KIA278R系列整流器规格书

铝电解电容器Aluminum Electrolytic Capacitors GR Series特性FEATURES⚫105℃⚫寿命(Life time):2000~3000 Hours⚫高纹波(High ripple current)、低阻抗(Low Impedance)主要技术性能Specifications项目Item 特性Performance Characteristics使用温度范围Operating Temperature Range-40 ~ +105℃额定电压范围Rated Working Voltage Range6.3 ~ 100V标称电容量范围Nominal Capacitance Range15 ~ 4700μF标称电容量允许偏差Capacitance Tolerance±20%(120Hz,+20℃)漏电流Leakage Current L≤0.01CV or 3(μA) 测试时间2分钟取最大值，测试温度20℃；Whichever is greater measured after 2 minutes application of ratedworking voltage at +20℃损失角正切值tan δ(120Hz,+20℃)工作电压(Voltage) 6.3 10 16 25 35 50 63 100 tan δ(max)0.22 0.19 0.16 0.14 0.12 0.10 0.09 0.08 容量大于1000μF，每增加1000μF损耗值增加0.02For capacitance value>1000μF,app 0.02 per another 1000μF低温特性(120Hz)Low Temperature Characteristics 工作电压(Voltage) 6.3 10 16 25 35 50 63 100 Z-25℃/Z+20℃ 4 3 2 2 2 2 2 2 Z-40℃/Z+20℃8 6 4 3 3 3 3 3高温负荷High Temperature Loading 负荷寿命(Load Life) 2000Hrs(D:5~6.3) 3000Hrs(D≥8)试验条件(Test conditions)温度(Temp.) 105℃输入工作电压纹波电流（Input working Voltage andripple current)容量变化率(Cap.) 容量变化为初始值的±20% (Within ±20% of Initial Value)损失角(tan δ) 小于等于初始值200% (200% or less of Initial Specified Value)漏电流(LC) 小于规格值(Initial Specified Value or less)高温无负荷Shelf Life 无负荷寿命(Shelf life) 1000 Hrs试验条件(Test conditions) 温度(Temp.) 105℃容量变化率(Cap.) 容量变化为初始值的±20% (Within ±20% of Initial Value)损失角(tan δ) 小于等于初始值200% (200% or less of Initial Specified Value) 漏电流(LC) 小于规格值(Initial Specified Value or less)纹波电流与频率补正系数Ripple Current & Frequency MultipliersFreq.(Hz)Cap.(μF)50(60) 120 1K 10K 100K ≤100 0.40 0.55 0.75 0.90 1.00100~1000 0.60 0.70 0.85 0.95 1.00≥1000 0.65 0.80 0.95 0.98 1.00参照标准Standards JIS- C-5101-4 (IEC 60384)尺寸图(Diagram of Dimensions)：.尺寸(Diameter): 单位(Unit):mmD 5 6.3 8(L<20) 8(L≥20) 10 13F 2.0 2.5 3.5 5.0d 0.5 0.5 0.6 0.6 0.6α(L<20)1.5 (L≥20)2.0β(D<20)0.5 (D≥20)1.0Voltage(Code) 6.310 16 Cap.(μF) D x L IMP R.C D x L IMP R.C D x L IMP R.C 100 5*11 0.580 140 5*11 0.58 140 6.3*12 0.250 300 120 5*11 0.530 165 5*11 0.53 140 6.3*12 0.250 320150 6.3*12 0.250 185 6.3*12 0.25 340 6.3 *12 0.220 340 8*12 0.150 500180 6.3*12 0.250 255 6.3*12 0.250 340 6.3*12 0.220 340 8*12 0.150 580220 6.3*12 0.250 275 6.3*12 0.220 340 6.3*12 0.220 340 8*12 0.150 600270 6.3*12 0.220 280 6.3*12 0.220 3408*12 0.150 640 8*12 0.130 580330 6.3*12 0.220 340 6.3*12 0.220 3408*12 0.130 640 8*12 0.130 580 8*12 0.130 640390 8*12 0.130 600 8*12 0.130 640 8*12 0.130 640470 8*12 0.130 640 8*12 0.130 6408*12 0.130 640 10*13 0.100 865560 8*12 0.130 640 8*12 0.130 640 10*13 0.100 880680 8*12 0.130 640 8*12 0.130 6408*16 0.087 750 10*13 0.087 8658208*12 0.130 64010*13 0.080 865 10*17 0.075 1210 10*13 0.110 86510008*12 0.130 640 8*16 0.087 76010*17 0.075 1210 10*13 0.087 865 10*17 0.075 121012008*16 0.096 84010*20 0.060 1400 10*20 0.060 1400 10*13 0.087 88015008*20 0.069 105010*20 0.060 1430 10*20 0.060 1430 10*17 0.069 12101800 10*20 0.060 1400 10*20 0.060 1460 10*25 0.052 1650 13*20 0.046 19002200 10*20 0.060 1460 10*20 0.060 1490 13*20 0.045 19202700 10*25 0.050 1650 10*25 0.050 1650 13*25 0.040 2124 13*20 0.050 1650 13*20 0.035 19003300 10*25 0.050 165013*25 0.030 2124 13*20 0.050 18703900 13*20 0.046 19004700 13*25 0.046 2124﹡13mm may be replaced by 12.5mm upon customer’s request.Voltage(Code) 2535 50 Cap.(μF) D x L IMP R.C D x L IMP R.C D x L IMP R.C33 6.3*12 0.500 23039 6.3*12 0.500 26547 6.3*12 0.250 300 6.3*12 0.500 29556 6.3*12 0.250 315 8*12 0.420 51568 6.3*12 0.240 340 8*12 0.420 53582 6.3*12 0.220 320 8*12 0.230 625 8*12 0.420 555100 6.3*12 0.220 340 8*12 0.220 640 10*13 0.200 760120 8*12 0.200 565 8*12 0.200 6558*16 0.200 730 10*13 0.200 780150 8*12 0.180 580 8*12 0.180 670 10*17 0.130 825180 8*12 0.150 600 10*13 0.130 7608*20 0.130 825 10*17 0.130 855220 8*12 0.130 6208*12 0.130 64010*17 0.130 875 8*16 0.100 83010*13 0.100 8302708*12 0.130 64010*17 0.075 1210 10*25 0.093 1025 10*13 0.100 8253308*12 0.130 6658*20 0.087 105013*20 0.090 166010*17 0.075 86510*13 0.100 845 10*17 0.075 1210390 10*13 0.100 865 10*17 0.075 1210 13*20 0.090 16804708*16 0.087 84010*17 0.075 1210 13*25 0.088 1950 10*13 0.100 885560 10*17 0.075 1210 10*20 0.060 1380 13*25 0.088 1970 680 10*17 0.075 1210 10*20 0.058 1400820 10*20 0.060 1370 10*25 0.054 1650 13*20 0.046 19001000 10*20 0.058 1400 13*20 0.046 1920 13*25 0.042 21241200 10*20 0.055 14201500 10*25 0.050 1650 13*20 0.047 19001800 13*25 0.043 21042200 13*25 0.040 2124Voltage(Code) 63100 Cap.(μF) D x L IMP R.C D x L IMP R.C15 6.3*12 1.880 11522 6.3*12 1.050 115 8*12 1.530 23027 6.3*12 1.050 120 8*12 1.320 23233 6.3*12 1.050 125 8*12 1.280 33039 8*12 0.800 200 8*16 0.980 30047 8*12 0.780 212 10*13 0.650 37056 8*12 0.760 222 8*20 0.480 36268 10*13 0.750 234 10*17 0.460 35782 10*13 0.700 314 10*20 0.430 4661008*16 0.630 30010*20 0.430 480 10*13 0.580 314120 10*17 0.324 357 13*20 0.368 530 150 8*20 0.324 362 13*20 0.357 680 180 10*20 0.190 466 13*25 0.328 750 220 10*20 0.190 466 13*25 0.328 880 270 13*20 0.128 670330 13*20 0.128 690390 13*25 0.118 922﹡13mm may be replaced by 12.5mm upon customer’s request.。

1Environmental SpecificationsItemSpecificationOperatingtemperature –40ºC to +75 ºC (referring to Figure 3) (–40°F to +167°F)Storage temperature–40ºC to +75ºC (not packaged) (–40°F to +167°F)Relative humidity 5%-95% (non-condensing) Altitude range≤ 4000 mItem SpecificationInputOperating voltage 85–300 V ACRated: 200–240 V AC and 100–120 V ACFrequency 45–66 HzRated: 50 Hz and 60 Hz Maximum input current ≤ 6.4 APower factor ≥ 0.99 (100% load) THD ≤ 3.5% (full load) ; ≤ 5% (load ≥ 50%)Output Output voltage42–58 V DCRated voltage: 53.5 V DCOutput power1000 W (176–300 V AC);470 W (85–175 V AC decreased linearly) Regulated voltage precision ≤ ±0.6%VoRipple and noise≤ 200 mVp -p(Bandwidth ≤ 20M Hz) Dynamic response •25-50% or 50-75% load−Over shoot:≤ ±5%−Recovery time: ≤ 200 us (±0.6%)•10-90% load;−Over shoot:≤ ±5%;−Recovery time: ≤ 1ms (±1%) Standby power ≤ 5 W Turn-on output delay 3–8s Hold up time > 10 ms Psophometrically weighted noise ≤ 2 mVBroad frequency noise voltage ≤ 50 mV (3.4–150 kHz) ≤ 20 mV (0.15–30 MHz)Electrical SpecificationsEfficiencyThe peak point is ≥ 94%≥ 93% (230 V AC, 30%–100% load)Height x Width x Depth 40.8 mm x 95.5 mm x 208 mm (1.61 in. x 3.76 in. x 8.19 in.) Weight About 1.1 kgCoolingBuilt-in fan (The rotation of fan dependson the internal temperature.)DescriptionThe R4815N1 is a digital rectifier with high efficiency and power density. It converts 85–300 V AC input voltage to 53.5 V DC output voltage. The output voltage can be adjusted by the host.It performs comprehensive protection functions, supports soft start, and produces low noise. With the latest power monitoring technology, states of the rectifier and load are monitored in real time.Multiple rectifiers can be paralleled.Key Features•Input voltage range: 85–300 V AC•Operating temperature range: –40ºC to +75ºC •Total harmonic distortion (THD): ≤ 3.5％ •Digital control mode •Hot swap•Supports intelligent electric meter •Supports CAN communication •Supports LED display•Supports voltage adjustment,current adjustment,and current sharing •Meet Rohs requirement•Passes the TUV, CE, UL certifications and gets the CB certifIcate. •Disconnect above 320 V ACNote : If the altitude is within the range of 3000 m to 4000 m, the maximum operatingtemperature decreases by 1°C (1.8°F ) as the altitude increases by 200 m.Copyright © Huawei Technologies Co., Ltd. 2016. All rights reserved.2Item SpecificationProtectionInput overvoltage protection Protection point: > 300 V AC Recovery range: 290-300 V AC Input undervoltage protectionProtection point: < 80 V AC Recovery range: 70-85 V AC Output overvoltage protection56–60V DC(can be set by monitoring unit)1.If the overvoltage occurs inside the rectifier due to a fault, the rectifier will latch off.2.If the output voltage is higher than 63 V and lasts for more than 500 ms, the rectifier will latch off. Output currentlimiting protection See Figure 1.Output short circuit protectionA long term short circuit is allowed. After the fault is rectified, the rectifier is restored to a healthy state automatically.Over-temperature protectionThe module protects against overtemperature.Safety/EMC/Lightening protectionSafetycertificationPasses TUV, CE, UL certifications. Catch the CB certificate. Complies with UL60950-1; IEC60950-1; EN60950-1;CAN/CSA C22.2 No. 60950-1; EMCEN55022 Class B ; EN55024; EN61000-3-2; EN61000-3-3; ETSI EN300 386; ETSI EN301489; ITU-T K.20; Lightning5 kAReliabilityMTBF> 500,000 hoursAudible NoiseSpecification≤ 40 dB (25ºC /77°F , full load)Output FeatureFigure 1 Output featureFigure 2 Efficiency(Vin = 230 V AC, Vout = 53.5 V, Ta: 25ºC)Figure 3 Power derating curveOther Features020040060080010001200-40-2020406080P o (w )Ta(℃)Power Derating Curve3 Interface DescriptionThe rear panel of the rectifier provides an golden finger connection which is used as AC input, DC output and signal connection.For the location of the pins, see Figure 3. For the definitions of the pins, see Table 1. Figure 4 Pins on the rear panelTable 1 Definitions of the pins on the rear panelPinDefinitionFunction1, 9 L Live line 2, 10 N Neutral line 3, 11 PE Protect earth 4 CANL CANL13 ACD1 Slot detection signal 1 5 ACD2 Slot detection signal 2 12 CANH CANH 6, 14 OUTPUT+ Output:48V+ 8 OUTPUT- Output:48V- 7Pre-chargePre-chargeRemoving the RectifierFigure 5 Removing a PSUStep 1: Push the locking latch left.Step 2: Remove the PSU out of the PDU byexternally drawing the handle, as shown in Figure 5.Installing the RectifierFigure 6 Installing a PSUStep 1: Push the locking latch left and pull out thehandle. Step 2: Push the PSU slowly into the subrackalong the guide rail and push the locking latch right to fix the handle, as shown in Figure 6.TransportThe product must be packed with firmly packing box when transport. Out of the box the mark“prevent moisture”, “lay down carefully” and other required mark must have. Any transport tools are permitted if the product in the packing box. When transport must avoid rain and snow attack directly and mechanical shock.StorageProduct should be packaged in the packing box before use. The store room should be meet: -40ºC to +70ºC ambient temperature, relatedhumidity less than 80%, dry, ventilation and hasn’t any corrosive gas.•Only trained and qualified personnel can be allowed to install or service the rectifier.•Each rectifier input is protected by two fuses, one for the live wire and the other for the neutral wire.CAUTION•This product should be used in the environment that meets specifications described in the user manual.•If the product is used with abnormal power grid input orexposed to salt mist, dust, or mist, the product may become faulty, and the resulting product exceptions or component damage are beyond the warranty scope.CAUTION4Indicator Color StatusDescriptionMeasuresPower indicatorGreen Steady on The rectifier is supplied with alternating current (AC) input power.The rectifier runs properly, and no measure is required.OffThe rectifier is not supplied with AC input power. Replace the rectifier if the AC input is normal.The rectifier is faulty.Replace the rectifier. Blinking at 0.5 HzThe rectifier is being queried.No measure is required.Blinking at 4 HzThe rectifier is loading an application program. The rectifier automatically recovers after loading, and no measure is required. Alarm indicatorYellow OffNo alarm is generated.The rectifier runs properly, and no measure is required.Steady on The rectifier generates a prewarning for power limiting due to overtemperature. The rectifier generates an alarm for shutdown due to ambient overtemperature protection.Check that the air vent is not blockedand the ambient temperature is within a normal range. The rectifier generates an alarm due to AC input overvoltage or undervoltage protection. Check that the electrical grid voltage is within a normal range. The rectifier is hibernated.No measure is required.Blinking at 0.5 HzThe rectifier communication is interrupted. Replace the rectifier or monitoring module.Fault indicator RedOff The rectifier is not faulty.No measure is required.Steady on The rectifier is locked due to output overvoltage.Pull out the rectifier and reinsert it after 1 minute.There is no output because the rectifier is faulty.Replace the rectifier.•The high -voltage power supply energize equipment. Contacting the high-voltage power supply directly or through a dampened object may cause you to death.•Improper operations on the high-voltage power supply may cause accidents such as fire or electric shock.MaintenanceSuggestions1.Rectify the faults by referring to Table2.2.If you cannot rectify the fault according to Table 2, replace the rectifier.3.Return the faulty rectifier to Huawei for repairing.Huawei technical support website:Base on following suggestion, Simple fault can be dealt with.Table 2 Describes the states of LEDs and the causes for abnormal.DANGERHuawei Technologies Co., Ltd.Huawei Industrial BaseBantian, Longgang, Shenzhen518129。

深圳英士康科技有限公司深圳南山区侨香路美景工业苑2号6楼电话: +86 755 28721662 / 28721663传真: +86 755 84170408E-mail:***************/HID 电子镇流器规格书HID BALLAST SPECIFICATION金属卤素灯模拟调光型EAMH250AD-EUVersion ASHENZHEN EASCA TECHNOLOGIES LIMITEDF6, No.2, MeiJing Industrial Park, QiaoXiang Road, NanShan district, Shenzhen, ChinaTel: +86 755 28721662 28721663 Fax: +86 755 84170408E-mail:***************EAMH250AD-EU ver A ◎技术参数 (Technique Specifications)输入电压:Voltage input range: 170Vac～260Vac开路保护:Protection of open circuit:有Available额定电压:Rating input voltage: 220Vac过热保护:Protection of thermal:有Available输入频率:Input frequency: 50Hz～60Hz触发失败保护:Protection of ignition failure:有Available功率因数: Power factor: > 0.99灯失效保护:Protection of end of lamp life:有Available效率: Efficiency: 95% (Max)重量:Weight:1.8 kg谐波含量: THD < 10%灯管到镇流器最大距离:Max. Lamp distance from ballast :15m输出功率: Output power: 250 W工作温度:Operating temperature range:-40℃～+60℃调光: Dimming: 模拟调光Analog Dimming 0-10v尺寸(L X W X H):Dimension (L X W X H):234.5x102x68.4mm电流波峰因素: Current crest factor: < 1.7最大外壳温度(TC):Max case temperature (TC):85℃输出频率:Output frequency : 100Hz安规标准:Safety and regulation:IEC61347短路保护:Protection of short circuit: 有Available电磁兼容:EMC:EN55015◎ 产品特性 (Product Speciality)◎ 安装图(Mounting Drawing)●进口铝合金外壳，超光氧化处理，具优良散热性●内部采用三防漆处理和特种散热胶灌封，更适于恶劣环境●使用于多种金卤灯光源，如GE，欧斯朗，飞利浦，BLV等及国产多种欧标光源●噪音低，光输出稳定无屏闪现象，具多种自我保护功能●效率高，综合节电30%以上●广泛应用于路桥、广告牌、建筑及景观照明领域●Bright aluminium alloy case with perfect thermal efficiency●Internally double protected by conformal coating and coolingcolloid that ensures ballast work well in various environment●Compliant to most MH lamp brands such as GE, OSRAM,PHILIPS, BLV etc…with EU standard●Low noise, stable lumen output, no flicker, and multipleself-protection functions●High efficiency that saves more than 30%●Applying to road, bridge, billboard, building, sight lighting etc...EAMH250AD-EU version A 说明：1、安装前请仔细阅读本说明。

ATA系列自动电源转换装置出众的整体解决方案 ATA—执行机构IZM9系列ATA 系列自动电源转换装置ATA 系列自动电源转换装置ATA 系列概述 ...................................................................................4型号说明 ...............................................................................5主要技术数据及性能指标 .................................................................6控制器 .................................................................................7电气线缆 ..............................................................................16执行断路器IZM9系列型号说明 ..............................................................................17脱扣器技术参数 ........................................................................18系统概览 ..............................................................................19可选附件 ..............................................................................23外形及安装尺寸 ........................................................................24系统电气图 ............................................................................48选型与订货 ............................................................................69订购指南 (73)ATA 系列执行断路器IZM9系列目录3ATA系列自动电源转换装置概述ATA系列产品描述伊顿的ATA系列自动转换开关装置，满足额定电压AC400V以下电源的自动转换。

查询2SJ278供应商2SJ278Silicon P-Channel MOS FETApplicationHigh speed power switchingFeatures• Low on-resistance• High speed switching• Low drive current• 4 V gate drive device can be driven from 5 V source• Suitable for switching regulator, DC-DC converterOutline2SJ2782Absolute Maximum Ratings (Ta = 25°C)ItemSymbol Ratings Unit Drain to source voltage V DSS –60V Gate to source voltage V GSS ±20V Drain current I D–1A Drain peak currentI D(pulse)*1–4A Body to drain diode reverse drain current I DR –1A Channel dissipation Pch*21W Channel temperature Tch 150°C Storage temperatureTstg–55 to +150°CNotes: 1.PW ≤ 10 µs, duty cycle ≤ 1%2.Value on the alumina ceramic board (12.5×20×0.7 mm)3.Marking is “MY”.Electrical Characteristics (Ta = 25°C)ItemSymbol Min Typ Max Unit Test conditions Drain to source breakdown voltageV (BR)DSS –60——V I D = –10 mA, V GS = 0Gate to source breakdown voltageV (BR)GSS ±20——V I G = ±100 µA, V DS = 0Gate to source leak current I GSS ——±5µA V GS = ±16 V, V DS = 0Zero gate voltage drain current I DSS——–10µA V DS = –50 V, V GS = 0Gate to source cutoff voltage V GS(off)–1.0—–2.25V I D = –1 mA, V DS = –10 V Static drain to source on state R DS(on)—0.70.83ΩI D = –0.5 A, V GS = –10 V*1resistance—0.9 1.2ΩI D = –0.5 A, V GS = –4 V*1Forward transfer admittance |y fs |0.6 1.0—S I D = –0.5 A, V DS = –10 V*1Input capacitance Ciss —160—pF V DS = –10 V, V GS = 0,Output capacitanceCoss —80—pF f = 1 MHzReverse transfer capacitance Crss —28—pF Turn-on delay time t d(on)—7—ns I D = –0.5 A, V GS = –10 V,Rise timet r —8—ns R L = 60 ΩTurn-off delay time t d(off)—30—ns Fall timet f —25—ns Body to drain diode forward voltageV DF —–1.1—V I F = –1 A, V GS = 0Body to drain diode reverse recovery timet rr—90—nsI F = –1 A, V GS = 0,di F /dt = 50 A/µs2SJ27832SJ27842SJ27852SJ2786Hitachi CodeJEDECEIAJWeight (reference value)UPAK—Conforms0.050 gUnit: mmCautions1.Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,copyright, trademark, or other intellectual property rights for information contained in this document.Hitachi bears no responsibility for problems that may arise with third party’s rights, includingintellectual property rights, in connection with use of the information contained in this document.2.Products and product specifications may be subject to change without notice. Confirm that you have received the latest product standards or specifications before final design, purchase or use.3.Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,contact Hitachi’s sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,traffic, safety equipment or medical equipment for life support.4.Design your application so that the product is used within the ranges guaranteed by Hitachi particularly for maximum rating, operating supply voltage range, heat radiation characteristics, installationconditions and other characteristics. Hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as fail-safes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other consequential damage due to operation of the Hitachi product.5.This product is not designed to be radiation resistant.6.No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without written approval from Hitachi.7.Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor products.Hitachi, Ltd.Semiconductor & Integrated Circuits.Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109Copyright ' Hitachi, Ltd., 1999. All rights reserved. Printed in Japan.Hitachi Asia Pte. Ltd.16 Collyer Quay #20-00Hitachi TowerSingapore 049318Tel: 535-2100Fax: 535-1533URLNorthAmerica : http:/Europe : /hel/ecg Asia (Singapore): .sg/grp3/sicd/index.htm Asia (Taiwan): /E/Product/SICD_Frame.htm Asia (HongKong): /eng/bo/grp3/index.htm Japan : http://www.hitachi.co.jp/Sicd/indx.htmHitachi Asia Ltd.Taipei Branch Office3F, Hung Kuo Building. No.167, Tun-Hwa North Road, Taipei (105)Tel: <886> (2) 2718-3666Fax: <886> (2) 2718-8180Hitachi Asia (Hong Kong) Ltd.Group III (Electronic Components)7/F., North Tower, World Finance Centre,Harbour City, Canton Road, Tsim Sha Tsui,Kowloon, Hong Kong Tel: <852> (2) 735 9218Fax: <852> (2) 730 0281 Telex: 40815 HITEC HXHitachi Europe Ltd.Electronic Components Group.Whitebrook ParkLower Cookham Road MaidenheadBerkshire SL6 8YA, United Kingdom Tel: <44> (1628) 585000Fax: <44> (1628) 778322Hitachi Europe GmbHElectronic components Group Dornacher Stra§e 3D-85622 Feldkirchen, Munich GermanyTel: <49> (89) 9 9180-0Fax: <49> (89) 9 29 30 00Hitachi Semiconductor (America) Inc.179 East Tasman Drive,San Jose,CA 95134 Tel: <1> (408) 433-1990Fax: <1>(408) 433-0223For further information write to:。

C i r c u i t b r e a k e r sCircuit breakersTeSys GV, GBC ontrol and P rotection C omponentsChapterB60.75g g 1.1g g 1.5375 2.533.5 LR2 K0308GV2LE071.1g g –––––– 2.533.5 LR2 K0308GV2LE071.5g g 1.5g g 3375451 LR2 K0310GV2LE08––– 2.2g g –––451 LR2 K0312GV2LE082.2g g 3501004375 6.378 LR2 K0312GV2LE103g g 410100 5.537510138 LR2 K0314GV2LE144g g 5.510100–––10138 LR2 K0316GV2LE14––––––7.537510138 LRD 14GV2LE14––––––937514170 LRD 16GV2LE165.515507.56751137514170 LR2 K0321GV2LE167.5155096751537518223 LRD 21GV2LE20915401147518.537525327 LRD 22GV2LE2211154015475–––25327 LRD 22GV2LE2215105018.54752237532416LRD 32GV2LE32(1) As % of Icu.g ) > 100 kA.GV2 LE10D F 526144.t i fC i r c u i t b r e a k e r s0.09––––––0.45LRD 03GV2L030.12g g –––0.37g g 0.638LRD 04GV2L040.18g g ––––––0.638LRD 04GV2L04––––––0.55g g 113LRD 05GV2L050.25g g ––––––113LRD 05GV2L05––––––0.75g g 113LRD 06GV2L050.37g g 0.37g g –––113LRD 05GV2L050.55g g 0.55g g 1.1g g 1.622.5LRD 06GV2L06–––0.75g g ––– 1.622.5LRD 06GV2L060.75g g 1.1g g 1.54100 2.533.5LRD 07GV2L07Example: GV3 L32 becomes GV3 L326.(1) As % of Icu. Associated current limiter or fuses, where required. See characteristics page B6/33.g > 100 kA.GV2 L10D F 526145.t i fGV3 L65D F 526146.t i fTeSys GVThermal-magnetic motor circuit breakers GV2 ME0.06gg––––––0.16…0.252.4GV2ME020.09g g––––––0.25…0.405GV2ME030.12 0.18g g g g – –– –– – 0.37 –g–g –0.40…0.638GV2ME040.25gg––– 0.55gg0.63…113GV2ME050.37 0.55 –g g –g g –0.37 0.55 0.75g g g g g g – 0.75 1.1– g g – g g 1…1622.5GV2ME060.75g g1.1gg1.5375 1.6...2.533.5GV2ME071.1 1.5g g g g 1.5 2.2g g g g 2.2 3 3 375 75 2.5 (4)51GV2ME082.2gg350100 43754...6.378GV2ME103 4g g g g 4 5.510 10100 100 5.5 7.5 3 375 756 (10)138GV2ME145.5 –15 –50 –7.5 – 6 –75 – 9 11 3 375 759…14170GV2ME167.5155096751537513…18223GV2ME209154011475 18.537517…23327GV2ME2111154015475 –––20…25327GV2ME22 (3)15105018.54752237524 (32)416GV2ME32Motor circuit breakers from 0.06 to 15 kW / 400 V, with lugsTo order thermal magnetic circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above.Example: GV2 ME08 becomes GV2 ME086.Thermal magnetic circuit breakers GV2 ME with built-in auxiliary contact block With instantaneous auxiliary contact block (composition, see page B6/11):b GV AE1, add suffix AE1TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE1TQ .b GV AE11, add suffix AE11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE11TQ .b GV AN11, add suffix AN11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AN11TQ .These circuit breakers with built-in contact block are sold in lots of 20 units in a single pack.(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office. g > 100 kA.GV2 ME10D F 526134.t i fC i r c u i t b r e a k e r sTeSys GVTeSys protection componentsThermal-magnetic motor circuit breakers GV2 MEReferences0.06g g ––– 0.16…0.25 2.4GV2ME0230.09g g ––– 0.25…0.405GV2ME0330.120.18g g g g –––0.40…0.638GV2ME0430.250.37g g g g 0.37g g 0.63…113GV2ME0530.370.55g g g g 0.370.550.75g g g g g g 1…1.622.5GV2ME0630.75g g1.1g g 1.6…2.533.5GV2ME0731.11.5g g g g 1.52.2g g g g 2.5…451GV2ME0832.2g g 350100 4…6.378GV2ME10334g g g g 45.510101001006…10138GV2ME1435.515507.5675 9…14170GV2ME1637.515509675 13…18223GV2ME203911151540401147517…23327GV2ME2131115401547520 (25)327GV2ME223Contact blocksDescription Mounting Maximum number Type of contacts Sold in lots of Unitreference Instantaneous auxiliary contactsFront 1N/O + N/C 10GVAE113N/O + N/O 10GVAE203LH side2N/O + N/C 1GVAN113N/O + N/O1GVAN203AccessoryDescriptionApplicationSold in lots of Unitreference Cable end reducerFor connection of conductors from 1 to 1.5 mm 220LA9D99(1) For connection of conductors from 1 to 1.5 mm 2, the use of an LA9 D99 cable end reducer is recommended.(2) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office (3) The thermal trip setting must be within the range marked on the graduated knob.g > 100 kA.GV2 ME pp 3D F 526135.t i fLA9 D99D F 533898.e p sTeSys GVReferencesTeSys protection componentsThermal-magnetic motor circuit breakersGV2 P, GV3 P and GV3 ME80GV2 P10D F 526137.t i fGV3 P65D F 526139.t i fGV3 P651D F 526140.t i fC i r c u i t b r e a k e r sTeSys GVReferences93610011181001581007.59707010010091150501001001115101010010012…20GV7RS20 2.0109113636100100111518181001001518.58810010015…25GV7RE25 2.0109117070100100111550501001001518.5101010010015…25GV7RS25 2.01018.53610018.522181810010022810025…40GV7RE40 2.01018.57010018.550100221010025…40GV7RS40 2.0102236100301810030810030…50GV7RE50 2.01522701003050100301010030 (50)GV7RS502.01537361004555181810010055810048...80GV7RE80 2.040377010045555050100100551010048...80GV7RS80 2.0404536100–1810075810060...100GV7RE100 2.0404570100–50100751010060...100GV7RS100 2.0405575353510010075903030100100901108810010090 (150)GV7RE1502.020557570701001007590505010010090110101010010090…150GV7RS150 2.02090110353510010011013216030303010010010016020088100100132…220GV7RE220 2.3509011070701001001101321605050501001001001602001010100100132…220GV7RS220 2.350(1) As % of lcu.TeSys protection componentsThermal-magnetic motor circuit breakers GV7 RGV7 RE40D F 526138.t i fGV7 RS220D F 526141.t i f0.12–0.120.180.18–0.370.40…0.6313GV2RT040.090.120.250.370.250.370.370.550.63…122GV2RT050.180.250.370.550.370.550.370.550.750.751.11…1.633GV2RT060.370.750.751.1 1.11.51.6…2.551GV2RT070.550.75 1.11.5 1.51.52.2 2.23 2.5…478GV2RT081.12.22.23344…6.3138GV2RT101.52.234445.5 5.57.56…10200GV2RT142.23 5.55.57.57.59119…14280GV2RT1647.57.5991513…18400GV2RT205.5911111118.517…23400GV2RT21(1) The thermal trip setting must be within the range marked on the graduated knob.GV2 RTD F 526142.t i fC i r c u i t b r e a k e r sblack handle, blue legend plate(1) The thermal trip setting must be within the range marked on the graduated knob.(2) Other accessories such as mounting, cabling and marking accessories are identical to those used for GV2 ME motor circuit breakers, see page B6/13.GV2 RTD F 526142.t i fD F 526340.e p sC i r c u i t b r e a k e r sTeSys GVDescription Mounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront (1)1N/O or N/C (2)10GVAE1N/O + N/C 10GVAE11N/O + N/O10GVAE20Side (LH)2N/O + N/C1GVAN11N/O + N/O1GVAN20Fault signalling contact + instantaneous auxiliary contact Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contactSide (LH)1C/O common point1GVAM11(1 block on RH sideof circuit breaker GV2 ME)50 Hz GVAX11560 Hz GVAX116127 V60 Hz GVAX115220…240 V 50 Hz GVAX22560 Hz GVAX226380…400 V50 Hz GVAX38560 Hz GVAX386415…440 V 50 Hz GVAX415440 V60 Hz GVAX385Add-on contact blocksDescriptionMountingMaximum number Reference Visible isolation block (5)Front (1)1GV2AK00 (6)LimitersAt top(GV2 ME and GV2 P)1GV1L3Independent1LA9LB920(1) Mounting of a GV AE contact block or a GV2 AK00 visible isolation block on GV2 P and GV2 L .(2) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(3) The GV AD is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.(5) Visible isolation of the 3 poles upstream of circuit breaker GV2 P and GV2 L .Visible isolation block GV2 AK00 cannot be used with motor circuit breakers GV2 P32 and GV2 L32 (Ith max = 25 A).(6) Ie Max = 32 A.ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/89 and B6/94Dimensions, schemes:pages B6/70 to B6/82LA9LB920D B 126629.e p sC i r c u i t b r e a k e r sTeSys GVTerminal blockfor supply to one or more GV2 G busbar setsConnection from the top1GV1G09Can be fitted with current limiter GV1 L3 (GV2 ME and GV2 P)1GV2G05Cover for terminal block For mounting in modular panels10LA9E07Flexible 3-pole connection for connecting a GV2 to a contactor LC1-D09…D25 Centre distance between mounting rails: 100…120 mm10GV1G02Set of connections upstream/downstream For connecting GV2 ME to a printed circuit board 10GV2GA01“Large Spacing” adapter UL 508 type EFor GV2 P pp H7 (except 32 A)1GV2GH7Clip-in marker holders (supplied with each circuit breaker)For GV2 P , GV2 L, GV2 LE and GV2 RT (8 x 22 mm)100LA9D92ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAccessoriesDimensions, schemes:pages B6/70 to B6/82D B 417942.e p sTeSys GVD B 126631.e p sD B 126630.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accuracy to align the circuit breaker and the rotary handle.device(padlocks not included)ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsC i r c u i t b r e a k e r sTeSys GVDescriptionMounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront1N/O or N/C (1)10GVAE1N/O + N/C 10GVAE11 (2)N/O + N/O10GVAE20 (2)Side (LH)2N/O + N/C1GVAN11 (2)N/O + N/O1GVAN20 (2)Fault signalling contact + instantaneous auxiliary contactFront 1N/O (fault)+ N/O1GVAED101 (2)N/O (fault)+ N/C1GVAED011 (2)Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contact Side (LH)1C/O common point 1GVAM11(4)MountingVoltage ReferenceSide(1 block on RH side of circuit breaker)24 V 50 Hz GVA p 02560 Hz GVA p 02648 V 50 Hz GVA p 05560 Hz GVA p 05610050 Hz GVA p 107100…110 V 60 Hz GVA p 107110…115 V 50 Hz GVA p 11560 Hz GVA p 116120…127 V 50 Hz GVA p 125127 V 60 Hz GVA p 115200 V50 Hz GVA p 207200…220 V 60 Hz GVA p 207220…240 V 50 Hz GVA p 22560 Hz GVA p 226380…400 V 50 Hz GVA p 38560 Hz GVA p 386415…440 V 50 Hz GVA p 415415 V 60 Hz GVA p 416440 V 60 Hz GVA p 385480 V 60 Hz GVA p 415500 V 50 Hz GVA p 505600 V60 HzGVA p 505AccessoriesDescription Reference Sets of 3-pole 115 A busbars Pitch: 64 mm2 tap-off GV3 P pp and GV3 L pp GV3G2643 tap-off GV3 P pp and GV3 L pp GV3G364Cover “Large Spacing” UL 508 type E (Only one cover required on supply side)GV3 P ppGV3G66(1) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(2) Contact blocks available in version with spring terminal connections. Add a figure 3 at the end of the references selected above. Example: GV AED101 becomes GV AED1013.(3) The GV AD pp is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.Add-on blocks and accessoriesGV3 G66D F 537424.e p sTeSys GVD B 126637.e p sD B 126636.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accurency to align the circuit breaker and the rotary handle.For English 10-GVAPSEN For German 10-GVAPSDE For Spanish10-GVAPSES For Chinese 10-GVAPSCN For Portuguese 10-GVAPSPT For Russian 10-GVAPSRU For Italian10-GVAPSITD F 526342.e p sB6/21C i r c u i t b r e a k e r sTeSys GVfor locking the Start button (on open-mounted product)using up to 3 padlocks(padlocks to be ordered separately)External operator for mounting on enclosure door.Red Ø40 knob on yellow plate, padlockable in position O (with up to 3 padlocks). Door locked when knob in position I, and when knob padlocked in position O.GK3AP03(1) 1 voltage trip OR 1 fault signalling contact to be fitted inside the motor circuit breaker.Other versions24 to 690 V, 50 or 60 Hz voltage trips for circuit breakers GV3 ME80.Please consult your Regional Sales Office.ReferencesTeSys protection componentsMotor circuit breakers GV3 ME80 and GK3 EF80Add-on blocks and accessoriesCharacteristics:pages B6/89 and B6/92Dimensions:page B6/47B6/22D F 526344.e p sB6/23C i r c u i t b r e a k e r sTeSys GVThese allow remote indication of the circuit breaker contact states. They can be used for signalling, electrical locking, relaying, etc. They are available in two versions: standard and low level. They include a terminal block and the auxiliary circuits leave the circuit breaker through a hole provided for this purpose.They perform the following functions, depending on where they are located in the circuit breaker:Low levelGV7AB11Fault discrimination devicesThese make it possible to:b either differentiate a thermal fault from a magnetic fault,b or open the contactor only in the event of a thermal fault.VoltageReference a 24...48 and c 24…72 V GV7AD111 (1)z 110…240 VGV7AD112 (1)Electric tripsThese allow the circuit breaker to be tripped via an electrical control signal.b Undervoltage trip GV7 AUv Trips the circuit breaker when the control voltage drops below the tripping threshold, which is between 0.35 and 0.7 times the rated voltage.v Circuit breaker closing is only possible if the voltage exceeds 0.85 times the rated voltage. Circuit breaker tripping by a GV7 AU trip meets the requirements of IEC 60947-2.b Shunt trip GV7 ASTrips the circuit breaker when the control voltage rises above 0.7 times the rated voltage.b Operation (GV7 AU or GV7 AS)v When the circuit breaker has been tripped by a GV7 AU or AS, it must be reset either locally or by remote control. (For remote control, please consult your Regional Sales Office).v Tripping has priority over manual closing: if a tripping instruction is present, manual action does not result in closing, even temporarily, of the contacts.v Durability: 50 % of the mechanical durability of the circuit breaker.TypeVoltageReference Undervoltage trip48 V, 50/60 HzGV7AU055 (1)110…130 V, 50/60 Hz GV7AU107 (1)200…240 V, 50/60 Hz GV7AU207 (1)380…440 V, 50/60 Hz GV7AU387 (1)525 V, 50 HzGV7AU525 (1)Shunt trip48 V, 50/60 HzGV7AS055 (1)110…130 V, 50/60 Hz GV7AS107 (1)200…240 V, 50/60 Hz GV7AS207 (1)380…440 V, 50/60 Hz GV7AS387 (1)525 V, 50 HzGV7AS525 (1)(1) For mounting of a GV7 AD or a GV7 AU or AS.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/51, B6/52 and B6/56Dimensions:pages B6/79 to B6/81Schemes:page B6/83B6/24B6/25C i r c u i t b r e a k e r sTeSys GVDescription ApplicationFor use on contactors Sold in lots of Unitreference Clip-on connectors for GV7 RUp to 150 A, 1.5…95 mm 2–3GV7AC021Up to 220 A, 1.5…185 mm 2–3GV7AC022Spreader 3-pole (1)To increase the pitch to 45 mm–1GV7AC03Terminal shields IP 405 (1)Supplied with sealing accessory–1GV7AC01Phase barriersSafety accessories used when fitting of shields is impossible –2GV7AC04Insulating screens Ensure insulation between the connections and the backplate –2GV7AC05Kits for combination with contactor (2)Allowing link between thecircuit breaker and the contactor. The cover provides protection against direct finger contactLC1 F115…F1851GV7AC06LC1 F225 and F2651GV7AC07LC1 D115 and D1501GV7AC08Replaces the circuit breaker front cover; secured by screws. It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). A conversion accessory allows the direct rotary handle to be mounted on the enclosure door. In this case, the door cannot be opened if the circuit breaker is in the “ON” position. Circuit breaker closing is inhibited if the enclosure door is open.Description TypeDegree of protection Reference Direct rotary handleBlack handle, black legend plate IP 40GV7AP03Red handle, yellow legend plateIP 40GV7AP04Adapter plate (3)Four mounting direct rotary handle on enclosure doorIP 43GV7AP05Allows a circuit breaker installed in the back of an enclosure to be operated from the front of the enclosure. It comprises:b a unit which screws onto the front cover of the circuit breaker,b an assembly (handle and front plate) to be fitted on the enclosure door,b an extension shaft which must be adjusted (distance between the mounting surface and the door: 185 mm minimum, 600 mm maximum). It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). This prevents the enclosure door from being opened.DescriptionTypeDegree of protection Reference Extended rotary handleBlack handle, black legend plate IP 55GV7AP01Red handle, yellow legend plateIP 55GV7AP02Allows circuit breakers not fitted with a rotary handle to be locked in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included).Description ApplicationReference Locking deviceFor circuit breaker not fitted with a rotary handleGV7V01(1) Terminal shields cannot be used together with spreaders.(2) The kit comprises links, a protective shield and a depth adjustable metal bracket for the breaker.(3) This conversion accessory makes it impossible to open the door if the device is closed and prevents the device from being closed if the door is open.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAccessoriesGV7 AC07D F 537429.e p sGV7 AC08D F 537428.e p sDimensions:pages B6/79 to B6/81B6/260.5 6.63GB2DB051143GB2DB062263GB2DB073403GB2DB084503GB2DB095663GB2DB106833GB2DB1281083GB2DB14101383GB2DB16121653GB2DB20162203GB2DB21202703GB2DB22(1) Conforming to IEC 60947-1.GB2 CBppD F 526243.t i fGB2 CD ppD F 526244.t i fGB2 DBppD F 526245.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/27C i r c u i t b r e a k e r s(1) Conforming to IEC 60947-1.Accessories for circuit breakers GB2-CB, DB and CSDescriptionSold in lots of Unitreference Busbar set for supply to 10 GB2 DB or20 GB2 CB or GB2 CS with 2 connectors1GB2G210Supply connector 10GB2G01GB2 CS ppD F 526246.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/28B6/29B6/30TeSys GVCharacteristicsTeSys protection componentsMagnetic motor circuit breakers GV2 LE and GV2 LReferences:pages B6/2 and B6/3Dimensions:pages B6/43 to B6/47Schemes:page B6/48add-on contact blocks. Side by side mounting is possible up to 40 °C.(2) When mounting on a vertical rail, fit a stop to prevent any slippage.(1) As % of Icu.Average operating times at 20 °C related to multiples of the setting currentD F 534092.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534093.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534094.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Thermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22Prospective Isc (kA)D F 534095.e p s1 32 A 2 25 A3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534096.e p s1 25 A and 32 A 2 18 A3 14 A 4 10 A5 6.3 A6 4 A7 2.5 A8 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534097.e p s1 32 A (GV2 LE32)2 25 A and 32 A (GV2 L32)3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 A10 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Average operating time at 20 °C without prior current flowx the setting current (Ir)D F 534098.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateA Thermal overload relay protection zoneB GV3 L protection zoneDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VProspective Isc (kA)D B 418280.e p s1 Maximum peak current2 GV3 L653 GV3 L504 GV3 L405 GV3 L326 GV3 L25Thermal limit in A 2sSum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V2Prospective Isc (kA)D B 418279.e p s1 GV3 L652 GV3 L503 GV3 L404 GV3 L325 GV3 L25TeSys GVDimensions, mountingD F 537440.e p sD F 537441.e p sD F 537444.e p sTeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LETeSys GVDimensions, mounting TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED B 127415.e p sD B 127414.e p sa b Mini Maxi Mini Maxi GV2 APN pp140250GV2 APN pp + GV APH02151250GV2 APN pp + GV APK11250434--GV2 APN pp + GV APH02 + GV APK11--250445TeSys GVDimensions,mounting Sets of busbars GV2 G445, GV2 G454, GV2 G472, with terminal block GV2 G05D F 537451.e p sGV2 G445224269314359GV2 G454260314368422GV2 G472332404476548D F 537452.e p sD F 537454.e p sGV2 G345 (3 x 45 mm)134GV2 G354 (3 x 54 mm)152TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED F 537480.e psD F 537435.e p sD F 510637.e p sD F 510638.e p sD B 127416.e p sD B 127417.e p sa b Mini Maxi Mini Maxi GV3 APN pp189300--GV3 APN pp + GV APK12300481GV3 APN pp + GV APH03--200300GV3 APN pp + GV APH03 + GV APK12--300492TeSys GVSchemesTeSys protection componentsMagnetic motor circuit breakers GV2 L, GV2 LE, GV3 LD F 537474.e p sD F 537475.e p sD F 537476.e p sGV2 ME, GV2 P , GV3 ME, GV3 P and GV7 R motor circuit breakers are 3-pole thermal-magnetic circuit breakers specifically designed for the control and protection of motors , conforming to standards IEC 60947-2 and IEC 60947-4-1.Connection GV2GV2 ME and GV2 P circuit breakers are designed for connection by screw clamp terminals.Circuit breaker GV2 ME can be supplied with lugs or spring terminal connections.Spring terminal connections ensure secure, permanent and durable clamping that is resistant to harsh environments, vibration and impact and are even more effective when conductors without cable ends are used. Each connection can take two independent conductors.GV3GV3 circuit breakers feature connection by BTR screws (hexagon socket head), tightened using a n° 4 Allen key.This type of connection uses the Ever Link ® system with creep compensation (1) (Schneider Electric patent).This technique makes it possible to achieve accurate and durable tightening torque, in order to avoid cable creep.GV3 circuit breakers are also available with connection by lugs. This type of connection meets the requirements of certain Asian markets and is suitable for applications subject to strong vibration, such as railway transport.GV7GV7 circuit breakers: with connection by screw clamp terminals (for bars and lugs) and by clip-on connectors.OperationControl is manual and local when the motor circuit breaker is used on its own.Control is automatic and remote when it is associated with a contactor.GV2 ME and GV3 ME80Pushbutton control.Energisation is controlled manually by operating the Start button “I” 1.De-energisation is controlled manually by operating the Stop button “O” 2, or automatically by the thermal-magnetic protection elements or by a voltage trip attachment.GV2 P , GV3 P and GV7 Rb Control by rotary knob: for GV2 P and GV3 P b Control by rocker lever: for GV7 R.Energisation is controlled manually by moving the knob or rocker lever to position “I” 1.De-energisation is controlled manually by moving the knob or rocker lever to position “O” 2.De-energisation due to a fault automatically places the knob or rocker lever in the “Trip” position 3.Re-energisation is possible only after having returned the knob or rocker lever to position “O”.(1) Creep: normal crushing phenomenon of copper conductors, that is accentuated over time.GV2 MEwith screw clamp terminals124D F 526134.t i fGV2 MEwith spring terminals connections124D F 526135.t i fGV3 P1324D F 526136.t ifGV2 P1342D F 526137.t i fGV7 R132D F 526138.t i f。

1. Features⏹ R DS(on)=1.0Ω ⏹ RoHS compliant ⏹ Low on resistance ⏹ Low gate charge⏹ Peak current vs pulse width curve2. Applications⏹ Adaptor ⏹ Charger⏹ SMPS standby power3.SymbolPin Function 1 Gate 2 Drain 3Source4. Absolute maximum ratingsParameter Symbol Rating Units Drain-source voltage （note*1）V DSS500 VContinuous drain currentI D 5.0* A I D@100℃Figure 3 APulsed drain current，V GS@10V （note*2）I DM Figure 6 APower dissipationP D 100 WDerating factor above 25℃0.8 W/℃Gate-source voltage V GS +20 V Pulse avalanche rating I AS Figure 8 A Peak diode recovery dv/dt （note*3）dv/dt 5.0 V/ns Maximum temperature for solderingLeads at 0.063 in（1.6mm）from case for 10 seconds package body for 10 secondsT LT PKG300260ºCOperating junction and storage temperaturerangeT J ,T STG-55 to150 ºC*Drain current limited by maximum junction temperatureCaution：Stresses greater than those listed in the”Absolute maximum ratings”table may cause permanent Damage to the device5. Thermal characteristicsParameter Symbol Rating Unit T est condition Junction-ambient RθJA100 ºC/W 1 cubic foot chamber,free airJunction-case RθJC 1.25 ºC/W Drain lead soldered to water cooled heatsink,P D adjusted for a peak junction temperature of +150℃6. Electrical characteristics(T J=25°C,unless otherwise specified) Parameter Symbol T est Conditions Min Typ Max Units Drain-source breakdown voltage BV DSS V GS=0V,I DS=250μA 500 - - VBreakdown voltage temperature coeffcient，Figure 11 △BV DSS/△T JReference to 25℃I D=250uA0.61 V/℃Drain-source leakage current I DSS V DS=500V, V GS=0V - - 1μA V DS=400V, V GS=0VT J=125°C- - 100Gate threshold voltage,Figure 12 V GS(th)V DS=V GS, I D=250μA 2 - 4 VGate-source forward leakageI GSS V GS=20V - - 1uAGate-source reverse leakage V GS=-20V - - -1Static drain-source on-resistance Figure 9 and 10 R DS(on)V GS=10V,I D=2.5A（note*4）- 1 1.5 ΩForward transconductance gfs V DS=15V, I D=2.5A（note*4）- 6 - SInput capacitance C iss V DS=25V,V GS=0Vf=1MHzFigure 14 - 730 -pFOutput capacitance C oss- 80 - Reverse transfer capacitance C rss- 8.0 -Turn-on delay time t d(on)V DD=250V, I D=5A,R G=12Ω,V GS=10V - 13 -nsRise time t r- 15 - Turn-off delay time t d(off)- 40 - Fall time t f- 20 -T otal gate charge Q gV DD=250V, I D=5A,Figure 15 - 20 -nCGate-source charge Q gs- 3.0 - Gate-drain charge Q gd- 8.0 -Continuous source current（body biode）I S Integral pn-diode inMOSFET - - 5AMaximum pulsed current（body biode）I SM - - 20 Diode forward voltage V SD I S=5A, V GS=0V - - 1.5 VReverse recovery time t rr I F=5A, V GS=0Vdi/dt=100A/μs - 280 - nSReverse recovery charge Q rr- 1200 - nC Note:1.T J=25℃to 150℃.2.Repetitive rating;pulse width limited by maximum junction temperature3.I SD=5A di/dt<100A/μs,V DD< BV DSS,T J=150℃.4.pulse widt<380us;duty cycle<2%.7.Typical operating characteristics。

©2011 Fairchild Semiconductor CorporationRev. 1.0.3FeaturesKA278RXXC-series (33/05/12)• 3.3V , 5V , 12V output low dropout voltage regulator •TO-220 full-mold package (4pin)•Overcurrent protection, thermal shutdown•Overvoltage protection, short circuit protection •With output disable functionKA278RA05C•Nominal 5V output without adjusting•Output adjustable between 1.25V and 32V •2A output low dropout voltage regulator •TO-220 full-mold package (4pin)•Overcurrent protection, thermal shutdown•Overvoltage protection, short circuit protectionDescriptionThe KA278RXXC is a low-dropout voltage regulator suit-able for various electronic equipments. It providesconstant voltage power source with TO-220-4 lead full mold package. The dropout voltage of KA278RXXC is below 0.5V in full rated current(2A). This regulator has various functions such as a peak current protection, a thermal shut down, an overvoltage protection .TO-220F-4L1.Vin2. Vo3. GND4. Vdis - KA278RXXC(33/05/12)11.Vin2. Vo3. GND4. Vadj - KA278RA05CKA278RXXC-Series2A Output Low Dropout Voltage RegulatorsKA278RXXC-SERIESAbsolute Maximum RatingsKA278RXXC, KA278RA05CParameter Symbol Value Unit Remark Input voltage Vin35V-Disable voltage KA278RXXC Vdis35V-Output current Io 2.0A-Power dissipation 1Pd1 1.5W No heatsink Power dissipation 2 Pd215W With heatsink Junction temperature Tj150°C-Operating temperature Topr-20 ~ 80°C-Thermal resistance, junction-to case (note2)Rθjc 2.9°C/W-Thermal resistance, junction-to-air (note2)Rθja48.51°C/W-2KA278RXXC-SERIES3Electrical Characteristics(Vin=Note3, Io=1.0A, Ta=25°C , unless otherwise specified)Note:1.These parameters, although guaranteed, are not 100% tested in production.2. Junction -to -case thermal resistance test environments.-. Pneumatic heat sink fixture.-. Clamping pressure 60psi through 12mm diameter cylinder.-. Thermal grease applied between PKG and heat sink fixture.3. KA278R33C : Vin = 5VKA278R05C : Vin = 7V KA278R12C : Vin = 15V 4. KA278R33C : Vin =4 to 10VKA278R05C : Vin=6 to 12V KA278R12C : Vin = 13V to 29VParameterSymbolConditionsMin.Typ.Max.UnitOutput voltage KA278R33CVo - 3.22 3.3 3.38V KA278R05C - 4.885 5.12KA278R12C-11.71212.3Load regulation Rload 5mA < Io < 2A-0.1 2.0%Line regulation Rline Note4-0.5 2.5%Ripple rejection ratio RR Note14555-dB Dropout voltage Vdrop Io = 2A --0.5V Disable voltage high KA278RXXC VdisH Output active 2.0--V Disable voltage low KA278RXXC VdisL Output disabled --0.8V Disable bias current high KA278RXXCIdisH Vdis = 2.7V --20μA Disable bias current low KA278RXXC IdisL Vdis = 0.4V ---0.4mA Quiescent current Iq Io = 0A--10mA Reference voltageKA278RA05C Vref- 1.241.271.30VKA278RXXC-SERIES4Typical Performance CharacteristicsKA278R33CFigure 1. Output Voltage vs. Input VoltageFigure 2. Quiescent Current vs. Input VoltageFigure 4. Output Voltage vs. Temperature(Tj)Figure 3. Output Voltage vs. Disable VoltageFigure 5. Quiescent Current vs. Temperature(Tj)Figure 6. Dropout Voltage vs.Junction TemperatureKA278RXXC-SERIES5Typical Performance Characteristics (Continued)Figure 9. Output Peak Currenrt vs.Input-Output Differential VoltageFigure 7. Power Dissipation vs. Temperature(Tj)Figure 8. Overcurrent Protection Characteristics(Typical Value)KA278RXXC-SERIES6Typical Performance Characteristics (Continued)KA278R05CFigure 1. Output Voltage vs. Input VoltageFigure 2. Quiescent Current vs. Input VoltageFigure 4. Output Voltage vs. Temperature(Tj)Figure 3. Output Voltage vs. Disable Voltage Figure 5. Quiescent Current vs. Temperature(Tj)Figure 6. Dropout Voltage vs.Junction TemperatureKA278RXXC-SERIES7Typical Performance Characteristics (Continued)Figure 7. Power Dissipation vs. Temperature(Tj)Figure 8. Overcurrent Protection Characteristics(Typical Value)Figure 9. Output Peak Currenrt vs.Input-Output Differential VoltageKA278RXXC-SERIES8Typical Performance Characteristics (Continued)KA278R12CFigure 1. Output Voltage vs. Input VoltageFigure 2. Quiescent Current vs. Input VoltageFigure 4. Output Voltage vs. Temperature(Tj)Figure 3. Output Voltage vs. Disable VoltageFigure 5. Quiescent Current vs. Temperature(Tj)Figure 6. Dropout Voltage vs.Junction TemperatureKA278RXXC-SERIES9Typical Performance Characteristics (Continued)Figure 7. Power Dissipation vs. Temperature(Tj)Figure 8. Overcurrent Protection Characteristics(Typical Value)Figure 9. Output Peak Currenrt vs.Input-Output Differential VoltageKA278RXXC-SERIES10Typical Performance Characteristics (Continued)KA278RA05CFigure 1. Output Voltage vs. Input VoltageFigure 2. Quiescent Current vs. Input VoltageFigure 3. Output Voltage vs. Temperature(Tj)Figure 6. Power Dissipation vs. Temperature(Tj)Figure 5. Dropout Voltage vs.Junction Temperature* Fixed Mode (Vo=5V)Figure 4. Quiescent Current vs. Temperature(Tj)KA278RXXC-SERIES11Typical Performance Characteristics (Continued)Figure 7. Overcurrent ProtectionCharacteristics(Typical value)Figure 8. Output Peak Currenrt vs.Input-Output Differential VoltageKA278RXXC-SERIESTypical ApplicationKA278R33/05/12CFigure 1.Application Circuit•Ci is required if regulator is located at an appreciable distance from power supply filter.•Co improves stability and transient response.(Co > 47μF)KA278RA05Figure 2. Application Circuit (Adjustable Mode)•Ci is required if regulator is located at an appreciable distance from power supply filter.•Co improves stability and transient response.(C O > 47μF)Figure 3. Internal Resistor(R1,R2) Variation vs. Temperature(Tj)Figure 4. Application Circuit (Fixed Mode)12KA278RXXC-SERIES13Mechanical DimensionsPackageDimensions in millimeters TO-220F-4LMechanical Dimensions (Continued)PackageDimensions in millimetersTO-220F-4L(Forming)149/29/11 0.0m 001Stock#DSxxxxxxxx© 2011 Fairchild Semiconductor CorporationLIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR CORPORATION. As used herein:1.Life support devices or systems are devices or systemswhich, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can bereasonably expected to result in a significant injury of the user.2. A critical component in any component of a life supportdevice or system whose failure to perform can bereasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.DISCLAIMERFAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANYLIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.Ordering InformationProduct Number PackageOperating TemperatureKA278R33CTU TO-220F-4L-20°C to +80°CKA278R05CTU KA278R12CTU KA278RA05CTU KA278R12CYDTUTO-220F-4L(Forming)。

力源整流机表头说明书
力源整流机在工作时，表头上的指针和数字显示在LCD屏上，通过电子调节仪表，可对整流机的工作参数进行调节，使其稳定工作。

本产品由三部分组成。

1、控制电路：包括微处理器、程序控制器（单片机）、
A/D转换器以及信号放大器，其功能是将控制板输入的数字和模拟信号转换成便于读数的4位电流信号；其功能是将4位电流信号转换成5位电压信号；2、控制电路：包括电源供应器（由整流变压器提供）、输出滤波器（由整流变压器提供）、反馈放大器（由输出滤波器提供）及负载（以PF-10-2.5-3.0的负载电阻串联至输出滤波器）;3、显示仪表：包括液晶显示屏和LCD屏，其功能是将开关量输入信号转换成4位或5位电压信息的显示。

其功能是将开关量输入信号转换成4位/5位电压信息的显示。

当需要调整直流电压时，可根据需要调整液晶显示屏上的各个数值。

本产品为高可靠性电器设备，使用环境温度在-10°C-50°C 时均可正常工作。

具有体积小、重量轻、安装方便等特点；工作可靠，不存在短路现象；由于采用微处理器控制电路的原因，使本产品具有极高的稳定性和可靠性；可以实现无人值守控制。

本产品还具有过流保护功能：当出现过载时，过流保护开关立即切断电源保护电器不受损坏；当线路发生短路时，短路保护将自动切断电源防止发生火灾事故。

力源整流机是采用美国进口电子元件和最新科技设计生产的新型高科技节能型产。

RECTIFIERPSR327 USER MANUALEltek_UM_PSR327_21TE_E_R6.0Notes to this manualATTENTION! Read this manual very carefully before installing and commissioning the specified module. This manual is a part of the delivered module. Familiarity with the contents of this manual is required for installing and operating the specified module.The rules for prevention of accidents for the specific country and the general safety rules in accordance with IEC 364 must be observed.The function description in this manual corresponds to the date of publishing.Technical changes and changes in form and content can be made at any time by the manufacturer without notice. There are no obligations to update the manual continually.The module is manufactured in accordance with applicable DIN and VDE standards such as VDE 0106 (part 100) and VDE 0100 (part 410). The CE marking on the module confirms compliance with EU standards 2006-95-EG (low voltage) and 2004-108-EG (electromagnetic compatibility) if the installation and operation instructions are followed.Supplier:ELTEK DEUTSCHLAND GmbHBU IndustrialSchillerstraße 16D-32052 Herford☎+ 49 (0) 5221 1708-210FAX + 49 (0) 5221 1708-222Email *************************Internet Please note: No part of this document may be reproduced or transmitted in any form or by any means -electronic or mechanical, including photocopying and recording- for whatever reason without the explicit written permission of Eltek Deutschland GmbH.Changes and errors excepted.2011. ELTEK DEUTSCHLAND GmbH. All rights reserved.The current revision status of this user manual is the following:Revision: 6.0Date: 2010-11-23Date00 First edition RTH 2007-11-0601 Minor text modifications RTH 2008-01-0402 Minor text modifications, sections “Commissioning”, “Outputpower diagram” and “Monitoring” reworked RTH 2008-04-101.3 Minor text modifications, “Index of figures” inserted, newrevision status numbering (X.X) introduced. RTH 2008-11-03 2.0 Section 4.2.1 “Start-up behaviour” inserted; TechnicalRTH 2009-04-29 specifications: Adjustable output voltage range changed.3.0 Section4.5 “Monitoring” reworked. RTH 2009-05-15RTH 2009-07-07 4.0 Minor text modifications, section 4.7 “Default value setting forNiCd batteries” inserted.5.0 Technical specifications: “Internal decoupling circuit” corrected. RTH 2009-07-246.0 Input frequency range updated. RTH 2010-11-23Contents1A. Safety Instructions (5)1B. Electric Waste Disposal (5)2. General Information (6)3. Type Range/Equipment (6)3.1 Main Data (6)3.2 Available Options and Assembly Equipment (7)3.3 Front view/Front side LED panel (8)3.4 Rear Side Connection (9)3.5 Cooling and Air Flow Direction (10)3.6 Communication Interface (10)4. Handling (11)4.1 Storage (11)4.2 Commissioning (11)4.2.1 Start-up behaviour (11)4.3 Charge Characteristic/Output Power Diagram (12)4.4 LED Indications (13)4.5 Internal Monitoring (13)4.6 Threshold & Default Values (14)4.7 Default value setting for NiCd batteries (14)5. External Functions (15)6. Maintenance (15)7. Troubleshooting (16)8. Technical Specifications (17)8.1 Dimensional Drawings (19)Index of FiguresFigure 1) DC Power Rack DCR PSR327-8.1 (7)Figure 2) DC Power Rack DCR PSR327-10.8 (7)Figure 3) Front view (8)Figure 4) Male connectors (9)Figure 5) Module air flow (10)Figure 6) Output power diagram (example PSR327/48-56) (12)Figure 7) Screenshot “PC software for CAN-Dongle” (14)Figure 8) Module dimensions (19)1A. Safety InstructionsWarning!B ecause several components of operating electrical modules are charged by dangerous voltage, the improper handling of electrical modules may be the cause of accidents involving electrocution, injury, or material damages.•Operation and maintenance of electrical modules must be performed by qualified skilled personnel such as electricians in accordance with EN 50110-1 or IEC 60950.•Install the module only in areas with limited access to unskilled personnel.•B efore starting work, the electrical module must be disconnected from mains. Make sure that the module is earthed.•Do not touch connector pins as they can be charged with dangerous voltage up to 30 seconds after disconnection.•Only spare parts approved by the manufacturer must be used.1B. Electric Waste DisposalSeparate collection is the precondition to ensure specific treatment and recycling of waste electrical and electronic equipment and is necessary to achieve the chosen level of protection of human health and the environment.In the case of waste disposal of your discarded equipment we recommend to contact a waste management company.2. General InformationThe PSR327 rectifier rectifies sinusoidal AC input voltage to DC output voltage.The PSR327 is a hot plug-in module with rear side connectors and is designed to be mounted in an assembly set 19’’ sub rack (see section 3.2). Due to the state-of-the-art circuitry design, the unit has very low losses and therefore very compact dimensions, low weight and high power density.The PSR327 rectifier can be used in all DC applications with or without battery.The rectifier is delivered with factory set default values for lead acid batteries. If the rectifier is to be used for NiCd batteries, the default values must be parameterized accordingly using a CAN dongle and special software.The nominal output power per unit is 2.7 kW. Up to a maximum of 48 modules can be switched in parallel to increase the system output power or to build redundant power supply systems (n + 1-principle).3. Type Range/EquipmentPSR327 rectifiers according to the following table are available:Nominal Output Current PSR327/48-56 101-027-158.00 48 V DC56 A DCPSR327/60-45 101-027-168.00 60 V DC45 A DCPSR327/110-25 101-027-178.00 108 V DC25 A DCPSR327/220-12.5 101-027-188.00 216 V DC12.5 A DC3.1 Main DataNominal input voltage: 230 V ACNominal input current: 12.9 A ACInput frequency range: 16⅔ - 60 Hz (+5 %)Nominal output power 2.7 kWFor more specific data, see section 8.3.2 Available Options and Assembly EquipmentDC Power Rack DCR PSR327-8.1 LV (assembly set 19’’ sub rack 3Uincl. backplane for three PSR327/48 V or 60 V rectifiers and one UPC3-48/60 V DC controller), DCC-CB1 connection board included. 102-327-318.LV01DC Power Rack DCR PSR327-8.1 HV (assembly set 19’’ sub rack 3U incl. backplane for three PSR327/110 V or 220 V rectifiers and one UPC3-110 V or 220 V DC controller), DCC-CB1 connection board included.102-327-318.HV01DC Power Rack DCR PSR327-10.8 LV (assembly set 19’’ sub rack 3U incl. backplane for four PSR327/48 V or 60 V rectifiers).102-327-408.LV01DC Power Rack DCR PSR327-10.8 HV (assembly set 19’’ sub rack 3U incl. backplane for four PSR327/110 V or 220 V rectifiers). 102-327-408.HV01Cover plate (with handle) to cover empty PSR slots, 1/4 x 19’’, 3U; RAL 7035881-MEC-BPL.03.21.B Monitoring, control and signalling unit (DC controller) UPC3-48/60 V 301-003-598.02 Monitoring, control and signalling unit (DC controller) UPC3-110 V 301-003-798.02 Monitoring, control and signalling unit (DC controller) UPC3-220 V 301-003-898.02DCC-CB1; connection board (with MSTB screw terminals) necessary to connect all measuring, control and signalling wires over the backplane of the sub rack to the control unit UPC (spare part). 302-DCC-CB1.00CAN dongle, incl. PC software; necessary to change the internal default values of the rectifier (e.g. for NiCd application).880-CAN-DNG.00Figure 1) DC Power Rack DCR PSR327-8.1 fully equipped with three PSR327 rectifiers and one UPC3 DC controllerFigure 2) DC Power Rack DCR PSR327-10.8 fully equipped with four PSR327 rectifiers3.3Front view/Front side LED panelFigure 3) Front view The PSR327 rectifier is equipped with the following four LED indicators:INPUT OKOUTPUT OKVout>ALARMFor more information about the LED indicators, see section 4.4 please.Two captive screws are used for each module to secure it to the sub rack (components of the module)3.4 Rear Side ConnectionThe rear side male connections (AC input voltage, DC output voltage and signals) are shown in figure 4) and are defined in the table below.Figure 4) Male connectors (shown from the rear side of the module)Pin assignment of the rear side connector:Pin Function2b L1 - Input5b N - Input8b - - -11b PE13a CAN - CVSS13c (-) output voltage sense link14a CAN - H14c CAN - L15a - - -15c CAN - CVCC16a AGND16c - - -17a Hardwarecoding CODE217c Hardwarecoding CODE118a Collective Alarm NC18c Collective Alarm COM19a Collective Alarm NO19c - - -20a - - -20c (+) output voltage sense link22b (-) Output25b (-) Output28b (+) Output31b (+) Output3.5 Cooling and Air Flow DirectionThe unit is cooled with an internal fan. The airflow is from the front to rear side. The fan is monitored and speed-controlled dependent on module temperature. To provide sufficient air flow, a minimum space (see item “A” in figure 5) of 50 mm is required between the unit and the rear cabinet wall as well as an unobstructed supply of air to the front of the module.Figure 5) Module air flow3.6 Communication InterfaceThe PSR327 rectifier is equipped with a serial data interface in accordance with the Controller Area Network (CAN) specification. The CAN-Bus connection is integrated in the rear side connector.Several modules in a system or parallel connection can be controlled and monitored through the CAN-Bus by a central UPC DC controller unit.The following parameters of a specific rectifier unit can be controlled or monitored:•Output voltage•Output current•Device temperature•Device statusFurthermore, the rectifier unit receives all threshold values through the CAN-Bus from theDC controller unit.4. Handling4.1 StorageModules must be stored in a dry, dust free environment with a storage temperature in accordance with the specific technical data (see section 8).4.2 CommissioningNote:B efore commissioning the module, make sure that the input voltage corresponds to the input voltage range of the unit as specified on the type plate and that the output voltage of paralleled units matches.1.Carefully unpack the unit2.Fill the rack beginning with the left slot.3.Put the unit into an empty slot.4.Carefully slide in the unit until the module connector touched the backplane connector.5.Increase the force until the unit fits in completely. Avoid using too much force. If the unit does notfit in, begin again at step 3.6.Secure the module using the two captive screws (M3x12) provided with the module.7.Switch ON the module by external MCB.Note: The PSR327 is serially equipped with an internal output side decoupling diode. This ensureshot plug-in capability for the module and enables the operator to add modules under operating conditions.Note: Before a module is to be removed, it must be switched off by the external input fuse!Caution: After switching off the module the internal capacitors are still fully charged. Do not touch connector pins as they can still be charged with dangerous voltage after disconnection.4.2.1 Start-up behaviourWhen the PSR327 is switched on (without CAN-Bus connection) first it provides a start-up voltage according to the table below. The start-up voltage is held for 60 seconds, than the output voltage steps up to the internal default value.220 V version Start-up voltage (VDC) 45.0 55.5 97.5 192.0Default value Vo (VDC) 54.5 68.1 122.6 245.2If a DC controller unit (UPC) is integrated into the system, it is powered with the start-up voltage after the rectifier has been switched on. The output voltage immediately steps up to the value given from the UPC unit via CAN-Bus.If a DC controller unit (UPC) is integrated into the system (e.g. powered by the battery and due to this operating yet) the rectifier directly provides the output voltage given from the UPC unit via CAN-Bus.4.3 Charge Characteristic/Output Power DiagramThe charge characteristic of the PSR327 is a power limited IV characteristic curve in accordance with DIN 41772/DIN 41773.For modules in parallel operation mode a load sharing of about ±10 % is attained due to a sloping output voltage line (-1 % at 100 % Inom).The module is continuous short circuit proof.Figure 6) Output power diagram(example PSR327/48-56)Calculation of the output current (Io) at different output voltage values using the PSR327/48-65 being the example:The PSR327 rectifier provides an output power of Vonom x Ionom= Ponom (48 V x 56.25 A=2700 W).As shown with the output power diagram (see figure 6), the nominal output current (56.25 A) is available at the nominal output voltage (48.0 V).At other output voltage values (e.g. float or boost charge voltage), the output current is corresponding to the following formula: Io= Ponom : VoExample 1):Float charge voltage for lead acid batteries (24 cells) = 54.5 V; Io= 2700 W : 54.5 V= 49.5 AExample 2):Boost charge voltage for lead acid batteries (24 cells) = 57.6 V; Io= 2700 W : 57.6 V= 46.9 A4.4 LED IndicationsFunctions of front panel LED indicatorsFor factory set output voltage threshold values, see section 4.6**The module is equipped with an isolated signalling contact (normally open contact).The maximum load is 60 V DC/500 mA. The contact is time-delayed and reacts after approx. 10 sec.4.5 Internal MonitoringMonitored values Criteria FunctionAC input voltage I.) Mains input voltage 164 V≤ Vn≤ 195V Linearly decreases output power. II.) Mains input voltage <164 V Module automatically switches off. III.) Mains input voltage >184 V Module switches on.IV.) Mains input voltage >275 VModule switches off (self-locking). Itmust be manually restarted.DC output voltage Output voltage higher than theadjusted operating threshold*Module automatically switches off (selflocking). The unit must be manuallyrestarted.Moduletemperature Heat sink temperature ≥80 °C Module automatically switches off. It automatically switches on when the heat sink cools down to ≤70 °C.Cooling fan Cooling fan malfunction Module automatically switches off. After 30 sec. the module automatically tries three times to restart. If this fails, the module switches off and must be manually restarted.Short circuit Module automatically detects shortcircuit operation by the output voltagevalue. (criteria: Vout ≤83 % of Vnom)Module automatically switches off after3 seconds. After 30 seconds themodule automatically tries to restartrepeatedly.*For factory set output voltage threshold values, see section 4.64.6 Threshold & Default ValuesThe following table shows the factory set threshold/default values which are internally stored in the PSR327 unit (for lead acid batteries):220 V version Output voltage Vo (V DC) 54.5 68.1 122.6 245.2Over voltage V> (V DC) 60.0 75.0 135.0 270.0Current limiting Iconst (A DC) 56.0 45.0 25.0 12.5Note: The threshold/default values can only be changed in combination with a UPC DC controller unit.If an UPC DC controller unit is controlling the power supply unit through the CAN-Bus, the charge voltage is completely controlled by the UPC based on its configuration values and momentary charge state (for example temperature compensation, boost charge, or battery test). That means that the values sent from the UPC over CAN-B us have top priority. During CAN-B us communication the internally stored values of the rectifier are invalid.B ut when the CAN-B us connection is inactive for more than five seconds (e. g. due to trouble), the PSR327 automatically switches back to the internally stored default values. In this case it is ensured that the battery is charged in the float charge mode.4.7 Default value setting for NiCd batteriesIf the rectifier is to be used to charge NiCd batteries the default/threshold values must be set according to the individual battery type using a CAN dongle and PC software (see section 3.2 “Available Options and Assembly Equipment”). A specific manual is available on request. For the adjusting range of the output voltage please see section 8 “Technical Specifications”.Figure 7) Screenshot “PC software for CAN-Dongle”5. External FunctionsIf the rectifier works together with a UPC DC controller unit, the following external functions can be used:•Compensation of output voltage•Temperature compensation of charge voltage•Discharge test•Boost charge modeFor more information about these functions, read the UPC user manual.6. MaintenanceIn general, the module is maintenance-free. Exclusively the fan is a component consisting of moving parts. By way of precaution a yearly inspection with following checks is recommended:•Mechanical/visual inspection•Removal of dust and dirt, especially on radiator surfaces•Check for internal dust or humidityIt is recommended to exchange the fan every five years.Attention!Dust combined with moisture or water may influence or destroy the internal electronic circuits.Dust inside the unit can be blown out with dry compressed air.The interval between the checks depends on ambient conditions of the installed module.7. TroubleshootingNo output voltage Is mains voltage present? Check→Mains switched to “ON” position? CheckPSR327 module plugged in securely? CheckIncorrect polarity or short circuit at the output? CheckLED V> on? 1.) Switch the module off and on.2.) Check the settings forV> (see section 4.6).Deviation of the output voltage Is the unit operating in current limiting modedue to overload?Reduce the loadIs the output voltage setting Vout at the DCcontroller incorrect?Adjust output voltage to nominalvalues (see section 4.6)If an external sensor lead is used for the outputvoltage, is the connection faultless?CheckIf the unit still does not work even though all checks have been done, contact your sales agent or the service department of ELTEK DEUTSCHLAND GmbH.8. Technical SpecificationsPSR327/220-12.5 Material code 101-027-158.00 101-027-168.00 101-027-178.00 101-027-188.00 AC input:Nominal input voltage 230 V AC ±20 % ✐✐✐Nominal input current 12.9 A AC✐✐✐Input frequency range 16⅔ - 60 Hz (+5 %) ✐✐✐Power factor >0.99 @ P >50 %Total harmonic distortion <5 % ✐✐✐Efficiency ≥91 % ✐✐✐Internal input fusing 16 A (6.3 x 32 mm) ✐✐✐DC output:Nominal output voltage 48 V DC60 V DC108 V DC216 V DCNominal output current 56 A DC @ 48 V 45 A DC @ 60 V 25 A DC @ 108 V 12.5 A DC @216 V Nominal output power 2700 W ✐✐✐Charge characteristic line IV characteristic according to DIN41772/DIN41773; power limitedAdjustable output voltagerange42 - 62 V DC52.5 - 78 V DC87 - 150 V DC170 - 295 V DCDefault value of the chargingvoltage (factory set, 2.27V/cell; lead acid battery*)54.5 V DC68.1 V DC122.6 V DC245.2 V DCOutput over voltage Vo>(factory set, 2.5 V/cell; leadacid battery*)60 V DC75 V DC135 V DC270 V DCOutput under voltage Vo<(factory set, 1.7 V/cell; leadacid battery*)40.8 V DC51 V DC91.8 V DC183.6 V DC*Default/threshold values for charging of NiCd batteries are settable using a CAN dongle and PC software.Voltage ripple / psophometric acc. to CCITT-A ≤20 mVpp/≤ 1.8 mV≤20 mVpp/≤2.0 mV≤100 mVpp/n/a≤200 mVpp/n/aDynamic accuracy of the charge voltage <3 % Vnom at load changes between 10 % - 90 % - 10 % Inom; transient time ≤1.5 msShort circuit protection Continuous short circuit proof; 1 x InomPSR327/220-12.5 Parallel operation Yes (max. 48 units with UPC DC controller unit);current sharing ≤10 % Inom; sloping output voltage line (-1 % at 100 % Inom)Internal decoupling at the output Yes; active, low-loss decouplingcircuit in thenegative outputline✐Yes, in thepositive outputline✐Internal output fuse 80 A 80 A 30 A 20 A Standard Features:LED signalling Input OK (green), Vo OK (green), Vo> (red), Alarm (red)Main processor 16Bit Fujitsu ✐✐✐Isolated signalling contact “Collective alarm”; relay COM/NO/NC, maximum contact load: 60V DC/500mA Communications interface CAN-Bus, proprietary protocolEnvironmental:Ambient temperature Operation: -20 °C to +55 °C, storage: -40 °C to +85 °CClimatic conditions according to IEC 721-3-3 class 3K3/3Z1/3B1/3C2/3S2/3M2Max. installation altitude ≤ 1500 mAudible noise <45 dB (A) ✐✐✐Mechanical:Type of construction ¼ x 19’’, 3U ✐✐✐Cooling Fan cooling (temperature-controlled, r.p.m.-monitored)Connector AC input, DC output and signals: DIN41612-M-connectorDimensions (W/H/D) 106.3/133/326.5 mmMinimum installation depth 438 mm (in combination with an assembly set 19’’ sub rack)Weight approx. 3.9 kg ✐✐✐Type of enclosure /Protection classIP20 (front panel) / 1Colour Front panel: RAL 7035, neutral, black print RAL 9005Compliances:CE conformity yes ✐✐✐Compliance to safetystandardsEN60950-1; VDE0100 T410; VDE0110; EN50178; EN60146Compliance to EMCstandardsEN55022/24 (ITE), class “A“; EN61000-4 T2-58.1 Dimensional DrawingsFigure 8) Module dimensionsSupplier:ELTEK DEUTSCHLAND GmbHBU IndustrialSchillerstraße 16D-32052 Herford☎+ 49 (0) 5221 1708-210FAX + 49 (0) 5221 1708-222Email *************************Internet 2011. ELTEK DEUTSCHLAND GmbH. All rights reserved.。

XR 系列2U 程控直流电源 • 可靠电流馈电式功率处理工艺概述2U XR系列通过在2 kW，4 kW，6 kW，8 kW，8 kW和10 kW的2U封装中提供高电压（大于1500 VDC）和高电流（大于250 ADC）模型，从而补充了1U SL系列。

XR系列具有Magna-Power产品产品中最高的电压范围，最多10,000 VDC和高电流型号高达600 ADC，所有这些型号都利用了公司的签名电流喂养的功率处理来提供强大的电源转换。

此外，高精度编程和监视水平使电源测量值有信心，从而消除了对外部电力计的需求。

主要特性•高精度测量•主从式操作功能•远地感应•37-pin外部模拟量I/O接口•RS232接口•可选配以太网接口和GPIB接口•0-10V外部模拟输入•可编程设置保护限值•快速瞬态响应•远程接口软件•NI LabVIEW和IVI驱动器•联锁功能迅速切断输入•在美国设计和制造可用选项•高转换速率输出（+HS）•IEEE-488 GPIB通信（+GPIB）•LXI TCP/IP以太网通信（+LXI）•增强冲击震动标准（+RUG）1标准型号规定纹波。

对于具有高转换速率输出（+HS）的型号，纹波更高。

详情请参考选项页。

第 10 页麦格纳电子设备公司第 11 页数据表 (4.5.1)MagnaDC 程控直流电源规格交流输入隔离±2500 Vdc,对地最大输入电压通过 RoHS 认证是后支撑轨包括在内GPIB: IEEE-488注：参数如有更改，恕不另行通知。

输入电压规格为两线间规格。

(8.89 x 48.26 x 60.96 cm)第 12 页麦格纳电子设备公司XR 系列2U 程控直流电源 • 可靠电流馈电式功率处理工艺产品图前面板Models with Output Voltage Rating ≤1000 Vdc onlyRefer to “DC Output Bus Connections”3/8-16 Threaded Insert, Qty (2)High Voltage Mating Cable Provided直流输出总线直流输出总线直流输出总线高压输出电缆包含于额定电压大于3,000 Vdc的型号RS232 (JS3)37-PIN EXTERNAL USER I/O (JS1)IEEE-488 GPIB (JS4)TCP/IP ETHERNET (JS5)RS232 (JS3)37-PIN EXTERNAL USER I/O (JS1)LAN RST背面IEEE-488 GPIB (+GPIB) 选项背面LXI TCP/IP 以太网 (+LXI) 选项第 13 页数据表 (4.5.1)MagnaDC 程控直流电源1电源开关：在未接通输出时接通控制电路4通过集成机械接触器接通和断开总电源5用无级旋钮设定电压和电流8REM SEN远地感应：远地感应启用 INT CTL内部：前面板启动/停止/启用清除 EXT CTL外部：外部启动/停止/启用清除 ROTARY旋转：前面板旋钮输入 EXT PGM外部：外部模拟电压电流控制 REMOTE远程：远程计算机控制2POWER电源：显示电源接通 STANDBY待机：待机状态7诊断警报 LOC：联锁 PGL：外部输入电压超限 THL：超高温条件 OVT过压跳闸：过压保护跳闸 OCT过流跳闸：过流保护跳闸6仪表显示输出电压/电流、电压/电流设定点、过压/过流跳闸3功能键MENU菜单：选择功能 ITEM项目：选择功能内的项目 V/I DIS V/I显示器：显示电压和电流设置 TRIP DIS跳闸显示器：显示过压/过流跳闸设置 CLEAR清除：清除设置或重置故障 ENTER进入：选择项目C 版前面板–空白前面板概述(15) XR系列电源，选配+CAB3选件产品选件阻流二极管 (+BD)集成阻塞二极管（+BD）选项在MagnaDC程控直流电源的正输出端提供一个外部散热保护二极管。

3: “Auto boost” -Standard equalizing with manual over-ride 6: Equalize timer 0-24 hour 7: Equalize timer 0-72 hourA: 115/23050/605: 240-501: 100-606: 277-602: 120-607: 380-503: 208-608: 480-604: 230-50/60Order toll-free:800-554-224326SBS chargers/rectifiers supply reliable DC power to telecommunications, utility,process control and other equipment that requires a well-filtered source. The charger ensures the highest possible reliability of a battery-backed DC power system. The charger automatically eliminates the number-one cause of premature failure in batteries: improper charging. The filtered output and temperature-compensated control circuitry extends battery life, eliminates over- and undercharging, and reduces the risk of thermal runaway.Output Voltage12, 24, 48, 125 and 250 volts nominal,other voltages available. Float voltage adjustable from 90% to 120% of nominal.Equalize voltage adjustable up to 15%above float voltage.Output Voltage Regulation+/- 1% from no load to full load of the correct temperature compensated value with simultaneous variations in input voltage of +/- 10% and frequency of +/- 5%.Current LimitingFactory set limit is at 100% of rated current. Limit adjustable from 50% to 110% of rated current.Protection■Soft start – ensures smooth start up ■Precise electronic current limit ■AC circuit breaker ■DC circuit breakerThe SBS charger is the latest generation of highly reliable chargers/rectifiers SBS has shipped to over 40 nations since 1971. Standard features include AC line compensation, precision voltage regulation, current limiting, input and output circuit breakers, comprehensive alarm system, voltmeter and ammeter,and forced load sharing.Applications:■Switchgear■Telephone Equipment ■Microwave ■Engine Starting ■Alarm SystemsFeatures:■Filtered DC output — Increases bat-tery life■Temperature compensated – elimi-nates the No. 1 cause of premature battery failure■Comprehensive alarm system – pro-vides complete status on charger and battery■Input and output breakers – reduces the need for spare fuses.■Automatic equalizing standard (auto boost)■Variety of input voltages ranging from 120-480VAC single phase ■Precision current limiting protection ■Output high voltage shutdown pro-tection■Battery interactive automatic charge mode■Output voltage temperature compen-sation, with option of remote input ■Temperature compensation disable option■Will charge a dead battery from zero volts■Conformally coated PCBA ■Status indicators■Optional alarm form C relay contacts ■Current sharing of parallel units ■Precision digital ammeter and volt-meter display (available soon)■Surge protected to ANSI and EN standards■UL/C-UL listed, if required■Filtered output 30mV rms@12, 24,and 48VDC;100mV@ 125VDC /200mV@ 250VDCSingle Phase Ordering Info TableOutput Part Housing Weight (V)(A)No.Sizelbs kg 12 12 DCT12-12 DC-1 53 2412 25 DCT12-25 DC-1 68 3112 50 DCT12-50 DC-1 884012 100 DCT-12-100 DC-2A 125 5712 200 DCT12-200 DC-3A 280 12724 6 DCT24-6 DC-1 40 1824 12 DCT24-12 DC-1 58 2624 25 DCT24-25 DC-1 80 3624 35DCT24-35 DC-1 99 4524 50 DCT24-50 DC-1 104 4724 75 DCT24-75 DC-2A 200 9124 100 DCT24-100 DC-2A 225 10224 150 DCT24-150 DC-3A 290 13224 200 DCT24-200 DC-3A330 150Output Part HousingWeight (V)(A)No.Sizelbs kg 48 6 DCT48-6 DC-1 55 2548 12 DCT48-12 DC-1 80 3648 25 DCT48-25 DC-1 104 4748 35 DCT48-35 DC-1 145 6648 50 DCT48-50 DC-2A 180 8248 75 DCT48-75 DC-2A 250 11448 100 DCT48-100 DC-3A 270 123120 6 DCT120-6 DC-1 80 36120 12 DCT120-12 DC-1 96 44120 25 DCT120-25 DC-2A 190 86120 35 DCT120-35 DC-2A 245 111120 50 DCT120-50 DC-3A 330 150240 6 DCT240-6 DC-1 110 50240 12 DCT240-12 DC-2A 210 95240 25 DCT240-25 DC-3A340 155。

整流模块一、概述电力直流操作电源主要应用在发电厂、水电站及各类变电站中，为断路器分合闸及二次回路中的仪器仪表、继电保护装置和事故照明电路等提供不间断直流电源。

而直流操作电源的关键部分是整流模块，它将交流输入转化为所需的直流输出，并在市电正常时给蓄电池组充电。

本说明书将介绍我公司为配合各类电力直流操作电源要求所开发的CHR系列整流模块。

二、产品型号说明1．整流模块产品型号组成及含义输出额定电流（两位数字，单位A）输出标称电压（三位数字，单位V）表示电力用整流模块注：功率等级小于1KW的模块输入为单相交流输入，其它采用三相交流输入（不分相序）。

CHR22020采用三相四线输入。

2．各整流模块参数一览表三、基本原理、功能介绍小功率（CHR22002、CHR11004）模块采用单相交流输入，其它1KW以上模块采用三相三线制或三相四线制交流平衡输入，无中线电流损耗，并可以彻底消除因中线零点漂移引起相电压过高的隐患。

交流电源输入后，首先经防雷处理和EMI滤波。

该电路可以有效吸收雷击残压和电网尖峰，保证模块后级电路的安全。

输入交流电经工频整流滤波后转为高压直流电，采用先进的高频软开关全桥变换电路，将交流侧的直流电转为高频交流通过主变压器传输，经高频整流滤波后，成为稳定受控的直流电输出。

模块控制部分负责变换电路驱动信号的产生及控制，以保证输出的稳定，同时对交、直流侧的电压、电流进行检测，对异常情况（比如输入过压、欠压，输出过压、欠压）实时进四、各型号整流模块技术参数对照表五、使用环境条件7.2．CHR22020模块状态指示：215431089761113121021217698534 7.3．CHR22020模块状态判断“正常” “关机” “故障” 模块状态 亮 灭 灭 正常工作亮 亮 延时亮 手动关机（开关未按下）或模块保护关机灭 亮 灭 控制器关机 灭 灭 灭 交流停电亮 灭 亮 模块故障或电池过欠压 亮闪亮延时亮模块进入保护状态八、整流模块输入输出端子图及定义：8.1．CHR22002、CHR11004 顶视图如右：1：485B 2：485A 3：均流 4：充电限流+ 5：模块在线 6：输出正 7：输出负 8：PE 9：AC1 10：AC2AC1、AC2为单相交流输入，不分零线和相线。