开关电源使用说明书英文版

1描述初级开关电源UNO-PS/1AC/24DC/ 60W© PHOENIX CONTACT 数据表UNO POWER电源设备由于具备最高的能效性而在世界范围内引人关注。

低空载损耗和高能效节约了能源。

由于其具备高功率密度，因此UNO POWER电源设备是理想的解决方案，尤其在较为紧凑的控制箱中。

特性–因其具备85 V AC ... 264 V AC的输入电压范围而能够在全球范围内使用–通过稳定的24 V DC电源实现了最大的系统可用性–整个电源系列采用优化设计，空载损耗低，所以电源的转化效率非常高–极其紧凑：该薄型电源可提供60 W的电力，而其宽度仅有35 mm请确保始终使用最新文档。

可从 /products, 下载文档。

105547_zh_022014-07-012目录1描述 (1)2目录 (2)3订单数据 (3)4技术数据 (4)5使用目的 (7)6结构 (7)6.1 设备元件 (7)6.2 结构图 (7)7组装 (8)7.1 打开包装 (8)7.2 安装电源设备 (8)7.3 安装在DIN导轨上 (10)7.4 正常安装位置 (10)8安装电源设备 (11)8.1 安全规范和安装注意事项 (11)8.2 电源连接 (11)8.3 设备连接 (12)8.4 连接电缆 (12)9电源设备的运行状况 (13)9.1 正常运行 (13)9.2 过载响应 (13)9.3 环境温度 > 55°C时的状况 (13)9.4 在其它位置进行安装时的状况 (14)10电源设备的操作 (17)10.1 监控功能 (17)10.2 对电源设备进行并联操作 (18)10.3 电源设备的串行操作 (19)11拆卸 (19)11.1 拆卸电源设备 (19)11.2 废料处理注意事项 (19)描述型号订货号件/包装初级开关UNO电源，用于导轨安装，输入：单相，输出：24 V DC/60 W UNO-PS/1AC/24DC/ 60W290299213订单数据附件型号订货号件/包装冗余模块，5 V ... 24 V DC、2 x 10 A、1 x 20 A。

开关电源使用说明书英文版摘要：1.开关电源概述2.开关电源的工作原理3.开关电源的组成部分4.开关电源的使用方法5.开关电源的维护与注意事项6.结束语正文：【开关电源概述】开关电源是一种利用现代电力电子技术，通过开关管的开通和关断，实现输入电压和输出电压之间能量传递的电源设备。

与传统的线性稳压器相比，开关电源具有转换效率高、体积小、重量轻等优点，在现代电子设备中得到了广泛应用。

【开关电源的工作原理】开关电源的工作原理可以简单概括为：通过开关管进行开关控制，使输入电压的正负半周期分别作用于输出端，从而实现输出电压的调整。

具体来说，当开关管导通时，输入电压加在输出端的电感元件上，电感元件储存能量；当开关管截止时，电感元件释放能量，输出端得到稳定的电压。

【开关电源的组成部分】一个典型的开关电源主要包括以下几个部分：1.输入部分：包括输入电源、输入滤波器等，用于接收输入电压并滤除其中的干扰信号。

2.开关部分：主要包括开关管、驱动电路等，用于实现输入电压的正负半周期切换。

3.输出部分：包括输出滤波器、稳压器等，用于输出稳定电压并滤除其中的高频干扰。

4.控制部分：主要包括误差放大器、脉宽调制电路等，用于实现开关电源的自动稳压功能。

【开关电源的使用方法】1.根据设备的电源需求，选择合适的开关电源。

主要参数包括输出电压、输出电流、工作温度等。

2.将开关电源的输入端与电源系统相连接，注意接线要牢固可靠，并确保电源线有足够的截面积。

3.将开关电源的输出端与负载设备相连接，同样要注意接线要牢固可靠。

4.开启电源系统，检查开关电源输出电压是否稳定，如有异常，请检查电源线、开关电源及负载设备。

【开关电源的维护与注意事项】1.定期检查开关电源的工作状态，如发现异常，应及时断电并联系专业人员进行维修。

2.不要在潮湿、高温、充满尘埃的环境中使用开关电源，以免影响其正常工作和使用寿命。

3.不要在输入电压超过规定范围的情况下使用开关电源，以免损坏设备。

开关电源变压器Switch Mode Power Transformers◆使用频率：２５—５００ｋＨｚ◆功率范围：１０—５００Ｗ◆高效率、低漏感◆散热好，电磁干扰小◆磁芯：EE、EC、EI、EF、EER、ED、EFD、PQ、RM等◆磁芯材质：SP3、SP4、SP4A◆安装方式：可按客户要求设计◆Operating Frequency: 25—500kHz◆Range of Power: 10—500W◆High efficieacy,Low leakage inductanc◆easily dissipate heat, Lower EMI (Electromagnic Inference)◆Ferrite cores:EE、EC、EI、EF、EER、ED、EFD、PQ、RM and so on◆Meterial: SP3、SP4、SP4A◆Installation:Subject to customers’ request开关电源变压器Switch mode power transformer储能变压器（扼流圈－－变压器）＊Energy saving transformer (choke coils - transformer)１、各类开关电源：ＤＣ－ＤＣ、ＡＣ－ＤＣ－ＡＣ、ＤＣ－ＡＣ、ＵＰＳ电源等２、电路形式：单端正激、单端反激、推挽、半桥、全桥电路等３、用于通讯、网络、计算机；医疗设备、ＯＡ设备；电视、音响、空调等家用电器设备； 各类电子仪器、航空航天设备等1、Kinds of switch mode power:DC-DC、AC-DC-AC、DC-AC、UPS etc.2、Circuits:Single-terminal forward start、Single-terminal backward Start、Push-Pull、half-bridgecircuit、entire-bridge circuit etc.3、　Applied in: Telecommunication system, internet system,compute system;Medical apparatus and instru- ments,OA equipment; TV set,acoustics air conditioner;all kinds of electronics instruments, aircraftequipment and so on.●所有变压器、滤波器都在高磁场情况下应用，Ｔ１、Ｔ３、Ｔ４中存在直流磁场；●Ｔ７、Ｔ２上是方波，当方波不对称电流也会有直流分量；●Ｔ５、Ｔ６主要是交流分量，直流分量较小；●当开关电流较高时，Ｔ１、Ｔ３、Ｔ４可用铁粉磁芯。

Rated opera- Non-rep. Control Rated op e r a t ion a l currenttional voltage voltagevoltage10 A 25 A40 A230 VACrms 650 V p 3-32 VDC RS1A23D10 RS1A23D25 RS1A23D4018-36 VAC/DC RS1A23LA10 RS1A23LA25 RS1A23LA40400 VACrms 850 V p 4-32 VDC RS1A40D10 RS1A40D25 RS1A40D4018-36 VAC/DC RS1A40LA10 RS1A40LA25 RS1A40LA40480 VACrms 1200 V p 4-32 VDC RS1A48D10 RS1A48D25 RS1A48D4018-36 VAC/DCRS1A48LA10 RS1A48LA25 RS1A48LA40• Zero switching AC Solid State Relay• Direct copper bonding (DCB) technology in 25A and 40A types • LED indication• Clip-on IP 20 protection cover • Self-lifting terminals• Housing free of moulding mass• 2 input ranges: 4-32 VDC and 18-36 VAC/VDC• Operational ratings up to 40 AACrms and 480 VAC • Blocking voltage: Up to 1200 V p • Opto-isolation: > 4000 VACrms• Integrated snubber network in 25 A and 40 A typesProduc t De s c rip t ionThe zero switching relay with triac (10 A) or thyristor output (25 A, 40 A) offer a solution for resistive load switching. The zero switching relay switches ON when the sinus-oidal voltage crosses zero and switches OFF when the current crosses zero. TheSolid State RelaysLED indicates the status of the control input. The clip-on cover is securing touch pro-tection to IP 20. Output ter-minals can handle cables up to 16 mm 2.Type SelectionSwitching modeRated operational Rated operational Control voltage voltage current A: Zero Switching 23: 230 VACrms 10: 10 AACrmsLA: 18 to 36 VAC/VDC 40: 400 VACrms 25: 25 AACrms D: 3 to 32 VDC*48: 480 VACrms40: 40 AACrms*4 to 32 VDC for 400 VACand 480VAC typesSelection GuideIndustrial, 1-Phase ZS w. LED Types RS 23, RS 40, RS 48General Spec if ic a tionsHousing SpecificationsOutput SpecificationsThermal SpecificationsInput SpecificationsIsolationHeatsink Dimensions (load current versus ambient temperature)RS (10)3.34 2.58 1.81 1.04 0.27 -4.25 3.37 2.49 1.61 0.73-5.41 4.38 3.36 2.33 1.31 0.286.92 5.70 4.49 3.27 2.06 0.848.967.49 6.02 4.55 3.08 1.6111.9 10.08.19 6.36 4.53 2.6916.2 13.9 11.59.10 6.72 4.3423.7 20.3 17.0 13.7 10.4 7.1238.6 33.4 28.3 23.1 17.9 12.7- - - - - 29.710.09.08.07.06.05.04.03.02.01.0Loadcurrent [A]Thermal resistance [K/W]T AAmbient temp. [°C]Powerdissipation [W]13.011.39.78.26.85.54.23.01.90.92030 4050 6070RS (25)Carlo Gavazzi Heatsink Thermal ...for power (see Accessories) resistance... dissipation No heatsink required --- N/A RHS 300 5.00 K/W > 0 W RHS 100 3.00 K/W > 25 W RHS 45C 2.70 K/W > 60 W RHS 45B 2.00 K/W > 60 W RHS 90A 1.35 K/W > 60 W RHS 45C plus fan 1.25 K/W > 0 W RHS 45B plus fan 1.20 K/W > 0 W RHS 112A 1.10 K/W > 100 W RHS 301 0.80 K/W > 70 W RHS 90A plus fan 0.45 K/W > 0 W RHS 112A plus fan 0.40 K/W > 0 W RHS 301 plus fan 0.25 K/W > 0 W Consult your distribution > 0.25 K/W N/A Infinite heatsink - No solution --- N/AHeatsink SelectionHeatsink Dimensions (cont.)RS (40)Powerdissipation [W]T AAmbient temp. [°C]25.022.520.017.515.012.510.07.55.02.5Thermal resistance [K/W]Loadcurrent [A]3.23 2.80 2.37 1.94 1.51 1.09 0.66 23 3.70 3.21 2.73 2.24 1.75 1.26 0.78 214.30 3.74 3.17 2.61 2.05 1.49 0.92 185.07 4.41 3.76 3.10 2.44 1.78 1.12 156.12 5.33 4.54 3.75 2.96 2.17 1.38 137.58 6.61 5.64 4.66 3.69 2.72 1.75 10 9.808.55 7.30 6.05 4.80 3.55 2.30 8 13.5 11.80 10.09 8.37 6.66 4.94 3.23 6-18.3 15.7 13.04 10.39 7.74 5.09 4- - - - - 16.2 10.7 2 20 30 40 50 60 70 80Powerdissipation [W]T AAmbient temp. [°C]403632282420161284Thermal resistance [K/W]Loadcurrent [A]1.73 1.49 1.25 1.01 0.77 0.52 0.28 412.00 1.73 1.45 1.18 0.90 0.63 0.35 36 2.35 2.03 1.71 1.39 1.08 0.76 0.44 31 2.80 2.43 2.05 1.68 1.30 0.93 0.55 273.41 2.96 2.51 2.05 1.60 1.15 0.70 224.26 3.71 3.15 2.59 2.03 1.47 0.92 185.56 4.84 4.12 3.40 2.68 1.96 1.24 147.74 6.74 5.75 4.76 3.77 2.78 1.78 1012.12 10.58 9.04 7.50 5.96 4.42 2.88 6 - - - 15.74 12.56 9.37 6.18 320 30 40 50 60 70 80DimensionsFunctional DiagramAC Control Voltage25The declaration in this section is prepared in compliance with People’s Republic of China Electronic Industry Standard SJ/T11364-2014: Marking for the Restricted Use of Hazardous Substances in Electronic and Electrical Products.Part NameToxic or Harardous Substances and Elements Lead (Pb)Mercury (Hg)Cadmium (Cd)Hexavalent Chromium (Cr(Vl))Polybrominated biphenyls (PBB)Polybrominated diphenyl ethers(PBDE)Power Unit AssemblyxOOOOOO: Indicates that said hazardous substance contained in homogeneous materials fot this part are below the limit require-ment of GB/T 26572.X: Indicates that said hazardous substance contained in one of the homogeneous materials used for this part is above the limit requirement of GB/T 26572.Environmental Information环境特性这份申明根据中华人民共和国电子工业标准SJ/T11364-2014：标注在电子电气产品中限定使用的有害物质零件名称有毒或有害物质与元素铅(Pb)汞(Hg)镉(Cd)六价铬(Cr(Vl))多溴化联苯(PBB)多溴联苯醚(PBDE)功率单元xOOOOOO:此零件所有材料中含有的该有害物低于GB/T 26572的限定。

参数型号LW-1550KD 0-15V连续可调0-50A连续可调LED数字显示±1% ±1个字LW-1560KD 0-15V连续可调0-60A连续可调LED数字显示±1% ±1个字LW-3040KD0-30V连续可调0-40A连续可调LED数字显示±1% ±1个字LW-3050KD 0-30V连续可调0-50A连续可调LED数字显示±1% ±1个字LW-3060KD 0-30V连续可调0-60A连续可调LED数字显示±1% ±1个字LW-6020KD 0-60V连续可调0-20A连续可调LED数字显示±1% ±1个字LW-6030KD 0-60V连续可调0-30A连续可调LED数字显示±1% ±1个字LW-10020KD 0-100V连续可调0-20A连续可调LED数字显示±1% ±1个字- 1 -高精度直流稳压稳流开关电源使 用 说 明 书INSTRUCTION MANUAL2.1.额定工作条件：输入电压：AC220V±10% 50Hz（AC110V 60Hz输入可定做）工作环境：-10℃ ～ +40℃ 相对湿度＜80%储存环境：-20℃ ～ +70℃ 相对湿度＜70%LW系列电源为高效率开关电源，具有带载能力强，连续工作故障率低，并有过压、过温、过载、限流等多种保护功能。

即可作稳压电源使用也可作稳流电源使用，稳压、稳流可自动转换。

是科研、院校、工厂等首选电源产品。

具体型号参数见下表：二、参数规格电压输出电流输出显示方式显示精度 LONGWEI SWITCHING POWER SUPPLY香 港 龙 威 仪 器 仪 表 有 限 公 司LONGWEI INSTRUMENTS (H.K) CO., LTD感谢您购买使用龙威开关电源系列产品，为了使您更好的使用本产品，使用之前请仔细阅读说明书，并妥善保管，以便日后查阅！一、概述2.2.电源输出参数：电压稳定度：≤0.2%电流稳定度：≤0.5%负载稳定度：≤0.5%纹波及噪声：≤1%（有效值）三、面板控制3.1.前面板：（1）电流显示：用于显示当前电流值，单位：安培（A）。

感谢你使用LED开关电源，在使用之前请详细阅读如下内容：Please read the following contents before you use LED Power Switch Supply:一、产品原理概况Theory本产品是采用脉宽调制（PWM）技术控制的新型开关电源。

输入的交流电压经过整流滤波产生的300V左右的直流电压，在专用芯片的控制下，电路中的变压器、开关器件产生高频方波电压，经过大功率整流管后输出高精度、高稳定的直流电压。

Our products are new style of Power Switch Supply by using PWM technical and controlled by PWM. Input V olatge will produce approximately 300V DC/DC voltage when it goes through reatification filtering, the transformer、switch will cause high frequency square wave voltage and output high preciseness、high stable DC/DC voltage when it passes high power rectifying tube under the controll of ASIC chip.二、产品特点Feature1、体积小，重量轻Small size, Light2、工作电压范围宽：输入电压可在170-264V内正常工作。

width range of Input V oltage: the allowable input voltage ranges from 170-264V3、安全，可靠性高（执行标准：GB4943）。

Safety, reliable(Implement Standard: GB4943)4、卓越的工作性能：大功率的开关电源有5-10秒的延时检测电路设计，能很好的杜绝电源通电瞬间输出不稳定的高电压，从而能防止负载不受高电压的冲击（特别是LED发光源，能最大限度的减少因工作电压突变所造成的光衰）。

STR-A60xxHDescriptionThe STR-A60xxH series are power ICs for switching power supplies, incorporating a power MOSFET and a current mode PWM controller IC. Including a startup circuit and a standby function in the controller, the product achieves low power consumption, low standby power, and high cost-effectiveness power supply systems with few external components.The STR-A60xxH internal MOSFET has a V DSS of 650 V(min) or 700 V(min), and an R DS(on) of 2.8 or 6.0 Ω with a frequency of 100 kHz. Power output is rated at 10 or 15 W at 230 V AC input and 8 or 13 W at wide input range (85 to 265 V AC).The device is provided in an industry-standard DIP-8 package, with pin 6 removed for increased isolation.Features and Benefits▪ Small DIP8 package with10 to 15 W power output 230 V AC ▪ Current Mode PWM control with 100 kHz switching frequency▪ Built-in Random Switching function, reducing EMI noise, and simplifying EMI filters, and therefore reducing cost ▪ Built-in Slope Compensation function, avoiding subharmonic oscillation▪ Built-in Auto Standby function (Input Power, P IN < 25 mW at no load)▫ Normal operation: PWM mode▫ Light load operation: Standby mode (burst oscillation)▪ Built-in Audible Noise Suppression function during Standby mode▪ Built-in Startup Circuit, reducing power consumption in standby operation, and eliminating external components.▪ Bias-Assist function, improving startup operation,suppressing V CC voltage drop in operation, and allowing use of smaller V CC capacitorCurrent Mode Control PWM Regulator ICFor Switching Power SuppliesTypical ApplicationNot to scaleContinued on the next page…Applications:For switching power supplies used in:• Battery chargers for cell phones, digital cameras, video cameras, shavers, emergency lights• Stand-by power for LCD TVs, desktop PCs, LB Printers, audio equipment• Small switched-mode power supplies for inkjet printers, DVD/CD players, set-top boxes• Auxiliary power supplies for A/C, refrigerators, washers, dish washers, and other white goodsPackage: 8-pin DIPFeatures and Benefits (continued)▪ Built-in Leading Edge Blanking function▪ Built-in High Speed Latch Release function, releasing the latch shutdown immediately at turning off AC supply▪ Two-chip structure, with a controller and a power MOSFET with guaranteed avalanche energy available to simplify surge absorber circuits▪ Protection functions:▫ Brown-In and Brown-Out Protection function: auto-restart,prevention of excess input current and heat rise at low inputvoltage ▫ Overcurrent Protection function (OCP): pulse-by-pulse built-in compensation circuit to minimize OCP point variation on AC input voltage▫ Overload Protection function (OLP): auto-restart, built-in timer, reduces heat during overload condition, and no external components required▫ Overvoltage Protection function (OVP): latched shutdown▫ Thermal Shutdown Protection function (TSD): shutdown latches device off to prevent continuous oscillationSelection GuidePart Numberf OSC(kHz)MOSFETV DSS(min)(V)R DS(on)(max)(Ω)P OUT*(W)Package Packing230 V WideSTR-A6059H100650 6.0108DIP8 with pin 6 removed50 pieces per tubeSTR-A6062H7002.81513STR-A6069H 6.0108* The listed output power is based on the package thermal ratings, and the peak output power can be 120% to 140% of the value stated here. At low output voltage and short duty cycle, the output power may be less than the value stated here.Absolute Maximum Ratings1 Valid at T A = 25°C, unless otherwise specifiedCharacteristic Symbol Notes Terminals Rating UnitDrain Current2I Dpeak Single pulse STR-A6059H8 – 1 1.8A STR-A6062H8 – 1 3.0A STR-A6069H8 – 1 1.8ASingle Pulse Avalanche Energy3E ASSingle pulse, V DD = 99 V,L = 20 mHSTR-A6059H8 – 124mJSTR-A6062H8 – 156mJSTR-A6069H8 – 124mJ I LpeakSingle pulse, V DD = 99 V,L = 20 mHSTR-A6059H8 – 1 1.8ASTR-A6062H8 – 1 2.2ASTR-A6069H8 – 1 1.8AS/OCP Terminal Voltage V OCP 1 – 3 –2 to 6V Controller IC (MIC) Supply Input Voltage V CC 5 – 332V FB/OLP Terminal Voltage V FB 4 – 3 –0.3 to 14V FB/OLP Terminal Sink Current I FB 4 – 3 1.0mA BR Terminal Voltage V BR 2 – 3 –0.3 to 7V BR Terminal Sink Current I BR 2 – 3 1.0mA MOSFET Power Dissipation4P D1Mounted on a 15 mm × 15 mm PCB8 – 1 1.35W Controller IC (MIC) Power Dissipation P D2 5 – 3 1.2WOperating Ambient Temperature T OP Maximum recommended internal leadframetemperature, T F(max) = 115°C– –20 to 125°CStorage Temperature T stg – –40 to 125°C Channel Temperature T ch – 150°C 1Current characteristics are defined based on IC as sink ( +), or source ( –).2Refer to MOSFET Safe Operating Area Curve.3Refer to MOSFET Avalanche Energy Derating Coefficient Curve.4Refer to MOSFET Temperature versus Power Dissipation Curve.7,8 Functional Block Diagram1 2 3 4875D/STD/STVCCS/OCPBRGNDFB/OLPPin-out DiagramTerminal List TableNumber Name Function1S/OCP MOSFET source, and input for Overcurrent Protection detection signal2BR Input for Brown-In and Brown-Out Protection detection voltage3GND Ground4FB/OLP Input for constant voltage control signal, and input for Overload Protection signal 5VCC Input for power supply for control circuit6–(Pin removed)7, 8D/ST MOSFET drain, and input for startup currentElectrical Characteristics1 Valid at V CC = 18 V, T A = 25°C, unless otherwise specifiedCharacteristic Symbol Terminal Min.Typ.Max.Unit Operation Start Voltage V CC(ON) 5 – 313.815.316.8V Operation Stop Voltage2V CC(OFF) 5 – 37.38.18.9V Circuit Current in Operation I CC(ON) 5 – 3 – – 2.5mA Minimum Startup Voltage V ST(ON) 5 – 3 –38 –V Startup Current I STARTUP 5 – 3 –3.7 –2.5 –1.5mA Startup Current Supply Threshold Voltage2V CC(BIAS) 5 – 38.59.510.5V Average Switching Frequency f OSC(av)8 – 390100110kHz Switching Frequency Variance Range∆f8 – 3 –8 –kHz Maximum Duty Cycle D MAX8 – 3778389% Minimum On-Time t ON(MIN) – –470–ns Leading Edge Blanking Time t BW––280 –ns OCP Compensation Coefficient D PC––33–mV/μs Maximum Duty Cycle for OCP Compensation D DPC––36–% OCP Threshold Voltage at Zero Duty Cycle V OCP(L) 1 – 30.700.780.86V OCP Threshold Voltage at 36% Duty Cycle V OCP(H) 1 – 30.810.90.99V Maximum Feedback Current I FB(MAX) 4 – 3 –340 –230 –150μA Minimum Feedback Current I FB(MIN) 4 – 3 –30 –15 –7μA Oscillation Stop FB/OLP Voltage V FB(OFF) 4 – 30.850.95 1.05V OLP Threshold Voltage V FB(OLP) 4 – 37.38.18.9V OLP Delay Time t OLP 4 – 3546882ms Operation Current After OLP I CC(OLP) 5 – 3 –300600μA FB/OLP Terminal Clamp Voltage V FB(CLAMP) 4 – 31112.814V Brown-In Threshold Voltage V BR(IN) 2 – 3 5.2 5.66V Brown-Out Threshold Voltage V BR(OUT) 2 – 3 4.45 4.8 5.15V BR Terminal Clamp Voltage V BR(CLAMP) 2 – 36 6.47V BR Function Disabling Threshold V BR(DIS) 2 – 30.30.480.7V OVP Threshold Voltage V CC(OVP) 5 – 3262932V Latch Circuits Sustaining Current3I CC(LATCH) 5 – 3 –700 –μA Thermal Shutdown Operating Temperature T J(TSD) 5 – 3135 – –°C 1Current characteristics are defined based on IC as sink ( +), or source ( –).2V CC(BIAS) > V CC(OFF).3A latch circuit is a circuit operated with Overvoltage Protection (OVP) and/or Thermal Shutdown Protection (TSD) in operation.MOSFET Electrical Characteristics Valid at T A = 25°C, unless otherwise specifiedCharacteristic Symbol Device Terminal Min.Typ.Max.UnitDrain-to-Source Breakdown Voltage V DSS STR-A6059H8 – 1650 – – V STR-A6062H8 – 1700 – – V STR-A6069H8 – 1700 – – VDrain Leakage Current I DSS All8 – 1 – – 300μAOn-Resistance R DS(on)STR-A6059H8 – 1 – – 6ΩSTR-A6062H8 – 1 – – 2.8ΩSTR-A6069H8 – 1 – – 6ΩSwitching Time t f All8 – 1 – – 250ns Thermal Resistance*RθchC All – – – 22°C/W *Case temperature, T C, is defined at the center of surface on the branded side of the package.Typical application circuit example. Brown-in/Brown-out function enabled byconnecting the BR terminal to a resistive dividerTime (s)1010.10.0110-610-510-410-310-210-1T r a n s i e n t T h e r m a l R e s i s t a n c e , R θc h -c (°C /W )Transient Thermal Resistance CurveAmbient Temperature, T A (°C)1.61.41.21.00.80.60.40.20A l l o w a b l e P o w e r D i s s i p a t i o n , P D 1 (W )MOSFET Temperature versus Power Dissipation CurveChannel Temperature, T ch (°C)100806040200255075125100150E A S T e m p e r a t u r e D e r a t i n g C o e f f i c i e n t (%)MOSFET Avalanche Energy Derating Coefficient CurveDrain-to-Source Voltage, V DS (V)1001010.10.01D r a i n C u r r e n t , I D (A )Channel Temperature, T ch (°C)100806040200020406010080120S a f e O p e r a t i n g A r e a T e m p e r a t u r e D e r a t i n g C o e f f i c i e n t (%)S. O. A. Temperature Derating Coefficient CurveCharacteristic PerformanceSTR-A6059HTime (s)1010.10.0110-610-510-410-310-210-1T r a n s i e n t T h e r m a l R e s i s t a n c e , R θc h -c (°C /W )Transient Thermal Resistance CurveAmbient Temperature, T A (°C)1.61.41.21.00.80.60.40.20A l l o w a b l e P o w e r D i s s i p a t i o n , P D 1 (W )MOSFET Temperature versus Power Dissipation CurveChannel Temperature, T ch (°C)100806040200255075125100150E A S T e m p e r a t u r e D e r a t i n g C o e f f i c i e n t (%)MOSFET Avalanche Energy Derating Coefficient CurveDrain-to-Source Voltage, V DS (V)1001010.10.01D r a i n C u r r e n t , I D (A )Channel Temperature, T ch (°C)100806040200020406010080120S a f e O p e r a t i n g A r e a T e m p e r a t u r e D e r a t i n g C o e f f i c i e n t (%)S. O. A. Temperature Derating Coefficient CurveCharacteristic PerformanceSTR-A6062HTime (s)1010.10.0110-610-510-410-310-210-1T r a n s i e n t T h e r m a l R e s i s t a n c e , R θc h -c (°C /W )Transient Thermal Resistance CurveAmbient Temperature, T A (°C)1.61.41.21.00.80.60.40.20A l l o w a b l e P o w e r D i s s i p a t i o n , P D 1 (W )MOSFET Temperature versus Power Dissipation CurveChannel Temperature, T ch (°C)100806040200255075125100150E A S T e m p e r a t u r e D e r a t i n g C o e f f i c i e n t (%)MOSFET Avalanche Energy Derating Coefficient CurveDrain-to-Source Voltage, V DS (V)1001010.10.01D r a i n C u r r e n t , I D (A )Channel Temperature, T ch (°C)100806040200020406010080120S a f e O p e r a t i n g A r e a T e m p e r a t u r e D e r a t i n g C o e f f i c i e n t (%)S. O. A. Temperature Derating Coefficient CurveCharacteristic PerformanceSTR-A6069HMaterial of terminal: CuTreatment of terminal: Solder plating (Pb-free)Weight: Approximately 0.51 g Unit: mmAppearance: The body shall be clean and shall not bear any stain, rust, or flaw.Marking: The type number and lot number shall be clearly marked.a. Type Number: A60**b. Lot Number:1st letter: Last digit of year 2nd letter: Month1 to 9 for Jan. to Sept. O for Oct. N for Nov. D for Dec. 3rd letter: Weekc. Sanken Registration NumberPackage Outline Drawing, DIP-8Leadframe plating Pb-free. Device composition compliant with the RoHS directive.Packing Specifications50 tubes per inner carton (maximum)2500 pieces maximum per inner carton 4 inner cartons per outer carton (maximum)10,000 pieces maximum per outer cartonBecause reliability can be affected adversely by improper storage environments and handling methods, please observe the following cautions.Cautions for Storage• Ensure that storage conditions comply with the standard temperature (5°C to 35°C) and the standard relative humidity(around 40% to 75%); avoid storage locations that experienceextreme changes in temperature or humidity.• Avoid locations where dust or harmful gases are present and avoid direct sunlight.• Reinspect for rust on leads and solderability of products that have been stored for a long time.Cautions for Testing and HandlingWhen tests are carried out during inspection testing and otherstandard test periods, protect the products from power surgesfrom the testing device, shorts between the product pins, andwrong connections.Remarks About Using Silicone Grease with a Heatsink• When silicone grease is used in mounting this product on a heatsink, it shall be applied evenly and thinly. If more siliconegrease than required is applied, it may produce excess stress. • Volatile-type silicone greases may crack after long periods of time, resulting in reduced heat radiation effect. Silicone greasewith low consistency (hard grease) may cause cracks in the mold resin when screwing the product to a heatsink.• Our recommended silicone greases for heat radiation purposes, which will not cause any adverse effect on the product life, areindicated below:Type SuppliersG746Shin-Etsu Chemical Co., Ltd.YG6260Momentive Performance Materials Holding, Inc.SC102Dow Corning Toray Co., Ltd.Soldering• Leadframetemperature,T F, should not exceed 115°(max)• When soldering the products, please be sure to minimize the working time, within the following limits:260±5°C 10 s350±5°C 3 s (solder iron)• To avoid internal chip damage, soldering on each of the lead-pins should be at a distance of at least 1.5 mm away from the body of the products.Electrostatic Discharge• When handling the products, the operator must be grounded.Grounded wrist straps worn should have at least 1 MΩ ofresistance from the operator to ground to prevent shock hazard, and it should be placed near the operator.• Workbenches where the products are handled should be grounded and be provided with conductive table and floor mats.• When using measuring equipment such as a curve tracer, the equipment should be grounded.• When soldering the products, the head of soldering irons or the solder bath must be grounded in other to prevent leak voltages generated by them from being applied to the products.• The products should always be stored and transported in Sanken shipping containers or conductive containers, or be wrapped in aluminum foil.The products described herein are manufactured in Ja p an by Sanken Electric Co., Ltd. for sale by Allegro MicroSystems, Inc.Sanken and Allegro reserve the right to make, from time to time, such de p ar t ures from the detail spec i f i c a t ions as may be re q uired to per m it im-p rove m ents in the per f or m ance, reliability, or manufacturability of its prod u cts. Therefore, the user is cau t ioned to verify that the in f or m a t ion in this publication is current before placing any order.When using the products described herein, the ap p li c a b il i t y and suit a bil i t y of such products for the intended purpose shall be reviewed at the users responsibility.Application and operation examples described in this document are quoted for the sole purpose of reference for the use of the products herein and Sanken can assume no responsibility for any infringement of industrial property rights, intellectual property rights or any other rights of Sanken, Allegro, or any third party which may result from its use.When using the products specified herein by either (i) combining other products or materials therewith or (ii) physically, chemically or otherwise processing or treating the products, please duly consider all possible risks that may result from all such uses in advance and proceed therewith at your own responsibility.Although Sanken undertakes to enhance the quality and reliability of its products, the occurrence of failure and defect of semiconductor productsat a certain rate is inevitable. Users of Sanken products are requested to take, at their own risk, preventative measures including safety design of the equipment or systems against any possible injury, death, fires or damages to the society due to device failure or malfunction.Sanken products listed in this document are designed and intended for the use as components in general purpose electronic equipment or appa-ratus (home appliances, office equipment, telecommunication equipment, measuring equipment, etc.). Please return to us this document with your signature(s) or seal(s) prior to the use of the products herein.When considering the use of Sanken products in the applications where higher reliability is required (traffic signal control systems o equipment, fire/ crime alarm systems, various safety devices, etc.), please contact your nearest Sanken sales representative to discuss, and then return to us this docu-ment with your signature(s) or seal(s) prior to the use of the products herein.The use of Sanken products without the written consent of Sanken in the applications where extremely high reliability is required (aerospace equip-ment, nuclear power control systems, life support systems, etc.) is strictly prohibited.Anti radioactive ray design is not considered for the products listed herein.The information in c lud e d herein is believed to be accurate and reliable. Ap p li c a t ion and operation examples described in this pub l i c a t ion are given for reference only and Sanken and Allegro assume no re s pon s i b il i t y for any in f ringe m ent of in d us t ri a l property rights, intellectual property rights, or any other rights of Sanken or Allegro or any third party that may result from its use. The contents in this document must not be transcribed or copied without Sanken’s written consent.Sanken assumes no responsibility for any troubles, such as dropping products caused during transportation out of Sanken's distribution network. Copyright © 2011 Allegro MicroSystems, Inc.。

开关电源说明书范文一、产品概述开关电源是一种将交流电转换为直流电的装置，广泛应用于各种电子设备中。

本产品为小型开关电源，具有体积小、效率高、稳定性好等特点，适用于家庭、办公室和工业领域等使用。

二、产品特点1.高效能：采用高效率的开关电源方案，能够将电能转换为有效功率，避免能量的浪费。

2.稳定性好：配备专业的电压稳定控制装置，能够保证输出电压的稳定性，避免因电压波动而对设备造成影响。

3.短路保护：当输出短路时，开关电源会自动断开输出，避免因短路而损坏设备。

4.过载保护：当负载超过额定功率时，开关电源会自动断开输出，避免因过载而损坏设备。

三、产品规格1.输入电压：AC100-240V，适用于全球范围内的电源标准。

2.输出电压：DC5V，具体输出电压可根据需要进行调整。

3.输出电流：最大输出电流为2A，具体输出电流可根据需要进行调整。

4.工作温度：0-40℃，在此温度范围内工作可保证电源的稳定性和耐久性。

5.外壳材料：采用阻燃塑料外壳，具有良好的防火性能。

四、使用方法1.将开关电源插头插入电源插座中，确保电源稳定。

2.连接需要供电的设备，将开关电源的输出端插入设备的电源接口。

3.打开开关电源，此时指示灯会亮起，表示电源开启。

4.使用过程中，如有短路或过载情况，开关电源会自动断开输出，此时应检查设备是否正常。

5.使用完毕后，应先关闭开关电源，再将插头拔出电源插座。

五、注意事项1.在使用过程中，应避免潮湿、高温和强烈的振动环境，以免影响开关电源的性能和寿命。

2.请勿将开关电源放置在易燃、易爆材料附近，以免发生火灾或爆炸事故。

4.请勿将开关电源接入超过额定电压的电源中，以免损坏开关电源和供电设备。

5.请勿将开关电源长时间处于高功率负载下工作，以免因过载而损坏设备。

六、包装清单1.开关电源主机x12.电源线x13.使用说明书x1七、售后服务1.本产品提供一年质保期，以自购买日起计算。

Power Supply智能高频开关电源系统说明书Power Supply智能高频开关电力操作电源系统用户说明书出版状态标准日期2002年7月第1版 2004年9月第2版BOM编号 31010132成都市雨田骏科技开展2004年版权所有，保存一切权利，内部交流使用。

在没有得到本公司书面许可时，任何单位和个人不得擅自摘抄、复制本书〔软件等〕的一局部或全部，不得以任何形式〔包括资料和出版物〕进行传播。

版权所有，侵权必究。

内容如有改动，不另行通知。

Copyright ©2004by Yutianjun Industry Co.，Ltd..All rights reserved.The information in this document is subject to change without notice. No part of this document may in any form or by any means (electronic，mechanical，micro-copying，photocopying，recording or otherwise) be reproduced，stored in a retrieval system or transmitted without prior written permission from Yutianjun Industry Co., Ltd.出版说明内容介绍欢送您使用雨田骏公司的产品。

本手册主要介绍电力操作电源系统自冷系列产品，包括系统原理篇和使用维护篇两大局部，较详细地描述了系统及组成局部的工作原理和使用维护方法，并列举了一些系统常见故障的处理方法，适合电力操作电源〔直流屏〕用户、电源维护工程师使用。

读者对象电力操作电源用户维护工程师本书的约定警告高压在高压存在的地方粘贴此标记。

保护性接地端在机柜底框架保护接地端上加此标记牌。

DVS-008R00EN Instruction SheetTR Bilgi DökümaniTW安裝說明CN安装说明EN This is an OPEN TYPE module and therefore should be installed in an enclosure free of airborne dust, humidity, electric shock and vibration. The enclosure should prevent non-maintenance staff from operating the device (e.g. key or specific tools are required for operating the enclosure) in case danger and damage on the device may occur.The switches support 12-48VDC power inputs. The switches must be powered by using UL Listed power source with SELV output, rated 12-48VDC, 2.0A minimum and Tma 75 degreeC up to 2000m.FR Ceci est un module ouvert et il doit donc être installé dans un coffret à l’abri des poussières, des vibrations et ne pas être exposé aux chocs électriques. Le boitier ou l’armoire doit éviter toute action d’un personnel autre que celui affecté à la maintenan ce del’appareil (par exemple, clefs, outils spécifiques pour l’ouverture du coffret), ceci afin d’éviter tout accident corporel ouendommagement du produit). Les interrupteurs supportent des tensions entrées de 12-48VDC. Les interrupteurs doivent êtrealimentés par une source d'énergie TBT homologuée UL , avec une sortie de 12-48VDC, 2.0A minimum et Tma de 75 degrés C jusqu'à 2000m.TR Bu ürün AÇIK TİP bir modül olup toz, rutubet, elektrik şoku ve titreşimden uzak kapalı yerlerde muhafaza edilmelidir. Yanlış kullanım sonucu ürünün zarar görmesini önlemek için yetkili olmayan kişiler tarafından ürüne müdahale edilmesini önleyecek koruyucuönlemler alınmalıdır. (Ürünün bulunduğu panoya kilit konulması gibi). Anahtarlar(switch) 12-48VDC olarak beslenebilir. SwitchlerSELV çıkış tipine sahip, 12-48Vdc, 2.0A minimu m, Tma 75 derece C ve 2000 metreye kadar UL onaylı güç kaynağı ilebeslenmelidir.TW 本機為開放型（OPEN TYPE）機種，因此使用者使用本機時，必須將之安裝於具防塵、防潮及免於電擊∕衝擊意外之外殼配線箱內。

MBRB30H30CT-1G, NRVBB30H30CT-1G, MBR30H30CTG Switch-mode Power Rectifiers30 V, 30 AFeatures and Benefits•Low Forward V oltage•Low Power Loss/High Efficiency•High Surge Capacity•150°C Operating Junction Temperature•30 A Total (15 A Per Diode Leg)•Guard−Ring for Stress Protection•NRVBB Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q101 Qualified and PPAP Capable•These Devices are Pb−Free and are RoHS CompliantApplications•Power Supply − Output Rectification•Power Management•InstrumentationMechanical Characteristics:•Case: Epoxy, Molded•EpoxyMeetsUL94V−*********•Weight:1.5 Grams (I2PAK) (Approximately)1.9 Grams (TO−220) (Approximately)•Finish: All External Surfaces Corrosion Resistant and Terminal Leads are Readily Solderable•Lead Temperature for Soldering Purposes:260°C Max. for 10 SecondsSCHOTTKY BARRIERRECTIFIER30 AMPERES, 30 VOLTS13MARKINGDIAGRAMSI2PAK (TO−262)CASE 418DSTYLE 3AYWWB30H30GAKA3TO−220CASE 221ASTYLE 6A= Assembly LocationY= YearWW= Work WeekB30H30= Device CodeG= Pb−Free PackageAKA= Diode PolaritySee detailed ordering and shipping information on page 5 of this data sheet.ORDERING AND MARKING INFORMATIONMAXIMUM RATINGS (Per Diode Leg)Rating Symbol Value UnitPeak Repetitive Reverse Voltage Working Peak Reverse Voltage DC Blocking Voltage V RRMV RWMV R30VAverage Rectified Forward Current (Rated V R) T C = 138°C I F(AV)15APeak Repetitive Forward Current (Rated V R, Square Wave, 20 kHz)I FRM30ANonrepetitive Peak Surge Current(Surge applied at rated load conditions halfwave, single phase, 60 Hz)I FSM260AOperating Junction Temperature (Note 1)T J−55 to +150°C Storage Temperature T stg*55 to +150°C Voltage Rate of Change (Rated V R)dv/dt10,000V/m s Controlled Avalanche Energy (see test conditions in Figures 9 and 10)W AVAL250mJ ESD Ratings:Machine Model = C Human Body Model = 3B> 400> 8000VStresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected.1.The heat generated must be less than the thermal conductivity from Junction−to−Ambient: dP D/dT J < 1/R q JA.THERMAL CHARACTERISTICSRating Symbol Value Unit Maximum Thermal ResistanceJunction−to−Case Junction−to−Ambient R q JCR q JA2.070°C/WELECTRICAL CHARACTERISTICS (Per Diode Leg)Rating Symbol Value UnitMaximum Instantaneous Forward Voltage (Note 2) (I F = 15 A, T C = 25°C)(I F = 15 A, T C = 125°C)(I F = 30 A, T C = 25°C)(I F = 30 A, T C = 125°C)v F0.480.400.550.53VMaximum Instantaneous Reverse Current (Note 2) (Rated DC Voltage, T C = 25°C)(Rated DC Voltage, T C = 125°C)i R0.8130mAProduct parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions.2.Pulse Test: Pulse Width = 300 m s, Duty Cycle ≤ 2.0%.I F , I N S T A N T A N E O U S F O R W A R D C U R R E N T (A M P S )Figure 1. Typical Forward Voltage Figure 2. Maximum Forward VoltageV F , INSTANTANEOUS FORWARD VOLTAGE (VOLTS)10010.10.40.21.00.80.6I R , R E V E R S E C U R R E N T (A M P S )Figure 3. Typical Reverse Current Figure 4. Maximum Reverse Current50V R , REVERSE VOLTAGE (VOLTS)10I F , A V E R A G E F O R W A R D C U R R E N T (A M P S )Figure 5. Current DeratingT C , CASE TEMPERATURE (°C)1201101050140150130160P F O , A V E R A G E P O W E R D I S S I P A T I O N (W A T T S )15I O , AVERAGE FORWARD CURRENT (AMPS)1620510Figure 6. Forward Power Dissipation100.1101520301004681214301525202025250.30.50.70.9I F , I N S T A N T A N E O U S F O R W A R D C U R R E N T (A M P S )V F , INSTANTANEOUS FORWARD VOLTAGE (VOLTS)10010.10.40.21.00.80.60.1100.30.50.70.9I R )50V R , REVERSE VOLTAGE (VOLTS)1015203025C , C A P A C I T A N C E (p F )0V R , REVERSE VOLTAGE (VOLTS)1500025Figure 7. Typical Capacitance2010153000302000250010005005R (t ), T R A N S I E N T T H E R M A L R E S I S T A N C EFigure 8. Thermal Response Junction−to−Caset 1, TIME (sec)BV DUTI L I DV DDt0t1t2t Figure 9. Test Circuit Figure 10. Current−Voltage WaveformsThe unclamped inductive switching circuit shown in Figure 9 was used to demonstrate the controlled avalanche capability of this device. A mercury switch was used instead of an electronic switch to simulate a noisy environment when the switch was being opened.When S1 is closed at t0 the current in the inductor I L ramps up linearly; and energy is stored in the coil. At t1 the switch is opened and the voltage across the diode under test begins to rise rapidly, due to di/dt effects, when this induced voltage reaches the breakdown voltage of the diode, it is clamped at BV DUT and the diode begins to conduct the full load current which now starts to decay linearly through the diode, and goes to zero at t2.By solving the loop equation at the point in time when S1 is opened; and calculating the energy that is transferred to the diode it can be shown that the total energy transferred is equal to the energy stored in the inductor plus a finite amount of energy from the V DD power supply while the diode is in breakdown (from t1 to t2) minus any losses due to finite component resistances. Assuming the component resistive elements are small Equation (1) approximates the total energy transferred to the diode. It can be seen from this equation that if the V DD voltage is low compared to the breakdown voltage of the device, the amount of energy contributed by the supply during breakdown is small and the total energy can be assumed to be nearly equal to the energy stored in the coil during the time when S1 was closed, Equation (2).W AVAL[12LI2LPKǒBV DUTBV DUT–V DDǓW AVAL[12LI2LPKEQUATION (1):EQUATION (2):ORDERING INFORMATIONDevice Package Shipping MBRB30H30CT−1G TO−262(Pb−Free)50 Units / RailNRVBB30H30CT−1G TO−262(Pb−Free)50 Units / RailMBR30H30CTG TO−220(Pb−Free)50 Units / RailTO −220CASE 221A ISSUE AKDATE 13 JAN 2022STYLE 1:PIN 1.BASE2.COLLECTOR3.EMITTER4.COLLECTORSTYLE 2:PIN 1.BASE 2.EMITTER 3.COLLECTOR 4.EMITTERSTYLE 3:PIN 1.CATHODE 2.ANODE 3.GATE 4.ANODESTYLE 4:PIN 1.MAIN TERMINAL 12.MAIN TERMINAL 23.GATE4.MAIN TERMINAL 2STYLE 7:PIN 1.CATHODE 2.ANODE 3.CATHODE 4.ANODE STYLE 10:PIN 1.GATE 2.SOURCE 3.DRAIN 4.SOURCE STYLE 5:PIN 1.GATE 2.DRAIN 3.SOURCE 4.DRAIN STYLE 8:PIN 1.CATHODE 2.ANODE3.EXTERNAL TRIP/DELAY4.ANODESTYLE 6:PIN 1.ANODE 2.CATHODE 3.ANODE 4.CATHODE STYLE 9:PIN 1.GATE2.COLLECTOR3.EMITTER4.COLLECTOR STYLE 11:PIN 1.DRAIN 2.SOURCE 3.GATE 4.SOURCE STYLE 12:PIN 1.MAIN TERMINAL 12.MAIN TERMINAL 23.GATE4.NOT CONNECTEDI 2PAK (TO −262)CASE 418D −01ISSUE DDATE 16 OCT 2007NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: INCH.STYLE 1:PIN 1.BASE2.COLLECTOR3.EMITTER4.COLLECTORSTYLE 2:PIN 1.GATE 2.DRAIN 3.SOURCE 4.DRAINSTYLE 3:PIN 1.ANODE 2.CATHODE 3.ANODE 4.CATHODESTYLE 4:PIN 1.GATE2.COLLECTOR3.EMITTER4.COLLECTORD DIM MIN MAX MIN MAX MILLIMETERSINCHES A 0.3350.3808.519.65B 0.3800.4069.6510.31C 0.1600.185 4.06 4.70D 0.0260.0350.660.89E 0.0450.055 1.14 1.40G 0.100 BSC 2.54 BSC H 0.0940.110 2.39 2.79J 0.0130.0250.330.64S 0.390 REF 9.90 REF V 0.0450.070 1.14 1.78W0.5220.55113.2514.00MBM 0.13 (0.005)T F 0.122 REF 3.10 REF K 0.5000.56212.7014.27ON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor thePUBLICATION ORDERING INFORMATIONTECHNICAL SUPPORTNorth American Technical Support:Voice Mail: 1 800−282−9855 Toll Free USA/Canada Phone: 011 421 33 790 2910LITERATURE FULFILLMENT :Email Requests to:*******************onsemi Website: Europe, Middle East and Africa Technical Support:Phone: 00421 33 790 2910For additional information, please contact your local Sales Representative。

施耐德cus开关英文说明书Schneider CUS Switch English ManualThank you for choosing Schneider CUS Switch. This manual will guide you through the installation and use of the switch.1. IntroductionThe Schneider CUS Switch is a high-quality switch designed for use in residential and commercial environments. It features a sleek design and a range of advanced features.2. InstallationTo install the Schneider CUS Switch, follow these steps:- Turn off the power supply before installation.- Remove the existing switch plate from the wall.- Connect the wires to the appropriate terminals on the back of the switch.- Attach the switch to the wall using the provided screws.3. UsageTo use the Schneider CUS Switch, follow these steps:- To turn the switch on, press the top part of the switch.- To turn the switch off, press the bottom part of the switch.- The switch will illuminate when turned on.4. MaintenanceTo ensure the longevity of your Schneider CUS Switch, follow these guidelines:- Clean the switch regularly using a soft, dry cloth.- Do not use abrasive cleaners or liquid cleaners on the switch.- Avoid excessive force when pressing the switch.5. TroubleshootingIf you encounter any issues with your Schneider CUS Switch, please refer to the troubleshooting section in the provided user manual. If the problem persists, please contact our customer support for assistance.6. WarrantyThe Schneider CUS Switch comes with a limited warranty. Please refer to the warranty section in the provided user manual for more information.We hope that this manual provides you with all the necessary information to install and use your Schneider CUS Switch. If you have any further questions or need assistance, please do not hesitate to contact our customer support.。

CDKU-S200-350 Ultra-Thin Switching Power SupplyUser ManualStandard: Q/DLX 173 □ Please read the product instructions carefully before the installation and operation of the product, and keep those instructions properly for reference later1.Features and PurposesCDKU-S series product is a single group output enclosed switching power supply with 30mm ultra-thin appearance design, and the whole series of products use new technology, significantly reducing no-load power consumption and improving product efficiency, with efficiency up to 90%. It can be widely used in many fields such as communications, LED display, industrial control, radio and television, computer networks, medical apparatus and instruments, and intelligent monitoring.2.Product Model and Specifications and MeaningsOutput voltage codeRated capacitySingle group outputUltra-slim switching power supplyEnterprise code3. Working Conditions and Installation Method3.1 Working Conditions:Ambient temperature: -10°C~+60°C (refer to output derating curve, Fig. 1), ambient humidity: 20%~90 %Rh without condensation.3.2 Installation Method:Choose a suitable fixing position, and confirm the length and torque of the screws during installation to ensure good insulation and stability.3.3 In order to prolong the life of the equipment, please fully consider the heat dissipation problem:⚫The power supply should be installed in a place where the surrounding air is well ventilated. ⚫It is recommended to install it on a metal plate.⚫It is recommended that the spacing between the two power supplies is 20mm and more.⚫It is recommended that forced air cooling is used (such as: axial fans).4. Working PrincipleThe switching power supply is used to control the switch tube through the circuit for high-speed turn-on and turn-off, thus generating required one set or multiple sets of voltage in the secondary stage of the switching transformer.5. Use Method and Precautions5.1 Please check the wiring mark carefully before using the product, and confirm whether the input voltage meets the requirements. The meanings of the product wiring mark diagram are described as follows: "L": Phase line; "N": Zero line; " ": Earth wire; "-V": Negative voltage; "+V": Positive voltage; "COM": Output common terminal; "VADJ": Output voltage regulation.Note: For a power supply with high power, there are multiple terminals at the output terminal, and the terminal block is connected inside (equivalent to a power supply) and shall be evenly connected to the load.5.2 I n order to ensure the use safety and reduce interference, the wire that meets the electrician’s requirements must be earthed reliably when installation.5.3 There is high voltage in the machine, so that the non-professionals are prohibited to open the shell, otherwise it may cause electric shock or damage to the product.5.4 When used at different ambient temperatures, the load rate of the product should refer to "Fig. 1: Output Derating Curve Chart".5.5 When used under the different input voltages, the load rate of the product should refer to "Fig. 2 and Fig. 3 Output Derating Curve Chart". (Fig. 2 is suitable for switch selective type switching power supply, and Fig. 3 is suitable for full-range switching power supply);Fig. 1 Output Derating CurveAmbient temp. (℃)Fig. 2 Output Derating Curve (Switch Selection)Input voltage (VAC) 50Hz/60HzFig. 3 Output Derating Curve (Full Range)Input voltage (VAC) 50Hz/60HzL o a d r a t e (%)L o a d (%) L o a d (%)Note 1: 85-132/170-264VAC is optionalNote 2: Function A: Overload (overcurrent) short circuit protection; B: Output overvoltage protection; C: Over temperature protection;Selection method: F: Full range; S: Switch selection. D: Automatic on/off control of cooling fan (prolonged life); K: Output LED display.5.6 Definition of Terminal PinsCDKU-S200-3506. Transportation and StorageThe product shall not be subject to violent collisions and vibrations during transportation and storage, and shall be free from rain and snow erosion and direct sunlight.Storage temperature: -20°C~~+85°C; humidity: 10%~95%RH without condensation.8. Outline StructureFig. F1: Fig. F2:9. Description of Common Icons and SymbolsSymbol DescriptionOnly suitable for safe use in non-tropical climatesOnly suitable for safe use at the 2000m and below altitudeCaution! SafetyFor indoor use onlyEarthedACDCHigh voltage hazards! Danger! electric shockWarning!This produce is a Class A product. This product may cause radio interference in a living environment, so that it is required to take practicable measures against the interference by users in those cases.Company’s CommitmentsThe “Three-Warranty” servi ce will be provided by the company for abnormal operation of the product manufactured by our company due to poor manufacturing quality within 24 months from the date of the production under the premise that the user conforms to the storage, transportation, maintenance and operation conditions. However, the paid repair is provided for damage caused by one of the following situations even within the warranty period:1)Improper operation, maintenance, or storage;2)Modification without permission, or improper repair;3)Damage caused by falling off after purchase or occurred during the installation process;4)Irresistible nature disasters such as earthquakes, fires, lightning strikes, abnormal voltages, and secondary disaster.If you have any questions, please contact the dealer or the company’s customer service department. Customer service hotline: 400-826-8008Zhejiang DELIXI Electrical Co., Ltd.Address: No. 155, Zhenzhan East Road, Liush Town, Yueqing City, Zhejiang Province 325604 Tel: (86-577)6177 8888Fax: (86-577)6177 8000Customer service hotline: 400-826-8008The first edition of this User Manual was issued in May 2021.。

开关电源使用说明书英文版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 requirea 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.。

●Type：Open Frame (PCB) Type Switching Power Supply(Families: PM, NFM, IRM, MPS, MPD, MPT, MPQ, RPS, RPD, RPT, PS, PD, PT, PQ, PPS, PPT, PPQ, ASP, PID, LPS, LPP, EPS, ELP, EPP)●IntroductionAn open frame (PCB) type switching power supply is a power supply designed to be integrated or installed into a system enclosure. Mean Well’s open frame (PCB) type power supplies include on board, general PCB, green PCB, and medical PCB types.●Installation（1）Before commencing any installation or maintenance work, please disconnect your system from the utility. Ensure that it cannot be re-connected inadvertently!（2）At least 5mm insulation distance on the bottom of the unit should be kept and a Mylar film should be added between the unit and the system. In addition, keep enough insulation distance, 10mm for general type/15mm for medical type, around the unit.（3）Power supplies greater than 120W may require a forced air/fan for cooling. Please refer to specifications to receive a minimum air intensity and air-flow direction.（4）Allow good ventilation for the unit in use to prevent it from overheating. Also, a 10-15 cm clearance must be kept when the adjacent device is a heat source.（5）Mounting orientations other than standard orientation or operate under high ambient temperature may increase the internal component temperature and will require a de-rating in output current.Please refer to the specification sheets to receive the optimum mounting position and information about the de-rating curve.（6）（7）For other information about the products, please refer to for details.●Warning / Caution !!（1）Risk of electrical shock and energy hazard. All failure should be examined by a qualified technician.Please do not try to fix the power supply by yourself!（2）Please do not install power supplies in places with high moisture or near the water.（3）Please do not install power supplies in places with high ambient temperature or near fire source.Please refer to the specifications about the maximum ambient temperature limitations.（4）Output current and output wattage must not exceed the rated values on specifications.（5）The ground (FG) must be connected to earth ground.（6）All MW’s PSUs are designed in acco rdance with EMC regulations and the related test reports are available by request. Since they are belong to component power supplies and will be installed inside system enclosure, when they are integrated into a system, the EMC characteristics of the end system must be re-verified again.Manufacturer：MEAN WELL ENTERPRISES Co., LTD. No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 24891, Taiwan Tel: +886-2-2299-6100Web: Branch Office：ChinaMEAN WELL (GUANGZHOU) ENTERPRISES Co., LTD.2F, A Building, Yuean lndustry Park, Huangcun,Dongpu Yown, Tianhe District, Gungzhou, ChinaPost Code:510660Tel: +86-20-2887-1200Web: U.S.A.MEAN WELL USA, INC.44030 Fremont Blvd., Fremont,CA 94538, U.S.A.Tel: +1-510-683-8886Web: EuropeMEAN WELL EUROPE B.V.Langs de Werf 8, 1185XTAmstelveen, The NetherlandsTel: +31-20-758-6000Web: www.meanwell.eu。

8安培开关电源模式外置式BEC （UBEC ）使用说明 Doc Ver: HW-06DL-091121---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------1输出输出电压切换开关输出指示灯输入1.为什么使用UBEC ？8安培UBEC 是一种外置式稳压装置，它以开关电源的模式工作。

UBEC 可以从2－3S 锂电池组获得适合接收机和其它设备工作的直流电压，并稳定地提供高达8A 的输出电流。

该UBEC 可以轻松地为接收机、陀螺仪和多只舵机供电，因此非常适合30级以上的油动模型直升机和大型固定翼飞机使用。

和线性稳压模式（Linear Mode ）相比，采用开关稳压模式（Switching-Mode ）的UBEC 的整体效率要高很多，这样可以延长接受机电池组的使用时间，而且UBEC 自身的发热量大大减少， 避免了UBEC 过热保护的现象。

2. 规格：2.1. 输出: 5V/8A 或 6V/8A （可通过输出电压选择开关进行切换） 2.2. 输入: 6V －12.6V (2－3节锂电池组) 2.3. 尺寸: 42 mm*39mm*9mm(长*宽*高) 2.4. 重量: 38g 2.5. 静态电流: 60mA 3. 特点：3.1. 采用同步整流的开关电源控制芯片设计，芯片最高效率高达95%； 3.2. 具有输出短路保护功能。

3.3. 输出电流大，持续输出电流能力为8A ，峰值输出电流能力为15A ；3.4. 电子器件封装于屏蔽罩内，输出线配置了滤波磁环，极大地降低了电磁干扰，保证接受机正常工作；3.5. 具有电池电量指示功能。