电源模块说明书范本

300W,165-264V AC Input,Dual outputAC/DC battery charging module power supplyRoHSFEATURES●Specially designed for Distribution Automation terminal design,suitable for 220Vdc operating mechanism,and it can charge for capacitor of 50000uF/250V ●Maximum instantaneous power up to 340W●With charging function,the 24V (6-30AH)output Lead-acid battery can be charged,when system connected with battery,it can be used as uninterrupted power supply●Designed in accordance with the power-related requirements of the State Grid Corporation,the main technical indicators meet the relevant industry standards●Battery reverse polarity protection,battery under voltage protection●Output over-current,over-voltage protection ●2.5KVAC high isolation voltage●Industrial grade operating temperature:-40℃to +70℃●Chassis mountingMBP300-2A27D27220is AC/DC battery charge power converter offered by Mornsun.It features wide input voltage range,taking both DC and AC input voltage,output over-current,over-voltage protection,strong ability in adapting power grid.This product has power working status display and Intelligent charging function,it can used to charge the 24V lead-acid battery,when AC is power-off,the battery can supply power to the load;it has battery over discharge protection function,Designed specifically for distribution automation terminal (DTU /FTU).It is widely used in the power industry switch substations,power substation,RMU,Intelligent Package Substation,Intelligent Switch Controller and other industries which need uninterrupted power supply.Selection GuidePart No.Output PowerNominal Output Voltage and Current Maximum Output PowerEfficiency(220VAC,%)(Vo1/Io1)(VB/IB)(Vo2/Io2)MBP300-2A27D2722062.5W27V/1.0A27V/0.5A220V/0.1A340W(No more than 20s,5mins once )80(Io1=1A,Io2=0.1A,disconnect the battery)Input SpecificationsItemOperating Conditions Min.Typ.Max.Unit Input Voltage Range AC input 165220264V AC DC input200310370VDC Input Frequency 475063Hz Input Current 220V AC,Typical load -- 1.0--AHot PlugUnavailableOutput SpecificationsItemOperating Conditions Min.Typ.Max.UnitRated Output CurrentInput voltage range Io1--1--A Io2--0.1--Peak Output Current *Input voltage range Io1(No more than 20s,5mins once,Io2≤0.1A)----6Io2(No more than 20s,5mins once,Io1≤1A)---- 1.36Output Voltage Input voltage range Vo1(Disconnect the battery)--27--VDC Vo2(Adjustable)200220240Line RegulationFull loadVo1--±0.5--%Vo2--±1--Load Regulation0%-100%load Vo1--±1--% Vo2--±5--Ripple&Noise**20MHz bandwidth(peak-to-peak value)(Io1=1A,Io2=0.1A,disconnect the battery)Vo1--200300mVVo2--2000--Floating Charge Voltage Room temperature,Io1=1A,Io2=0AVB--27--VDCBattery Charge Current Room temperature,Io1=1A,Io2=0AIB--0.5--A Battery Discharge Cut-off point Typical load Vo120.52121.5VDC Battery Discharge Cut-off Delay Time Typical load--3--sBattery Reverse Polarity Protection The green and the red lights are turn off,when the battery has been connected.Short Circuit Protection Input voltage range,disconnect the battery Hiccup,Continuous,self-recovery Over-current Protection Input voltage range,disconnect the battery Io1--16--A Over-voltage Protection Input voltage range,disconnect the battery----34VDC Hold-up Time Room temperature,220V AC input,Po=20W--0.3--s Note:*①When the ambient temperature exceeds50℃,Io1and Io2single peak current continuous output time can not exceed15s；②Io1and Io2can not simultaneously output peak current,product peak output power should not be more than340W.(Battery charging power included) **Ripple and noise are measured by“parallel cable”method,please see AC-DC Converter Application Notes for specific operationGeneral SpecificationsItem Operating Conditions Min.Typ.Max.UnitIsolation Voltage Input-outputTest time:1min,leakage current setting value:5mA2500----VAC Input-case2500----Output-case2500----Output-output1500----Impulse Voltage Input-output Apply5kV impulse test voltage between input andoutput.Add1.2/50us impact waveform,includingthree positive impulse and three negative impulsewhose time interval is no less than5seconds.And thereshould not have disruptive discharge during the test.5000----V Input-case5000----Output-case5000----Isolation Resistance Input-output Room temperature50----MΩInput-case Room temperature50----Output-case Room temperature50----Operating Temperature*-40--+70℃Storage Temperature-40--+85Shell Operation temperature*----+80Storage Humidity----95%RH MTBF MIL-HDBK-217F@25℃＞100,000hNote:*①When the ambient temperature exceeds50℃,it should be taken the cooling method of force air cooling or post cooling to ensure that the module shield temperature is not more than80℃.②When the ambient temperature is lower than-10℃,the product should be operated with rated load for1mins,before it output340W peak power. Physical SpecificationsCasing Material MetalPackage Dimensions200.00*102.00*45.00mmWeight850g(Typ.)Cooling method Free air convectionEMC SpecificationsEMS ESD IEC/EN61000-4-2Contact ±8KV Perf.Criteria B RS IEC/EN61000-4-330V/m perf.Criteria A EFT IEC/EN61000-4-4±4KV perf.Criteria B Surge IEC/EN61000-4-5line to line±2KV/line to ground±4KV perf.Criteria B CS IEC/EN61000-4-610Vr.m.s perf.Criteria A Voltage dips,short interruptionsand voltage variations immunityIEC/EN61000-4-110%,70%perf.Criteria BPrinciple block diagramFig1.Internal principle diagram Wiring Description1.Wiring diagram2.Terminal DefinitionTerminal No.Terminal name Definition1AC(L)AC input L phase2Protective grounding3AC(N)AC input N phase4-Vo1(B-)Control unit(-)Battery input(-)5B+Battery input(+)6+Vo1Control unit(+)7NC No electrical connection 8+Vo2Operating mechanism(+) 9-Vo2Operating mechanism(-) 10NC No electrical connectionManual Instruction1.Power supply status indicatorCharge,AC input power,green light on,the battery is in charging or floating charging status.Discharge,AC input power off,green light off,red light on,the battery is in discharging status.Reverse,when the input voltage off(or input voltage normal,Vo1and Vo2output normal),but the green and red light are all off,which shows that the battery is polarity reversed.Please check the wiring diagram to re-connect the battery.Input voltage(V AC)Output voltage(VDC)Whether to connectthe batteryLEDPower state Vo1Vo2green light Red light22027220no connect on off Output normal220Batteryvoltage220connect on off Output normal,battery charging000no connect off off No output000connect off on No output,battery access to normal220→0Batteryvoltage220connect on→off off→onOutput normal,battery from charginginto the discharge000connect off off No output,reverse connection ofbattery22027220connect off off Output normal,reverse connection ofbatterye of PowerThe power supply can work when input is AC the alternating current.The power input current to load is powered by power supply, meanwhile charge battery in constant current and voltage.After the battery is charged,power supply to floating charge state automatically,this moment,the power supply float voltage and current to normal self discharge of battery.When AC input voltage off,the battery will continue to power for load,0switch time.When the battery output voltage is lower than the under voltage protection point and last for3-10S，the power supply will turn off automatically.Without AC input,pass external passive nodes make Vo1and B+in short circuit(short circuit time:1-2S,but pin should not be short for a long time,otherwise the battery will lose the protection function.)that can enable the battery to start the output.Vo2output Voltage:200Vdc–240Vdc continuously adjustable,The user can adjust the output voltage to the knob with“output voltage adjustment”.e of BatteryThe power supply can be equipped with24V,6-30AH lead acid battery or colloidal maintenance-free battery,The battery is connected to the battery terminal(B+、B-)of the power supply.We should make sure that the input voltage is off before connect or disconnect the battery.If the red light on after connected the battery,the battery connected normal;if the red light off when connected the battery,the battery polarity connected reverse,please check the wiring diagram to re-connect it.It is forbidden to short-circuit the battery.After connect with the battery,the over-current protection and short-circuit protection of Vo1will be disabled.Simple calculation of battery charging time:Battery capacity C(AH)/Charging current(A)Dimensions and Recommended LayoutAttention Matters in Application（1）Output please use wire that cross area is more than2.5mm²,input terminal should add10A/250V AC Fuse.（2）Please correct connection according to the wiring diagram,do not connect wrongly,AC input terminal is strictly prohibited connected with other terminals wrong,otherwise will cause permanent damage to power.（3）Vo2output peak current can not be long term work.（4）To further reduce the Vo1output ripple noise,the user can in the Vo1output parallel connection with one470–1000uF/50V electrolytic capacitor and1uF multilayer ceramic Capacitor.（5）The output of this product is not allowed to work in parallel.（6）The PE terminal of this product should be reliably connected to the earth,in order to improve the capability of anti-interference.（7）Casing will distribute heat when the power is during operating,in order to ensure the power dissipation is good,please keep a certain gap around the power supply to ensure the air flow smoothly,the temperature sensitive device as far as possible from the power.Note:1.Packing information please refer to Product Packing Information which can be downloaded from .Packing bag number:58220041;2.If the product is not operated within the required load range,the product performance cannot be guaranteed to comply with all parameters in the datasheet;3.Unless otherwise specified,parameters in this datasheet were measured under the conditions of Ta=25℃,humidity<75%with nominal input voltage and rated output load;4.All index testing methods in this datasheet are based on our Company’s corporate standards;5.We can provide product customization service,please contact our technicians directly for specific information;6.Specifications are subject to change without prior notice.Mornsun Guangzhou Science&Technology Co.,Ltd.Address:No.5,Kehui St.1,Kehui Development Center,Science Ave.,Guangzhou Science City,Luogang District,Guangzhou,P.R.China Tel:86-20-38601850-8801Fax:86-20-38601272E-mail:***************。

ES03系列-----3W超小体积AC-DC模块电源产品特性◆宽压输入85～265VAC（120～370VDC）◆输出短路、过温保护功能◆体积小、重量轻◆高效率、高功率密度◆低功耗、绿色环保◆工业级产品技术设计应用范围小体积电源模块，适合于需要实现输入范围波动大，布板空间小等设计。

广泛应用于无线测温、电力检测设备、工业控制仪表、智能家居等领域的电源系统。

产品型号型号输出电压（VDC）输出电流（mA）效率(TYP) ES03-S0*******%ES03-S121225072%ES03-S242412576%注：1.★研发中型号2.如有其它规格型号需求，可直接联系我司。

输入特性输入电压范围85～265VAC（120～370VDC）输入电流（Vin=110V）0.125A(TYP)外接保险丝1A/250V慢断输出特性输出电压稳压精度±5%（max）源效应±1%(typ)负载调整率(10%~100%)±3%(typ)最小负载10%输出纹波+噪声（峰-峰值）2%Vo(typ)(20MHz Bandwidth)短路保护可长期短路，自恢复一般特性温度特性工作温度功率降额存储温度-40℃～+70℃3.75%/℃，-40℃～+90℃掉电时间40ms(typ)/at Vin:320Vdc 湿度85%RH(max)温漂0.02%/℃开关频率60kHz(typ)绝缘输入--输出3000VAC漏电流0.3mA RMS typ.230VAC/50Hz 安全等级CLASSⅠ封装形式裸板安装PCB，单列直插平均无故障时间（MTBF）>200,000h@25℃注：1.以上所列数据除特别说明外，都是在TA=25℃,湿度<75%的条件下测得；2.采用平行线测试法测试。

平行线测试法温度与负载曲线图典型应用电路图单路输出EMC推荐电路备注：1.输出滤波电容C1为电解电容，建议使用高频低阻电解电容，容量和流过的电流请参考各厂商提供的技术规格。

SITOP 电源选择模块设备手册SITOP select6EP1961-2BA00 SITOP PSE200U 3A 6EP1961-2BA11 SITOP PSE200U 10 A 6EP1961-2BA21 SITOP PSE200U 3 A 6EP1961-2BA31 SITOP PSE200U 10 A 6EP1961-2BA41 概述安全提示 1 说明、设备结构、尺寸图 2 安装/拆卸 3 安装位置，安装距离 4 安装 5 技术数据 6 安全、认证、EMC 7 环境条件8 环保9 服务与支持10Siemens AGDivision Process Industries and Drives Postfach 48 4890026 NÜRNBERG C98130-A7579-A1-1-5D29Ⓟ 01/2015 本公司保留更改的权利Copyright © Siemens AG 2014.保留所有权利法律资讯警告提示系统为了您的人身安全以及避免财产损失，必须注意本手册中的提示。

人身安全的提示用一个警告三角表示，仅与财产损失有关的提示不带警告三角。

警告提示根据危险等级由高到低如下表示。

危险表示如果不采取相应的小心措施，将会导致死亡或者严重的人身伤害。

警告表示如果不采取相应的小心措施，可能导致死亡或者严重的人身伤害。

小心表示如果不采取相应的小心措施，可能导致轻微的人身伤害。

注意表示如果不采取相应的小心措施，可能导致财产损失。

当出现多个危险等级的情况下，每次总是使用最高等级的警告提示。

如果在某个警告提示中带有警告可能导致人身伤害的警告三角，则可能在该警告提示中另外还附带有可能导致财产损失的警告。

合格的专业人员本文件所属的产品/系统只允许由符合各项工作要求的合格人员进行操作。

其操作必须遵照各自附带的文件说明，特别是其中的安全及警告提示。

由于具备相关培训及经验，合格人员可以察觉本产品/系统的风险，并避免可能的危险。

u为防火或防盗应用提供高达2 A 的12 V 待机电流（4 A 的盗警电流）u分别监测多达两个12 V 7-18 Ah 电池（多达36 Ah 的容量）u 提供多达80个小时的待机时间u 方便读取式开关寻址u使用博世标准TR1850插入式变压器B520辅助电源模块是一个辅助电源扩展设备，可通过SDI2总线连接到兼容的报警主机。

此模块受到监测并将所有状态更改传递给报警主机。

工业、商业和机构设施是B520模块的典型安装。

B520地址开关可用于实现轻松设备寻址。

SDI2输出端子为SDI2扩展设备（如键盘）提供辅助电源。

AUX PWR 端子为其他设备（如PIR 移动探测器）提供增强型辅助电源功能。

功能监测监控此模块通过SDI2总线监控并传送有关以下内容的状态信息：•操作（检测信号）•电池1 (BATT 1)•电池2 (BATT 2)•AC 输入电源(AC)•电池电量充足•电池电量不足•电池缺失指示灯•检测信号 [图标]。

当系统正常运行时，蓝色LED 指示灯闪烁亮起和熄灭。

LED 指示灯持续亮起或熄灭指示系统故障。

闪烁三次指示通信故障。

•BATT 1 LED 指示灯。

LED 指示灯呈绿色持续亮起指示BATT 1的电池状态正常工作。

闪烁指示电池电量不足。

闪烁三次指示电池充电器故障。

LED 指示灯熄灭指示电池缺失。

•BATT 2 LED 指示灯。

LED 指示灯呈绿色持续亮起指示BATT 2的电池状态正常工作。

闪烁指示电池电量不足。

闪烁三次指示电池充电器故障。

LED 指示灯熄灭指示电池缺失。

•AC LED 指示灯。

LED 指示灯呈绿色持续亮起指示AC 电源正在工作。

正在执行电池测试时会产生脉冲式LED 指示灯（每秒3个脉冲）。

闪烁指示AC 电源不足或发生故障。

电池充电在AC 电源发生故障的情况下，连接到电池端子的已充满电的电池将为B520提供电源。

如果B520的AC 电源输入发生故障（缺失或电量低），则B520将自动从主电源(AC)切换到备用电源（电池）。

选型表认证产品型号输入电压(VDC)输出满载效率②(%)Min./Typ.最大容性负载(µF)标称值（范围值）最大值①电压(VDC)电流(mA)Max./Min.CEURB2403S-6WR324(9-36)403.31350/076/781800URB2405S-6WR351200/080/821000URB2409S-6WR39667/082/84470URB2412S-6WR312500/084/86470URB2415S-6WR315400/085/87220URB2424S-6WR324250/083/85100注：①输入电压不能超过此值，否则可能会造成永久性不可恢复的损坏；②上述效率值是在输入标称电压和输出额定负载时测得。

输入特性项目工作条件Min.Typ.Max.单位输入电流（满载/空载） 3.3V 输出--238/5245/12mA5V 输出--305/5313/12其他--305/10313/16反射纹波电流--50--冲击电压(1sec.max.)-0.7--50VDC启动电压----9输入欠压保护 5.56.5--输入滤波类型电容滤波热插拔不支持遥控脚（Ctrl ）*模块开启Ctrl 悬空或接TTL 高电平(3.5-12VDC)模块关断Ctrl 接GND 或低电平(0-1.2VDC)关断时输入电流--610mA注：*Ctrl 控制引脚的电压是相对于输入引脚GND。

输出特性项目工作条件Min.Typ.Max.单位输出电压精度①5%-100%负载--±1±2%线性调节率满载，输入电压从低电压到高电压--±0.5±1负载调节率②5%-100%的负载--±0.5±1.5瞬态恢复时间25%负载阶跃变化，标称输入电压--300500µs 瞬态响应偏差3.3V/5V 输出--±5±8%其它电压--±3±56W ，超宽电压输入，隔离稳压单路输出SIP 封装，DC-DC 模块电源专利保护RoHS产品特点●超宽输入电压范围（4:1）●效率高达87%●空载功耗低至0.12W ●隔离电压1600VDC●输入欠压保护，输出短路、过流保护●工作温度范围：-40℃to +105℃●小型SIP 封装●国际标准引脚方式●通过EN62368认证URB_S-6WR3系列产品输出功率为6W ，4:1超宽电压输入范围，效率高达87%，1600VDC 的常规隔离电压，允许工作温度-40℃to +105℃，具有输入欠压保护，输出过流、短路保护功能，广泛应用于医疗、工控、电力、仪器仪表、通信等领域。

5W，DIY型AC-DC模块电源CB RoHS产品特点●超宽输入电压范围：85-305VAC/70-430VDC ●交直流两用（同一端子输入电压）●工作温度范围：-40℃to +85℃●百搭应用、布局灵活●超小体积、高功率密度、绿色环保●寿命可控、成本可调●空载功耗0.1W ●输出短路、过流保护●符合IEC/EN/UL62368、IEC/EN61558、IEC/EN60335标准●通过IEC/EN/UL62368认证（LS05-13BxxR3系列）●通过EN62368认证（LS05-13BxxR3-F 系列）LS05-13BxxR3(-F)系列-----是金升阳为客户提供的小型化裸板的高效绿色模块电源，该型号电源具有交直流两用、输入电压范围宽、高可靠性、低功耗、安全隔离等优点。

广泛适用于工控和电力仪器仪表、智能家居等对体积要求苛刻、并对EMC 要求不高的场合，如果需要应用于电磁兼容恶劣的环境下必须添加EMC 外围电路。

输入特性项目工作条件Min.Typ.Max.单位输入电压范围交流输入85--305VAC 直流输入70--430VDC 输入频率47--63Hz输入电流115V AC ----0.2A230V AC ----0.1冲击电流115V AC --20--230V AC--40--外接保险丝推荐值推荐1A ，慢断型，必接（实际使用时需根据应用环境选择）热插拔不支持选型表认证产品型号输出功率标称输出电压及电流(Vo/Io)效率(230VAC,%/Typ.)最大容性负载(uF)CE/UL/CBLS05-13B03R3 3.3W3.3V/1000mA 692200LS05-13B05R35W5V/1000mA 761500LS05-13B09R39V/560mA 77680LS05-13B12R312V/420mA 79470LS05-13B15R315V/340mA 79330LS05-13B24R324V/210mA81100CELS05-13B03R3-F* 3.3W 3.3V/1000mA 692200LS05-13B05R3-F5W5V/1000mA 761500LS05-13B09R3-F 9V/560mA 77680LS05-13B12R3-F 12V/420mA 79470LS05-13B15R3-F 15V/340mA 79330LS05-13B24R3-F24V/210mA81100注：1.标称输出电压指经外围后加到负载端电压；2.若产品使用在剧烈振动环境下，需点胶固定其本体；3.*后缀带“-F ”为90°弯脚产品。

XLR Energy Storage ModuleSafetyThe XLR 48 V module contains stored energy of 54 watt-hours and can discharge up to 9700 amps if short circuited. Only personnel trained in high power electrical systems should work on such sys-tems Modules are typically connected in series to increase the operating voltage and potential discharge current. Before working on a system with modules installed, the module(s) should be dis-charged and the voltage on each module verified prior to conducting any work.IntroductionThe XLR energy storage module is a self-contained energy stor-age device comprised of eighteen individual supercapacitor cells. The module includes bus bar connections, integrated cell voltage management circuitry, an overvoltage alarm and a thermistor formeasuring internal temperature of the cells. Units may be connected in series to obtain higher operating voltage (maximum 750 V from ground), in parallel to provide higher current, high power or longer run time, or a combination of series/parallel arrangements, as need-ed. The module is designed to withstand rugged operating environ-ments with high vibrations and liquid present.The module is designed to provide pulse power with frequent dis-charges in vehicles, transportation, heavy equipment or grid applica-tions. The module can be cooled with forced air when frequent, high current charges or discharges occur.The cell voltage management system provides the highest reliability for optimizing product lifetime. An alarm circuit is available which provides an open collector signal when the voltage exceeds 2.75V on any cell in the module.• D o not operate unit above 48.6 V voltage.• D o not operate unit above specified temperature rating.• D o not touch terminals with conductors while charged. Serious burns, shock, or material fusing may occur.• P rotect surrounding electrical components from incidental contact.• P rovide sufficient electrical isolation when working above 50 Vdc.• P rior to installation on and removal from the equipment, it is man-datory to fully discharge the module.2Technical Note 10509Effective March 2018XLR Energy Storage ModuleEATON InstallationUnpackingInspect the shipping carton for signs of damage prior to unpacking the module. Damage to the shipping carton or module should be reported to the carrier immediately.Remove the module from the shipping carton and retain the ship-ping materials until the unit has been inspected and is determined to be operational.NOTE: The original shipping materials are approved for both air and ground shipment. The module should be removed from the shipping carton by lifting it by the body of the module.Contents:1 Module1 M10 bolt (inserted into negative terminal)1 M8 bolt (Inserted into positive terminal)1. C ommunications mating connector wired (installed on communications connector)If the unit is found to be defective or any parts are missing, contact your local sales representative. A Return Material Authorization(RMA) number must be issued prior to returning the unit for repair or replacement.MechanicalModules are intended for installation horizontally as shown in Figure 5. The module should be mounted on a shelf. The modules should further be secured to the rack using the four mounting holes. See the data sheet for available mounting locations.Theory of OperationSupercapacitors function on electrostatic principles with no chemical reactions and no moving parts. They avoid the lifetime issues associ-ated with chemical storage of batteries or mechanical issues associ-ated with fly wheels. The XLR modules are non-toxic and designed for years of maintenance-free operation.Supercapacitors are intended as energy storage with a DC dis-charge. The module should not be used for AC charging or discharg-ing. Discharges may be constant current or constant power. Example discharges are shown in Figure 1a and 1b. The voltage of the module drops linearly under a constant current discharge.Figure 1a. E xample voltage and current discharge curves for 5 kW discharge fromone module with 48 V float voltage.S y s t e m V o l t a g e (V o l t s )S y s t e m C u r r e n t (A m p s )504030201002502001501005000 5 10 15 20Time (seconds)Discharge Current (A)Voltage (V)Figure 1b. E xample voltage and current discharge curves for 250 A discharge fromone module with 48 V float voltage.S y s t e m V o l t a g e (V o l t s )S y s t e m C u r r e n t (A m p s )50403020100350300250200150100500 5 10 15 20Time (seconds)Discharge Current (A)Voltage (V)Due to the very low equivalent series resistance (ESR) of the super-capacitors, minimal heat is generated during operation. However, as supercapacitors can handle very high currents, a significant heat rise can occur if the discharges and re-charging is frequent and above 50 Arms continuous current.Most systems require multiple modules connected in series to reach higher operating voltages. The XLR module can be series connected for operation up to 750 V (with respect to ground) to meet system level requirements and connected in parallel without limit to meet longer discharge times.Due to manufacturing variations in capacitance and leakage current, cells in a module can differ in voltage. This voltage difference affects the capacitance and equivalent series resistance over time and results in a shortening of the life of the system.The shunt balance circuit monitors the voltage of each cell. When the voltage exceeds the preset 2.8 V , the balancing circuit will dis-charge the cell until the voltage is below 2.7 V .Figure 2. F our mounting points for the module. High vibration environmentsshould mount using the top and bottom holes. A spacer may be needed between the top and bottom plate in this installation. In moderate or low vibration environments, only the holes on the bottom plate are required for securing the module.The module has 4 M8 mounting holes, as shown in Figure 3. A spacer may be needed between the top and bottom plate in high vibration environments. In moderate or low vibration environments, only the holes on the top or bottom plate are required for securing the module. Refer to Figure 4 for the location of mounting holes.369.2Negative T erminal M10196170.077Figure 3. D imensional drawing of module, all dimensions in mm.3Technical Note 10509Effective March 2018XLR Energy Storage Module EATON Figure 4. N i ne series connected modules mounted in a 24” rack. Modules can berotated 90 degrees for a narrower, deeper rack.Output T ermina l PostsThe output terminals of the module consist of threaded Aluminum, female posts . They are designed to connect directly to a ring lug or a bus bar. Apply a layer of high conductivity aluminum-aluminum anti-oxidant joint compound between the mating surfaces. The positive terminal is a threaded M8- female thread and the negative terminal is M10 female threaded. The maximum stack height of lugs/bus bars/lock washers of 0.6” / 15 mm. The maximum depth of the threaded terminal is 20 mm. When applying torque to the terminals, it is recommended to use a maximum torque of 20 N-m / 14.8 ft-lbs. Attachment to the output terminals should be made with ring lugs or bus bars of an appropriate size for the application current and the M8/M10 terminal size. The energy storage modules have low ESR. As a result, the resistance of the cable connecting the energy stor-age module to the load can easily exceed the ESR of the module. Connection of modules in series or parallel or combination thereof should utilize the same gauge wire (or equivalent bus bar) as deter-mined for final output connections. When connecting in series, connect the positive output terminal of one module to the negative output terminal of the next module (as shown in Figure 6 and Figure 8). For parallel connections, connect positive terminals together and negative terminals together (as shown in Figure 7 and Figure 8). When making parallel connections, it is recommended to make the connections at the load to ensure that the resistance across all strings is the same. It is not recommended to use the module termi-nals as a parallel connection point. The maximum operating voltage of a series connected system should not exceed 750 V .All cables connected to the module should have a strain relief to avoid damage to the module terminals in high vibration environ-ments. The cables should be secured to avoid free movement and vibrations on the terminals. This includes the monitoring cable.Figure 5. S eries connected modules (top view). In this example, the system couldprovide 20 KW for 15 seconds at 145.8 V maximum voltage.Figure 6. Parallel connected modules (top view). In this example, the system couldprovide 20 KW for 15 seconds at 48.6 V maximum voltage.Figure 7. 3 Series x 2 Parallel connect modules. In this example, the system wouldprovide 20 kW for 33 seconds or 40 kW for 15 seconds at 145.6 Vmaximum voltage. Recommended connection point for the parallel stringsis at the load or a common terminal block, not on a module terminal.Module-to-Module BalancingThe modules are equipped with voltage management circuitry that reduces the voltage on cells which exceed the rated voltage. The voltage management functions over hours to minimize the standby current requirements. Module-to-module balancing is not required as the balancing system works on each individual cell.4Technical Note 10509Effective March 2018XLR Energy Storage ModuleEATON Overvoltage SignalAn electrically isolated open collector logic output is made available for alarm interface. If a supercapacitor cell is charged above 2.75 V , a signal will be triggered at alarm connector J1 present on module. When several modules are connected in series, parallel or series-parallel combination, the alarm logic output signal can be monitored individually or wire-or’d to form a single fault signal.Below table shows pin out indication of the connector, and maxi-mum current allowed. 5.0 Vdc can be the maximum open circuit voltage across connector provided.Overvoltage Signal Operation1. Overvoltage Pin 2 goes active (closes the circuit to ground) if any cell inside module exceeds overvoltage limit of2.75 V2. Since Pin 2 (overvoltage signal) is an open collector transistor output, pull-up resistor (~1K) connected to a 5 V supply should be connected to Pin 2, as shown in Figure 9.3. When a simple pull up circuit is built around Pin 2, Pin 2 will remain ~5 V when there is no overvoltage which indicates normal operating condition. When the cell goes into over-voltage condition, Pin 2 goes low. This alarming signal can be used to signal system electronics to abort charging of module and to permit overcharged cells to appropriately discharge down to set limits, through a built-in active balancer4. The internal overvoltage circuit can sink up to 5 mA with an output signal low voltage of no more than 0.7 V . When there is no over volt-age signal, maximum leakage current through pull up resistor is 100 nA. Based on the overall electronic system, proper value of the pull-up resistor should be selected.Temperature MonitoringA thermistor is attached to a cell inside the module. This allowsmonitoring of the internal module temperature. The resistance vs. temperature table is provided below. The temperature can be moni-tored with a high impedance, constant current circuit and measuring the voltage.Figure 8. M onitor connector (Deutsch DTM06-4S). Outside the dotted line is arecommended implementation from the system.1423Diode or LEDPull-up resistor Voltage Sourcewhere:I = current RMS AC or DC (amps)Resr = resistance Rac for AC current or Rdc for DC current (ohms) Rth = thermal resistance (o C/W) df = duty cycle fractionThis ∆T plus ambient should remain below the specified maximum operating temperature for the module (please refer to the module datasheet).OperationGeneralThe module should only be operated within specified voltage and temperature ratings. Determine whether current limiting is neces-sary on input/output based on current ratings of ancillary devices. Observe polarity indicated on module. Reverse polarity operation of the module(s) is not recommended and will shorten the lifetime of the product.Electric isolation of the module is tested to 2500 V for maximum operating voltage of 750 Vdc.When several modules are connected in series for operating at higher voltage, care must be taken to ensure proper creepage and clearance distances in compliance with national safety standards for electrical equipment. Monitoring connectorA 4-pin connector (Deutsch DTM06-4S, mating connector DTM04-4P) is provided to monitor overvoltage conditions of cells and cell temperature. These provide warning indicators that a problem may exist in the module or can be monitored for extreme conditions. The connector should not be left to freely move. This will cause vibrations to damage the connector or wires to the connector. Secure the connector to the module, rack or cabi-net. The pin definition is as follows:Thermal PerformanceLow internal resistance of the energy storage modules enables low heat generation within the modules during use. As with any elec-tronic component, the cooler the part operates the longer the ser-vice life. In most applications natural air convection should provide adequate cooling. In severe applications requiring maximum service life, forced airflow may be required.The thermal resistance, Rth, of the units has been experimentally determined assuming free convection at ambient (~ 25 ˚C). The Rth value provided on the data sheet is useful for determining the oper-ating limits for the units. Using the Rth value a module temperature rise can be determined based upon any current and duty cycle. The temperature rise can be expressed by the following equation.Pin #Signal nameOutputMaximum currentColor1GND 2Overvoltage High-not active Low-active5mA White3Not used 4TemperatureSee table BlackT able 1. M onitoring connector pinoutXLR Energy Storage Module Technical Note 10509Effective March 2018T(°C) T(°F) Resistance(kW) -40 -40 348.4-39 -38.2 325.5-38 -36.4 304.3-37 -34.6 284.7-36 -32.8 266.4-35 -31 249.4-34 -29.2 233.7-33 -27.4 219-32 -25.6 205.4-31 -23.8 192.7-30 -22 180.8-29 -20.2 169.8-28 -18.4 159.5-27 -16.6 149.9-26 -14.8 141-25 -13 132.6-24 -11.2 124.8-23 -9.4 117.5-22 -7.6 110.7-21 -5.8 104.3-20 -4 98.33-19 -2.2 92.74-18 -0.4 87.5-17 1.4 82.59-16 3.2 77.98-15 5 73.66-14 6.8 69.61-13 8.6 65.81-12 10.4 62.24-11 12.2 58.88-10 14 55.73-9 15.8 52.76-8 17.6 49.97-7 19.4 47.35-6 21.2 44.88-5 23 42.55-4 24.8 40.36-3 26.6 38.29-2 28.4 36.35-1 30.2 34.51 T(°C) T(°F) Resistance(kW)0 32 32.781 33.8 31.142 35.6 29.63 37.4 28.144 39.2 26.765 41 25.466 42.8 24.237 44.6 23.078 46.4 21.969 48.2 20.9210 50 19.9411 51.8 1912 53.6 18.1213 55.4 17.2814 57.2 16.4815 59 15.7316 60.8 15.0117 62.6 14.3318 64.4 13.6919 66.2 13.0820 68 12.521 69.8 11.9522 71.6 11.4223 73.4 10.9224 75.2 10.4525 77 1026 78.8 9.57227 80.6 9.16428 82.4 8.77629 84.2 8.40630 86 8.05431 87.8 7.71932 89.6 7.433 91.4 7.09534 93.2 6.80535 95 6.52836 96.8 6.26537 98.6 6.01338 100.4 5.77239 102.2 5.54340 104 5.324T(°C) T(°F) Resistance(kW)41 105.8 5.11442 107.6 4.91543 109.4 4.72444 111.2 4.54145 113 4.36746 114.8 4.247 116.6 4.0448 118.4 3.88749 120.2 3.74150 122 3.60151 123.8 3.46852 125.6 3.33953 127.4 3.21754 129.2 3.09955 131 2.98656 132.8 2.87857 134.6 2.77558 136.4 2.67559 138.2 2.5860 140 2.48961 141.8 2.40162 143.6 2.31763 145.4 2.23764 147.2 2.15965 149 2.08566 150.8 2.01367 152.6 1.94568 154.4 1.87969 156.2 1.81570 158 1.75571 159.8 1.69672 161.6 1.6473 163.4 1.58674 165.2 1.53475 167 1.48376 168.8 1.43577 170.6 1.38978 172.4 1.34479 174.2 1.30180 176 1.26T(°C) T(°F) Resistance(kW)81 177.8 1.2282 179.6 1.18183 181.4 1.14484 183.2 1.10985 185 1.07486 186.8 1.04187 188.6 1.00988 190.4 0.978589 192.2 0.948890 194 0.920191 195.8 0.892492 197.6 0.865793 199.4 0.8494 201.2 0.815195 203 0.791196 204.8 0.767997 206.6 0.745598 208.4 0.723999 210.2 0.703100 212 0.6828101 213.8 0.6633102 215.6 0.6444103 217.4 0.6262104 219.2 0.6086105 221 0.5916106 222.8 0.5751107 224.6 0.5591108 226.4 0.5437109 228.2 0.5288110 230 0.5144111 231.8 0.5004112 233.6 0.4868113 235.4 0.4738114 237.2 0.4611115 239 0.4488116 240.8 0.4369117 242.6 0.4254118 244.4 0.4142119 246.2 0.4034120 248 0.3929Temperature monitoringThe temperature sensor is a thermistor with resistance values as shown in the table below.5EATON EatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/electronics © 2018 EatonAll Rights Reserved Printed in USAPublication No. 10509March 2018Eaton is a registered trademark.All other trademarks are property of their respective owners.XLR Energy Storage ModuleTechnical Note 10509Effective March 2018Routine MaintenanceClean exterior surface of dirt/grime• Reason - Improve power dissipation performance.• U se a cleaning cloth dampened with a water/soap solution. Do not use high-pressure sprays or immersion • Frequency - AnnuallyCheck mounting fasteners for proper torque • Reason - Avoid mechanical damage • Frequency - AnnuallyInspect housing for signs of damage• Reason - Allows potential internal damage to be identified • Frequency - AnnuallyCheck signal/ground connections• Reason - Avoid false signals or shock hazards • Frequency - AnnuallyStorageThe discharged module can be stored in the original package in a dry place. Discharge a used module prior to stock or shipment. A wire across the terminals should be used to maintain short circuit after having discharged the module.DisposalDo not dispose of module in the trash. Dispose of according to local regulations for general electronics waste.SpecificationsRefer to datasheets at /elx for specifications.MaintenancePrior to removal from the system, cable removal, or any other handling ensure that the energy storage module is completely discharged in a safe manner. The stored energy and the voltage levels may be lethal if mishandling occurs. Maintenance should only be conducted by trained personnel on discharged modules (Paragraph 8.1).Discharge ProcedureProceed as follow to discharge the module:1. Using a voltmeter, measure the voltage between the 2 terminals.2. I f the voltage is above 2 V , a resistor pack (not supplied with the module) will need to be connected between the terminals. Proper care needs to be taken in the design and construction of such a dissipative pack. e.g. At 48 V , for a 2 Ohm pack, the module will be discharged with a peak current of 24 A and will take about 18 minutes to discharge. The heat/power dissipated in the resistor pack will be ~ 1.2 kW. The resistor pack will need to be sized and provided with suitable cooling to handle this power dissipation. Additionally, proper enclosure or other packaging is necessary to ensure safety. In all cases, proper design of the dissipative resis-tor pack is necessary.3. I f the voltage is under 2 V , connect a shorting wire to the + and – connectors.4. T he module is now safe for handling. The shorting wire should be connected at all times until the module is installed in the system and the power cables are connected。

1）本产品不得使用在原子能设备以及与人命相关的医疗器械等方面。

2）本产品使用在家庭环境内有时会发生电波干扰。

此时应采取充分对策。

3）本产品通过强化绝缘进行触电防护。

将本产品嵌入设备上以及配线时，需遵守嵌入设备所符合的规格要求。

4）本产品使用时所有室内配线超过30m 的场合以及配线在室外的场合为了防止浪涌发生，需设置适当的浪涌抑制电路。

5）本产品是以安装在盘面上使用为前提而生产的，为了避免用户接近电源端子等高压部分，请在最终产品上采取必要措施。

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8）为了防止机器损坏和防止机器故障，请在与本产品连接的电源线或较大容量的输入输出线上安装适当容量保险丝等方法保护电路。

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17） 为了长期安全的使用本产品，定期维修是必要的。

本产品的某些部件有的受寿命限制，有的因长年使用性能会发生变化。

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1）当本产品的故障或异常有可能导致系统重大事故的场合，请在外部设置适当的保护电路。

2）在全部配线完成之前，请不要接通电源。

否则可能导致触电、火灾、故障。

3）不要在产品记载规格要求范围之外使用。

300W ，165-264V AC 输入，双路输出AC/DC电池充电模块电源RoHS产品特点z 整机系统待机功耗低，各技术指标符合DL/T721-2013等配网自动化行业标准z 最大瞬时过功率达351Wz 具备电池充电功能，可对24V 铅酸电池充电，系统配套电池使用，可实现不间断供电z 具有电池充放电管理功能，电池状态显示，电池活化，外部通信和控制功能z 输出过流，过压保护z 2500V AC 高隔离电压z 工业级工作温度：-40℃~+70℃z 接线式安装MBP300-2A27D27是我司为客户提供的双路输出AC/DC 电池充电模块电源。

本产品电网适应能力强，可在较宽输入电压范围内工作，具有输出过压、过流等保护功能。

另外，本产品具有电源状态显示及智能充电功能，可对外接的24V 铅酸电池充电,在交流断电时电池可不间断的对负载供电；具有电池活化功能，手动或通过外部信号自动对电池进行活化维护；具有防止电池过放电的保护功能。

是专为配电自动化终端（DTU/FTU ）设计的电池充电式模块电源；可广泛用于电力行业开闭所、配电所、环网柜、智能箱式变电站、智能开关控制器和其它行业需要不间断供电的场合。

短路保护全范围输入，断开电池打嗝式，可持续短路，自恢复过流保护16----A 过压保护全电压输入，不接电池，故障消失后自恢复供电29--33V 掉电保持时间全范围输入，Po=14W-- 1.5--s 注：*纹波和噪声的测试方法采用靠测法，具体操作方法参见《AC-DC模块电源应用指南》。

图1电源内部原理图图2电源内部隔离图1、充电及工作指示灯2、电池放电指示灯3、电池活化指示灯4、电池欠压指示灯5、电源故障指示灯6、手动活化启动按键7、手动活化退出按键8、手动电池投入按键9、手动电池退出按键10、接线端子端子号端子名称定义端子号端子名称定义端子号端子名称定义1ACL 交流输入L 相9VH 电源故障告警输出17Vo+负载输出正2PE 保护接地10HK 遥控活化启动18Vo+负载输出正3ACN 交流输入N 相11HG 遥控活化退出19B+电池接入正4NC 无电气连接12BG 遥控电池退出20B+电池接入正5VC 告警输入正13RL 活化放电负载正21B-电池接入负6POK输入失电告警输出14VG遥控公共接点22B-电池接入负7HOK电池活化状态输出15Vo-负载输出负8VL电池欠压告警输出16Vo-负载输出负2.接线示意图保险丝接线说明：K1K2K3为用户CPU等控制的继电器触点，R为电池活化放电电阻，负载为用户正常负载，电池为24V电池组。

NAM12S06-D 电源模块技术手册文档版本 1.0发布日期2021-08-10华为技术有限公司前言概述本文档主要介绍NAM12S06-D模块电源的物理结构、电气特性和简单应用。

本文图片仅供参考，具体以实际为准。

读者对象本文档主要适用于以下工程师：●硬件工程师●软件工程师●系统工程师●技术支持工程师符号约定在本文中可能出现下列标志，它们所代表的含义如下。

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如不避免则可能会导致设备损坏、数据丢失、设备性能降低或其它不可预知的结果。

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目录前言 (i)1 安全注意事项 (1)1.1 通用安全 (1)1.2 人员要求 (2)1.3 电气安全 (3)2 产品概述 (4)3 电气规格 (5)3.1 绝对最大额定值 (5)3.2 输入特性 (5)3.3 输出特性 (6)3.4 保护特性 (6)3.5 动态特性 (7)3.6 效率特性 (7)3.7 其他特性 (9)4 推荐电路 (10)5 引脚描述和应用 (12)5.1 封装尺寸图 (12)5.2 结构尺寸图 (12)5.3 引脚分布 (14)5.4 引脚应用 (15)5.4.1 EN (15)5.4.2 输出电压调节（FB） (16)5.4.3 PG (17)6 特性曲线 (18)7 典型波形 (22)7.1 开机/关机波形 (22)7.2 输出电压纹波 (23)7.3 输出电压动态响应 (23)7.4 输入反射纹波电流 (24)8 保护特性 (25)9 二次组装 (26)10 存储要求 (27)11 产品包装 (28)A 可靠性测试 (30)1安全注意事项1.1 通用安全声明在安装、操作和维护设备时，请先阅读本手册，并遵循设备上标识及手册中所有安全注意事项。

IEC Appliance Inlet C14 with Filter, Fuseholder 1- or 2-pole (5x20 mm or 6.3x32 mm), Line Switch 1- or2-pole, Voltage Selector (Step)Approvals and CompliancesC1470° CDescription- Panel Mount :Screw-on mounting from front side- 5 Functions :Appliance Inlet , Line Switch , Fuseholder with interchangeable fuse drawer for Fuse-links 5x20 mm or 6.3x32 mm , with or without voltage selector (step switch) , Line filter in standard and medical version- Quick connect terminals 4.8 x 0.8 mmUnique Selling Proposition- Multifunctional Power Entry Module- Solid metal flange- Various fuse drawers- Slim design Characteristics- All single elements are already wired- The fuse drawer "Fingergrip" can be removed by hand- Suitable for use in equipment according to IEC/UL 60950Suitable for use in medical equipment according to IEC/UL 60601-1 ReferencesAlternative: version without line filter KDAlternative: Standard versionWeblinkspdf datasheet, html-datasheet, General Product Information, Distributor-Stock-Check, Accessories, Detailed request for product, MicrositeNewly available variants corresponding to V-Lock mating cordset. The connector is equipped with a notch intended for use with the latching cordset. The cord latching system prevents against accidental removal of the cordset.T echnical DataRatings IEC 1 - 10 A @ Ta 40 °C / 250 VAC; 50 Hz Ratings UL/CSA 1 - 10 A @ Ta 40 °C / 125 VAC; 60 Hz Leakage Current standard < 0.5 mA (250 V / 60 Hz)medical < 5 µA (250 V / 60 Hz) Dielectric Strength> 1.7 kVDC between L-N> 2.7 kVDC between L/N-PETest voltage (2 sec)Allowable Operation Tempe-rature-25 °C to 85 °CClimatic Category25/085/21 acc. to IEC 60068-1IP-Protection from front side IP 40 acc. to IEC 60529 Protection Class Suitable for appliances with protectionclass I acc. to IEC 61140Terminal Quick connect terminals 4.8 x 0.8 mm Panel Thickness S Screw: max 8 mmMounting screw torque max 0.5 Nm Material: Housing Thermoplastic, black, UL 94V-0appliance inlet/-outlet C14 acc. to IEC 60320-1,UL 498, CSA C22.2 no. 42 (for coldconditions) pin-temperature 70 °C, 10 A,Protection Class IFuseholder 1 or 2 pole, Shocksafe category PC2acc. to IEC 60127-6,for fuse-links 5 x 20 or 6.3 x 32 mm Rated Power Acceptance @Ta 23 °C5 x 20: 2.5 W (1 pole)/ 2 W (2-pole) perpole6.3 x 32: 3.15 W (1 pole)/ 2.5 W (2-pole)per polePower Acceptance @ Ta >23°CAdmissible power acceptance at higherambient temperature see derating cur-vesLine Switch2-pole, non-illuminated, acc. to IEC61058-1Technical DetailsVoltage Selector optional, step, 2-4 digitsLine Filter Standard and Medical Version, IEC60939, UL 1283, CSA C22.2 no. 8Technical DetailsMTBF> 1'200'000 h acc. to MIL-HB-217 FApprovals and CompliancesDetailed information on product approvals, code requirements, usage instructions and detailed test conditions can be looked up in Details about Approvals1ApprovalsThe approval mark is used by the testing authorities to certify compliance with the safety requirements placed on electronic products. Approval Reference T ype: CDApproval Logo Certificates Certification Body DescriptionVDE Approvals VDE Certificate Number: 40004665 (FKSO, FKSP, FKSU, FKSV)UL Approvals UL UL File Number: E72928 (FKSO, FKSP, FKSU, FKSV) Product standardsProduct standards that are referencedOrganization Design StandardDescriptionDesigned according to IEC 60320-1Appliance couplers for household and similar general purposesDesigned according to IEC 60939Passive filters for suppressing electromagnetic interferenceDesigned according to IEC 60127-6Miniature fuses. Part 6. Fuse-holders for miniature fuse-linksDesigned according to IEC 61058-1Switches for appliances. Part 1. General requirements Designed according to UL 498Standard for Attachment Plugs and ReceptaclesDesigned according to UL 1283Electromagnetic interference filtersDesigned according to CSA C22.2 no. 42General Use Receptacles, Attachment Plugs, and Similar Wiring DevicesDesigned according to CSA C22.2 no. 8Electromagnetic interference (EMI) filters Application standardsApplication standards where the product can be usedOrganization Design StandardDescriptionDesigned for applications acc.IEC/UL 60950IEC 60950-1 includes the basic requirements for the safety of informationtechnologyequipment.Designed for applications acc.IEC 60601-1Medical electrical equipment - Part 1: General requirements for basicsafety and essential performanceDesigned for applications acc.IEC 60335-1Safety of electrical appliances for household and similar purposes. Meetsthe requirements for appliances in unattended use. This includes the en-hanced requirements of glow wire tests acc. to IEC 60695-2-12 and -13. CompliancesThe product complies with following Guide LinesIdentification Details Initiator DescriptionCE declaration of conformity SCHURTER AG The CE marking declares that the product complies with the applicablerequirements laid down in the harmonisation of Community legislation onits affixing in accordance with EU Regulation 765/2008.RoHS SCHURTER AG EU Directive RoHS 2011/65/EUChina RoHS SCHURTER AG The law SJ / T 11363-2006 (China RoHS) has been in force since 1 March2007. It is similar to the EU directive RoHS.REACH SCHURTER AG On 1 June 2007, Regulation (EC) No 1907/2006 on the Registration,Evaluation, Authorization and Restriction of Chemicals 1 (abbreviated as"REACH") entered into force.MicrositeV-Lock SCHURTER AG V-Lock system are based on a matching plug-dose combination. Theconnector is equipped with a notch intended for use with the latchingcordset. The cord latching system prevents against accidental removal ofthe cordset.Medical Equipment SCHURTER AG Suitable for use in medical equipment according to IEC/UL 60601-123Dimension [mm]CDDiagrams Standard versionwith voltage selectorL N1)1) Line 2) Loadx) External connection to be made by the customer Medical versionwith voltage selectorLPEN1)1) Line 2) Loadx) External connection to be made by the customer4Derating Curves Fuses5 x 20 mm (1-pole)A d m i s s i b l e p o w e r a c c e p t a n c e i n W a t tAmbient air temperature T a °C Fuses5 x 20 mm (2-pole, per pole)A d m i s s i b l e p o w e r a c c e p t a n c e i nW a t tAmbient air temperature T a °C Fuses6.3 x 32 mm (1-pole)A d m i s s i b l e p o w e r a c c e p t a n c e i n W a t tAmbient air temperature T a °C Fuses6.3 x 32 mm (2-pole, per pole)A d m i s s i b l e p o w e r a c c e p t a n c e i n W a t tAmbient air temperature Ta °CAttenuation Loss- - - - 50Ωdifferential mode _____ 50Ω common modeStandard version1 A2 A 4 A6 A10 AMedical version (M5)1 A2 A 4 A 6 A10 AAll VariantsPackaging unit 10 Pcs Required AccessoryDescriptionFusedrawer 3Fusedrawer for Fuse Links 5x20 mm resp. 6.3x32 mmFingergrip, 5 x 20, 2-pole, Voltage Selector4303.2014.00 Fingergrip, 5 x 20, 2-pole, Voltage Selector, 100, 120, 220, 2404303.2014.01 Fingergrip, 5 x 20, 2-pole, Voltage Selector, 110, 150, 2204303.2014.02 Fingergrip, 5 x 20, 2-pole, Voltage Selector, 110, 2204303.2014.03...5AccessoriesWire HarnessWire harness for SCHURTER products Assorted CoversRear Cover0859.0077Cord retaining kitsCord retaining strain reliefFlat head, A4700.0001Mating Outlets/ConnectorsCategory / DescriptionAppliance Outlet Overview completeIEC Appliance Outlet F, Screw-on Mounting, Front Side, Solder Terminal4787IEC Appliance Outlet F, Snap-in Mounting, Front Side, Solder or Quick-connect Terminal4788IEC Appliance Outlet F or H, Screw-on Mounting, Front Side, Solder, PCB or Quick-connect Terminal5091Appliance Outlet further types to CDConnector Overview complete4782 Mounting: Power Cord, 3 x 1 mm² / 3 x 18 AWG, Cable, Connector: IEC C1347824022 Mounting: Power Supply Cord, 3 x 1.5 mm², Screw clamps, Connector: IEC C1340224785 Mounting: Power Cord, 3 x 1 mm² / 3 x 18 AWG, Cable, Connector: IEC C1347854300-06 Mounting: Power Cord, 3 x 1 mm² / 3 x 18 AWG, Cable, Connector: IEC C134300-064012 Mounting: Power Supply Cord, 3 x 1.5 mm², Screw clamps, Connector: IEC C134012Connector further types to CD...Mating Outlets/Connectors shutteredPower Cord Overview completeVAC13KS, Overview, diverse Connector IEC C13, cord end:VAC13KSPower Cord further types to CDThe specifications, descriptions and illustrations indicated in this document are based on currentinformation. All content is subject to modifications and amendments. Information furnished is believed2.12.2176。

60W ，AC-DC 模块电源产品特点●全球通用电压：85-305V AC/100-430VDC ●工作温度范围：-40℃to +70℃●4000VAC 高隔离电压●高效率、高可靠性●输出短路、过流、过压保护●稳压输出、低纹波噪声●全塑料外壳，符合UL94V-0●满足EMI CLASS B 及浪涌四级要求●通过EN62368认证RoHSLHE60-23Bxx 系列-----是60W 高效绿色AC-DC 模块电源。

该系列电源具有全球输入电压范围、交直流两用、低功耗、高效率、高可靠性、安全隔离等优点。

产品安全可靠，EMC 性能好，EMC 及安全规格满足IEC/EN61000-4、CISPR32/EN55032和IEC/EN/UL62368标准。

该系列产品广泛应用于工业、电力、仪表、通讯及民用等行业中，当应用于电磁兼容比较恶劣的环境时必须参考应用电路。

选型表认证型号*输出功率标称输出电压及电流效率(230VAC,%/Typ.)最大容性负载(µF)CELHE60-23B0550W5V/10000mA 8250000LHE60-23B1260W12V/5000mA 8610000LHE60-23B1515V/4000mA 868000LHE60-23B2424V/2500mA 862700LHE60-23B4848V/1250mA86680注：*产品型号后缀加“A5”为接线式封装拓展，后缀加“A6”为导轨式封装拓展。

输入特性项目工作条件Min.Typ.Max.单位输入电压范围交流输入85--305VAC 直流输入100--430VDC 输入频率47--63Hz输入电流115V AC ---- 1.4A230V AC ----0.8冲击电流115V AC --45--230V AC --90--漏电流277V AC/50Hz0.25mA RMS Max.内置保险管 3.15A/300V ，慢断热插拔不支持输出特性项目工作条件Min.Typ.Max.单位输出电压精度--±2--%线性调节率满载--±0.5--负载调节率0%-100%负载--±1--纹波噪声*20MHz 带宽（峰-峰值）----150mV 待机功耗5/12/15/24V 输出----0.5W48V 输出----0.65温度漂移系数--±0.02--%/℃短路保护打嗝式，可长期短路，自恢复过流保护≥110%Io，自恢复过压保护5VDC输出≤9VDC（输出电压钳位或关断）12VDC输出≤16VDC（输出电压钳位或关断）15VDC输出≤24VDC（输出电压钳位或关断）24VDC输出≤35VDC（输出电压钳位或关断）48VDC输出≤60VDC（输出电压钳位或关断）最小负载0----%掉电保持时间115V AC输入--8--ms 230V AC输入--65--注：*纹波和噪声的测试方法采用平行线测试法，具体操作方法参见《AC-DC模块电源应用指南》。

DC/DC电源模块手册电源解决专家PowerGood ，为电源模块而诞生的专家PowerGood 之工业应用电源模块，兼具应用范围广及规格多样化特色，可应用于各种工业化设备与系统之中，功率从1W-600W ，输入电压范围涵盖9-700Vin ，符合多国安规认证及EMC 认证，除了提供电源模块以外、更提供弹性的模组化电源(PSU)，提供快速性客制化服务，紧贴着应用市场的脉动。

PowerGood 不断推陈出新，提供客户最适切的产品，成为工业设备应用领域的领航者。

航天应用电源模块 医疗应用电源模块医疗行业所需求的电源模块，倾向于小型化及专业可靠。

为了因应于医疗设备及加强型隔离系统之严苛应用，PowerGood 所提供应用于医疗用之电源模块，为BF 等级设计，并且增强绝缘4k Vac ，低泄漏电流 100uA 。

适合应用于医疗机械设备之中，包含呼吸器、分析仪等各类设备。

并且随着新型医疗设备不断涌现，PowerGood 将因应市场需求，设计出更多符合需求之医疗应用电源模块。

PowerGood 创立于1989年，至今已经三十余年，提供客户最优异的品质、专利的拓扑电路、稳定的交期、专业的服务，成为客户最强大的事业后盾及伙伴。

PowerGood 产品线完整，从AC/DC 到DC/DC 电源转换器，提供标准品来满足客户需求，并与终端使用者合作，研发客制化产品，解决客户痛点，成为客户最大的后盾。

工业应用电源模块轨道应用电源模块轨道交通建设已经进入快速发展阶段，并且在AC/DC 及DC/DC 电源模块中提出了更严苛设计及挑战需求，PowerGood 了解轨道应用之环境严峻，因此产品皆符合轨道产业需求的高可靠、高耐用的特性，可应用于轨道之中的牵引设备、监控设备、通讯设备、驾驶设备...等系统之中。

PowerGood 的轨道系列产品工作壳温宽、隔离耐压高，并通过EN50155认证及EN45545-2防火保护认证，是轨道交通应用的最佳解决方案。

导轨式电源模块APD-2快装指南文档版本v1.0注意在使用本产品前请仔细阅读本手册，并将本手册妥善保存在便于操作维护人员查找的地方。

由于产品版本升级或其他原因，本文档内容会不定期进行更新。

用户请以所购产品实物为准，并可通过官网或销售渠道下载获取最新版本的手册资料。

除非另有约定，本文档仅作为使用指导，本文档中的所有陈述、信息和建议不构成任何明示或暗示的担保。

非经本公司书面许可，任何单位和个人不得擅自摘抄、复制本文档内容的部分或全部，并不得以任何形式传播。

1.产品介绍1.1产品简介导轨式电源模块用于给导轨数据采集器供电或现场其他DC 5V 输入设备供电。

可根据现场情况，选择AC85～265V 或者DC 24V 电源输入，内置超级电容，可在电站断电后维持导轨数据采集器工作20s，向服务器发送断电提醒信息。

1.2端口介绍12534序号端口功能说明1DC IN24V直流电输入口支持24V直流输入（接线时请注意区分正极与负极）2L N交流电输入口支持85-265V交流电输入（L连接火线，N连接零线）3DC OUT5V直流电输出口接入电源适配器（接线时请注意区分正极与负极）4排母用于给导轨数据采集器供电与导轨数据采集器排针对插，为其提供5V供电5预留无功能无功能2.与导轨数据采集器对接安装1.将采集器与前级设备拼接在一起2.卡紧紧固卡扣3.将两个设备一起挂在导轨上，推入卡扣4.安装完毕3.电源接线说明（直流输入和交流输入只能选择一种方式，严禁同时接入交流电和直流电）3.1交流输入接线3.2直流输入接线3.3直流输出接线3.4指示灯确认正常上电后，AC IN或者DC IN指示灯常亮指示灯标识指示灯含义状态说明交流输入指示灯1.灭:未正常连接电源2.常亮:上电成功直流输入指示灯1.灭：未正常连接电源2.常亮：上电成功。

第二章 电源模块2.1 ER22010/T 和ER11020/T 整流模块2.1.1 整流模块简介ER22010/T Utilitysure 系列整流模块采用当代先进的电源技术和工艺，专门为各类变电站、电厂及其它直流供电场合的直流屏而设计。

具有高效、高功率密度、高可靠性、智能化控制和造型美观等特点。

ER22010/T Utilitysure 系列整流模块采用智能风冷的散热方式，功率密度高，占用空间少；采用2U ×4U 标准设计，内置逆止二极管，组屏简便。

型号说明整流模块型号说明见下图。

ER 220 10 T/ 交流三相输入 额定输出电流10A 额定输出电压220Vdc 艾默生整流模块图2-1 ER22010/T 系列整流模块型号说明产品系列 产品系列见下表。

表2-1 产品系列及订货信息工作原理概述整流模块工作原理框图如下图所示。

图2-2 整流模块工作原理框图整流模块由三相无源PFC 和DC/DC 两个功率部分组成。

在两功率部分之外还有辅助电源以及输入、输出检测及保护电路。

前级三相无源PFC 电路由输入EMI 和三相无源PFC 组成，用以实现交流输入的整流滤波和输入电流的校正，以满足相关的输入电流谐波和EMC 标准。

后级的DC/DC 变换器由DSP 产生PWM 波控制前级PFC 输出的直流电压、经过高频变压器输出后再整流滤波输出直流电压，从而将前级整流电压转换成电力操作电源要求的稳定的直流电压。

辅助电源在三相无源PFC 之后，DC/DC 变换器之前，利用三相无源PFC 的直流输出，产生控制电路所需的各路电源。

输入检测电路实现输入过欠压、缺相等检测功能。

DC/DC的检测保护电路包括输出电压电流的检测，散热器温度的检测等，所有这些信号用于DC/DC的控制和保护。

CAN总线用于实现整流模块与主监控模块的通讯以及整流模块间的均流。

外观及接口1．整流模块外观图2-3 整流模块外观2．前面板ER22010/T系列整流模块前面板如下图所示。

1PM Series Power ModulePower Supply/Battery ChargerINSTALLATION / OPERATION MANUALMODELSPM-12-40ATable Of ContentsTopic PageQUICK REFERENCE CONTENTS 2I) OVERVIEW 3II) AC POWER QUALITY AND EMI COMPATIBILITY 3B) EMI (Electro-magnetic Interference) 3C) Other Factors 3III) INSTALLATION 3A) Materials Provided 3B) Mounting 3C) AC Input Wiring 4D) DC Output Wiring 4E) Parallel Wiring 5F) Chassis Grounding 5IV) OPERATION 5A) AC Input 5B) DC Output 5RegulationOutput Voltage AdjustmentCurrent Limit CircuitD.C. FusesC) Cooling Fans 6D) Local/Remote Alarm 6V) OPTIONS 6A) DC Quick Connect Kit 6B) AC Input Transient Suppressor 6VI) SPECIFICATIONS 7VII) TROUBLESHOOTING 8M-PM1240AAs of July 20102Quick Reference ContentsThe front and rear panel features of the Power Modules are illustrated below, along with the page number where information on eachparticular feature is located.Figure 1: Power Module Front PanelPM “ON”Indicator LED,Pg. 5Cooling Fans,Pg. 6Input Switch/Circuit Breaker,Pg. 5Output VoltageTest Points,Pg. 5Output VoltageAdjustment Pot,Pg. 5,6Figure 2: Power Module Rear PanelA.C. Input Socket,Pg. 4Output Terminals,Pg. 4Wiring Access Port,Chassis Grounding Stud,Pg. 5Remote Alarm Contacts,Pg. 63I) OverviewThe PM Series Power Module is a uniquely adaptable communicationequipment power source which functions as either power supply or batterycharger for 12 volt d.c. systems positive, negative or floating ground.Power Modules may be employed singly or in combina t ion. Units maybe paral l eled for N + 1 redundancy and alarm contacts allow local orremote mon i toring. An optional d.c. wiring quick connect kit allows easyreplacement of modules while the system as a whole remains up andrunning (see section V-B).Power Modules may be used separately as a power source, or they maybe integrated with NEWMAR’s Power Function Manager (model PFM-400;rated to 400 amps maximum) to greatly expand the system capability withother functions such as digital output monitoring, multiple load distributionand low voltage disconnect. (Contact the factory for complete informationregarding the PFM-400.) Note: If the Power Module is being installedas part of an integrated system with the PFM-400 refer to the manualwhich comes with that unit for all d.c. wiring instructions and functionaldescriptions.II) AC Power Quality and EMI CompatibilityA) AC Power QualityReliability is of prime concern when designing an AC-DC powersystem for communication sites. Poor AC input power qualitycan seriously impede system reliability. In particular, transientdisturbances on the power lines can severely weaken or causefailure of semi-conductors in power supplies and communicationgear. It is important that you know the input power quality wheninstalling the PM. Following is some basic information on thesubject:CausesTransients are characterized as a voltage pulse of high energy and veryshort duration impressed upon the AC wave form. These over voltagepulses can range from 1 to 100 times the normal AC voltage level and canlast for a fraction of a cycle to a few cycles.Transient disturbances can be placed into two categories:- Lightning generated- Equipment generatedA direct lightning hit on a utility power line will cause a high energy voltagetransient to travel in both directions along the power line. This disturbancecan affect equipment hundreds of miles from the strike point.Equipment generated transient sources include utility fault conditionsand load switching as well as on-site equipment such as pumps and airconditioning loads, motors, phase control equipment.RecommendationsAll PM models are designed to meet IEEE 587/ANSI C62.41 requirementsfor transient withstand capability. The AC power source should conform tothis specification to ensure reliable power supply operation.If the power source quality is suspect or unknown, it is recommended thatan AC power quality survey be conducted by a power quality consultantor power conditioning firm. Corrective measures may include lightningsuppressors, line conditioners and filters.An optional AC transient suppressor (see OPTIONS section) isrecommended for installations in third world countries and sites that aresubject to nearby lightning strikes or transients caused by nearby motorcontactors, air conditioning compressors, etc.B) EMI (Electro-Magnetic Interference) ConsiderationsThe PM Series Power Modules employ switch-mode technology to con-vert AC to DC. They are designed to produce minimal EMI levels whenoperating (compliant to International Standards EN55022 [conducted]and EN50082 [immunity]). Although the level of EMI produced may beacceptable for most radio applications, some installations may not eventolerate what little EMI is produced.Analog microwave and other extremely sensitive radio sites mayrequire additional input/output filtering and careful installation. In somecases linear power supplies (also available from NEWMAR) should beconsidered, as they emit lower EMI (although they are more susceptible to“brown-outs” or voltage sags and high input voltage).C) Other FactorsSome of the various factors which must be considered when discussingelectrical interference include the following:- RF Signal strength- Ground loops- Power and signal cable routing proximity- Power supply and radio mounting locations- Antenna, signal, and power groundsIII) InstallationA) Materials ProvidedPrior to installation, check to ensure that each of the following items havebeen included with the packaging. For any missing items please contactthe factory or warehouse.(2) ea. mounting brackets for 19” rack mounting (# 13917-0)(2) ea. mounting brackets for 23” rack mounting (# 13918-0)(6) ea. 6-32 X 3/8” pan head phillips screws(1) ea. Molex “pigtail” connector(1) ea. IEC 115V NEMA 5-15P AC input power cord(1) ea. Installation/Operation manual(1) ea. Output terminal coverB) MountingThe PM is provided with two pairs of mounting ears: one for 19” rackmounting (# 13917-0) and one for 23” rack mounting (# 13918-0). Six #6-32 x 3/8” pan head Phillips screws are provided for attaching the earsto the PM chassis. Select the appropriate set of ears and fasten to the PMsides.Note there are three sets of a triangular pattern of 6-32 tapped holeson each side of the PM. When rack mounting (two posts) the PM it isrecommended that the ‘center mount’ holes (6” set back from the PM’sfront panel) be used. The set of holes nearest the front panel and theset nearest the rear panel are normally used when installing the optionalUniversal Mounting Bracket (UMB).For four post mounting, please contact the factory for a second set of ears(specify 19” or 23” and the model no.), mount one pair of ears to the frontholes and the second pair of ears to the center or rear most tapped holes.Adjust your cabinet rail front to back distance so it matches the mountingholes on the PM.4Note: Due to the weight of the Power Module, we do not recommend flush mounting the PM with the mounting ears attached to the forward most mounting holes unless rear support is provided.C) AC Input WiringInput Wiring: PM-12-40A is provided with an IEC power cord (in theinstallation kit) with a NEMA 5-15 plug for a 115V AC outlet on one end and a molded socket at the other which fits the entry module at the rear of the PM. If the 5-15 plug is not suited to the available AC outlet, 1) obtain an IEC cord with appropriate plug or 2) cut off the 5-15 plug, obtain the correct plug for the outlet and attach it to the provided IEC cord. (Plug should be rated at 15 amps minimum). When replacing the plug, pay careful attention to the pin wiring as follows:Brown.........................AC Hot (over-current protected) Blue............................AC NeutralGreen*........................AC Ground (safety, earth) * may be Green with Yellow StripeInput Voltage Selection: The PM-12-40A is universal input. No switch required and will accept input of 90-264 VAC, 47-63 Hz.Important: Although the internal AC wiring is protected by the front panel mounted circuit breaker, the wiring to the PM must also be protected by plugging into an appropriate over-current protected three prong outlet or routed through a separate dedicated fuse or circuit breaker on an AC distribution panel with proper safety/earth chassis ground in accordance with all applicable codes and ordinances.Distribution Panel AC Fuse/Circuit Breaker Values 15 ampCAUTION (230 V a.c applications only): If AC input is derived from a source consisting of two HOT leads (phase-to-phase 230V AC inputvoltage), an external fuse or circuit breaker (double pole) must be used to protect the unfused (formerly NEUTRAL, now HOT) lead.D) DC Output WiringIMPORTANT: Ensure that AC input to the PM is switched off beforeworking with DC wiring. The output terminals are “hot” whenever the unit is switched on.1) Output terminals for hard-wiring of DC output are located on the rear panel of the PM. Terminate wires with 1/4” ring lug connectors for a secure installation.2) Use the chart below to determine minimum gauge for wires depend-ing on the particular model and the length of the run from the PM to the load or distribution bus (or refer to N.E.C or local codes for any questions regarding proper DC wire gauges):DC Wire Size Table:Model Minimum Wire Size per N.E.C. AWG (mm) PM-12-40A: #8 (10 mm)To minimize line loss at lengths greater than 5 feet, it is recommended to increase wire size one gauge for each additional 5 feet of cable run.3) Two separate (+) output terminals are provided. Connection of d.c. wiring is typically made to the (-) output and the “V OUT” (+) output ter-minal, though “V2” (+) may be used instead if the application requires it (see “V2” below).“V OUT” (+) Terminal: This output is routed through an internal “or-ing”/isolation diode. This terminal should be used for most installations. Use of this terminal is mandatory when the PM is wired for parallel n+1 redundant operation, or when it is used as a battery charger. Regula t ion at this terminal is 2 % line/load. Note: When the PM is used in a parallel n+1 redundant configuration, output current is derated by 10 % due to current sharing tolerances (see SPECIFICATIONS section).“V2” (+) Terminal: This is a direct output without the internal oring/isolation diode in line. 1 % regulation is available at this terminal and it should only be used in installations where only a single PM is used, 1 % regulation is required and the PM will not be wired to a battery. Output voltage measured at this terminal is approximately 0.7V d.c. higher than at the “V OUT” terminal.Typical single PM wiring schemes are illustrated in Figures 5-6.FIGURE 5: Single Power Module, negative ground, with battery:Figure 6: Single Power Module, negative ground, no battery, 1% regulation required:(-) Negative to Load or Ground Bus Bar(+) Positive to Load or Distribution Panel>>(+) Positive to Load or Distribution Panel(-) Negative to Load or Ground Bus Bar5E) Parallel WiringThe internal oring/isolation diode of the PM allows parallel n+1 redundant wiring with no modification or other external isolation de v ices required. Figure 9 on the following page illustrate some typical parallel wiring schemes.IMPORTANT: When wiring two or more units in parallel d.c. wires for all units should be identical in gauge and length and the output voltage of each module should be adjusted (as outlined below) in order to facilitate droop load sharing.Parallel Load Sharing Adjustment Procedures Method 1:1) Shut off all but one of the Power Modules and apply a load equivalent to 1/2 of the rating for that unit (e.g., for model PM-12-40A apply a 20 amp load).2) Connect a digital voltmeter to the test points on the front of the power module at the “V OUT” and (+) and (-) positions.3) Verify that the output voltage is at the correct factory setting (see Specifications section) or at the desired system voltage. If adjustment is neces s ary, use a small flat tip screwdriver to turn the “OUTPUT VOLTAGE ADJUST” potentiometer on the front panel until the voltmeter reads the desired system output voltage.4) Shut off the PM, turn on the next unit in the system, and repeat steps 2 through 4 until all PM’s in the system have the identical “V OUT” output voltage.Method 2:1) With all Power Modules powered up, apply the typical operational d.c. system load.2) Using a clamp-on ammeter, measure the output current of each PM in the system. If there is an out-put current differential of greater than 5 % between any two PM’s, attach the ammeter to the PM with the highest output current and turn the “OUTPUT VOLTAGE ADJUST” potentiometer on that unit slowly counterclockwise, until the output current of that unit reduces slightly.3) Repeat step 2 until there is less than 5 % current output differential between all PM’s in the system.F) Chassis GroundingIf grounding of the PM chassis is required for theinstallation, use the provided 1/4” grounding stud on the rear panel for this purpose (see Figure 2 or 3).FIGURE 6: Parallel (two to three Power Modules) and N+1 redundancy, negative ground V) Operation A) AC InputThe PM will operate on 90-264 VAC input at 47-63 Hz. No input voltage selection or adjustment is required for 115/230 VAC, 50 or 60 Hz. operation.AC input is protected against over-current and internal short circuit condi t ions by the circuit breaker/input power switch on the front panel. When this switch is in the on position and DC is available at the output terminal, the “ON” indicator L.E.D. on the left side of the front panel will illuminate.B) DC OutputThe PM produces 12 VDC nominal output. The ground reference may be positive, negative or floating.Regulation: Regulation at the “V OUT” output terminal is within ± 2 % of rated voltage, under all line and load conditions. Regulation at the “V2” terminal is ± 1 %. Ripple is within ± 1 % of rated voltage with or without batteries on-line.Output Voltage Adjust: Factory-set voltages (as measured at the V OUT terminal) and approximate adjustment ranges are specified below. Adjust m ent is made at the “OUTPUT VOLTAGE ADJUST” pot on the left side of the front panel using a small flat tip screwdriver (see Figure 1). Output voltage test points for both the “V OUT” and “V2” outputs areprovided beside the voltage adjust pot for ease of monitoring while making this adjustment. Use of a digital multimeter is recommended when making this adjustment. If the PM has had the charger function board installed, output voltage adjustments are automatic and this adjustment pot is disabled.••••○○>(+) Positive to Distribution Panel or Battery (fuse at battery per N.E.C. or local codes)Power Module #1Power Module #2Power Module #3<<<(-) Negative to Loads or BatteryIf the battery is connected to the PM output with backwards polarity, the fuses should blow to protect DC wiring. However damage to internal components may also have occurred. If the replacement fuse blows, return To maximize the life of the internal components and to allow continu o us operation at full rating, the PM employs automatic cooling fans. These fans operate at full speed whenever AC is applied and the unit is producing DCPreventative Maintenance: The fan is a maintenance-free ball-bearing type and does not require lubrication. It is equipped with a filter to keep Relay contact rating for all models is 5a @ 30V DC V) Options (Available from the Factory)UnusedPositionsUnusedPositions7The suppressor provides continuous bi-polar, bi-directional, non-inter-rupting protection for both the PM and load from damaging high voltage transients. It is installed in-line with AC input to the PM. Status indicators verify input and “PROTECTED” conditions and alarm contacts indicate when the unit has tripped and equipment is in the unprotected mode. Two models are available for 115V and 230V applications. Contact the factory for more information on how to obtain this transient suppressor.VI) SPECIFICATIONSAll ModelsInput: 90-264 VAC, 47-63 Hz.Power Factor: .96-.99Regulation: ± 2% at V OUT (through “oring” diode)Ripple P-P: 1%Efficiency: 80-85% @ full loadOutput Voltage Adjustment Range: ± 10 %Temperature Rating: 0° to +60° C derate linearly from 100% load @ 50° C to 80% load at 60° CAltitude Operational Rating: Full output to 5,000 feet; reduce output current 4% per 1,000 feetabove 5,000 feet; 10,000 feet maximumIndividual Model Specifications† For parallel configuration/load sharing derate output 10%ProtectionOutput fuse for reverse polarityCurrent limit and foldbackInput circuit breakerAutomatic high temperature protectionCase Size:3.5” H x 17” W* x 20.5” D* 19” and 23” mounting brackets providedCertifications• EN 55022 (Conducted)• FCC Part 15, Level A (Radiated)Model Input OutputRecommended Weight Amps V OUT V2Amps Battery Lbs Kg. @ F.L. Cont.† Capacity115/230V (Amp/Hours)*PM-12-40 8.5/4.3 13.6 14.3 40 80-40012.2 5.5 PM-12-70 16/8 13.6 14.3 70140-70015.2 6.9 PM-24-20 8.5/4.3 27.2 27.9 2040-20012.2 5.5 PM-24-35 16/8 27.2 27.9 3570-35015.2 6.9 PM-48-10 8.5/4.3 54.4 55.1 1018-9012.2 5.5 PM-48-18 16/8 54.4 55.1 1836-18014.0 6.48A. No output currentB. PM repeatedly trips input circuitbreaker with no battery or loadconnectedC. Reverse polarity batteryconnection to PM has caused PM tostop chargingD. High output voltage measuredacross “V OUT” terminalsE. Batteries connected to PMovercharging1. Using a voltmeter, confirm AC input volt a ge.Check input connections.2. Reduce DC load and/or determine cause ofover temperature condition.3. Clear or replace clogged fan filter. Removefan obstruction, or replace fan if necessary. (Seesection IV-D, Cooling Fans)4. Replace blown fuse (See section IV-B, DCOutput.)5. Return to place of purchase for repair/re-placement or contact NEWMAR for returnauthorization.Return to place of purchase for repair/re p lacementor contact NEWMAR for return authorization.Replace output fuses. If fuses blow again, return toplace of purchase for repair/re p lacement or contactNEWMAR for return authorization.Check for tight connection of charging leads fromPM to batteries.1. Move positive output wire from “V2” position to“V OUT” position.2. Lower output voltage (See section IV-B, DCOutput.) to battery manufacturer’s recommendedcharging voltageVII) TroubleshootingCondition Solution Possible Cause1. PM not receiving AC input voltage or is notreceiving correct input voltage2. PM limiting its output due to overload orambient over temperature condition3. One or both fans not operating properly,or filter clogged, causing over temperaturecondition and PM power reduction4. Blown output fuses5. Defective Power ModuleInternal shortDC output fuses and possibly other compo-nents blownBatteries not connected to PM. It is normal toread 1/2 volt higher across “V OUT” terminalswith no battery connected1. Batteries connected to “V2” output terminals.“V2” output is approximately .7 volt higher than“V OUT” output2. Output voltage adjusted too high。