switch 齿轮传动的限制开关general switched telephone network 通用电话网glass switch 玻璃开关global switch 整体开关glow switch 辉光放电开关; 引燃开关glow-switch starter 辉光点燃器; 辉光启动器governor switch 调速器开关graph of a fuzzy switching function 模糊开关函数的图graph of fuzzy-switching functions 模糊开关函数图gravity sensing switch 重力传感开关group line switch 区组预选器; 分组预选器group switch 组开关groupswitchboard 组交换台guarded switch 保险开关halt switch 停机开关hand switch 手动开关hand switch box 手动搬道机hand-operated switch 手动开关handwheel switch 手轮开关hard-switch modulator 刚性开关调制器head switch 读头开关headlight switch 头灯开关headlight switch knob 头灯开关钮heat switch 热开关heater air flow pressure switch 加温气流压力开关heater switch 加热器开关hermetically sealed switchbox 密封式开关箱high frequency rotating switch 高频旋转开关high level switch 高液位开关high power switching device 大功率转换设备high speed air switch 高速空气开关high speed optical switch 高速光学开关high speed-optical switch 高速开关high temperature limit switch 高温限制开关high tension switch cabinet 高压开关柜high tension switch gear 高压开关柜high tension switchboard 高压开关板high voltage load disconnecting switch 高压负荷切断开关high voltage load switch 高压负荷开关high voltage switch 高压开关high voltage switch cabinet 高压开关柜high voltage switchboard 高压开关板high-current switch 大电流开关high-frequency change over switch 高频转换开关high-low-range switch 高低量程转换开关high-speed diverter switch 高速分流器开关high-speed switch 快速开关high-tension oil switch 高压油开关high-tension switch 高压开关high-tension switch cabinet 高压开关柜high-tension switch gear 高压开关设备; 高压开关装置high-vacuum switching tube 高真空开关管high-voltage ceramic vacuum switch tube 高压陶瓷真空开关管high-voltage load switch 高压负荷切断开关high-voltage switch cabinet 高压柜high-voltage switch gear 高压开关设备high-voltage switchboard 高压板highway switching 多路交换hoist back-out switch 吊车退回开关hoist slack-brake switch 吊车制动器过松开关hold reset switch 复位保持开关hold switch transistor 保持开关晶体管home office switch 防电击开关homing type line switch 归位式导线机hook switch 钩键; 挂钩开关; 叉簧horizontal break switch 水平断路开关horizontal draw-out metalcladswitchgear 水平抽出的铠装开关装置horn switch 喇叭开关horn switch button 喇叭按钮开关horn-break switch 角形开关; 灭弧角开关; 锥形开关horn-gap switch 角隙开关hospital switch 故障转换开关; 自动转换开关hot override switch 热断开关hot-wire vacuum switch 热线式真空开关hump switching 驼峰调车法hunting switch 混合选择器hydraulic pressure switch 水压开关IF switching 中频转换ignition switch 点火开关illuminated diagram switch board 照明配电盘illuminated switch 发光开关imageswitching 图像切换immersible switchgear 潜水开关装置impact crash switch 撞击应急开关impact ionization switch 碰撞电离开关impact switch 碰撞式开关impulse switch 脉冲开关; 冲击式断路器inching switch 微动开关incoming selector switch 入局选择开关independent switch 独立开关indicator switch 指示器开关indoor combined load switch 户内式组合负荷开关indoor high-voltage isolating switch 户内高压隔离开关indoor single-pole isolating switch 户内单极隔离开关inductanceapproach switch 电感式接近开关inductance switch 电感转换开关inductive switch 感应开关inertia of transistor switching circuit 晶体管开关器的惰性inertia switch 延时开关inertial switch 惯性开关initial program load mode switch 初始程序装入方式开关insertion switch 引入开关; 插入开关instant-on switch 瞬动开关instantaneous switch 瞬时开关instantaneous switching 瞬时转换instrument switch 仪表开关integrated optical switch 集成光学开关intercommunication plug switchboard 内部通信插塞式交换机intercommunication switch 内部通话开关interconnection switch 联络开关interface switch 接口开关interlock switch 联锁开关interlocked switch 联锁开关interlocking switch group 联锁组合开关intermediate switch 中间开关intermediate switching station (输电线的) 中间开关站internal Q-switch 内腔Q开关internal switch 内部开关interrupt push switch 中断按钮开关intervention switch 应急开关; 应争保险开关iron cover switch 铁壳开关iron(-)clad switch 铁壳开关iron(-)clad switch gear 铁壳开关装置isolated phase switch gear 隔离相开关设备isolated phase switchgear 分离相位开关设备isolating switch 隔离开关; 切断开关jack switch 插塞开关jet switching 射流转换key switch 电键开关; 钥匙开关; 琴键开关; 键开关key-lifting switch 扳键开关keylock switch 钥匙锁定开关kick down switch 低速档开关kick-down switch 加速系统自动开关kick-down switch plunger 加速系统自动开关柱塞kickdown switch fixed terminal 加速系统自动开关接线柱killer switch 断路器开关knife of switch 开关闸刀knife switch闸刀; 闸刀开关knife-edge switch 刀形开关knifeblade switch 刀形开关laminated brush switch 叠层刷型开关laminated-brush switch 刷形开关; 叠片开关; 叠片刷触点开关lamp holder switch 灯头开关lamp switch 灯开关; 电灯开关landing-switch 层位开头laser frequency switch 激光频率开关laser Q-switching mechanism 激光Q开关机制laser-triggered switch 激光触发开关lead limit switch 引先限位开关; 行程限位开关level switch 电平开关; 钳拉电平转换; 箝位电平开关lever switch 杠杆操纵开关; 杠杆开关lift slack-cable-switch 电梯行索松断保护开关light activated silicon switch 光激硅开关light activated switch 光激开关light active switch 光敏开关light active switch 光敏开关light switch 照明开关; 电灯开关light switch toggle 照明开关肘节light-coupled semi-conductor switch 光耦合半导体开关light-operated switch 光控开关light-sensitive flag switch 光电旗形开关lighting switch bushing 灯开关衬套lighting switch handle 照明开关手柄lighting switch operating spider 灯开关操作十字架lighting switchgear 照明开关装置lightning switch 避雷开关limit switch 限位开关; 限制开关; 极限开关; 终端开关limit switches guarding progressive die 限位开关保护的连接模line disconnecting switch 线路隔离开关line switch 寻线机; 预选器line switching 线路交换; 线路开关; 传输线路开关line switching concentrator 线交换集中器; 线路交换集中器line switching technique 线路转换技术line-by-line switch 逐行倒相开关line-by-line switching circuit 逐行切换电路line-finder switch 寻线器开关line-switch board 预选器架line-switching type 线路交换型line-terminal switchboard 线路末端交换台linear order of gene switch 基因直线排列linear selection switch 线选开关linear switch 线性开关linear switching 线性开关; 断路linked switch 联动开关; 连接开关liquid level switch 液位开关live front switchboard 盘面接线式配电盘load limit switch 负荷极限开关load selector switch 负荷选择开关; 负载选择开关load sharing magnetic switch 均分负载磁开关; 均分负载磁开关load sharing matrix switch 均分负载矩阵开关; 均分负载矩阵开关load sharing switch 负载分配开关load switch 负荷开关; 负载开关load-break switch 负载断连开关load-sharing matrix switch 负荷分配矩阵开关lobe switch 瓣变换开关; 波瓣变换开关; 波瓣转换开关lobe switching 波瓣转换; 射束转换法lobe switching method 波瓣晃动法; 波瓣转换法lobe-switch oscillator 波瓣转换开关振荡器local battery switchboard 磁石式电话交换机local battery telephone switchboard 磁石式电话交换机local switch 局部开关; 局部开关; 局部转换; 局部转换local switch board 市内交换机local-distant switch 本地远区转换开关lockedcover switch 锁盖开关locking switch 锁盖开关lockout switch 联锁开关logic switching circuit 逻辑开关电路long haul toll transit switch 长途电话转换开关loud-break switch 高压大电流开关loudness control switch 响度控制开关low tension switch 低压开关low tension switchboard 低压开关板low voltage switch 低压开关low voltage switch board 低压开关板low-duty-cycle switch 瞬时转换开关; 短时工作开关low-impedance switching tube 低阻抗开关管low-tension switch 低压开关low-tension switchgear 低压开关装置low-voltage switch gear 低压开关luminosity-changing switch 变光开关machine switchgear 机器开头设备machine switching 自动交换machine switching system 自动交换机magne-switch 磁力开关magnet reed switch 磁性舌簧开关magnet switch 电磁开关magnetic beam-switching tube 磁旋管magnetic blow-out switch 灭磁开关magnetic combinational switch 磁组合开关magnetic mercury switch 磁性水银开关magnetic star delta switch 磁力星形三角开关magnetic startingswitch 磁力起动开关magnetic switch 磁开关; 磁力开关magnetic switch controller 磁开关控制器magnetic switching system 磁力开关系统magnetic tape switching unit 磁带转接部件magnetic-core access switch 磁心数据存取开关magnetic-core switch 磁心开关magnetic-core switching time 磁心开关时间magnetic-matrix switch 磁模开关; 磁膜开关; 磁性矩阵开关; 磁阵开关magneto switch 磁电机开关magneto switchboard 磁石式交换机magneto telephone switchboard 磁石电话交换机magnetron beamswitching tube 磁控电子束开关管; 磁控注型开关管main circuit switch 主电路开关main current terminal switch 主电流终端开关main limit switch 主限制开关main storage switch 主存储器转换机构main supply switch 总开关main switch 总开关main switch (MS) 主开关main switchboard 主配电盘; 总开关盘; 总控制板main switching compound 主配电装置mains switch 电源开关maintenance switching 维修轮换make-before-break changeover switch contact 先闭后断换向开关接点make-before-break switch 先合后断开关manual address switch 手动地址开关manual common battery switchboard 人工共电式交换台manual multiple type switchboard 人工复式交换台manual rotary switch 手动旋转开关manual safety switch (MSS) 手控安全开关manual selector switch 手控选择开关manual starter switch 手控起动开关manual starting switch 手动起动开关manual storage switch (信号) 手控存储开关manual switch 手控开关manual switch storage 手动开关存储器manual switchboard 人工交换机manual switchgroup 手动组合开关manual switching 人工切换manual telegraph switching equipment 手工电报交换机; 人工电报交换机manual telephone switch board 人工电话交换机manual-automatic switch 手动自动开关manual-switch storage 手控开关存储器manually operated switch 手扳道岔; 手动开关marble switchboard 大理石配电盘marine low voltage switch 船用低压开关mast switch 杆上开关master control switch 主控开关master power switch 主功率开关master switch 主开关; 主控开关; 总开关master switcher 主转换开关;。

开关电源关键元件的各个参数中英文对照表！肖特基二极管Symbol Parameter 中文翻译VRRM Peak repetitive reverse voltage 反向重复峰值电压VRWM Working peak reverse voltage 反向工作峰值电压VR DC Blocking Voltage 反向直流电压VR(RMS) RMS Reverse Voltage 反向电压有效值IF(AV) Average Rectified Forward Current 正向平均电流IR Reverse Current 反向电流IFSM Non-Repetitive Peak Forward Surge Current 浪涌电流VF Forward Voltage 正向直流电压Cj Typical Junction Capactiance 结电容PD Power Dissipation 耗散功率Tj Operating Junction Temperature 工作结温Tstg Storage Temperature Range 存储温度Rth(j-a) Thermal Resistance from Junction to Ambient 结到环境的热阻二极管Symbol Parameter 中文翻译VR Continuous reverse voltage 反向直流电压IF Continuous forward current 正向直流电流VF Forward voltage 正向电压IR Reverse current 反向电流Cd diode capacitance 二极管电容Rd diode forward resistance 二极管正向电阻Ptot total power dissipation 功率总损耗Tj Junction Temperature 结温Tstg storage temperature 存储温度TVS管Symbol Parameter 中文翻译IPP Maximum reverse peak pulse current 峰值脉冲电流VC Clampling voltage 钳位电压IR Maximum reverse leakage current 最大反向漏电流V(BR) Breakdown voltage 击穿电压VRWM Working peak reverse voltage 反向工作峰值电压VF Forward voltage 正向电压IF Forward current 正向电流IT Test current 测试电流可控硅Symbol Parameter 中文翻译VDRM Peak repetitive off-state voltage 断态重复峰值电压VRRM Peak repetitive reverse voltage 反向重复峰值电压IT(RMS) RMS On-state current 额定通态电流ITSM Non repetitive surge peak on-state current 通态非重复浪涌电流IGM Forward peak gate current 控制极重复峰值电流VTM peak forward on-state voltage 通态峰值电压IGT Gate trigger current 控制极触发直流电流VGT Gate trigger voltage 控制极触发电压IH Holding current 维持电流IDRM Peak repetitive off-state current 断态重复峰值电流IRRM Peak repetitive reverse current 反向重复峰值电流PG(AV) Average gate power dissipation 控制极平均功率Tj operating junction temperature range 工作结温Tstg storage temperature range 存储温度稳压管Symbol Parameter 中文翻译VI input voltage 输入电压Vo output voltage 输出电压ΔVo Load regulation 输出调整率ΔVo Line regulation 输入调整率Iq quiescent current 偏置电流ΔIq quiescent current change 偏置电流变化量VN Output noise voltage 输出噪声电压RR Ripple rejection 纹波抑制比Vd dropout voltage 降落电压Isc short circuit current 短路输出电流Ipk peak current 峰值输出电流Topr operating junction temperature range 结温Tstg storage temperature range 存储温度43系列基准源Symbol Parameter 中文翻译VKA Cathode voltage 阴极电压IK Cathode current range(continous) 阴极电流 Iref Reference input current range ，continous 基准输入电流 PD Power dissipation耗散功率Rth(j-a) Thermal resistance from junction toambient结到环境的热阻Topr operating junction temperature range 工作结温 Tstg storage temperature range 存储温度 Vref Reference input voltage基准输入电压ΔVref(dev)Deviation of reference input voltage over full temperature range 全温度范围内基准输入电压的偏差ΔVref/ΔVKA Ratio of change in reference inputvoltage to the change in cathode voltage基准输入电压变化量与阴极电压变化量的比 ΔIref(dev) Deviation of reference input current over full temperature range 全温度范围内基准输入电流的偏差 Imin Minimum cathode current for regulation 稳压时最小负极电流Ioff off-state cathode current 关断状态阴极电流 |ZKA|Dynamic impedance动态阻抗普通晶体管Symbol Parameter 中文翻译VCBO Collector-Base voltage 发射极开路，集电极-基极电压 VCEO Collector-emitter voltage 基极开路，集电极-发射极电压 VEBO Emitter-base voltage 集电极开路，发射极-基极电压 IC Collector current集电极电流 PC Collector power dissipation 集电极耗散功率 Tj Junction temperature 结温 Tstgstorage temperature存储温度V(BR)CBO Collector-Base breakdown voltage发射极开路，集电极-基极反向电压 V(BR)CEOCollector-emitterbreakdown voltage基极开路，集电极-发射极反向电压V(BR)EBO Emitter-base breakdown voltage 集电极开路，发射极-基极反向电压ICBO Collector cut-off current 发射极开路，集电极-基极截止电流IEBO Emitter cut-off current 集电极开路，发射极-基极截止电流ICEOCollector cut-off current基极开路，集电极-发射极截止电流hFE DC current gain 共发射极正向电流传输比的静态值VCEsatCollector-emitter saturationvoltage集电极-发射极饱和电压VBEsat Base-emitter saturation voltage 基极-发射极饱和电压 VBE Base-emitter voltage 基极-发射极电压 fT Transition frequency 特征频率 Cobo Collector output capacitance 共基极输出电容 Cibo Collector input capacitance 共基极输入电容 F Noise figure 噪声系数 Ton Turn-on time 开通时间 Toff Turn-off time 关断时间 Tr Rise time 上升时间 Ts Storage time 存储时间 Tf Fall time 下降时间 TdDelay time延迟时间MOS 管Symbol Parameter 中文翻译 ID Continuous drain current 漏极直流电流 VGS Gate-source voltage 栅-源电压 VDS Drain-source voltage漏-源电压EASsingle pulse avalchane energy单脉冲雪崩击穿能量Rth(j-a) Thermal resistance from junction toambient 结到环境的热阻Rth(j-c) Thermal resistance from junction tocase 结到管壳的热阻V(BR)DSS Drain-source breakdown voltage 漏源击穿电压 V(GS)th Gate threshold voltage 栅源阈值电压 IGSS Gate-body leakage current 漏-源短路的栅极电流 IDSS Zero gate voltage drain current 栅-源短路的漏极电流 rDS(on) Drain-source on-resistance漏源通态电阻 gfs Forward trans conductance 跨导VSD Diode forward voltage 漏源间体内反并联二极管正向压降 Ciss Input capacitance 栅-源电容 Coss Output capacitance漏-源电容 CrssReverse transfer capacitance反向传输电容Rg Gate resistance 栅极电阻td(on) Turn-on delay time 开通延迟时间tr Rise time 上升时间td(off) Turn-off delay time 关断延迟时间tf Fall time 下降时间IDM Pulsed drain current 最大脉冲漏电流PD Power dissipation 耗散功率Tj operating junction temperature range 结温Tstg storage temperature range 存储温度。

Switching-Mode Power Supply Design 开关模式电源设计What is a switching-mode power supply什么是开关模式电源A power supply is a buffer circuit that provides power with the characteristics required by the load 电源是一种缓冲电路提供电量特性被负载需要from a primary power source with characteristics incompatible with load. it makes the load 主电源特性不兼容的负载compatible with power source.Example :A power supply si sometimes called a power converter and the process is called power conversion. It is also sometimes caller a power conditioner and the process is called power conditioning. The power manufacturers association is handbook of standardized terminology for the power source industry gives this definition of a power supply.Power supply-A device for the conversion of available power of characteristics to another set of characteristics to meet specified requirements. Typical application of power supplies include to convert raw input power to a controller or stabilized voltage and current for the operation of electronic equipment.Power supplies belong to the field of power electronics, the use of electronics for the control and conversion of electrical power. The ieee power electronics society provides a more formal definition of power electronics in their constitution.Power Electronics-This technology encompssses the dffdctive use of electronic components, the application of circuit theory and design techniques, and the development of analytical tool toward efficient electronic conversion, control, and conditioning of electric power.A switching-mode power supply is a power supply that provides the power function through low loss components such as capacitors, inductors, and transformers –and the use of switches that are of two states , on or off. The advantage is that the switch dissipates very little power in either of these two states and power conversion can be accomplished with minimal power loss, which equates to high efficiency. The term switch-mode was widely used for this type of power supply until Motorola, inc, who used the trademark SWITCHMODE TM for products aimed at the switching-mode power supply market, started to enforce their trademark. Others used the term switching power supply, which seems to be the more popular term. PSMA does not define either switching-mode power supply or switching power supply, which seems to be the more popular term. PSMA dose not define either switching-mode power supply or switching power supply, bu does define switching regulator.Off line power supply---1 A power supply in which the ac line voltage is rectified and filtered and filtered without using a line frequency isolation transformer. 2 A power supply switched into service upon line loss to provide power to the load without significant interruption. Also called off line switching.Switching regulator-A switching circuit that operates in a closed loop system to regulate the power supply output.Power factor correction—1 technique of increasing the power factor so that the phase angle between the voltage and current approaches zero in an accircuit. 2 addition of capacitors to an inductive circruit that operates in a closed loop system to regulate the power supply output.Power factor correction---1 technique of increasing the power factor so that the phase angle between the voltage and current approaches zero in an accircuit. 2 Addition of capacitors to an inductive circuit to offset reactance.The purpose of this tutorial, power factor is real power controlled by apparent power and power factor rrection is making this ratio approach one.The full bridge converter converterFull bridge converters operate in a similar fashion to half bridge converters, but as shown in the diagram below, instead of single switches being switches being switched in turn, a pair of switches is used. This enables the full DC input voltage of Vd to be applied to the transformer is primary winding sequentially positive and negative. By applying Vd instead of Vd, better use is made of the transformer core. Higher switching frequencies can be used, while still applying rated flux to the core.Since double the voltage is applied to the transformer core when compared with a half bridge, the turns ratio for a particular input-output voltage pair can be halved. Therefore, Although the switches in both converters need to block the full supply voltage. Only half the current is required to be carried by the switches in the full bridge. This results in much lower stress levels on the switching components and allows lower rated switches to be used. Lower rated switches usually have reduced internal losses and therefore by their use, losses in the switches can be reduced.To improve output power capabilities further, a full bridge diode rectifier was used on the secondary of the high frequency transformer. As the audio amplifier application calls for both positive and negative rails having their own inductances. A capacitive filter is used as the final stage of the first-order output filter.Available switching devicesA number of options were available for the converter circuits. The switches are required to handle the voltage levels of a rectified mains supply and its inherent fluctuations. In addition, the switches must be capable of conducting the high peak currents required and yet be able to be accurately switched on and off at the required frequency of 200KHz. Only a few years ago this decision would have been limited, with the switches being required to block up to 400V and carry a relatively significant current. The high switching frequency also causes problems with switch driving which would have made the converter even more difficult to implement. The advancement in semiconductor technology has brought with it an increased choice in switching devices.The switches required must be able to be turned on and off by a switching signal these are termed controllable switches. Thyristors can be fired to turn on at a particular instant, but only switch off once current through them drops to zero. This characteristic is useful in some forms of resonant switching such as zero current switching. Here it is desired for switching to occur at a level when the current is negligible in order to reduce losses, but for this application being able to control switch off precisely is important. For instance, if we are to avoid both switches in a leg of a bridge converter being closed during the same interval we need to be able to ensure one switch is opened before the other is closed. This is most easily accomplished using a controllable switch.The ideal controllable switch would hace the following characteristics:1. Block arbitrarily large forward/reverse voltages with no current flow when off.2. Conduct arbitrarily large currents with no voltage drop when on.3. Switch from one state to another instantanously when triggered.4. Require minimal power from the control source to trigger the switch.Of course these ideal properties are not attainable but an appropriate switch must be chosen toachieve as close as possible to these ideal characteristics.The physical properties of real switching devices govern their suitability to a particular application. A switch must be able to block the required voltage level when open. This blocking level is determined by the construction of the device itself. When closed, a switch has a certain level of resistance across its terminals – this results in power dissipation due to I2R losses. One of the major areas of losses in switched mode supplies is due to the finite time it takes for a switch to close or open. The power dissipated during switch on/off can be a limiting factor of a Switched Mode Power Supply. These losses are constant for each transition and hence are proportional to switching frequency.Bipolar Junction Transistors are controlled by a current signal. Power BJTs have been optimized to handle the higher power levels and hence, typically have fairly low values for the DC current gain Hfe. This means that if it is desired to drive a transistor to allow a collector current of 20A to flow, the base of the transistor may need to be supplied with a continuous current of up to 4A for the entire time the transistor is on. Some heavy power electronic is required just for base drive and the associated losses are high, due the large currents involved. BJTs also take a significant time at turn off to sweep electrons out of the base area and to stop current flowing. This time can become significant due to the implied frequency limitations and also results in losses associated with the extended time to turn off. Another problem with BJTs is the fact that they have a negative temperature coefficient. This can lead to thermal runaway, where the temperature of the device increases and hence the resistance across the device drops allowing more current to flow, heating the BJT further…MOSFETs however are voltage-controlled devices. Their gates appear as capacitances, which must be charged for ON state and discharged for OFF. This implies that current need only flow during the short time it takes to charge/discharge the small gate capacitor. This leads to very short switching times, making MOSFETs highly suitable for high frequency applications. Due to their construction, a MOSFETs ON resistance increases rapidly with the device is blocking rating, but the speed with which MOSSFETs are capable of switching, often offsets these losses. MOSFETs also have a positive temperature coefficient.GTOs have a number of favourable properties, but their slow switching speed means that they are not suitable for this SMPS application.IGBTs offer the best characteristics of MOSFERs, BJTs, and GTOs. The IGBT has an easily driven, high impedance gate like a MOSFET, a small ON state voltage drop like a BJT and can be designed to block negative voltages like a GTO. They have fast turn on/off transitions and can have very high power ratings.IGBTs present as the most logical choice for the final high power product, but the required switching speed is too fast for all but the very latest IGBTs. For simplicity and due to the wide selection available, MOSFETs were chosen as the switches for the product. MOSFETs are not only easily available. But due to their popularity, a wide range of driver integrated circuits has been developed, optimized for their switching needs. Also, hardware for a half bridge converter using MOSFETs was available for testing purposes.Drive of switching elements---- isolationIn order to satisfy the requirements of input to output voltage isolation, there must be no electrical connection between input and output. On the power level, in a bridge converter, the high frequency transformer provides isolation. On a control and drive level, we need to provide switching signals for the MOSFETs on the primary side, while monitoring the output voltage. Therefore some additional isolation is required.If the controller is to be placed on the primary side with the switches, isolation needs to be provided for the feedback signal. If the controller is placed on the secondary side, then electrical isolation must be provided in the path to the switches MOSFETs are swetched by providing a voltage differential between gate and source in order to charge their gate. In a half bridge converter, the upper MOSFET is source is sitting at a different potential to that of the lower device-this implies that the upper MOSFET needs to be floated.The floating or isolation of the upper switch can be achieved in a number of ways. A specially designed MOSFET bridge driver could be used. this device accepts TTL control signals from some form of controller and converts them directly into dual higher voltage MOSFET drive signals the upper switch, some forms of these bridge drivers also contain appropriate logic to ensure that potentially destructive switch combinations are avoided. Some of these devices actually convert their drive power directly from the higher supply rails, eliminating the requirement of a lower voltage supply specifically for switch drive.Another method is to use a small pulse transformer. A pulse transformer not only allows signals to be transmitted across an isolation boundary, but also allows power to travel across the boundary. This is the solution that was deemed most suitable for this application. Through the use of a single pulse transformer with dual secondary windings, both transistors could be driven in the required complementary fashion by simply connecting the transformer secondaries to the MOSFETs in opposite polarities. This method allowed both switches to be driven from a single control signal and also allowed for all switch control to be situated on the secondary of the transformer. The necessary isolation would be provided, while avoiding corrupting the feedback signal to the controller with isolation devices. Had a bridge driver IC been used, isolation would still have had to be provided. This could have been achieved through the use of optocouplers or the transformers referred to earlier. The chosen method of isolation eliminates the need for need for primary side drive circuitry.Drive of Switching Elements-MOSFET Drive RequirementsIn a switched mode power supply, losses are minimized by avoiding the dissipative active region of the semiconductor switches used. This active region lies between the two states that we use, hence it is desirable ensure the switch spends as little time as possible in this region.MOSFETs, as with other semiconductor switches, have a finite switching time. This time to change states is a hardware limitation and arises from the construction of the device. Through careful selection of switching device, we can choose a switch with transitional times as short as possible. For example, the MOFETs used in the in existing hardware have switching times of around 25ns.In order to take advantage of the possible rapid turn on/off times of which MSFETs are capable, we need to charge and discharge their input gate capacitances as rapidly as possible. Toperform this function, very rapid changes in voltage are required. The gate capacitance of the IRF740 is typically around 1nF. If we want to charge this gate in 25nS to a voltage of the 10V, a peak current of almost half an amp is required for each transition. Some sort of dedicated drive circuitry is required in order to charge these gates with sufficient speed if the control circuitry outputs a TTL signal.These are a number of commercially available devices specifically designed to meet the needs of MOSFETs drive. Some, like the afore-mentioned bridge drivers take care of the drive requirements in addition to the floating of the upper MOSFET. Others, designed as generic MOSFET drivers, simply act as a high current buffer between signal and arrive voltage levels. The ICL7667 is such a device and was used for initial testing purposes. It is simply an inverting buffer with two TTL inputs and dual MOSFET drive outputs. It was used in conjunction with the pulse transformer mentioned earlier to provide appropriate MOSFET drive from TTL control signals. Selecting a controller with in-built drive circuitry eliminated the need for a stand-alone MOSFET driver in the final design.Converter Control---Using the SwitchesPhysical switching of devices has been covered, but a method of switch utilization to change input to output voltage levels is now required.By varying the time each switch is on, compared with the time it is off, the average voltage of this square pulse train can be varied. For example, if a switch is on for only a short time, but is off for a longer time, the average voltage after the switch will be lower than for the situation where on and off times are equal. This is known as varying the duty cycle of the switches. The average voltage is recovered by passing the signal through an integrating filter.Duty cycle is defined as the percentage of the total switching cycle that a switch is on. By varying the duty cycle of the switches in our half bridge converter. We can vary the average value of the energy transferred across the transformer. The transformer is designed so that its turns ratio gives the majority of the voltage conversion and the duty cycle variation can be used for finer adjustments.By varying the duty cycle appropriately in response to a change in input voltage or output current requirements, we can maintain the output voltage, for a wide variety of input/output situations. This is known as regulation by PWM.Converter Control----Pulse Width ModulationThere are a number of different methods for implementing Pulse Width Modulation. These can be divided into two major sections: whose where switching frequency is kept constant and those where it is varied. In variable frequency PWM, there are a number of different ways to vary the average output voltage.Variable frequency PWM poses a serious problem in output filter design – it is difficult to design a filter if the desired frequency response is unknown. For this reason I will be focusing on the fixed on the fixed frequency form of PWM.In fixed frequency PWM, the total time for a cycle is kept constant. Duty cycle is varied by changing both the time on and time off for a switch..Such that: Ts=Ton+ToffComparing an amplified error signal with some repetitive waveform generates the fixed frequency PWM control signal to the switches.Comparing the output voltage of the converter with some precise reference corresponding tothe desired output value generates the error signal Vc. It can be seen from the figure 7, that when the repetitive waveform is greater than the error signal, the switchs are turned on and when the error signal id of a lower value than the sawtooth, the switches are turned off. When a pair of switches is involved, as in a bridge converter, they are switched alternately. Each switch must have a duty cycle of less than 50% in order to avoid the destructive shoot-through condition.This fixed frequency PWM can be performed by a number of means : an analogue circuit built up of individual components, an analogue PWM IC, or ever increasingly, by digital means.The following figures show a block diagram and the switching waveforms of a PWM IC, but the majority of controllers operate in a similar manner.The High Frequency TransformerThe high frequency transformer provides the input to output isolation in the power stage of the converter. As with their low frequency counterparts, high frequency transformers provide a reliable and efficient form of converting one voltage level to another. It is for this reason that a transformer is turns ratio is favoured over PWM to produce the major changes in voltage level often required in converters. In order to minimize switching stresses, the high frequency transformer of a bridge-type SMPS is designed to operate at just under a 50% duty cycle on the switches. This allows for fluctuations in load and supply to be dealt with by decreasing or increasing the switch duty cycleOperation at high frequencies exemplifies many of the shortfalls of line frequency transformers. Just as low frequency transformer cores need to be laminated to reduce losses, high frequency cores need to be made of special materials.Although an essential component in many switching converters, the broad range of tasks set down for high frequency transformers to perform means that there cannot be an off the shelf ferrite transformer that will perform as desired. In the vast majority of cases, transformers must be custom built for each application.There are available, from companies such as Philips, high frequency transformer kits, consisting of coil formers and cores in a wide variety of styles and ferrite materials to suit most applications. These kits allow the engineer to design a transformer to suit their needs using well-documented components and standard materials with known properties. These are a number of standard ferrite materials available to the designer in different shapes and sizes. The different materials are suited to different operating frequency ranges.At higher frequencies, losses in the magnetic material become more significant. There are two major classes of core materials used for magnetic components: those comprising primarily iron and small amounts of other elements. Ferrite materials have a significantly higher electrical resistivity than their iron derivative counterparts and hence exhibit no significant eddy current characteristics-ferrite materials have only hysteresis loss, but their saturation flux densities are quite low. These properties mean that they are the material of choice for high frequency applications. Care must be taken, however to avoid saturation of the transformer. This can have catastrophic effects and can quickly occur if there is a volt-second imbalance between positive and negative excitations on the transformer primary.A wide variety of different materials with different properties exist in the ferrite materials, and a material must be carefully chosen appropriate to the operational frequency of the application.The copper windings also require more careful design than for their low frequency cousins. As operating frequencies become elevated, the skin effect in the windings becomes increasingly significant, shifting the distribution of current in a conductor to only close to the surface. This reduces the effective conductor cross section, which results in the conductor having an AC resistance significantly higher than its usually-quoted DC resistance.In order to avoid problems associated with this effect, a number of interesting winding techniques have been developed whereby wires with diameters not exceeding a skin depth at the operating frequency are used. Litz wire is designed to minimize skin effect problems while changing traditional wire winding techniques as little as possible. This is achieved by replacing a wire of a single core with multiple fine cores, woven into a single thin cable. Copper foil is another good way of eliminating these parasitic problems. The traditional copper wire is replaced effectively by a conductor of rectangular cross section the depth of which not exceeding a skin depth.A relative to the copper foil method is the exciting new field of planer cores. Planer cores are narrow ferrite cores, which sandwich a printed circuit board, on which the windings are etched. Windings can be etched across multiple layers of a single board, or multiple thin boards can be stacked together make up a complete set of windings. Not only does this make the transformer more compact, but winding errors can be completely eliminated from a production run, and most importantly, flux linkages between the windings are excellent. I believe that a planer core, if designed correctly would be the ideal solution for future projects on my application.。

开关电源设计及其英文翻译Switching Power Supply DesignSwitching power supply work in high frequency, high pulse state, are analog circuits in a rather special kind. Cloth boards to follow the principle of high-frequency circuit wiring.1, layout:Pulse voltage connection as short as possible, including input switch connected to the transformer, output transformer to the rectifier tube cable. Pulse current loop as small as possible such as the input filter capacitor is returned to the transformer to the switch capacitor negative. Some out-ended output transformers are the output rectifier to the output capacitor back to transformer circuit X capacitor as close as possible to the input switching power supply, input lines should be avoided in parallel with other circuits, should be avoided. Y capacitor should be placed in the chassis ground terminal or FG connectors.A total of touch induction and transformer to maintain a certain distance in order to avoid magnetic coupling. Such as poor handling of feeling in between inductor and transformer plus a shield, over a number of EMC performance for power supply to the greater impact. General the output capacitor can be used the other two a close rectifier output terminal should be close to, can affect the power supply output ripple index, two small capacitor in parallel results should be better than using a large capacitor. Heating devices to maintain a certain distance, and electrolytic capacitors to extend machine life, electrolytic capacitors is the switching power supply bottleneck life, such as transformers, power control, high power resistors and electrolytic to maintain the distance required between the electrolyte leaving space for heat dissipation , conditions permitting, may be placed in the inlet.Control part to pay attention to: Weak signal high impedance circuit connected to sample the feedback loop as short as in the processing as far as possible avoid interference, the current sampling signal circuits, in particular the current control circuit, easy to deal with some unexpected bad The accident, which had some skill, now to 3843 the circuit example shown in Figure (1) Figure 1 better than Yu Figure 2, Figure 2 Zai full time by observing the current waveform oscilloscope Mingxian superimposed spikes, Youyuganrao limited flow ratio design Zhi Dian low, Figure 1 there is no such phenomenon, there are switch drive signal circuit, switch resistance should be close to the switch driver can switch the work to improve the reliability of this and the high DC impedance voltage power MOSFET driver characteristics.Second, routingAlignment of current density: now the majority of electronic circuit board using insulated copper constitute tied. Common PCB copper thickness of 35μm, the alignmentvalue can be obtained in accordance with 1A/mm experience the value of current density, the specific calculations can be found in textbooks. To ensure the alignment principles of mechanical strength should be greater than or equal to the width of 0.3mm (other non-power supply circuit board may be smaller minimum line width). PCB copper thickness of 70μm is also common in switching power supply, then the current density can be higher. Add that, now Changyong circuit board design tool design software generally items such as line width, line spacing, hole size and so dry plate Guo Jin Xing parameters can be set. In the design of circuit boards, design software automatically in accordance with the specifications, can save time, reduce some of the workload and reduce the error rate.Generally higher on the reliability of lines or line density wiring can be used double panel. Characterized by moderate cost, high reliability, to meet most applications.The ranks of some of the power module products are also used plywood, mainly to facilitate integration of power devices such as transformer inductance to optimize wiring, cooling and other power tube. Good consistency with the craft beautiful, transformer cooling good advantage, but its disadvantage is high cost, poor flexibility, only suitable for industrial mass production.Single-sided, the market circulation of almost universal switching power supply using single-sided circuit board, which has the advantage of lower costs in the design and production technology are also taken some measures to ensure its performance.Single PCB design today to talk about some experience, as a single panel with low cost, easy-to-manufacture features, the switching power supply circuit has been widely used, because of its side tied only copper, the device's electrical connections, mechanical fixation should rely on the copper layer, the processing must be careful.To ensure good performance of the mechanical structure welding, single-sided pad should be slightly larger to ensure that the copper and substrate tied good focus, and thus will not be shocked when the copper strip, broken off. General welding ring width should be greater than 0.3mm. Pad diameter should be slightly larger than the diameter of the device pins, but not too large, to ensure pin and pad by the solder connection between the shortest distance, plate hole size should not hinder the normal conditions for the degree of investigation, the pad diameter is generally greater than pin diameter 0.1-0.2mm. Multi-pin device to ensure a smooth investigation documents can also be larger.Electrical connection should be as wide as possible, in principle, should be larger than the width of pad diameter, special circumstances should be connected in line with the need to widen the intersection pad (commonly known as Generation tears), to avoid breaking certain conditions, line and pad. Principle of minimum line width should be greater than 0.5mm.Single-board components to be close to the circuit board. Need overhead cooling device to device and circuit board between the pins plus casing, can play a supporting device and increase the dual role of insulation to minimize or avoid external shocks on the pad and the pin junction impact and enhance the firmness of welding. Circuit board supporting the weight of large parts can increase the connection point, can enhance joint strength between the circuit board, such as transformers, power device heat sink.Single-sided welding pins without affecting the surface and the shell spacing of the prior conditions, it can be to stay longer, the advantage of increased strength of welded parts, increase weld area and immediately found a Weld phenomenon. Shear pin long legs, the welding force smaller parts. In Taiwan, the Japanese often use the device pins in the welding area and the circuit board was bent 45 degrees, and then welding process, its reasoning Ibid. Double panel today to talk about the design of some of the issues, in relatively high number of requests, or take the line density of the larger application environments using double-sided PCB, its performance and various indicators of a lot better than a single panel.Two-panel pad as holes have been high intensity metal processing, welding ring smaller than a single panel, the pad hole diameter slightly larger in diameter than pins, as in the welding process solder solution conducive to penetrate through the top hole solder pad to increase the welding reliability. But there is a disadvantage if the hole is too large, wave soldering tin when the jet impact in the lower part of the device may go up, have some flaws.High current handling of alignment, line width in accordance with pre-quote processing, such as the width is not enough to go online in general can be used to increase the thickness of tin plating solution, the method has a good variety of1. Will take the line set to pad property, so that when the circuit board manufacturing solder alignment will not be covered, the whole hot air normally be tin plated.2. In the wiring by placing pads, the pad is set to take in line shape, pay attention to the pad holes set to zero.3. In the solder layer placed on line, this method is the most flexible, but not all PCB manufacturers will understand your intentions, needed captions. Place the line in the solder layer of the site will not coated solder tinning line several methods as above, to note that, if the alignment of a very wide all plated with tin in solder after the solder will bond a lot and distribution is very uneven, affecting appearance. Article tin can be used generally slender width in the 1 ~ 1.5mm, length can be determined according to lines, tin part of the interval 0.5 ~ 1mmDouble-sided circuit board for the layout, the alignment provides a very selective, make wiring more reasonable. On the ground, the power ground and signal ground must be separated, the two to converge in filter capacitors, in order to avoid a large pulsed current through the signal ground connection instability caused by unexpected factors, the signal control circuit grounding point as far as possible, a skill, as far as possible the alignment of the non-grounded wiring layer in the same place, the last shop in another layer of earth. Output line through the filter capacitors, the general first, and then to the load, input line must also pass capacitor, to the transformer, the theoretical basis is to ripple through trip filter capacitor.Voltage feedback sampling, in order to avoid high current through the alignment of the feedback voltage on the sampling point must be the most peripheral power output to increase the load effect of target machine.Alignment change from a wiring layer to another wiring layer generally used hole connected, not through the pin pad device to achieve, because the plug in the device may be damaged when the relationship between this connection, there is current in every passage of 1A, at least two through-hole, through hole diameter is greater than the principle of 0.5mm, 0.8mm generally processed ensure reliability.Cooling devices, in some small power supply, the circuit board traces can be and cooling, characterized by the alignment as generous as possible to increase the cooling area is not coated solder, conditions can even be placed over holes, enhanced thermal conductivity .Today to talk about the aluminum plate in the switching power supply application and multilayer printed circuit in the switching power supply applications.Aluminum plate by its own structure, has the following characteristics: very good thermal conductivity, single Mianfu copper, the device can only be placed in tied copper surface, can not open electrical connection hole so as not to place jumper in accordance with a single panel.Aluminum plate is generally placed patch device, switch, the output rectifier heat conduction through the substrate to go out, very low thermal resistance, high reliability can be achieved. Transformer with planar chip structure, but also through substrate cooling, the temperature is lower than the conventional, the same size transformer with a large aluminum plate structure available output power. Aluminum plate jumper bridge approach can be used. Aluminum plate power are generally composed by the two PCB, another one to place the control circuit board, through the physical connection between the two boards is integrated.As the excellent thermal conductivity of aluminum plate, in a small amount of manual welding more difficult, solder cooling too fast and prone to problems of a simpleand practical way of existing, an ironing ordinary iron (preferably temperature regulation function), over and iron for the last, fixed, and temperature to 150 ℃ and above the aluminum plate on the iron, heating time, and then affix the components according to conventional methods and welding, soldering iron temperature is appropriate to the device easy to , is too high when the device may be damaged, or even copper strip aluminum plate, the temperature is too low welding effect is not good, to be flexible.Recent years, with the multi-layer circuit board applications in switching power supply circuit, printed circuit transformer makes it possible, due to multilayer, smaller spacing also can take advantage of Bianya Qi window section, the main circuit board can be re- Add 1-2 formed by the multilayer printed coil to use the window, the purpose of reducing circuit current density, due to adopt printed coil, reducing manual intervention, transformers consistency, surface structure, low leakage inductance, coupling good . Open-type magnetic core, good heat dissipation. Because of its many advantages, is conducive to mass production, it is widely used. But the research and development of large initial investment, not suitable for small-scale health.Switching power supply is divided into, two forms of isolation and non-isolated, isolated here mainly to talk about switching power supply topologies form below, non-specified, are to isolate the power. Isolated power supply in accordance with the structure of different forms, can be divided into two categories: a forward and flyback. Flyback transformer primary side means that when the Vice-edge conduction cut-off, transformer storage. Close of the primary, secondary side conduction, the energy released to the load of work status, general conventional flyback power multiplex, twin-tube is not common. Forward refers to the primary conduction in transformer secondary side while the corresponding output voltage is induced into the load, the direct transfer of energy through the transformer. According to specifications can be divided into conventional forward, including the single-transistor forward, Double Forward. Half-bridge, bridge circuits are all forward circuit.Forward and flyback circuits have their own characteristics in the process of circuit design to achieve optimal cost-effective, can be applied flexibly. Usually in the low-power flyback can be adopted. Slightly larger forward circuit can use a single tube, medium-power can use Double Forward circuit or half-bridge circuit, low-voltage push-pull circuit, and the half-bridge work in the same state. High power output, generally used bridge circuit, low voltage can be applied push-pull circuit.Flyback power supply because of its simple structure, and to cut the size of a similar size and transformer inductance, the power supply in the medium has been widely applied. Presentation referred to in some flyback power supply can do dozens of watts, output power exceeding 100 watts would be no advantage to them difficult. Under normalcircumstances, I think so, but it can not be generalized, PI's TOP chips can do 300 watts, an article describes the flyback power supply can be on the KW, but not seen in kind. Power output and the output voltage level.Flyback power transformer leakage inductance is a critical parameter, because the power needs of the flyback transformer stored energy, to make full use of transformer core, the general must be open in the magnetic circuit air gap, the aim is to change the core hysteresis back line of the slope, so that transformers can withstand the impact of a large pulse current, which is not core into saturation non-linear state, the magnetic circuit in the high reluctance air gap in the state, generated in the magnetic flux leakage is much larger than completely closed magnetic circuit .Transformer coupling between the first pole is the key factor determining the leakage inductance, the coil to be very close as far as possible the first time, the sandwich can be used around the law, but this would increase the distributed capacitance transformer. Use core as core with a long window, can reduce the leakage inductance, such as the use of EE, EF, EER, PQ-based EI type magnetic core effective than good.The duty cycle of flyback power supplies, in principle, the maximum duty cycle of flyback power supply should be less than 0.5, otherwise not easy loop compensation may be unstable, but there are some exceptions, such as the U.S. PI has introduced the TOP series chip can work under the conditions of duty cycle is greater than 0.5.Duty cycle by the transformer turns ratio to determine former deputy side, I am an anti-shock view is, first determine the reflected voltage (output voltage reflected through the transformer coupling the primary voltage value), reflecting a certain voltage range of voltage increase is duty cycle increases, lower power loss. Reduce the reflected voltage duty cycle decreases, increases power loss. Of course, this is a prerequisite, when the duty cycle increases, it means that the output diode conduction time, in order to maintain output stability, more time will be to ensure that the output capacitor discharge current, the output capacitor will be under even greater high-frequency ripple current erosion, while increasing its heat, which in many circumstances is not allowed.Duty cycle increases, change the transformer turns ratio, transformer leakage inductance will increase, its overall performance change, when the leakage inductance energy large enough, can switch to fully offset the large account space to bring low-loss, no further increase when the meaning of duty, because the leakage inductance may even be too high against the peak voltage breakdown switch. Leakage inductance as large, may make the output ripple, and other electromagnetic indicators deteriorated. When the duty hours, the high RMS current through the switch, transformer primary current rms and lowered the converter efficiency, but can improve the working conditions of the output capacitor to reduce fever. How to determine the transformer reflected voltage (duty cycle)Some netizens said switching power supply feedback loop parameter settings, work status analysis. Since high school mathematics is rather poor, "Automatic Control Theory," almost on the make-up, and for the door is still feeling fear, and now can not write a complete closed-loop system transfer function, zero for the system, the concept of feeling pole vague, see Bode plot is only about to see is a divergence or convergence, so the feedback compensation can not nonsense, but there are a number of recommendations. If you have some mathematical skills, and then have some time to learn then the University of textbooks, "Principles of Automatic Control" digest look carefully to find out, combined with practical switching power supply circuit, according to the work of state for analysis. Will be harvested, the Forum has a message, "coach feedback loop to study the design, debugging," in which CMG good answer, I think we can reference.Then today, on the duty cycle of flyback power supply (I am concerned about the reflected voltage, consistent with the duty cycle), the duty cycle with the voltage selection switch is related to some early flyback switching power supply using a low pressure tube, such as 600V or 650V AC 220V input power as a switch, perhaps when the production process, high pressure tubes, easy to manufacture, or low-pressure pipes are more reasonable conduction losses and switching characteristics, as this line reflected voltage can not be too high, otherwise the work order to switch the security context of loss of power absorbing circuit is quite impressive.Reflected voltage 600V tube proved not more than 100V, 650V tube reflected voltage not greater than 120V, the leakage inductance voltage spike when the tubes are clamped at 50V 50V working margin. Now that the MOS raise the level of manufacturing process control, flyback power supplies are generally used 700V or 750V or 800-900V the switch. Like this circuit, overvoltage capability against a number of switching transformer reflected voltage can be done a bit higher, the maximum reflected voltage in the 150V is appropriate, to obtain better overall performance.TOP PI's recommendation for the 135V chipset with transient voltage suppression diode clamp. But his evaluation board generally reflected voltage to be lower than the value at around 110V. Both types have their advantages and disadvantages:Category: shortcomings against over-voltage, low duty cycle is small, a large pulse current transformer primary. Advantages: small transformer leakage inductance, electromagnetic radiation and low ripple index higher switch loss, the conversion efficiency is not necessarily lower than the second.The second category: a large number of shortcomings of power loss, a large number of transformer leakage inductance, the ripple worse. Advantages: Some strong against over-voltage, large duty cycle, lower transformer losses and efficiency higher.Reflected voltage flyback power supply and a determining factorReflected voltage flyback power supply with a parameter related to that is the output voltage, output voltage, the lower the larger the transformer turns ratio, the greater the transformer leakage inductance, switch to withstand higher voltage breakdown switch is possible to absorb power consumption is higher, has the potential to permanently absorb the circuit power device failure (particularly with transient voltage suppression diode circuits). In the design of low-voltage low-power flyback power output optimization process must be handled with care, its approach has several:1, using a large core of a power level lower leakage inductance, which can improve the low-voltage flyback power conversion efficiency, reduce losses, reduce output ripple and improve multi-output power of the cross regulation in general is common in household appliances with a switch power, such as CD-ROM drive, DVB set-top boxes.2, if the conditions were not increased core, can reduce the reflected voltage, reducing the duty cycle. Reduce the reflected voltage can reduce the leakage inductance but may reduce the power conversion efficiency, which is a contradiction between the two, must have an alternative process to find a suitable point, replace the transformer during the experiment can detect the transformer original side of the anti-peak voltage, peak voltage to minimize the anti-pulse width, and magnitude of the work safety margin increase converter. Generally reflected voltage 110V when appropriate.3, enhance the coupling, reducing losses, the introduction of new technologies, and the routing process, transformers to meet the security specifications will between the primary and secondary side to insulation measures, such as pad tape, plus side air insulation tape. These will affect the performance of transformer leakage inductance, the reality can be used in production around the primary winding secondary wrapping method. Or sub-system with a triple insulated wire wound to remove the insulation between the initial level, can enhance the coupling, even use wide copper winding.The article refers to low voltage output is less than or equal to 5V output, as this type of small power supply, my experience is that the power output of more than 20W output can use a forward, get the best value for money, of course, this is not the right decision , and personal habits, relationship between the application environment, the next time to talk about the flyback power supply with a magnetic core, magnetic circuit air gap opening some understanding, I hope you receive adequate guidance.Flyback power transformer core magnetization state at work in one way, it needs to open the air gap magnetic circuit, similar to the pulsating direct current sensor. Part of the magnetic coupling through the air gap. Why I understand the principle of open air gap as follows: As the power ferrite also has a similar rectangle of the operating characteristics (hysteresis loop), operating characteristics curve in the Y-axis magnetic induction (B), now the general production process saturation point in 400mT above, thegeneral value in the design of this value should be more appropriate in the 200-300mT, X-axis magnetic field strength (H) the value of current intensity is proportional to the magnetization. Open magnetic circuit air gap equal to the magnetic hysteresis loop to the X axis tilt, in the same magnetic induction intensity, can withstand a greater magnetizing current, equivalent to core store more energy, this energy cut-off switch When spilled into the load through the transformer secondary circuit, flyback power core to open the air gap is twofold. One is to transfer more energy, and the second to prevent the core into saturation.Flyback Power Transformer magnetization state in one way, not only to pass through the magnetic coupling energy, is also responsible for input and output isolation voltage transform multiple roles. Therefore, the treatment gap need to be very careful, the air gap leakage inductance can become too large, increase the hysteresis loss, iron loss, copper loss increases, affecting the power of the whole performance. Air gap is too small has the potential to transformer core saturation, resulting in damage to powerThe so-called flyback power supply is continuous and discontinuous mode transformer working conditions, working in full load condition in the power transformer complete transfer, or incomplete transmission mode. General design of the working environment, conventional flyback power supply should work in continuous mode, this switch, circuit loss are relatively small, and can reduce the stress of work input and output capacitors, but that there are some exceptions.Requires in particular that: As the characteristics of the flyback power supply is also more suitable for design into a high-voltage power supply, and high-voltage power transformers generally work in discontinuous mode, I understand the need for as high voltage power supply output voltage of the rectifier diodes. Because of the manufacturing process characteristics, high-tension diode, reverse recovery time is long, low speed, the current continuous state, the diode has a positive bias in the recovery, reverse recovery energy loss is very large, is not conducive to converter performance increase, ranging from reduced conversion efficiency, rectifiers, severe fever, weight is even burnt rectifier. As in the intermittent mode, the diode is reverse biased under zero bias, loss can be reduced to a relatively low level. Therefore, high voltage power supply work in discontinuous mode, and the frequency can not be too high.Another type of flyback power supply work in the critical state, the general type of power supply work in FM, or FM-width-modulated dual-mode, a number of low-cost self-excitation power (RCC) is often used this form in order to ensure stable output transformer As the operating frequency, output current or input voltage change, close to the fully loaded transformer is always maintained at between continuous and intermittent, thispower is only suitable for small power output, otherwise the handling characteristics of electromagnetic compatibility will be a headacheFlyback switching power supply transformer should work in continuous mode, it required relatively large winding inductance, of course, is to some extent continuous, excessive pursuit of absolute continuity is not realistic, may need a great core, very much coil turns, accompanied by a large leakage inductance and distributed capacitance, worth the trouble. So how does this parameter to determine, through repeated practice, and analysis of peer design, I think, in the nominal voltage input, the output reached 50% and 60% transformer from intermittent, continuous state of transition to more appropriate. Or at the highest input voltage state, the full output, the transformer can transition to the continuous state on it.开关电源状态，电源工作在高频率，高脉冲的模拟电路的一个比较特殊的一种。

外文资料译文THE DEVELOPMENT OF SWITCHING POWER 1955 United States Royer (GH.Roger) invented the transistor single push-pull oscillation transformer DC-DC converter, frequency conversion control circuit to achieve the beginning of 1957, the United States Charles race (Jen Sen) invented the self-excited push-pull double transformer, in 1964 U.S. scientists have proposed to abolish the frequency transformer switching power supply series idea, which is the power to decline in volume and weight were a fundamental way. To 1969 because of pressure to improve high-power silicon transistors, diode reverse recovery time shortened components to improve, and finally made a 25 kHz switching power supply. At present, switching power supply to small, light weight and high efficiency characteristics are widely used in a variety of computer-driven devices, communications equipment, etc. Almost all the electronic equipment is the rapid development of today's electronic information industry, an indispensable Power Source. Currently on the market the use of switching power bipolar transistors made of 100kHz, 500kHz with a power MOSFET made, Although practical, its frequency needs to be improved. To improve the switching frequency, it is necessary to reduce switching losses, and to reduce switching losses, it needs high-speed switching components. However, the switching speed of the increase will be distributed by the circuit inductance and capacitance, or diode stored charge of the generated surge or noise. This will not only affect nearby electronic equipment, will greatly reduce the reliability of power supply itself. Which, with the switch to prevent Kai - closed by the voltage surge occurs, can use RC or LC buffer, while the stored charge from the diode can be used due to current surges such as core made of amorphous magnetic buffer .However, for more than 1MHz frequency, resonant circuit to be used to make the switch voltage or current through the switch was a sine wave, this can reduce the switching losses, but also to control the occurrence of surge. This switch is called resonant switch. Current switching power supply of this very active, because this approach does not require substantial increase in switching speed can be reduced theoretically to zero switching losses and noise are small, is expected to be of a high-frequency switching power supply main ways. At present, many countries are working on a few trillion Hz, the practical application of converter.Switching power supply direction of development is high-frequency, high reliability, low power, low noise, interference and modular. Oxygen material increase scientific and technological innovation to enhance the high frequency and higher magnetic flux density (Bs) obtained a high magnetic properties, while the small capacitor is a key technology. SMT technology allows switching power supply hasmade considerable progress, both sides of the circuit board layout components to ensure that the switching power supply of light, small, thin. High frequency switching power supply will be bound to the traditional PWM switching technology innovation, realization of ZVS, ZCS soft switching power supply switching technology has become the mainstream technology, and a substantial increase in the switching power supply efficiency.For high reliability, the U.S. manufacturer of switching power supply by reducing operating current to reduce junction temperature and other measures to reduce the stress of the device makes the improved reliability of products.Modular switching power supply is the general trend of development can be composed of modular power distributed power systems can be designed to N +1 redundant power systems, and parallel way to achieve the capacity expansion. Switching power supply noise for the big run this shortcoming, if the individual pursuit of its high-frequency noise will also increase with, while using some of the resonant converter circuit technology, in theory, but also can reduce the high frequency of the noise, but some the practical application of resonant conversion technology, there are still technical problems, it still required much work in this area in order to make the technology to practical use.With the power electronics technology development, switching power supply industry has a bright future. Switching power supply industry in China should speed up the pace of development, we must take the technical innovation, out of the Industry and Academia with Chinese characteristics development road, as the rapid development of our national economy to contribute.开关电源的发展1955年美国罗耶（GH.Roger)发明的自激振荡推挽晶体管单变压器直流变换器，是实现高频转换控制电路的开端，1957年美国查赛（Jen Sen)发明了自激式推挽双变压器，1964年美国科学家们提出取消工频变压器的串联开关电源的设想，这对电源向体积和重量的下降获得了一条根本的途径。

开关电源外文翻译()————————————————————————————————作者：————————————————————————————————日期：Modeling, Simulation, and Reduction of Conducted Electromagnetic Interference Due to a PWM Buck Type Switching Power Supply IA. FarhadiAbstract:Undesired generation of radiated or conducted energy in electrical systems is called Electromagnetic Interference (EMI). High speed switching frequency in power electronics converters especially in switching power supplies improves efficiency but leads to EMI. Different kind of conducted interference, EMI regulations and conducted EMI measurement are introduced in this paper. Compliancy with national or international regulation is called Electromagnetic Compatibility (EMC). Power electronic systems producers must regard EMC. Modeling and simulation is the first step of EMC evaluation. EMI simulation results due to a PWM Buck type switching power supply are presented in this paper. To improve EMC, some techniques are introduced and their effectiveness proved by simulation.Index Terms:Conducted, EMC, EMI, LISN, Switching SupplyI. INTRODUCTIONFAST semiconductors make it possible to have high speed and high frequency switching in power electronics []1. High speed switching causes weight and volume reduction of equipment, but some unwanted effects such as radio frequency interference appeared []2. Compliance with electromagnetic compatibility (EMC) regulations is necessary for producers to present their products to the markets. It is important to take EMC aspects already in design phase []3. Modeling and simulation is the most effective tool to analyze EMC consideration before developing the products. A lot of the previous studies concerned the low frequency analysis of power electronics components []4[]5. Different types of power electronics converters are capable to be considered as source of EMI. They could propagate the EMI in both radiated and conducted forms. Line Impedance Stabilization Network (LISN) is required for measurement and calculation of conducted interference level []6. Interference spectrum at the output of LISN is introduced as the EMC evaluation criterion []7[]8. National or international regulations are the references for the evaluation of equipment in point of view of EMC []7[]8.II. SOURCE, PATH AND VICTIM OF EMIUndesired voltage or current is called interference and their cause is called interferencesource. In this paper a high-speed switching power supply is the source of interference.Interference propagated by radiation in area around of an interference source or by conduction through common cabling or wiring connections. In this study conducted emission is considered only. Equipment such as computers, receivers, amplifiers, industrial controllers, etc that are exposed to interference corruption are called victims. The common connections of elements, source lines and cabling provide paths for conducted noise or interference. Electromagnetic conducted interference has two components as differential mode and common mode []9.A. Differential mode conducted interferenceThis mode is related to the noise that is imposed between different lines of a test circuit by a noise source. Related current path is shown in Fig. 1 []9. The interference source, path impedances, differential mode current and load impedance are also shown in Fig. 1.B. Common mode conducted interferenceCommon mode noise or interference could appear and impose between the lines, cables or connections and common ground. Any leakage current between load and common ground could be modeled by interference voltage source.and Fig. 2 demonstrates the common mode interference source, common mode currents Icm1 and the related current paths[]9.The power electronics converters perform as noise source Icm2between lines of the supply network. In this study differential mode of conducted interference is particularly important and discussion will be continued considering this mode only.III. ELECTROMAGNETIC COMPATIBILITY REGULATIONS Application of electrical equipment especially static power electronic converters in different equipment is increasing more and more. As mentioned before, power electronics converters are considered as an important source of electromagnetic interference and have corrupting effects on the electric networks []2. High level of pollution resulting from various disturbances reduces the quality of power in electric networks. On the other side some residential, commercial and especially medical consumers are so sensitive to power system disturbances including voltage and frequency variations. The best solution to reduce corruption and improve power quality is complying national or international EMC regulations. CISPR, IEC, FCC and VDE are among the most famous organizations from Europe, USA and Germany who are responsible for determining and publishing the most important EMC regulations. IEC and VDE requirement and limitations on conducted emission are shown in Fig. 3 and Fig. 4 []7[]9.For different groups of consumers different classes of regulations could be complied. Class A for common consumers and class B with more hard limitations for special consumers are separated in Fig. 3 and Fig. 4. Frequency range of limitation is different for IEC and VDE that are 150 kHz up to 30 MHz and 10 kHz up to 30 MHz respectively. Compliance of regulations isevaluated by comparison of measured or calculated conducted interference level in the mentioned frequency range with the stated requirements in regulations. In united European community compliance of regulation is mandatory and products must have certified label to show covering of requirements []8.IV. ELECTROMAGNETIC CONDUCTED INTERFERENCE MEASUREMENTA. Line Impedance Stabilization Network (LISN)1-Providing a low impedance path to transfer power from source to power electronics converter and load.2-Providing a low impedance path from interference source, here power electronics converter, to measurement port.Variation of LISN impedance versus frequency with the mentioned topology is presented inFig. 7. LISN has stabilized impedance in the range of conducted EMI measurement []7.Variation of level of signal at the output of LISN versus frequency is the spectrum of interference. The electromagnetic compatibility of a system can be evaluated by comparison of its interference spectrum with the standard limitations. The level of signal at the output of LISN in frequency range 10 kHz up to 30 MHz or 150 kHz up to 30 MHz is criterion of compatibility and should be under the standard limitations. In practical situations, the LISN output is connected to a spectrum analyzer and interference measurement is carried out. But for modeling and simulation purposes, the LISN output spectrum is calculated using appropriate software.For a simple fixed frequency PWM controller that is applied to a Buck DC/DC converter, it is) changes slow with respect to the switching frequency, the possible to assume the error voltage (vepulse width and hence the duty cycle can be approximated by (1). Vp is the saw tooth waveform amplitude.A. PWM waveform spectral analysisThe normalized pulse train m (t) of Fig. 8 represents PWM switch current waveform. The nth pulse of PWM waveform consists of a fixed component D/fs , in which D is the steady state duty cycle, and a variable component dn/f sthat represents the variation of duty cycle due to variation of source, reference and load.As the PWM switch current waveform contains information concerning EMI due to powersupply, it is required to do the spectrum analysis of this waveform in the frequency range of EMI studies. It is assumed that error voltage varies around V e with amplitude of V e1 as is shown in (2).fm represents the frequency of error voltage variation due to the variations of source, reference and load. The interception of the error voltage variation curve and the saw tooth waveform with switching frequency, leads to (3) for the computation of duty cycle coefficients []10.Maximum variation of pulse width around its steady state value of D is limited to D1. In each period of Tm=1/fm , there will be r=fs/fm pulses with duty cycles of dn. Equation (4) presents the Fourier series coefficients Cn of the PWM waveform m (t). Which have the frequency spectrum of Fig.9.B-Equivalent noise circuit and EMI spectral analysisTo attain the equivalent circuit of Fig.6 the voltage source Vs is replaced by short circuit and) as it has shown in Fig. 10. converter is replaced by PWM waveform switch current (IexThe transfer function is defined as the ratio of the LISN output voltage to the EMI current source as in (5).The coefficients di, ni (i = 1, 2, … , 4) correspond to the parameters of the equivalent circuit. Rc and Lc are respectively the effective series resistance (ESR) and inductance (ESL) of the filter capacitor Cf that model the non-ideality of this element. The LISN and filter parameters are as follows: CN = 100 nF, r = 5 Ω, l = 50 uH, RN =50 Ω, LN=250 uH, Lf = 0, Cf =0, Rc= 0, Lc= 0, fs =25 kHzThe EMI spectrum is derived by multiplication of the transfer function and the source noise spectrum. Simulation results are shown in Fig. 11.VI. PARAMETERS AFFECTION ON EMIA. Duty CycleThe pulse width in PWM waveform varies around a steady state D=0.5. The output noise spectrum was simulated with values of D=0.25 and 0.75 that are shown in Fig. 12 and Fig. 13. Even harmonics are increased and odd ones are decreased that is desired in point of view of EMC.On the other hand the noise energy is distributed over a wider range of frequency and the level of EMI decreased []11.B. Amplitude of duty cycle variationThe maximum pulse width variation is determined by D1. The EMI spectrum was simulatedwith D1=0.05. Simulations are repeated with D1=0.01 and 0.25 and the results are shown in Fig.14and Fig.15.Increasing of D1 leads to frequency modulation of the EMI signal and reduction in level of conducted EMI. Zooming of Fig. 15 around 7th component of switching frequency in Fig. 16 shows the frequency modulation clearly.C. Error voltage frequencyThe main factor in the variation of duty cycle is the variation of source voltage. The fm=100 Hz ripple in source voltage is the inevitable consequence of the usage of rectifiers. The simulation is repeated in the frequency of fm=5000 Hz. It is shown in Fig. 17 that at a higher frequency for fm the noise spectrum expands in frequency domain and causes smaller level of conducted EMI. On the other hand it is desired to inject a high frequency signal to the reference voltage intentionally.D. Simultaneous effect of parametersSimulation results of simultaneous application of D=0.75, D1=0.25 and fm=5000 Hz that leadto expansion of EMI spectrum over a wider frequencies and considerable reduction in EMI level is shown in Fig. 18.VII. CONCLUSIONAppearance of Electromagnetic Interference due to the fast switching semiconductor devices performance in power electronics converters is introduced in this paper. Radiated and conducted interference are two types of Electromagnetic Interference where conducted type is studied in this paper. Compatibility regulations and conducted interference measurement were explained. LISN as an important part of measuring process besides its topology, parameters and impedance were described. EMI spectrum due to a PWM Buck type DC/DC converter was considered and simulated. It is necessary to present mechanisms to reduce the level of Electromagnetic interference. It shown that EMI due to a PWM Buck type switching power supply could be reduced by controlling parameters such as duty cycle, duty cycle variation and reference voltage frequency.VIII. REFRENCES[1] Mohan, Undeland, and Robbins, “Power Electronics Converters, Applications and Design” 3rdedition, John Wiley & Sons, 2003.[2] P. Moy, “EMC Related Issues for Power Electronics”, IEEE, Automotive Pow er Electronics, 1989, 28-29 Aug. 1989 pp. 46 – 53.[3] M. J. Nave, “Prediction of Conducted Interference in Switched Mode Power Supplies”, Session 3B, IEEE International Symp. on EMC, 1986.[4] Henderson, R. D. and Rose, P. J., “Harmonics and their Effec ts on Power Quality and Transformers”, IEEE Trans. On Ind. App., 1994, pp. 528-532.[5] I. Kasikci, “A New Method for Power Factor Correction and Harmonic Elimination in Power System”, Proceedings of IEEE Ninth International Conference on Harmonics and Q uality of Power, Volume 3, pp. 810 – 815, Oct. 2000.[6] M. J. Nave, “Line Impedance Stabilization Networks: Theory and Applications”, RFI/EMI Corner, April 1985, pp. 54-56.[7] T. Williams, “EMC for Product Designers” 3rd edition 2001 Newnes.[8] B. Ke isier, “Principles of Electromagnetic Compatibility”, 3rd edition ARTECH HOUSE 1987.[9] J. C. Fluke, “Controlling Conducted Emission by Design”, Vanhostrand Reinhold 1991.[10] M. Daniel,”DC/DC Switching Regulator Analysis”, McGrawhill 1988[11] M. J. Nave,” The Effect of Duty Cycle on SMPS Common Mode Emission: theory and experiment”, IEEE National Symposium on Electromagnetic Compatibility, Page(s): 211-216, 23-25 May 1989.作者：A. Farhadi国籍：伊朗出处：基于压降型PWM开关电源的建模、仿真和减少传导性电磁干扰IIA. Farhadi作者：A. Farhadi国籍：伊朗出处：摘要：电子设备之中杂乱的辐射或者能量叫做电磁干扰(EMI)。

常用的电气设备文字符号文字符号中文含义英文含义A 装置，设备Device,equipmentA 放大器amplifierAPD 备用电源自动投入装置Auto-put-into device of standby supply ARD 自动重合闸装置Auto-reclosing deviceC 电容、电容器Electric capacity,capacitorF 避雷器arresterFU 熔断器fuseG 发电机，电源generator,sourceGN 绿色指示灯Green indicator lampHL 指示灯，信号灯Indicator lamp,pilot lampK 继电器，接触器Relay,contactorKA 电流继电器Current relayKAR 重合闸继电器Auto-reclosing relayKG 气体（瓦斯）继电器Gas relayKH 热（温度）继电器Heat(temperature) relayKM 中间继电器Medium relay(auxiliary relay)KM 接触器ContatorKO 合闸接触器Switch-on contatorKS 信号继电器Signal relayKT 时间继电器Timing relay,time-delay relayKV 电压继电器V oltage relayL 电感，电感器，电抗器inductance,inductor,reactorM 电动机Electric motorN 中性线Neutral wirePA 电流表AmmeterPE 保护线Protective wirePEN 保护中性线Protective neutral wirePJ 电能表，电度表Electric energy meterPV 电压表V oltmeterQ 电力开关SwitchQF 断路器Circuit-breakerQK 刀开关Knife-swicthQI 负荷开关Load-switchQA 隔离开关DisconnectorR 电阻，电阻器Resistance,risistorRD 红色指示灯Red indicator lampS 电力系统Electric power systemS 起辉器Glow staterSA 控制开关(主令开关) Control switchSA 选择开关Selector switchSB 按钮Push-buttonT 变压器TransformerTA 电流互感器current transformatorTAN 零电流互感器Neutral-current transformerTM 电力变压器Power transformerTV 电压互感器V oltage(potential) transformerU 变流器，整流器Converter,rectifierV 电子管，晶体管Electronic tube,transisorVD 二级管DiodeVT 晶体（三极）管TransistorW,WB 母线Busbar(wire)WAS 事故音响信号小母线Accident sound singal small busbar WC 控制（操作）回路电源小母线Control circuit source small-busbar WF 闪光信号小母线Flash-light signal small-busbarWFS 预报信号小母线Forecast signal small busbarWH 白色指示灯White indicator lampWL 灯光信号小母线Forecast signal small busbarWL 线路（导线）Line(wire)WO 合闸回路电源小母线Switch-on circuit source small-busbar WS 信号回路电源小母线Signal circuit source small-busbar WV 电压小母线V oltage small-busbarX 端子板Terminal stripXB 连接片LinkYA 电磁铁ElectromagentYO 合闸线圈Switch-on coilYR 跳闸线圈（脱扣器）Switch-off coil(release)YV 抢夺线圈（扔砖脱扣器）No-voltage coil(no-voltage release)。

led灯具组成英文led球泡灯：led bulbLed贴片灯珠：SMD LEDLed驱动电源：led driver隔绝电源：isolated driver非隔绝电源：non-isolated driver玻璃罩： glass cover陶瓷罩： ceramic cover塑料罩： plastic cover透镜 :lens散热器： heat sink铝外壳： aluminium housingE27 底座： E27 base螺母： nut接头： coupling接线端子： Terminal保险丝： fuse硅套管： silicon sleeve螺丝： Screw 电线： Cord/Wire地线： Ground Wire导热座： heat conduction block Led灯管：led tube 灯珠： led电源： driver线路板： circuit board铝基板： aluminium pcb玻纤板： FR-4 plate铝型材： aluminium sectionPc 塑料管： plastic tube磨砂罩： frosted cover条纹罩： stripped cover透明罩： transparent cover堵头： plugled灯条 : led strip lightFPCLED 灯珠： led电阻： resistor硅胶套管 :silicon sleeve锡膏： solder paste电子线： wire热缩套管： heat-shrinkable T bush铝基板： aluminium pcb铝支架 aluminium bracket电源： driver控制器： controller裸板： bare board滴胶： crystal epoxy灌胶： solid coverLed 面板灯： led panel light铝框： aluminium sashLed 灯珠： ledLed 导光板： light guide plateLed 扩散板： Diffuser反光纸： reflective sheeting后盖板： back shroud电源： driverLed 天花灯： led ceiling light灯珠： Led电源： driverLed 透镜： lens散热器： radiator外壳： housing铝基板： aluminium pcb导线： wire Led筒灯：led down light 灯珠： led电源： driver外壳： housing透镜： lens反光杯： reflection cupLed 射灯： led spotlight灯珠： led驱动电源： driver铝基板： aluminium pcb灯盖： lamp cover灯杯： lamp cover底座： base透镜： lens螺丝： screw分享 LED 和节能灯的专业术语中英翻译LED 以及节能灯专业术语汇总LED=light emitting diode发光二极管 shell material character外壳资料Light source光源 fluorescent light荧光灯Type 型号 ultraviolet radiation紫外线辐射Lamp luminous flux流明量 connector 接头Color temperature CCT色温 reactive loss有功消耗Lamp body material / housing外壳资料 active loss无功消耗Place of origin原产地 AC=alternating current沟通电Product name产品名称 DC=direct current直流电Beam angle照耀角度 socket插座LED brand LED品牌 transformer变压器Input voltage输入电压 dimmer调光器Lamp luminous efficiency光效 spectrum光谱Working temperature /operating temperature工作温度 optical lens光学透镜Certification认证 aluminum铝LED type LED种类 high voltage高压Lifespan / lifetime使用寿命 low voltage低压Lamp power功率 strobe频闪CRI color rending index显色指数 hazardous material有害物质Base type/ lamp base/socker type底座 spotlight 射灯PF power factor功率因数 mercury 汞CCT=correlated color temperature色温 lead铅Halogen 卤素灯 instant start快速启动Lamp cover / lamp shade灯罩 solid state固态的Epistar 台湾晶元简称 ES shockproof 放震的Dimmable可调光 heat dissipation散热Frosted PC雾罩 dimension尺寸Incandescent白炽灯 ultra bright超亮的IP rating / protection class防尘防水指数flame retardant 阻燃剂Warn color暖色 heat sink散热器Cold color冷色 emit放射，发出SMD 贴片 fault故障DIP 直插 quantity灯珠颗数COB=chip on board板上芯片 soft light 柔光Warranty 保质期 closed to natural light靠近自然光Application应用范围 excellent luminous output高光效CE 产品认证 concise and fashion appearance款式精简流行ROHS 限制在电子电器产品中使用有害物质的指令high energy conservation高节能Conductive plastic/plastic that conduct heat导热塑胶 parameter参数Led driver LED驱动 Stable current control driver恒流控制驱动程序Power supply / switch开关电源 super heat dissipation ：散热性好Light tube support灯管支架 Electric wire电线Lamp holder灯头 solid mercury固态汞CFL=compact flourescent light：紧凑型节能灯mixed/blended powder：混淆粉tri-phosphor powder:三基色粉 aluminum:铝diameter of whole tube：灯管直径 frosted glass: 雾镜T2 lamp ： T2 灯 flame retarded PBT case:防阻燃 PBT 材质Super-power lamp：大功率灯spotlight: 聚光灯Floriated lamp/lotus lamp：莲花灯 bulb lamp:球泡灯Half spiral lamp：半螺灯 corn lamp:玉米灯Full spiral lamp：全螺灯 mushroom lamp:蘑菇灯Tubular lamp ： U 型灯 guarantee period:保质期Illumination intensity：光照强度 mixed powder:混淆粉Compact structure：构造紧凑 chip:芯片No flickering/strobe：无闪耀 len: 透镜High light:高光效 angle: 角度Ideal replacement of incandescent:完满的代替白炽灯 colored bulb:彩泡Optional wattage:可选瓦数 reflector:反光杯Length of lamp:整灯长度 heat dissipation index:导热系数Turns of tube:灯管圈数 heat radiation index:热辐射系数high voltage resisted:耐高压 loading port:装货港creepage resisted:抗漏电 MOQ: minimum order quantitystatic resisted:抗静电 sample:样品catalogue:样本 copper：铜name card:名片 rare earth 稀土元素delivery time:交货期 halogen powder卤粉payment ：付款方式 pipe / tube diameter灯管直径句子1.Saving 80% energy:节能 80%2.it makes the lighted objects more vivid使被照物看起来重生动3.energy saving lamp is saver 85% energy than the incandescent lamp节能灯比白炽灯节能85%4.we use PBT material with good tooling我们使用制造工艺特别好的PBT 材质5.A grade tri-phosphor fluorescent powderA级三基色粉6.high lumen efficiency over 60lm/w高光效达60lm/w7.much lower heat than incandescent or halogen bulbs产生的热量比白炽灯和卤素灯更低8.most popular shape and dimension in the market在市场上是比较流行的款式9.energy saving and cost saving节能，节俭花费10.high efficiency, high frequency without flickering高效率，高频次无闪耀11.eye protection, healthy light, good visual effect and high durability保护视力，健康，视觉成效好，持久性强12.ideal replacement of incandescent lamp.白炽灯的完满代替品13.environment friendly. No mercury and lead left.环保，使用后没有汞和铅Application:For energy saving lamp: college, office, hospital, school, factory, shopping mall, supermarket, parking lot, teaching room, bedroom, kitchen room, bank, meeting roomFor LED: hotels decoration, hospital decoration, commercial complexes, conference/meeting rooms, residential/institution buildings, school lighting, places where need energy saving and high color rendering index lightingLED灯具行业词汇大全1. Home LightingAqua Lamp----------------------------------水灯Chandeliers ————————————枝状吊灯floor-------------------------------------------落地灯pendant light------------------------------吊灯table light----------------------------------桌灯vanity mirror light-------------------------镜前灯bathroom light----------------------------浴室灯ceiling fan light----------------------------吊扇灯ceiling mounts-----------------------------吸顶灯garden light--------------------------------庭园灯nightlight------------------------------------夜灯desk lamp-----------------------------------台灯cabinet light--------------------------------橱柜灯wall lamp------------------------------------壁灯2. COMMECIAL LIGHTINGRecessed fluorescent light fixture----------------------------------格型日光灯Emergency light---------------------------------------------------------紧迫照明灯Streetlight----------------------------------------------------------------路灯Outdoor light------------------------------------------------------------户外灯Work light----------------------------------------------------------------工作灯Torchier------------------------------------------------------------------火炬灯Downlight---------------------------------------------------------------崁灯Engineer lamp----------------------------------------------------------工程灯Linear lamp-------------------------------------------------------------线灯Spotlight----------------------------------------------------------------投光灯Searchlight-------------------------------------------------------------探照灯Track light--------------------------------------------------------------轨道灯3. Special-purpose lightStage light------------------------------------舞台灯Strobe light----------------------------------警告灯LED Indicator-------------------------------LED指示灯Revolving lamp-------------------------------赛马灯Decorative light---------------------------装修灯Christmas light------------------------------圣诞灯Neon light-----------------------------------霓虹灯Solar-powered lamp----------------------太阳能灯4. Light BulbEnergy-saving lamp--------------------------------省电灯泡Standard bulb---------------------------------------一般灯泡Motorcycle lamp------------------------------------摩托车灯Auto lamp--------------------------------------------汽车灯LED bulb----------------------------------------------LED灯泡Fluorescent lamp-----------------------------------荧光灯Incandescent lamp--------------------------------白炽灯泡Light tube-------------------------------------------灯管LED light bar----------------------------------------LED灯条High-power LED-----------------------------------高功率 LEDLED modules---------------------------------------LED模组Electrode-free discharge induction lamp------无极管5. Accessories hardware and othersDie-casting-----------------------------------压铸件Hardware fitting----------------------------五金配件Lampshade----------------------------------灯罩Switch----------------------------------------开关Socket----------------------------------------插座Light tube support------------------------灯管支架Lamp socket--------------------------------灯座Lamp Holder--------------------------------灯头Electric wire-------------------------------电线Connector-----------------------------------接头Starter----------------------------------------启动器Sensor----------------------------------------感觉器Voltage stabilizer---------------------------稳压器Controller------------------------------------灯效控制器Acrylic fitting--------------------------------亚克力配件Commutator&converter-----------------镇流器及换流器Transformer--------------------------------变压器Driver-----------------------------------------驱动器Inductance ballast------------------------电感平定器Glass&crystal lighting parts-------------玻璃及水晶配件Plastic fitting-------------------------------塑料配件Dimmer--------------------------------------调光器Electric ballast-----------------------------电子平定器Glass making&processing machinery---------------玻璃制造及加工机械Light test instrument---------------------------------------灯饰测试仪器防备等级标准防备等级IP54 ， IP 为标志字母，数字 5 为第一标志数字， 4 为第二标志数字第一标志数字表示接触保护和外来物保护等级，第二标志数字表示防水保护等级；接触保护和外来物保护等级(第一个数字防备范围第二个数字第一个数字防备范围名称说明名称)防水保护等级说明(第二个数字)0无防备-0无防备-1防备 50mm 直径和更大的固体外来体探测器，球体直径为50mm, 不该完整进入1水滴防备垂直落下的水滴不该惹起伤害2防备 12.5mm直径和更大的固体外来体探测器，球体直径为12.5mm, 不该完整进入2柜体倾斜 15度时，防备水滴柜体向任何一侧倾斜15 度角时，垂直落下的水滴不该惹起伤害3防备 2.5mm直径和更大的固体外来体探测器，球体直径为 2.5mm, 不该完整进入3防备溅出的水以 60 度角从垂直线双侧溅出的水不该惹起伤害4防备 1.0mm直径和更大的固体外来体探测器，球体直径为 1.0mm, 不该完整进入4防备喷水从每个方向瞄准柜体的喷水都不该惹起伤害5防备尘埃不行能完整阻挡尘埃进入，但尘埃进入的数目不会对设备造成伤害5防备射水从每个方向瞄准柜体的射水都不该惹起伤害6尘埃关闭柜体内在20 毫巴的低压时不该进入尘埃6防备强射水从每个方向瞄准柜体的强射水都不该惹起伤害7防备短时浸水柜体在标准压力下短时浸入水中时，不该有能惹起伤害的水量浸入注：探测器的直径不该穿过柜体的孔8防备长久浸水能够在特定的条件下浸入水中，不该有能惹起伤害的水量浸【行业趋向】 LED 照明国际市场剖析跟着环境污染日趋加重，LED 作为新一代照明技术，成为现在全世界社会所关注的焦点。

led 灯具构成英文led 球泡灯：led bulbLed 贴片灯珠：SMD LEDLed驱动电源：led driver隔离电源：isolated driver非隔离电源：non-isolated driver玻璃罩：glass cover陶瓷罩：ceramic cover塑料罩：plastic cover透镜:lens散热器：heat sink铝外壳：aluminium housingE27底座：E27 base螺母：nut接头：coupling接线端子：Terminal保险丝：fuse硅套管：silicon sleeve螺丝：Screw电线：Cord/Wire地线：Ground Wire导热座：heat conduction block Led灯管：led tube 灯珠：led电源：driver线路板：circuit board铝基板：aluminium pcb玻纤板：FR-4 plate铝型材：aluminium sectionPc 塑料管：plastic tube磨砂罩：frosted cover条纹罩：stripped cover透明罩：transparent cover堵头：plugled灯条: led strip lightFPCLED 灯珠：led电阻：resistor硅胶套管:silicon sleeve锡膏：solder paste电子线：wire热缩套管：heat-shrinkable T bush 铝基板：aluminium pcb铝支架aluminium bracket电源：driver控制器：controller裸板：bare board滴胶：crystal epoxy灌胶：solid coverLed面板灯：led panel light铝框：aluminium sashLed 灯珠：ledLed 导光板：light guide plateLed扩散板：Diffuser反光纸：reflective sheeting后盖板：back shroud电源：driverLed天花灯：led ceiling light灯珠：Led电源：driverLed透镜：lens散热器：radiator外壳：housing铝基板：aluminium pcb导线：wire Led 筒灯：led down light 灯珠：led电源：driver外壳：housing透镜：lens反光杯：reflection cupLed 射灯：led spotlight灯珠：led驱动电源：driver铝基板：aluminium pcb灯盖：lamp cover灯杯：lamp cover底座：base透镜：lens螺丝：screw分享LED和节能灯的专业术语中英翻译LED以及节能灯专业术语汇总LED=light emitting diode 发光二极管 shell material character 外壳材料Light source 光源 fluorescent light 荧光灯Type 型号 ultraviolet radiation 紫外线辐射Lamp luminous flux 流明量 connector 接头Color temperature CCT 色温 reactive loss 有功损耗Lamp body material / housing 外壳材料 active loss 无功损耗Place of origin 原产地 AC=alternating current 交流电Product name 产品名称 DC=direct current 直流电Beam angle 照射角度 socket 插座LED brand LED 品牌 transformer 变压器Input voltage 输入电压 dimmer 调光器Lamp luminous efficiency 光效 spectrum 光谱Working temperature /operating temperature 工作温度 optical lens 光学透镜Certification 认证 aluminum 铝LED type LED类型 high voltage 高压Lifespan / lifetime 使用寿命 low voltage 低压Lamp power 功率 strobe 频闪CRI color rending index 显色指数 hazardous material 有害物质Base type/ lamp base/socker type 底座 spotlight 射灯PF power factor 功率因数 mercury 汞CCT=correlated color temperature 色温 lead 铅Halogen 卤素灯 instant start 迅速启动Lamp cover / lamp shade灯罩 solid state 固态的Epistar 台湾晶元简称ES shockproof 放震的Dimmable 可调光 heat dissipation 散热Frosted PC 雾罩 dimension 尺寸Incandescent 白炽灯 ultra bright 超亮的IP rating / protection class 防尘防水指数 flame retardant 阻燃剂Warn color 暖色 heat sink 散热器Cold color 冷色 emit 放射，发出SMD 贴片 fault 故障DIP 直插 quantity 灯珠颗数COB=chip on board 板上芯片 soft light 柔光Warranty 保质期 closed to natural light 接近自然光Application 应用范围 excellent luminous output 高光效CE 产品认证 concise and fashion appearance 样式精简流行ROHS 限制在电子电器产品中使用有害物质的指令 high energy conservation 高节能Conductive plastic/plastic that conduct heat 导热塑胶 parameter 参数Led driver LED 驱动 Stable current control driver恒流控制驱动程序Power supply / switch开关电源 super heat dissipation：散热性好Light tube support 灯管支架 Electric wire 电线Lamp holder 灯头 solid mercury 固态汞CFL=compact flourescent light：紧凑型节能灯 mixed/blended powder：混合粉tri-phosphor powder: 三基色粉 aluminum: 铝diameter of whole tube：灯管直径 frosted glass: 雾镜T2 lamp：T2灯 flame retarded PBT case: 防阻燃PBT材质Super-power lamp：大功率灯 spotlight: 聚光灯Floriated lamp/lotus lamp：莲花灯 bulb lamp: 球泡灯Half spiral lamp：半螺灯 corn lamp: 玉米灯Full spiral lamp：全螺灯 mushroom lamp: 蘑菇灯Tubular lamp：U型灯 guarantee period: 保质期Illumination intensity：光照强度 mixed powder: 混合粉Compact structure：结构紧凑 chip: 芯片No flickering/strobe：无闪烁 len: 透镜High light: 高光效 angle: 角度Ideal replacement of incandescent: 完美的取代白炽灯 colored bulb: 彩泡Optional wattage: 可选瓦数 reflector: 反光杯Length of lamp: 整灯长度 heat dissipation index: 导热系数Turns of tube: 灯管圈数 heat radiation index: 热辐射系数high voltage resisted: 耐高压 loading port: 装货港creepage resisted: 抗漏电 MOQ: minimum order quantitystatic resisted: 抗静电 sample: 样品catalogue: 样本 copper ：铜name card: 名片 rare earth 稀土元素delivery time: 交货期 halogen powder 卤粉payment：付款方式 pipe / tube diameter 灯管直径句子1.Saving 80% energy:节能80%2.it makes the lighted objects more vivid使被照物看起来更生动3.energy saving lamp is saver 85% energy than the incandescent lamp节能灯比白炽灯节能85%4.we use PBT material with good tooling我们使用制造工艺非常好的PBT材质5.A grade tri-phosphor fluorescent powderA级三基色粉6.high lumen efficiency over 60lm/w高光效达60lm/w7.much lower heat than incandescent or halogen bulbs产生的热量比白炽灯和卤素灯更低8.most popular shape and dimension in the market在市场上是比较流行的款式9.energy saving and cost saving节能，节省费用10.high efficiency, high frequency without flickering高效率，高频率无闪烁11.eye protection, healthy light, good visual effect and high durability保护视力，健康，视觉效果好，耐久性强12.ideal replacement of incandescent lamp.白炽灯的完美替代品13.environment friendly. No mercury and lead left.环保，使用后没有汞和铅Application:For energy saving lamp: college, office, hospital, school, factory, shopping mall, supermarket, parking lot, teaching room, bedroom, kitchen room, bank, meeting roomFor LED: hotels decoration, hospital decoration, commercial complexes, conference/meeting rooms, residential/institution buildings, school lighting, places where need energy saving and high color rendering index lightingLED灯具行业词汇大全1.Home LightingAqua Lamp----------------------------------水灯Chandeliers————————————枝状吊灯floor-------------------------------------------落地灯pendant light------------------------------ 吊灯table light---------------------------------- 桌灯vanity mirror light-------------------------镜前灯bathroom light----------------------------浴室灯ceiling fan light----------------------------吊扇灯ceiling mounts-----------------------------吸顶灯garden light--------------------------------庭园灯nightlight------------------------------------夜灯desk lamp-----------------------------------台灯cabinet light--------------------------------橱柜灯wall lamp------------------------------------壁灯2. COMMECIAL LIGHTINGRecessed fluorescent light fixture----------------------------------格型日光灯Emergency light---------------------------------------------------------紧急照明灯Streetlight----------------------------------------------------------------路灯Outdoor light------------------------------------------------------------户外灯Work light----------------------------------------------------------------工作灯Torchier------------------------------------------------------------------火炬灯Downlight---------------------------------------------------------------崁灯Engineer lamp----------------------------------------------------------工程灯Linear lamp-------------------------------------------------------------线灯Spotlight----------------------------------------------------------------投光灯Searchlight-------------------------------------------------------------探照灯Track light--------------------------------------------------------------轨道灯3. Special-purpose lightStage light------------------------------------舞台灯Strobe light----------------------------------警示灯LED Indicator-------------------------------LED指示灯Revolving lamp-------------------------------跑马灯Decorative light---------------------------装饰灯Christmas light------------------------------圣诞灯Neon light-----------------------------------霓虹灯Solar-powered lamp----------------------太阳能灯4. Light BulbEnergy-saving lamp--------------------------------省电灯泡Standard bulb---------------------------------------一般灯泡Motorcycle lamp------------------------------------摩托车灯Auto lamp--------------------------------------------汽车灯LED bulb----------------------------------------------LED灯泡Fluorescent lamp-----------------------------------荧光灯Incandescent lamp--------------------------------白炽灯泡Light tube-------------------------------------------灯管LED light bar----------------------------------------LED灯条High-power LED-----------------------------------高功率LEDLED modules---------------------------------------LED模组Electrode-free discharge induction lamp------无极管5. Accessories hardware and othersDie-casting-----------------------------------压铸件Hardware fitting----------------------------五金配件Lampshade----------------------------------灯罩Switch----------------------------------------开关Socket----------------------------------------插座Light tube support------------------------灯管支架Lamp socket--------------------------------灯座Lamp Holder--------------------------------灯头Electric wire-------------------------------电线Connector-----------------------------------接头Starter----------------------------------------启动器Sensor----------------------------------------感应器Voltage stabilizer---------------------------稳压器Controller------------------------------------灯效控制器Acrylic fitting--------------------------------亚克力配件Commutator&converter-----------------镇流器及换流器Transformer--------------------------------变压器Driver-----------------------------------------驱动器Inductance ballast------------------------电感安定器Glass&crystal lighting parts-------------玻璃及水晶配件Plastic fitting-------------------------------塑料配件Dimmer--------------------------------------调光器Electric ballast-----------------------------电子安定器Glass making&processing machinery---------------玻璃制造及加工机械Light test instrument---------------------------------------灯饰测试仪器防护等级标准防护等级IP54， IP为标记字母，数字5为第一标记数字，4为第二标记数字第一标记数字表示接触保护和外来物保护等级，第二标记数字表示防水保护等级；接触保护和外来物保护等级(第一个数字) 防水保护等级( 第二个数字) 防护范围第二个数字第一个数字防护范围名称说明名称说明0 无防护 - 0 无防护 -1 防护50mm直径和更大的固体外来体探测器，球体直径为50mm,不应完全进入 1 水滴防护垂直落下的水滴不应引起损害2 防护12.5mm直径和更大的固体外来体探测器，球体直径为12.5mm,不应完全进入 2 柜体倾斜15度时，防护水滴柜体向任何一侧倾斜15度角时，垂直落下的水滴不应引起损害3 防护2.5mm直径和更大的固体外来体探测器，球体直径为2.5mm,不应完全进入 3 防护溅出的水以60度角从垂直线两侧溅出的水不应引起损害4 防护1.0mm直径和更大的固体外来体探测器，球体直径为1.0mm,不应完全进入 4 防护喷水从每个方向对准柜体的喷水都不应引起损害5 防护灰尘不可能完全阻止灰尘进入，但灰尘进入的数量不会对设备造成伤害 5 防护射水从每个方向对准柜体的射水都不应引起损害6 灰尘封闭柜体内在20毫巴的低压时不应进入灰尘 6 防护强射水从每个方向对准柜体的强射水都不应引起损害7 防护短时浸水柜体在标准压力下短时浸入水中时，不应有能引起损害的水量浸入注：探测器的直径不应穿过柜体的孔 8 防护长期浸水可以在特定的条件下浸入水中，不应有能引起损害的水量浸【行业趋势】LED照明国际市场分析随着环境污染日益加重，LED作为新一代照明技术，成为当今全球社会所关注的焦点。

目录 contents一、断路器类 Circuit Breaker二、接触器 Contactor三、继电器类 Relays四、电源电器类 Power Supply Apparatus五、开关电器类 Switches Apparatus六、电机驱动类 Motor Drive七、仪表及智能家居类 Meter, Intelligent Home八、照明器类 Lighting九、熔断器类 Fuse十、插座 Socket十一、电器附件 Electric Accessories十二、常用电工电气术语 Terms of Electrics一、断路器类 Circuit Breaker Definition: A circuit breaker is an automatically operated electrical switch designed to protect an electrical circuit from damage caused by overload or short circuit.主要涉及词汇、短语 Related words and phases ¾Electrical life 电气寿命 ¾Mechanical life 机械寿命¾Dielectric strength 介电强度，绝缘强度 ¾rated coil voltage 额定线圈电压¾Contact form 触点形式¾Contact material 触点材料¾contact rating 触点容量¾Coil power 线圈功率¾Pulse width 脉冲宽度，脉冲持续时间 ¾Pick-up voltage 接触电压，起始电压 ¾Drop-out voltage 开断电压¾Contact resistance 接触（接点）电阻，瞬变电阻 ¾Insulation resistance 绝缘电阻¾Operation temperature 工作温度¾Input voltage 输入电压¾Input current 输入电流¾Isolating power 隔离能力¾Rated voltage 额定电压¾Rated current 额定电流¾rated operational current 额定工作电流 ¾rated operational voltage 额定工作电压¾arc extinction 灭弧¾nominal insulation voltage 额定绝缘电压¾rated insultating voltage 额定绝缘电压¾Short-circuit delay protection 短路延时保护 ¾Short-circuit protection 短路保护¾Overload protection 过载保护¾lack voltage protection 欠电压保护 ¾Thermal relay 热继电器¾thermal overload relay 热过载继电器 ¾intermediate relay 中间继电器¾contactor relay 接触器式继电器 ¾time relay 时间继电器¾short-circuit current 短路电流(SCC) ¾low voltage circuit breaker 低压断路器 ¾high voltage circuit breaker 高压断路器 ¾magnetic circuit breaker 磁断路器¾trip breaker 行程断路器¾standards and certification 执行标准以及证书 ¾alternating current(AC) 交流电¾direct current(DC) 直流电¾pollution grade 污染等级¾IP code 防护等级¾Protecting class 防护等级¾Sea level elevation 海拔高度¾Ambient air temperature 周围空气温度 ¾Relative air humidity(RH) 空气相对湿度¾Transportation and storage condition 运输及存储条件¾Impact and vibration 冲击与振动¾Economic principle 经济原则¾Safety principle 安全原则¾Breaking ability 分断能力¾Injection 注塑¾Punching 冲压¾Operation principle figure 工作原理图¾Technical parameter 技术参数¾Dimension and mounting 外型及安装 ¾Type and specification 型号规格¾Mechanical data 机械参数¾Installation mode 安装方式¾Terminal connection capacity 端子接线能力 ¾Case width 外壳宽度¾Two-pole 两极¾Single pole 单极¾Pole No. 极数¾Installation dimensions 安装尺寸¾Case grade rated current 壳架等级电流 ¾Characteristic curve 特征曲线万能式断路器 Air Circuit Breaker (ACB)Rated words and phases¾Power distribution 配电¾Small volume 体积小¾Single-phase earthing/ground protection 单相接地保护¾Modularization 模块化¾Intelligentize 智能化¾Instantaneous release 瞬时脱扣¾Environment friendly 环境友好型¾Environmental 环保的¾Release type 脱扣类型¾Characteristic curve 曲线特性(同前面翻译都存在)¾Power Frequency Voltage-Withstand Test 工频耐压试验¾Leakage acting current 漏电动作电流¾Range of break-off 动作电流范围¾Pure electromagnetic type 纯电磁式¾Rated short circuit broken capability 额定短路分断能力¾Power factor 功率因数¾Tripping curre 脱扣曲线塑料外壳式断路器 Moulded Case Circuit Breaker(MCCB)¾Operation performance 运行特性¾Operational current of magnetic release 运行电流的磁释放¾Arcing-over distance 飞弧距离¾Design code 设计序号¾Breaking capacity grade code 分断能力等级代号¾Rated current of frame 壳架等级电流（此种翻译也存在）¾Small volume, high breaking capacity and short flash-over distance小体积，高分断能力，飞弧距离小¾More convenient and easier to mount function accessories.更方便以及容易安装功能附件(翻译仅供参考)¾Can be mounted with hand-operating device or motor-operating device for remote control.可以与hand-operating（手动）设备或motor-operating（自动）装置同时安装用于远程控制。

中英文对照外文翻译(文档含英文原文和中文翻译)英文：Intelligent switch power supplyWith the rapid development of electronic technology, application field of electronic system is more and more extensive, electronic equipment, there are more and more people work with electronic equipment, life is increasingly close relationship. Any electronic equipment are inseparable from reliable power supply for power requirements, they more and more is also high. Electronic equipment miniaturized and low cost in the power of light and thin, small and efficient for development direction. The traditional transistors series adjustment manostat is continuous control linear manostat. This traditional manostat technology more mature, and there has been a large number of integrated linear manostat module, has the stable performance is good, output ripple voltage small, reliable operation, etc. But usually need are bulky and heavy industrial frequency transformer and bulk and weight are big filter.In the 1950s, NASA to miniaturization, light weight as the goal, for a rocket carrying the switch power development. In almost half a century of developmentprocess, switch power because of its small volume, light weight, high efficiency, wide range, voltage advantages in electric, control, computer, and many other areas of electronic equipment has been widely used. In the 1980s, a computer is made up of all of switch power supply, the first complete computer power generation. Throughout the 1990s, switching power supply in electronics, electrical equipment, home appliances areas to be widely, switch power technology into the rapid development. In addition, large scale integrated circuit technology, and the rapid development of switch power supply with a qualitative leap, raised high frequency power products of, miniaturization, modular tide.Power switch tube, PWM controller and high-frequency transformer is an indispensable part of the switch power supply. The traditional switch power supply is normally made by using high frequency power switch tube division and the pins, such as using PWM integrated controller UC3842 + MOSFET is domestic small power switch power supply, the design method of a more popularity.Since the 1970s, emerged in many function complete integrated control circuit, switch power supply circuit increasingly simplified, working frequency enhances unceasingly, improving efficiency, and for power miniaturization provides the broad prospect. Three end off-line pulse width modulation monolithic integrated circuit TOP (Three switch Line) will Terminal Off with power switch MOSFET PWM controller one package together, has become the mainstream of switch power IC development. Adopt TOP switch IC design switch power, can make the circuit simplified, volume further narrowing, cost also is decreased obviouslyMonolithic switching power supply has the monolithic integrated, the minimalist peripheral circuit, best performance index, no work frequency transformer can constitute a significant advantage switching power supply, etc. American PI (with) company in Power in the mid 1990s first launched the new high frequency switching Power supply chip, known as the "top switch Power", with low cost, simple circuit, higher efficiency. The first generation of products launched in 1994 represented TOP100/200 series, the second generation product is the TOP Switch - debuted in1997 Ⅱ. The above products once appeared showed strong vitality and he greatly simplifies thedesign of 150W following switching power supply and the development of new products for the new job, also, high efficiency and low cost switch power supply promotion and popularization created good condition, which can be widely used in instrumentation, notebook computers, mobile phones, TV, VCD and DVD, perturbation VCR, mobile phone battery chargers, power amplifier and other fields, and form various miniaturization, density, on price can compete with the linear manostat AC/DC power transformation module.Switching power supply to integrated direction of future development will be the main trend, power density will more and more big, to process requirements will increasingly high. In semiconductor devices and magnetic materials, no new breakthrough technology progress before major might find it hard to achieve, technology innovation will focus on how to improve the efficiency and focus on reducing weight. Therefore, craft level will be in the position of power supply manufacturing higher in. In addition, the application of digital control IC is the future direction of the development of a switch power. This trust in DSP for speed and anti-interference technology unceasing enhancement. As for advanced control method, now the individual feels haven't seen practicability of the method appears particularly strong,perhaps with the popularity of digital control, and there are some new control theory into switching power supply.（1）The technology: with high frequency switching frequencies increase, switch converter volume also decrease, power density has also been boosted, dynamic response improved. Small power DC - DC converter switch frequency will rise to MHz. But as the switch frequency unceasing enhancement, switch components and passive components loss increases, high-frequency parasitic parameters and high-frequency EMI and so on the new issues will also be caused.（2）Soft switching technologies: in order to improve the efficiency of non-linearity of various soft switch, commutation technical application and hygiene,representative of soft switch technology is passive and active soft switch technology, mainly including zero voltage switch/zero current switch (ZVS/ZCS) resonance, quasi resonant, zero voltage/zero current pulse width modulation technology (ZVS/ZCS - PWM) and zero voltage transition/zero current transition pulse width modulation (PWM) ZVT/ZCT - technical, etc. By means of soft switch technology can effectively reduce switch loss and switch stress, help converter transformation efficiency （3）Power factor correction technology (IC simplifies PFC). At present mainly divided into IC simplifies PFC technology passive and active IC simplifies PFC technology using IC simplifies PFC technology two kinds big, IC simplifies PFC technology can improve AC - DC change device input power factor, reduce the harmonic pollution of power grid.（4）Modular technology. Modular technology can meet the needs of the distributed power system, enhance the system reliability.（5）Low output voltage technology. With the continuous development of semiconductor manufacturing technology, microprocessor and portable electronic devices work more and more low, this requires future DC - DC converter can provide low output voltage to adapt microprocessor and power supply requirement of portable electronic devicesPeople in switching power supply technical fields are edge developing related power electronics device, the side of frequency conversion technology, development of switch between mutual promotion push switch power supply with more than two year growth toward light, digital small, thin, low noise and high reliability, anti-interference direction. Switching powersupply can be divided into the AC/DC and DC/DC two kinds big, also have AC/AC DC/AC as inverter DC/DC converter is now realize modular, and design technology and production process at home and abroad, are mature and standardization, and has approved by users, but the AC/DC modular, because of its own characteristics in the process of making modular, meet more complex technology and craft manufacture problems. The following two types of switch power supply respectively on the structure and properties of this.Switching power supply is the development direction of high frequency, high reliability, low consumption, low noise, anti-jamming and modular. Because light switch power, small, thin key techniques are changed, so high overseas each big switch power supply manufacturer are devoted to the development of new high intelligent synchronous rectifier, especially the improvement of secondary devices of the device, and power loss of Zn ferrite (Mn) material? By increasing scientific and technological innovation, to enhance in high frequency and larger magnetic flux density (Bs) can get high magnetic under the miniaturization of, and capacitor is a key technology. SMT technology application makes switching power supply has made considerable progress, both sides in the circuitboard to ensure that decorate components of switch power supply light, small, thin. The high frequency switching power supply of the traditional PWM must innovate switch technology, to realize the ZCS ZVS, soft switch technology has become the mainstream of switch power supply technical, and greatly improve the efficiency of switch power. For high reliability index, America's switch power producers, reduce by lowering operating current measures such as junction temperature of the device, in order to reduce stress the reliability of products made greatly increased.Modularity is of the general development of switch power supply trend can be modular power component distributed power system, can be designed to N + 1 redundant system, and realize the capacity expansion parallel. According to switch power running large noise this one defect, if separate the pursuit of high frequency noise will increase its with the partial resonance, and transform circuit technology, high frequency can be realized in theory and can reduce the noise, but part of the practical application of resonant conversion technology still have a technical problem, so in this area still need to carry out a lot of work, in order to make the technology to practional utilization.Power electronic technology unceasing innovation, switch power supply industry has broad prospects for development. To speed up the development of switch power industry in China, we must walk speed of technological innovation road, combinationwith Chinese characteristics in the joint development path, for I the high-speed development of national economy to make the contribution. The basic principle and component functionAccording to the control principle of switch power to classification, we have the following 3 kinds of work mode:1) pulse width adjustment type, abbreviation Modulation Pulse Width pulse width Modulation (PWM) type, abbreviation for. Its main characteristic is fixed switching frequency, pulse width to adjust by changing voltage 390v, realize the purpose. Its core is the pulse width modulator. Switch cycle for designing filter circuit fixed provided convenience. However, its shortcomings is influenced by the power switch conduction time limit minimum of output voltage cannot be wide range regulation; In addition, the output will take dummy loads commonly (also called pre load), in order to prevent the drag elevated when output voltage. At present, most of the integrated switch power adopt PWM way.2) pulse frequency Modulation mode pulse frequency Modulation (, referred to Pulse Frequency Modulation, abbreviation for PFM) type. Its characteristic is will pulse width fixed by changing switch frequency to adjust voltage 390v, realize the purpose. Its core is the pulse frequency modulator. Circuit design to use fixed pulse-width generator to replace the pulse width omdulatros and use sawtooth wave generator voltage？Frequency converter (for example VCO changes frequency VCO). It on voltage stability principle is: when the output voltage Uo rises, the output signal controller pulse width unchanged and cycle longer, make Uo 390v decreases, and reduction. PFM type of switch power supply output voltage range is very wide, output terminal don't meet dummy loads. PWM way and way of PFM respectively modulating waveform is shown in figure 1 (a), (b) shows, tp says pulse width (namely power switch tube conduction time tON), T represent cycle. It can be easy to see the difference between the two. But they have something in common: (1) all use time ratio control (TRC) on voltage stability principle, whether change tp, finally adjustment or T is pulse 390v. Although adopted in different ways, but control goals, is all rivers run into the sea. (2) when load by light weight, or input voltagerespectively, from high changed by increasing the pulse width, higher frequency method to make the output voltage remained stable.3) mix modulation mode, it is to point to the pulse width and switching frequency is not fixed, each other can change, it belongs to the way the PWM and PFM blend mode. It contains a pulsewidthomdulatros and pulse frequency modulator. Because and T all can adjust alone, so occupies emptiescompared to adjust the most wide range, suitable for making the output voltage for laboratories that use a wide range of can adjust switching power supply. Above 3 work collectively referred to as "Time Ratio Control" (as a Control, from TRC) way. As noted, pulse width omdulatros either as a independent IC use (for example UC3842 type pulse width omdulatros), can also be integrated in DC/DC converter (for example LM2576 type switching voltage regulators integrated circuit), still can integration in AC/DC converter (for example TOP250 type monolithic integrated circuit switching power supply. Among them, the switching voltage regulators belong to DC/DC power converter, switching power supply general for AC/DC power converter.The typical structure of switch power as figure1shows, its working principle is: the first utility into power rectifier and filtering into high voltage dc and then through the switch circuit and high-frequency switch to high frequency low pressure pulse transformer, and then after rectification and filter circuits, finally output low voltage dc power. Meanwhile in the output parts have a circuit feedback to control circuit, through the control PWM occupies emptiescompared to achieve output voltage stability.The input filter RectifierfilterHighfrequencytransformerInputrectifierfilterControlcircuitAuxiliarypowerProtectioncircuitdetectionAC The outputdcFigure 1 typical structure of switch power supplySwitching power supply by these four components:1) the main circuit: exchange network input, from the main circuit to dc output. Mainly includes input filter, rectifier and filtering, inverter, and output rectifier and filtering.(1) input filter: its effect is the power grid existing clutter filtering, also hinder the machine produces clutter feedback to public power grid.(2) rectifier and filter: the power grid ac power directly for a smooth dc rectifier, for the next level transformation.(3) inverter: will the dc after rectifying a high-frequency ac, this is the core of high frequency switching power supply, the higher the frequency, the volume, weight and the ratio of power output and smaller.(4) Out put rectifier and filter: according to load needs, providing stable and reliable dc power supply. 2) control circuit: on the one hand, from the output by sampling with set standards to compare, and then to control inverter, changing its frequency or pulse width, achieve output stability, on the other hand, according to data provided by the test circuit, the protection circuit differential, provide control circuit to the machine to various protection measures. Including the output feedback circuit and sampling circuit, pulse width modulator. 3) the detection and protection circuit: detection circuit had current detection, over-voltage detection, owe voltage detection, overheat detection, etc.; Protection circuit can be divided over current protection, over-voltage protection, owe voltage protection, the ground-clamp protection, overheating protection, automatic restart, soft start, slow startup, etc. Various types. 4) Other circuit: if the sawtooth wave generator, offset circuit, optical coupler, etc.智能开关电源中文：随着电子技术的高速发展，电子系统的应用领域越来越广泛，电子设备的种类也越来越多，电子设备与人们的工作、生活的关系日益密切。

Switching Power SupplySwitching power supply is a voltage conversion circuit, the main work is the step-up and step-down, are widely used in modern electronic products. Always work because the switching transistor in the "on" and "off" state, so called switching power supply. Switching power supply in real terms is an oscillator circuit, the conversion of electrical energy not only used in power circuit, the circuit in other applications are also common, such as LCD backlight circuits, such as fluorescent lamps. Switch the source compared with the transformer high efficiency, good stability, small size and other advantages, disadvantages is the relatively small power, and high-frequency interference on the circuit, circuit complexity, such as easy maintenance.Talking about switching power supply before you familiar with the feedback oscillator circuit transformer, can produce a regular pulse current or voltage of the circuit is called oscillation circuit, transformer feedback oscillator circuit is able to meet these conditions the circuit; it in the basic amplifier circuit with a feedback loop composed of C2, L1 election to form a parallel resonant frequency circuit, the instantaneous power in the circuit turn-VT, this time in the C2, L1, composed of parallel resonant circuits have a very rich harmonic, when the plus parallel resonance frequency and the natural frequency of the same circuit, the circuit to enter a state of oscillation, and VT through L3 feedback to further enlarge the base, and ultimately the formation of a regular pulse current or voltage output to the load RL. Switching power supply is around the transformer and the feedback oscillator circuit design, but the basis of the original increase in the number of protection and control circuits, analysis of our oscillation circuit can be used to analyze the method of switching power supply.Switching Power Supply vibration by way of sub-swing can be dividedinto self-excited and it excited the two, since there is no need for plus-excited self-oscillation signal source, since the excitation can see it as a feedback oscillator circuit transformer, and it is excited is totally dependent on the outside to maintain the oscillation, in the practical application of self-excitation of a comprehensive range of applications. According to the structure of incentives signal classification; can be divided into pulse-width-modulated pulse amplitude modulation and two pulse-width-modulated signal to control the width, that is, frequency, pulse amplitude modulation control signal of the magnitude of the role of the two the same so that oscillation frequency is maintained at within a certain range, to the effect of voltage stability. Winding transformer can be divided into three types in general, a group involved in the primary winding of the oscillation, a group is to maintain the oscillation of the feedback winding, there is a group of the load windings. Household appliances used in switching power supply,after the AC to 220V bridge rectifier, converted into about 300V DC, filter into the transformer is added after the switch to high-frequency oscillations of the collector, feedback winding back to the base to maintain the oscillation circuit, load sensor windings of the electrical signal, by rectification, filtering, the DC voltage regulator has been to provide power to the load. Winding in the provision of electric power load, but also take up the capacity of voltage stability, the theory is then a circuit voltage output voltage sampling devices to monitor the output voltage changes, timely feedback to adjust the oscillation frequency oscillator circuit to achieve the voltage stability The purpose of the circuit in order to avoid interference, the feedback voltage to the oscillator circuit will be isolated optocoupler. Most switches have a standby power circuit, switching power supply in standby mode still oscillating, but the frequency of normal working hours than lower.Some switching power supply are complex, numerous components, many protection and control circuit, in the absence of technical support, maintenance is a headache with the matter. I face this kind of situation is, first of all, I will find the switch and its participation in the external oscillation circuit, it separated from the circuit to see if it met the conditions for oscillation, such as detection bias and whether it is normal, whether positive feedback failure, as well as its own switches, switching power supply has very large protection, after exclusion of the prosecution and load control and protection circuit.the control circuit while output from the sample, with the set standards, then controlled inverter, change its frequency or pulse width output achieve stability, on the other hand, according to test data provided by the circuit by circuit protection identification, Control circuit for the unit for various protection measures.SMPS developments and trends in the United States in 1955 Roje (GH.Roger) invention of the self-excited oscillation push redeem transistor single transformer DC converters, high-frequency conversion is the beginning of control circuit, 1957 United States investigation tournament (Jen Sen) since the invention of the push-pull double Flyback transformers, 1964 American scientists proposes to abolish the frequency transformer series switching power supply scenario, This power to the right size and weight of the decline was a fundamental way. To the 1969 high-power silicon transistor because the pressure increase diode reverse recovery time shortened, and other components improve, and finally turned into a 25 kHz switching power supply.Currently, switching power supply to small, Light volume and the characteristics of high efficiency has been widely used in electronic computer-driven variety of terminal equipment, Communications equipment almost all electronic equipment, the electronic information industryindispensable to the rapid development of a power mode. Currently the market for sale in the switching power supply using bipolar transistors made of 100kHz. use made of 500kHz MOS power, though practical, but its frequency to be further enhanced. To improve the switching frequency, it is necessary to reduce the switching loss, and to reduce the switching loss, you need to have high-speed switching devices. However, the switching speed, will be affected by the circuit inductance and capacitance diode or stored charge arising from the impact of the surge or noise. This will not only affect the surrounding electronic equipment, but also greatly reduce the reliability of the power supply itself. Among them, with the switch to prevent Kai-closed by the voltage surge, it is R-C or L-C Composite bumpers, and the storage charge by the diode current surge caused by the use made of amorphous cores such as magnetic bumper. However, the high frequency of 1 MHz and above, using resonant circuit, Switch to enable the voltage or current through the switch was a sine, which could reduce the switching loss, This can also control the surge occurred. Switches such as resonant mode switching. Currently such SMPS of very active, because this means no significant increase switching speed can theoretically put switching loss fall to zero. and the noise is small, is expected to become high-frequency switching power supply of one of the main ways. At present, many countries in the world are working on several trillion Hz converter practical research.开关电源开关电源是一种电压转换电路，主要的工作内容是升压和降压，广泛应用于现代电子产品。