PB42WG-2412E21H30中文资料

WGB-240A系列微机电容器保护测控装置技术及使用说明书（Version 1.00）许继电气股份有限公司XJ ELECTRIC CO.,LTD.WGB-240A系列微机电容器保护测控装置WGB-240A是许继最新推出的HELLO系列产品之一，它是许继秉承数十年来在电力系统二次设备制造领域的成功经验，为用户提供的具有高品质、高性价比的保护测控一体化装置。

WGB-240A系列微机电容器保护测控装置主要适用于66kV及以下电压等级所装设的并联电容器的保护及测控。

H、E、L、L、O品质是许继HELLO系列产品的共同特点，具体如下：⏹H：即High，高品质包括：◆高科技：采用现场组态技术（FCT）、可视化的软件开发技术（VLD）。

◆高质量：以专业的、成熟的软硬件平台为依托，丰富的运行经验和充分验证的原理算法为基础，自动测试为前提，先进的研发管理理念和研发开发管理工具为手段，保证研发、生产、制造过程中各个环节的质量，为用户提供高品质的产品。

⏹E：即Easy，工作轻松包括：◆易使用：人机界面友好、仿WINDOWS操作菜单，具有调试向导系统和一键完成定检功能，使现场调试、维护、定检工作变得轻松。

⏹L：即Low，低消耗包括：◆低投入成本：不同的装置共享插件，降低了购买装置和备件储备成本。

◆低故障率：先进的检测技术和完善的生产质量保障体系，使得产品的故障大大降低，大幅度减少了被保护对象的停运时间。

⏹L：即reaLize，实现技术包括：◆平台化：软件、硬件的设计都采用平台化的思想，使不同电压等级的保护装置可以共享硬件平台，不同的硬件平台可以共享软件，降低了日后硬件、软件的升级和维护工作。

◆专业化：不同领域的研发工作都由专业人员完成，通过规范的接口集成不同层次、不同领域的研发成果，让用户充分享受到高科技的产品。

◆模块化：对所有的功能模块分别封装成柔性继电器，不同装置通过配置不同的柔性继电器完成该装置的功能，能够顺速响应不同用户的个性化需求。

P1固邦逆变直流手工电弧焊机(IGBT 单板)INVERTER DC MMA WELDER（IGBT SINGLE BOARD）ZX7(ARC)200C/250C性能特点:●采用最先进的固邦逆变电源技术及进口IGBT，电源变换采用非晶磁环，使整机工作更加可靠;●工作频率高、体积小﹑重量更轻;●超强的电网补偿能力,使整机工作更加稳定可靠;●具有较全的保护功能：如：过压﹑过流、防电网电压波动、防开机过冲等保护功能; ●良好的推力补偿,动特性好,飞溅小,效率高,焊缝成型美观;●可使用各种牌号酸性、碱性(J506/507)焊条进行焊接;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●Importing IGBT, nanometer crystal transformer, stable and reliable.●Overall protection: over current/heat protection, automatic regulator for voltage fluctuation.●Smart apperance ,compact single PCB, portable,lightweight,power saving.●Minimal spatter,excellent welding results.●Acidic and alkaline welding rods of various brands can be used for welding.●Suitable welding materials: carbon steel, stainless steel, low alloy steel.标准配件：2 个DKJ10-25快速插头Standard accessories:2 pcs DKJ10-25 cable connectorP2固邦逆变直流手工电弧焊机(IGBT)INVERTER DC MMA WELDER（IGBT）ZX7(ARC)315C/400CL/400C(G11)/400B性能特点:●采用最先进的固邦逆变电源技术及进口IGBT，电源变换采用非晶主变，整机工作稳定;●工作频率高、体积小﹑重量轻;●超强的电网补偿能力和新颖的防撞设计,使整机工作更加稳定可靠;●具有较全的保护功能：如：过压﹑过流、缺相、欠压、防电网电压波动、防开机过冲等保护功能;●焊接电缆可延长至50米，∮5.0焊条可长时间工作，负载持续率极高;●良好的推力补偿,动特性好,飞溅小,效率高,焊缝成型美观;●可使用各种牌号酸,碱性(J506/507)焊条进行焊接;●可焊材料：碳钢、不锈钢、铸铁、普通低合金钢;Features:●Adopting most advanced inverter technology and importing IGBT, nanometer crystaltransformer, stable and reliable.●Super voltage compensation makes constant welding current even if tough power net.●Continuous welding for ∮5.0mm rod even if welding cable reach to 50 meter,80% dutycycle.●High accuracy of over voltage,over current, lack phase and over loading protection.●Acidic and alkaline welding rods of various brands can be used for welding.●Suitable welding materials: carbon steel, stainless steel, low alloy steel.标准配件：2 个DKJ35-50快速插头Standard accessories:2 pcs DKJ35-50 cable connectorP3固邦逆变直流手工电弧焊机(V-MOS)INVERTER DC MMA WELDER（V-MOS）ZX7（ARC)200TII/250TII/250T/300T性能特点●具有电压波动自动补偿能力，抗电网波动强，焊接电流稳定；●具有过压过流过热自动保护功能；●良好的推力补偿，动特性好，飞溅小，效率高，焊缝成型美观；●通过脉宽调制技术（PWM）输出大功率直流源，性能稳定，体积小，重量轻，高效节能，比传统焊机效率提高30%以上；●可使用各种牌号酸,碱性焊条进行焊接;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●100KHz frequency inverter technology.●High accuracy with over voltage, over current and over heat automatic protection function.●Good arc force compensation, easy arc-striking ,less spark,perfect welding result.●Compact size, light weight, high efficiency and power saving.●Suitable for all kinds of acid and alkaline welding rod.●Suitable welding materials: carbon steel, stainless steel, low alloy steel.标准配件：ZX7(ARC)200TII/250TII: 2 个DKJ10-25快速插头ZX7(ARC)250T: 2 个DKJ35-50快速插头Standard accessories:2 pcs DKJ10-25 cable connector for ZX7(ARC)200TII/250TII2 pcs DKJ35-50 cable connector for ZX7(ARC)250T技术参数ParametersP4固邦逆变直流手工电弧焊机(V-MOS)INVERTER DC MMA WELDER（V-MOS）ZX7（ARC）300T/315T性能特点:●具有电压波动自动补偿能力，抗电网波动强，焊接电流稳定；●具有过压过流过热自动保护功能；●良好的推力补偿，动特性好，飞溅小，效率高，焊缝成型美观；●通过脉宽调制技术（PWM）输出大功率直流源，性能稳定，体积小，重量轻，高效节能;比传统焊机效率提高30%以上；●可使用各种牌号酸,碱性焊条进行焊接;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●100KHz frequency inverter technology.●High accuracy with over voltage, over current and over heat automatic protection function.●Good arc force compensation, easy arc-striking ,less spark,perfect welding result.●Compact size, light weight, high efficiency and power saving.●Suitable for all kinds of acid and alkaline welding rod.●Suitable welding materials: carbon steel, stainless steel, low alloy steel.标准配件：2 个DKJ35-50快速插头Standard accessories:2 pcs DKJ35-50 cable connectorP5固邦逆变直流手工电弧焊机(V-MOS)INVERTER DC MMA WELDER（V-MOS）ZX7（ARC）400TII/400T/500T性能特点:●具有电压波动自动补偿能力，抗电网波动强，焊接电流稳定；●具有过压过流过热自动保护功能；●良好的推力补偿，动特性好，飞溅小，效率高，焊缝成型美观；●通过脉宽调制技术（PWM）输出大功率直流源，性能稳定，体积小，重量轻，高效节能，比传统焊机效率提高30%以上；●可使用各种牌号酸,碱性焊条进行焊接;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●100KHz frequency inverter technology●High accuracy with over voltage, over current and over heat automatic protection function ●Good arc force compensation, easy arc-striking ,less spark,perfect welding result●Compact size, light weight, high efficiency and power saving●Suitable for all kinds of acid and alkaline welding rod.●Suitable welding materials: carbon steel, stainless steel, low alloy steel.标准配件：ZX7(ARC)400TII: 2 个DKJ35-50快速插头ZX7(ARC)400T/500T: 2 个DKJ50-70快速插头Standard accessories:2 pcs DKJ35-50 cable connector for ZX7(ARC)400TII2 pcs DKJ50-70 cable connector for ZX7(ARC)400T/500TP6固邦逆变直流手工电弧焊机(IGBT)INVERTER DC MMA WELDER（IGBT）ZX7(ARC)400G/500G性能特点:●采用最先进的固邦逆变电源技术及进口IGBT，电流强劲，持续可焊5.0焊条;●三防（防水、防尘、防风蚀）风道设计，提高了焊机内电子元件工作的可靠性和负载持续率；●性能稳定，具有电压波动自动补偿功能；●在40摄氏度环境温度下工作，负载持续率仍可大于60%，能胜任野外作业；●具有推力补偿，热引弧电流可调，数显焊接电流，机控、遥控电流调节功能；●广泛应用于石油管道、化工、汽车、造船、锅炉、电建、核电、航天、军工、工业安装、桥梁建筑等行业的焊接及野外工作；●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●Adopting the most advanced inverter technology and imported IGBT, strongcurrent,continuous weldable 5.0 rod.●Tri-proof cooling system (waterproof, dustproof, anti-corrosion), improving the reliability ofelectronic components and duty cycle greatly.●Stable performance with voltage fluctuation automatic compensation function.●Duty cycle is more than 60% even at 40 degree ambient temperature, very suitable for fieldwork.●Arc force current, hot start arc current adjustable,digital display, remote control.●Widely used for oil pipeline, chemical industry, automobile, shipbuilding, boiler, electricityconstruction, nuclear power, aerospace, military industry, industrial installation, bridge architecture industries and field work.标准配件：2 个DKJ50-70快速插头Standard accessories:2 pcs DKJ50-70 cable connectorP7固邦逆变直流手工电弧焊机(IGBT模块)INVERTER DC MMA WELDER（IGBT MODULE）ZX7(ARC)400H/500H/630H性能特点:●主电路采用进口IGBT双模块，电源变换采用非晶磁环，使整机工作更加可靠；●工作频率高、体积小﹑重量轻;●具有较全的保护功能：如：过压﹑过流、缺相、欠压、防电网电压波动、防开机过冲等保护功能;●焊接电缆可延长至50米，∮5.0焊条可长时间工作;●适合碳弧气刨、钢筋对焊，适合发电机供电;●可使用各种牌号酸,碱性焊条进行焊接;●良好的推力补偿,动特性好,飞溅小,效率高,焊缝成型美观;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●Adopting a couple of importing IGBT module, nanometer crystal transformer, stable andreliable●Super voltage compensation makes constant welding current even if tough power net.●Continuous welding for ∮5.0mm rod even if welding cable reach to 50 meter,80% dutycycle.●Good performance on carbon arc gouging and basic electrode welding.●High accuracy of over voltage, over current, lack phase and over loading protection,anti-fluctuation of power voltage.●Suitable welding materials: carbon steel, stainless steel, low alloy steel.标准配件：2 个500A 线耳Standard accessories:2 pcs 500A lugP8固邦逆变直流手工电弧焊机(IGBT模块)INVERTER DC MMA WELDER（IGBT MODULE）ZX7(ARC)400I/500I/630I性能特点:●采用最先进的IGBT模块固邦逆变技术，固邦逆变频率可达20KHz，动态响应速度更快；主变铁芯采用纳米微晶材料，散热好，损耗低，性能显著优于传统铁氧体铁芯；出力强劲，50MM规格电缆线可加长到100米，5.0mm焊条常时间焊接●适合碳弧气刨、钢筋对焊，适合发电机供电;热引弧电流可调，解决不同焊条热引弧电流不同的问题，能焊接酸性和碱性焊条；●数显焊接电流，显示效果直观，机控、遥控电流调节，调控方便；●在40摄氏度环境温度下工作，负载持续率仍可大于60%，能胜任野外作业; Features:●Importing IGBT module inverter technology, high IGBT switching frequency as 20KHz,rapiddynamic response,optimized welding performance.●Inside advanced tri-proof cooling system design,dust-proof,moisture-proof and eroding-proof.90% dutyc cycle at 45 degree,to weld ¢5.0mm rod continuously even if spread 100meter cable.●Hot start and arc force adjustment are available.So it is very good for arc striking andanti-sticking.And also VRD function is selected.●Tranformer is nanometer material,can work under very high temperature.●Rugged metal sheet housing, ideal for outdoor welding, real heavy industrial products.●Excellent power source for carbon arc gouging, good performance for cellulosic rod welding. 标准配件：ZX7(ARC)400I/500I: 2 个DKJ70-95快速插头ZX7(ARC)630I: 600A线耳二个Standard accessories:2 pcs DKJ70-95 cable connector for ZX7(ARC)400I/500I2 pcs 600A Lug for ZX7(ARC)630IP9固邦逆变直流手工焊两用电源（V-MOS 220/380V）INVERTER DC MMA WELDER（V-MOS 220/380V）ZX7(ARC)250DT/315D性能特点:●采用最先进的固邦逆变电源技术及进口MOS管，工作频率高达100KHz,体积小﹑重量轻;●超强的电网补偿能力,使整机工作更加稳定可靠;●具有过压﹑过流、过热保护功能;●具有AC220V\AC380V两种工作电压,无需手动转换,电源自动切换,工作电压更宽;●良好的推力补偿,动特性好,飞溅小,效率高,焊缝成型美观;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●Adopting most advanced inverter technology and importing MOSFET, inverter frequencyhigh as 100KHz,small volume，light weight.●Automatic switchover between AC220V and AC380V,wider working voltage range.●High accuracy of over voltage,over current and over loading protection function.●Excellent arc force and dynamic characteristic, less spark, perfect welding results.标准配件：2 个DKJ35-50快速插头Standard accessories:2 pcs DKJ35-50 cable connectorP10固邦逆变直流手工焊两用电源（V-MOS 220/380V）INVERTER DC MMA WELDER（V-MOS 220/380V）ZX7(ARC)250D(G09)/250D(G06)性能特点:●采用最先进的固邦逆变电源技术及进口MOS管，工作频率高达100KHz,体积小﹑重量轻;●超强的电网补偿能力,使整机工作更加稳定可靠;●具有过压﹑过流、过热保护功能;●具有AC220V\AC380V两种工作电压,无需手动转换,电源自动切换,工作电压更宽;●良好的推力补偿,动特性好,飞溅小,效率高,焊缝成型美观;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●Adopting most advanced inverter technology and importing MOSFET, inverter frequencyhigh as 100KHz,small volume，light weight.●Automatic switchover between AC220V and AC380V,wider working voltage range.●High accuracy of over voltage,over current and over loading protection function.●Excellent arc force and dynamic characteristic, less spark, perfect welding results.标准配件：ZX7(ARC)250D(G09) :2 个DKJ10-25快速插头ZX7(ARC)250D(G06) :2 个DKJ35-50快速插头Standard accessories:2 pcs DKJ10-25 cable connector for ZX7(ARC)250D(G09)2 pcs DKJ35-50 cable connector for ZX7(ARC)250D(G06)技术参数Parameters:P11固邦逆变直流手工焊两用电源（V-MOS 220/380V）INVERTER DC MMA WELDER（V-MOS 220/380V）ZX7(ARC)315D(G05)/400D(G08)性能特点:●采用最先进的固邦逆变电源技术及进口MOS管，工作频率高达100KHz,体积小﹑重量轻;●超强的电网补偿能力,使整机工作更加稳定可靠;●具有过压﹑过流、过热保护功能;●具有AC220V\AC380V两种工作电压,无需手动转换,电源自动切换,工作电压更宽;●良好的推力补偿,动特性好,飞溅小,效率高,焊缝成型美观;●可焊材料：碳钢、不锈钢、普通低合金钢;Features:●Adopting most advanced inverter technology and importing MOSFET, inverter frequencyhigh as 100KHz,small volume，light weight.●Automatic switchover between AC220V and AC380V,wider working voltage range.●High accuracy of over voltage,over current and over loading protection function.●Excellent arc force and dynamic characteristic, less spark, perfect welding results.标准配件：2 个DKJ35-50快速插头Standard accessories:2 pcs DKJ35-50 cable connector技术参数Parameters:P12固邦逆变直流氩弧焊机(V-MOS)INVERTER DC TIG WELDER(V-MOS)WS(TIG)200S/250S性能特点:●采用先进的固邦逆变技术,工作频率高达100KHz，体积小、重量轻；●采用高频增压引弧及脉冲热引弧设计,起弧性能极佳，焊接电流充足，获得了用户的一致好评；●具有过压、过流保护功能；●独特的输出特性设计，更适合填丝焊接，焊缝美观；●工作电压范围宽，电网适应能力强，负载持续率高，更适合工厂连续工作；●工艺优良，可靠耐用，便于维护;●适应低碳钢，中碳钢及合金钢结构等所有黑色金属的焊接;Features:●Adopting advanced inverter technology,inverter frequency up to 100 KHz,small volume, lightweight.●Adopting high-frequency increasing voltage arc striking technology, easy arc striking , wellrecognition with users.●High accuracy with over voltage and over-current protection.●Unique output characteristics design,suitable for wire filling welding, perfect welding results.●Wide working voltage range,high duty cycle, more suitable for factory work continuously.●Excellent welding technics, reliable, durable and easy to maintain.标准配件：QQ-85-150A 一体枪成套地线钳(16mm2 300A 2.5米DKJ10-25快插)Standard accessories:QQ-85-150A integrated TIG torch1 set of 300A earthing clamp+2.5m 16mm2 cableP13固邦逆变直流氩弧焊机(V-MOS)INVERTER DC TIG WELDER(V-MOS)WS(TIG)200S(G13)/200A(G19)性能特点:●采用最先进的固邦逆变电源技术及进口MOS管，工作频率高达100KHz,体积小﹑重量轻;●超强的电网补偿能力,使整机工作更加稳定可靠;●具有过压﹑过流、过热保护功能;●全新金属斜面板外壳,人性化设计.●适应低碳钢，中碳钢及合金钢结构等所有黑色金属的焊接；Features:●Adopting most advanced inverter technology and importing MOSFET, inverter frequencyhigh as 100KHz,small volume，light weight.●Super voltage compensation makes constant welding current even if tough power net.●Built-in over voltage, over current and over loading protection.●Brand-new and beautiful housing design.●Applicable to welding of all black metals such as low carbon steel, mild carbon steel, andalloy steel structure.标准配件：WS(TIG)200S(G13):QQ-85-150A 一体枪,成套地线钳(16mm2 300A 2.5米DKJ10-25快插)WS(TIG)200A(G19):QQ-85-150A 一体枪, 1 个DKJ10-25快速插头,成套地线钳(16mm2 300A 2.5米DKJ10-25快插)Standard Accessories:WS(TIG)200S(G13): QQ-85-150A integrated TIG torch, 1 set of 300A earthing clamp+2.5m 16mm2 cableWS(TIG)200A(G19): QQ-85-150A integrated TIG torch,1 piece of DKJ10-25 cable connector,1 set of 300A earthing clamp+2.5m 16mm2 cable技术参数Parameters:P14固邦逆变直流氩弧焊机(V-MOS)INVERTER DC TIG WELDER(V-MOS)WS(TIG)200A/250A/300A/400A性能特点:●采用先进的固邦逆变技术,工作频率高达100KHz，体积小、重量轻；●采用高频增压引弧及脉冲热引弧设计,起弧性能极佳，焊接电流充足，获得了用户的一致好评；●具有过压、过流、过热保护功能；●独特的输出特性设计，更适合填丝焊接，焊缝美观；●工作电压范围宽，电网适应能力强，负载持续率高，更适合工厂连续工作；●工艺优良，可靠耐用，便于维护。

Eaton PDG24G0100P3DJEaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 100A, 35kA/480V, PXR25 LSIG w/ Modbus RTU, CAM Link and Relays, Standard Line and Load (PDG2X4T100)General specificationsEaton Power Defense molded case circuit breakerPDG24G0100P3DJ 78667921420688.9 mm 152.4 mm 139.5 mm 2.46 kg Eaton Selling Policy 25-000, one (1) year from the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.RoHS Compliant UL 489CCC MarkedIEC 60947-2CSAProduct NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertifications100 AComplete breaker 2Four-pole (100% N)PD2 GlobalClass APXR 25 LSIGModbus RTU and CAM Link600 Vac600 V100% neutral protectionStandard Line and Load35 kAIC at 480 Vac18 kAIC @600V (UL/CSA)8 kAIC Icu/ 4 kAIC Ics/ 16.8 kAIC Icm @690V (IEC)10 kAIC Icu @125 Vdc20 kAIC Icu/ 15/13 kAIC Ics/ 42 kAIC Icm @525V South Africa (IEC)30 kAIC Icu/ 22.5 kAIC Ics/ 63 kAIC Icm @440V (IEC)35 kAIC @480V (UL)36 kAIC Icu/ 36 kAIC Ics/ 75.6 kAIC Icm @380-415V (IEC)65 kAIC @240V (UL)25 kAIC Icu/ 20 kAIC Ics/ 52.5 kAIC Icm @480V Brazil (IEC) 55 kAIC Icu/ 55 kAIC Ics/ 121 kAIC Icm @240V (IEC)10 kAIC Icu @250 Vdc Eaton Power Defense MCCB PDG24G0100P3DJ 3D drawingConsulting application guide - molded case circuit breakersPower Xpert Protection Manager x64Power Defense molded case circuit breaker selection posterPower Defense brochurePower Defense technical selling bookletPower Defense molded case circuit breakers - Frame 2 product aid Power Xpert Release trip units for Power Defense molded case circuitAmperage RatingCircuit breaker frame type FrameNumber of poles Circuit breaker type ClassTrip Type CommunicationVoltage ratingVoltage rating - maxProtectionTerminalsInterrupt rating Interrupt rating range 3D CAD drawing package Application notes BrochuresCatalogsbreakersMolded case circuit breakers catalogCertification reportsPDG4 CCC certificationPDG4 CB reportEU Declaration of Conformity - Power Defense molded case circuit breakersPDG2 CB reportInstallation instructionsPower Defense Frame 1-2-3-4 IP door barrier assembly instructions -IL012278ENPower Defense Frame 2 tunnel terminal (aluminum), 100A, 4 pole instructions - IL012237EN H04Power Defense Frame 2 multi wire connector kit -PDG2X3(2)(4)TA2256W instructions - IL012242EN H01Power Defense Frame 2 PDG2 and PDC(E)9 breaker instructions -IL012106ENPower Defense Frame 2 shunt trip UVR instructions - IL012130EN Power Defense Frame 2 locking devices and handle block instructions - IL012149ENPower Defense Frame 2 global terminal shield, 4 pole - IL012330EN Power Defense Frame 2 terminal kit - PDG2X3(2)(4)TA150RF instructions - IL012244EN H01Power Defense Frame 2 tunnel terminal kits - PDG2X1TA225K instructions- IL012239EN H01Power Defense Frame 1 IEC and Frame 2 Rotary Mechanism with NFPA Handle Attachment Instructions (IL012260EN).pdfPower Defense Frame 2 box terminal (steel), 100A, 4 pole instructions - IL012234EN H04Power Defense Frame 2/3/4/5/6 voltage neutral sensor module wiring instructions – IL012316ENPower Defense Frame 2 multi wire connector kit -PDG2X3(2)(4)TA2253W instructions - IL012243EN H01Power Defense Frame 2 screw terminal_end cap kit, 225A, 3 pole instructions - IL012258EN H01Power Defense Frame 2 terminal kit - PDG2X3(2)(4)TA225RF instructions - IL012245EN H01Power Defense Frame 2 box terminal (aluminum), 225A, 4 pole instructions - IL012235EN H04Power Defense Frame 2 clamp terminal (steel), 20A, 4 pole instructions - IL012246EN H04Power Defense Frame 2 Bell Alarm Switch Instructions (IL012154EN).pdfPower Defense Frame 2 bell alarm switch instructions - IL012154EN Power Defense Frame 2 tunnel terminal (aluminum), 150A, 4 pole instructions - IL012238EN H04Power Defense Frame 2 tunnel terminal (aluminum), 50A, 4 pole instructions - IL012236EN H04Installation videosPower Defense Frame 2 withTMTU, Shunt Trip_UVR Animated Instructions.rhPower Defense Frame 2 Bell Alarm with PXR Animated Instructions.pdf.rh Power Defense Frame 2 TMTU Aux, Alarm, ST and UVR Animated Instructions.rhMultimediaPower Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 2 Aux, Alarm, Shunt Trip, and UVR How-To Video Power Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 2 Direct Rotary Handle Mechanism Installation How-To VideoEaton Power Defense for superior arc flash safetyPower Defense molded case circuit breakersPower Defense Frame 6 Trip Unit How-To VideoPower Defense BreakersPower Defense Frame 5 Trip Unit How-To VideoSpecifications and datasheetsEaton Specification Sheet - PDG24G0100P3DJTime/current curvesPower Defense time current curve Frame 2 - PD2White papersIntelligent power starts with accurate, actionable dataIntelligent circuit protection yields space savingsSingle and double break MCCB performance revisitedMolded case and low-voltage power circuit breaker healthMaking a better machineMolded case and low-voltage breaker healthSafer by design: arc energy reduction techniquesEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

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。

No.D-※S-OMS0002-AHeat Resistant Solid State Auto SwitchD-M9#J# SeriesSafety Instructions 2 Model Indication and How to Order 8 Summary of Product parts 8 Definition and terminology 9 Mounting and Installation 10 Installation 10 Maintenance 12 Troubleshooting 13 Specification 17 Specifications 17 Dimensions 18Safety InstructionsThese safety instructions are intended to prevent hazardous situations and/or equipment damage. These instructions indicate the level of potential hazard with the labels of "Caution", "Warning" or "Danger". They are all important notes for safety and must be followed in addition to International Standards (ISO/IEC)*1), and other safety regulations.*1) ISO 4414: Pneumatic fluid power -- General rules relating to systems.ISO 4413: Hydraulic fluid power -- General rules relating to systems.IEC 60204-1: Safety of machinery -- Electrical equipment of machines .(Part 1: General requirements)ISO 10218-1992: Manipulating industrial robots -Safety.etc.Caution Caution indicates a hazard with a low level of risk which, if not avoided, couldresult in minor or moderate injury.Warning Warning indicates a hazard with a medium level of risk which, if not avoided,could result in death or serious injury.Danger Danger indicates a hazard with a high level of risk which, if not avoided, willresult in death or serious injury.Safety InstructionsLimited warranty and Disclaimer/Compliance Requirements The product used is subject to the following "Limited warranty and Disclaimer" and "Compliance Requirements".Read and accept them before using the product.∙Follow the instructions given below when designing, selecting and handling the product. ■The instructions on design and selection (installation, wiring, environment, adjustment, operation, maintenance, etc.) described below must also be followed.♦Product specifications•DC power supply to be used together must be UL 1310 class 2 power supply unit or UL recognized power supply with UL 1585 class 2 transformer. •Use the specified voltage.Otherwise failure or malfunction can result.•Do not place two or more actuators close together.When using two or more actuators closely in parallel, keep a distance of at least 40 mm between the actuator tubes to prevent magnetic interference from affecting the product, which can cause malfunction. (If the distance is specified for the actuator, use that value.)•Detection by an Auto switch mounted in a mid-stroke position depends on the piston speed. Conditions must satisfy the equation below.Wherein;Maximum detectable piston speed = V [mm/s]1000×[ms]load of time Operating [mm]switch Auto of range Operating [mm/s]V =•Design the product to prevent reverse current when the circuit is opened or the product is forced tooperate for operational check.Reverse current can cause malfunction or damage to the product.•Reserve a space for maintenance.Allow sufficient space for maintenance when designing the system.■Product handling♦Installation•Tighten to the specified tightening torque.If the tightening torque is exceeded the mounting screws and brackets may be broken. If the tightening torque is insufficient, the product can be displaced. (Refer to "Mounting and Installation".)•Be sure to ground terminal FG when using a commercially available switch-mode power supply. •Never mount an actuator equipped with Auto switch in a location that will be used as a foothold.The product may be damaged if excessive force is applied by stepping or climbing onto it.•Do not drop, hit or apply excessive shock to the Auto switch.Otherwise damage to the internal parts can result, causing malfunction.♦Wiring•Do not pull hard on the lead wire. In particular, never lift an Auto switch actuator by holding the lead wires.Otherwise damage to the internal parts can result, causing malfunction.•Avoid repeatedly bending or stretching the lead wire, or placing heavy load on them.Repetitive bending stress or tensile stress can cause the sheath of the wire to peel off, or breakage of the wire.If the lead wire can move, fix it near the body of the product.•Wire correctly.Incorrect wiring can break the product.•Do not perform wiring while the power is on.Otherwise damage to the internal parts can result, causing malfunction.•Do not route wires and cables together with power or high voltage cables.Otherwise the product can malfunction due to interference of noise and surge voltage from power and high voltage cables to the signal line. Route the wires (piping) of the product separately from power or high voltage cables. •Confirm proper insulation of wiring.Poor insulation (interference from another circuit, poor insulation between terminals, etc.) can lead to excess voltage or current being applied to the product, causing damage.•Design the system to prevent reverse current when the product is forced to operate for operational check.Depending on the circuit used, insulation may not be maintained when operation is forced, allowing reverse current to flow, which can cause malfunction and damage the product.•Keep wiring as short as possible to prevent interference from electromagnetic noise and surge voltage.Do not use a cable longer than 100 m.•Do not cut the lead wire between the sensor and amplifier.It may malfunction after connecting it again.♦Environment•Pay attention to use the product in an atmosphere with accumulation of iron waste or close contact with magnetic substances.When a large amount of iron waste such as machining chips or spatter has accumulated, or a magnetic substance (something attracted by a magnet) is brought into close proximity with the actuator, it may cause the Auto switch to malfunction due to weakening.•Do not use the product in an environment that is constantly exposed to the splash of water.This can cause insulation failure or malfunction due to swelling of the potting resin.•Do not use in a place where the product could be splashed by oil or chemicals.If the product is to be used in an environment containing oils or chemicals such as coolant or cleaning solvent, even for a short time, it may be adversely affected. (insulation failure, malfunction due to swelling of the potting resin, or hardening of the potting resin, or hardening of the lead wires)•Do not use the product in an environment where corrosive gases or fluids could be splashed.Otherwise damage to the product and malfunction can result.•Do not use in an area where surges are generated.If there is equipment which generates a large amount of surge (solenoid type lifter, high frequency induction furnace, motor, etc.) close to the actuator, this may cause deterioration or breakage of the internal circuit of the Auto switch. Avoid sources of surge generation and crossed lines.•Do not use a load which generates surge voltage.When a surge-generating load such as a relay or solenoid is driven directly, use an Auto switch with a built-in surge absorbing element.•The product is CE marked, but not immune to lightning strikes. Take measures against lightning strikes in the system.•Mount the product in a place that is not exposed to vibration or impact.Otherwise failure or malfunction can result.•Do not use the product in an environment that is exposed to temperature cycle.Heat cycles other than ordinary changes in temperature can adversely affect the inside of the product.•Do not expose the product to direct sunlight.If using in a location directly exposed to sunlight, shade the product from the sunlight.Otherwise failure or malfunction can result.•Keep within the specified ambient temperature range.Otherwise malfunction can result.•Do not operate close to a heat source, or in a location exposed to radiant heat.Otherwise malfunction can result.♦Adjustment and Operation•Adjust the Auto switch in the middle of the operating range and then fix it.Adjust the position of the Auto switch so that the piston stops in the middle of the operating area (where Auto switch is in ON status).Mounting the Auto switch close to the edge of the operating range can cause operation to be unstable.•Turn the power on after connecting a load.If switched on with no load, excess current may flow, causing the product to break instantly.♦Maintenance•Turn off the power supply, stop the supplied air, exhaust the residual pressure and verify the release of air before performing maintenance.There is a risk of unexpected malfunction.•Perform regular maintenance and inspections.There is a risk of unexpected malfunction.•Do not touch the terminals while the power is on.Otherwise malfunction and damage to the product can result.•Do not use solvents such as benzene, thinner etc. to clean the Auto switch.They could damage the surface of the body and erase the markings on the body.Use a soft cloth to remove stains.For heavy stains, use a cloth soaked with diluted neutral detergent and fully squeezed, then wipe up the stains again with a dry cloth.♦Other•Contact SMC for information regarding water resistance, lead wire bend resistance.•Contact SMC if there is a problem with the product's ON/OFF positions (hysteresis).Hysteresis•The resin housing can be discolored due to the operating environment.Due to the characteristics of the material used, the resin housing can be discolored by sunlight, but there is no effect in strength and other characteristics.D -•Names of productsJ■InstallationWhen mounting the Auto switch to the actuator, the appropriate mounting bracket should be used. "How to mount" depends on the actuator type and bore size.Please refer to the actuator catalogue.For new Auto switch applications, confirm that the actuator includes a magnet before assembling the Auto switch and bracket.○Sensor unit•Tightening torqueUse a watchmaker driver whose grip diameter is 5 to 6 mm when tightening the mounting screw.M2.5 mount screw tightening torque shall be 0.05 to 0.15 Nm.•Setting the detecti on positionPosition the actuator at the end of the stroke.Set the Auto switch in the center of position where the Auto switch green light is ON.(Detecting actuator end)Based on A and B dimensions in the actuator catalogue, set the Auto switch position.During installation, perform adjustment while checking the operating conditions of the Auto switch.○Amplifier unitIt needs for DIN terminal when mount to the Auto switch amplifier unit.•How to mount DIN terminalAs described below, hand the hook on the bottom of the body on DIN rail, and then push and hold them along with arrow mark.For removal, pull them along with arrow mark by standard driver.Remove Mount•Internal circuitD-M9NJ# D-M9PJ#How to reset the product for power loss or forcible de-energizingRegarding set up, contents of the program may be maintained by customer's application systems. Be sure to confirm safety when returning operation of the actuator because it could have been stopped in an unstable condition.When the Auto switch in operation, identify the trouble with the following flow chart.A failure of the Auto switch might depend on the operating environment (application etc.) and needs to be given a test by contacting to us separately.■Dimensions4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPANTel: + 81 3 5207 8249 Fax: +81 3 5298 5362URL Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer.。

General DescriptionThe MAX220–MAX249 family of line drivers/receivers is intended for all EIA/TIA-232E and V.28/V.24 communica-tions interfaces, particularly applications where ±12V is not available.These parts are especially useful in battery-powered sys-tems, since their low-power shutdown mode reduces power dissipation to less than 5µW. The MAX225,MAX233, MAX235, and MAX245/MAX246/MAX247 use no external components and are recommended for appli-cations where printed circuit board space is critical.________________________ApplicationsPortable Computers Low-Power Modems Interface TranslationBattery-Powered RS-232 Systems Multidrop RS-232 NetworksNext-Generation Device Features♦For Low-Voltage, Integrated ESD ApplicationsMAX3222E/MAX3232E/MAX3237E/MAX3241E/MAX3246E: +3.0V to +5.5V, Low-Power, Up to 1Mbps, True RS-232 Transceivers Using Four 0.1µF External Capacitors (MAX3246E Available in a UCSP™Package)♦For Low-Cost ApplicationsMAX221E: ±15kV ESD-Protected, +5V, 1µA,Single RS-232 Transceiver with AutoShutdown™MAX220–MAX249+5V-Powered, Multichannel RS-232Drivers/Receivers________________________________________________________________Maxim Integrated Products 1Selection Table19-4323; Rev 15; 1/06Power No. of NominalSHDN RxPart Supply RS-232No. of Cap. Value & Three-Active in Data Rate Number (V)Drivers/Rx Ext. Caps (µF)State SHDN (kbps)FeaturesMAX220+52/240.047/0.33No —120Ultra-low-power, industry-standard pinout MAX222+52/2 4 0.1Yes —200Low-power shutdownMAX223 (MAX213)+54/54 1.0 (0.1)Yes ✔120MAX241 and receivers active in shutdown MAX225+55/50—Yes ✔120Available in SOMAX230 (MAX200)+55/04 1.0 (0.1)Yes —120 5 drivers with shutdownMAX231 (MAX201)+5 and2/2 2 1.0 (0.1)No —120Standard +5/+12V or battery supplies; +7.5 to +13.2same functions as MAX232MAX232 (MAX202)+52/24 1.0 (0.1)No —120 (64)Industry standardMAX232A+52/240.1No —200Higher slew rate, small caps MAX233 (MAX203)+52/20— No —120No external capsMAX233A+52/20—No —200No external caps, high slew rate MAX234 (MAX204)+54/04 1.0 (0.1)No —120Replaces 1488MAX235 (MAX205)+55/50—Yes —120No external capsMAX236 (MAX206)+54/34 1.0 (0.1)Yes —120Shutdown, three stateMAX237 (MAX207)+55/34 1.0 (0.1)No —120Complements IBM PC serial port MAX238 (MAX208)+54/44 1.0 (0.1)No —120Replaces 1488 and 1489MAX239 (MAX209)+5 and3/52 1.0 (0.1)No —120Standard +5/+12V or battery supplies;+7.5 to +13.2single-package solution for IBM PC serial port MAX240+55/54 1.0Yes —120DIP or flatpack package MAX241 (MAX211)+54/54 1.0 (0.1)Yes —120Complete IBM PC serial port MAX242+52/240.1Yes ✔200Separate shutdown and enableMAX243+52/240.1No —200Open-line detection simplifies cabling MAX244+58/104 1.0No —120High slew rateMAX245+58/100—Yes ✔120High slew rate, int. caps, two shutdown modes MAX246+58/100—Yes ✔120High slew rate, int. caps, three shutdown modes MAX247+58/90—Yes ✔120High slew rate, int. caps, nine operating modes MAX248+58/84 1.0Yes ✔120High slew rate, selective half-chip enables MAX249+56/1041.0Yes✔120Available in quad flatpack packageFor pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .Ordering InformationOrdering Information continued at end of data sheet.*Contact factory for dice specifications.AutoShutdown and UCSP are trademarks of Maxim Integrated Products, Inc.M A X 220–M A X 249+5V-Powered, Multichannel RS-232Drivers/Receivers 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGS—MAX220/222/232A/233A/242/243ELECTRICAL CHARACTERISTICS—MAX220/222/232A/233A/242/243Note 1:For the MAX220, V+ and V- can have a maximum magnitude of 7V, but their absolute difference cannot exceed 13V.Note 2:Input voltage measured with T OUT in high-impedance state, SHDN or V CC = 0V.Note 3:Maximum reflow temperature for the MAX233A is +225°C.Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Supply Voltage (V CC )...............................................-0.3V to +6V V+ (Note 1)..................................................(V CC - 0.3V) to +14V V- (Note 1).............................................................+0.3V to +14V Input VoltagesT IN ..............................................................-0.3V to (V CC - 0.3V)R IN (Except MAX220)........................................................±30V R IN (MAX220).....................................................................±25V T OUT (Except MAX220) (Note 2).......................................±15V T OUT (MAX220)...............................................................±13.2V Output VoltagesT OUT ...................................................................................±15V R OUT .........................................................-0.3V to (V CC + 0.3V)Driver/Receiver Output Short Circuited to GND.........Continuous Continuous Power Dissipation (T A = +70°C)16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)..842mW18-Pin Plastic DIP (derate 11.11mW/°C above +70°C)..889mW 20-Pin Plastic DIP (derate 8.00mW/°C above +70°C)..440mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C)...696mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C)......762mW 18-Pin Wide SO (derate 9.52mW/°C above +70°C)......762mW 20-Pin Wide SO (derate 10.00mW/°C above +70°C)....800mW 20-Pin SSOP (derate 8.00mW/°C above +70°C)..........640mW 16-Pin CERDIP (derate 10.00mW/°C above +70°C).....800mW 18-Pin CERDIP (derate 10.53mW/°C above +70°C).....842mW Operating Temperature RangesMAX2_ _AC_ _, MAX2_ _C_ _.............................0°C to +70°C MAX2_ _AE_ _, MAX2_ _E_ _..........................-40°C to +85°C MAX2_ _AM_ _, MAX2_ _M_ _.......................-55°C to +125°C Storage Temperature Range.............................-65°C to +160°C Lead Temperature (soldering, 10s) (Note 3)...................+300°CMAX220–MAX249+5V-Powered, Multichannel RS-232Drivers/Receivers_______________________________________________________________________________________3Note 4:MAX243 R2OUT IN ELECTRICAL CHARACTERISTICS—MAX220/222/232A/233A/242/243 (continued)M A X 220–M A X 249+5V-Powered, Multichannel RS-232Drivers/Receivers 4_________________________________________________________________________________________________________________________________Typical Operating CharacteristicsMAX220/MAX222/MAX232A/MAX233A/MAX242/MAX243108-1051525OUTPUT VOLTAGE vs. LOAD CURRENT-4-6-8-2642LOAD CURRENT (mA)O U T P U T V O L T A G E (V )1002011104104060AVAILABLE OUTPUT CURRENTvs. DATA RATE65798DATA RATE (kb/s)O U T P U T C U R R E N T (m A )203050+10V-10VMAX222/MAX242ON-TIME EXITING SHUTDOWN+5V +5V 0V0V 500μs/div V +, V - V O L T A G E (V )ELECTRICAL CHARACTERISTICS—MAX220/222/232A/233A/242/243 (continued)(V CC = +5V ±10%, C1–C4 = 0.1µF‚ MAX220, C1 = 0.047µF, C2–C4 = 0.33µF, T A = T MIN to T MAX ‚ unless otherwise noted.)MAX220–MAX249+5V-Powered, Multichannel RS-232Drivers/Receivers_______________________________________________________________________________________5V CC ...........................................................................-0.3V to +6V V+................................................................(V CC - 0.3V) to +14V V-............................................................................+0.3V to -14V Input VoltagesT IN ............................................................-0.3V to (V CC + 0.3V)R IN ......................................................................................±30V Output VoltagesT OUT ...................................................(V+ + 0.3V) to (V- - 0.3V)R OUT .........................................................-0.3V to (V CC + 0.3V)Short-Circuit Duration, T OUT ......................................Continuous Continuous Power Dissipation (T A = +70°C)14-Pin Plastic DIP (derate 10.00mW/°C above +70°C)....800mW 16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)....842mW 20-Pin Plastic DIP (derate 11.11mW/°C above +70°C)....889mW 24-Pin Narrow Plastic DIP(derate 13.33mW/°C above +70°C)..........1.07W24-Pin Plastic DIP (derate 9.09mW/°C above +70°C)......500mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C).........762mW20-Pin Wide SO (derate 10.00mW/°C above +70°C).......800mW 24-Pin Wide SO (derate 11.76mW/°C above +70°C).......941mW 28-Pin Wide SO (derate 12.50mW/°C above +70°C) .............1W 44-Pin Plastic FP (derate 11.11mW/°C above +70°C).....889mW 14-Pin CERDIP (derate 9.09mW/°C above +70°C)..........727mW 16-Pin CERDIP (derate 10.00mW/°C above +70°C)........800mW 20-Pin CERDIP (derate 11.11mW/°C above +70°C)........889mW 24-Pin Narrow CERDIP(derate 12.50mW/°C above +70°C)..............1W24-Pin Sidebraze (derate 20.0mW/°C above +70°C)..........1.6W 28-Pin SSOP (derate 9.52mW/°C above +70°C).............762mW Operating Temperature RangesMAX2 _ _ C _ _......................................................0°C to +70°C MAX2 _ _ E _ _...................................................-40°C to +85°C MAX2 _ _ M _ _......................................................-55°C to +125°C Storage Temperature Range.............................-65°C to +160°C Lead Temperature (soldering, 10s) (Note 4)...................+300°CABSOLUTE MAXIMUM RATINGS—MAX223/MAX230–MAX241ELECTRICAL CHARACTERISTICS—MAX223/MAX230–MAX241(MAX223/230/232/234/236/237/238/240/241, V CC = +5V ±10; MAX233/MAX235, V CC = 5V ±5%‚ C1–C4 = 1.0µF; MAX231/MAX239,V CC = 5V ±10%; V+ = 7.5V to 13.2V; T A = T MIN to T MAX ; unless otherwise noted.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Note 4:Maximum reflow temperature for the MAX233/MAX235 is +225°C.M A X 220–M A X 249+5V-Powered, Multichannel RS-232Drivers/Receivers 6_______________________________________________________________________________________ELECTRICAL CHARACTERISTICS—MAX223/MAX230–MAX241 (continued)(MAX223/230/232/234/236/237/238/240/241, V CC = +5V ±10; MAX233/MAX235, V CC = 5V ±5%‚ C1–C4 = 1.0µF; MAX231/MAX239,V CC = 5V ±10%; V+ = 7.5V to 13.2V; T A = T MIN to T MAX ; unless otherwise noted.)MAX220–MAX249+5V-Powered, Multichannel RS-232Drivers/Receivers_______________________________________________________________________________________78.56.54.55.5TRANSMITTER OUTPUT VOLTAGE (V OH ) vs. V CC7.08.0V CC (V)V O H (V )5.07.57.46.02500TRANSMITTER OUTPUT VOLTAGE (V OH )vs. LOAD CAPACITANCE AT DIFFERENT DATA RATES6.46.27.27.0LOAD CAPACITANCE (pF)V O H (V )1500100050020006.86.612.04.02500TRANSMITTER SLEW RATE vs. LOAD CAPACITANCE6.05.011.09.010.0LOAD CAPACITANCE (pF)S L E W R A T E (V /μs )1500100050020008.07.0-6.0-9.04.55.5TRANSMITTER OUTPUT VOLTAGE (V OL ) vs. V CC-8.0-8.5-6.5-7.0V CC (V)V O L (V )5.0-7.5-6.0-7.62500TRANSMITTER OUTPUT VOLTAGE (V OL )vs. LOAD CAPACITANCE AT DIFFERENT DATA RATES-7.0-7.2-7.4-6.2-6.4LOAD CAPACITANCE (pF)V O L (V )150010005002000-6.6-6.810-105101520253035404550TRANSMITTER OUTPUT VOLTAGE (V+, V-)vs. LOAD CURRENT-2-6-4-886CURRENT (mA)V +, V - (V )420__________________________________________Typical Operating CharacteristicsMAX223/MAX230–MAX241*SHUTDOWN POLARITY IS REVERSED FOR NON MAX241 PARTSV+, V- WHEN EXITING SHUTDOWN(1μF CAPACITORS)MAX220-13SHDN*V-O V+500ms/divM A X 220–M A X 249+5V-Powered, Multichannel RS-232Drivers/Receivers 8_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGS—MAX225/MAX244–MAX249ELECTRICAL CHARACTERISTICS—MAX225/MAX244–MAX249(MAX225, V CC = 5.0V ±5%; MAX244–MAX249, V CC = +5.0V ±10%, external capacitors C1–C4 = 1µF; T A = T MIN to T MAX ; unless oth-erwise noted.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Supply Voltage (V CC )...............................................-0.3V to +6V Input VoltagesT IN ‚ ENA , ENB , ENR , ENT , ENRA ,ENRB , ENTA , ENTB ..................................-0.3V to (V CC + 0.3V)R IN .....................................................................................±25V T OUT (Note 5).....................................................................±15V R OUT ........................................................-0.3V to (V CC + 0.3V)Short Circuit (one output at a time)T OUT to GND............................................................Continuous R OUT to GND............................................................ContinuousContinuous Power Dissipation (T A = +70°C)28-Pin Wide SO (derate 12.50mW/°C above +70°C).............1W 40-Pin Plastic DIP (derate 11.11mW/°C above +70°C)...611mW 44-Pin PLCC (derate 13.33mW/°C above +70°C)...........1.07W Operating Temperature RangesMAX225C_ _, MAX24_C_ _ ..................................0°C to +70°C MAX225E_ _, MAX24_E_ _ ...............................-40°C to +85°C Storage Temperature Range.............................-65°C to +160°C Lead Temperature (soldering,10s) (Note 6)....................+300°CNote 5:Input voltage measured with transmitter output in a high-impedance state, shutdown, or V CC = 0V.Note 6:Maximum reflow temperature for the MAX225/MAX245/MAX246/MAX247 is +225°C.MAX220–MAX249+5V-Powered, Multichannel RS-232Drivers/Receivers_______________________________________________________________________________________9Note 7:The 300Ωminimum specification complies with EIA/TIA-232E, but the actual resistance when in shutdown mode or V CC =0V is 10M Ωas is implied by the leakage specification.ELECTRICAL CHARACTERISTICS—MAX225/MAX244–MAX249 (continued)(MAX225, V CC = 5.0V ±5%; MAX244–MAX249, V CC = +5.0V ±10%, external capacitors C1–C4 = 1µF; T A = T MIN to T MAX ; unless oth-erwise noted.)M A X 220–M A X 249+5V-Powered, Multichannel RS-232Drivers/Receivers 10________________________________________________________________________________________________________________________________Typical Operating CharacteristicsMAX225/MAX244–MAX24918212345TRANSMITTER SLEW RATE vs. LOAD CAPACITANCE86416LOAD CAPACITANCE (nF)T R A N S M I T T E R S L E W R A T E (V /μs )14121010-105101520253035OUTPUT VOLTAGEvs. LOAD CURRENT FOR V+ AND V--2-4-6-88LOAD CURRENT (mA)O U T P U T V O L T A G E (V )64209.05.012345TRANSMITTER OUTPUT VOLTAGE (V+, V-)vs. LOAD CAPACITANCE AT DIFFERENT DATA RATES6.05.58.5LOAD CAPACITANCE (nF)V +, V (V )8.07.57.06.5MAX220–MAX249Drivers/ReceiversFigure 1. Transmitter Propagation-Delay Timing Figure 2. Receiver Propagation-Delay TimingFigure 3. Receiver-Output Enable and Disable Timing Figure 4. Transmitter-Output Disable TimingM A X 220–M A X 249Drivers/Receivers ENT ENR OPERATION STATUS TRANSMITTERSRECEIVERS00Normal Operation All Active All Active 01Normal Operation All Active All 3-State10Shutdown All 3-State All Low-Power Receive Mode 11ShutdownAll 3-StateAll 3-StateTable 1a. MAX245 Control Pin ConfigurationsENT ENR OPERATION STATUS TRANSMITTERS RECEIVERSTA1–TA4TB1–TB4RA1–RA5RB1–RB500Normal Operation All Active All Active All Active All Active 01Normal Operation All Active All Active RA1–RA4 3-State,RA5 Active RB1–RB4 3-State,RB5 Active 1ShutdownAll 3-StateAll 3-StateAll Low-Power Receive Mode All Low-Power Receive Mode 11Shutdown All 3-State All 3-StateRA1–RA4 3-State,RA5 Low-Power Receive ModeRB1–RB4 3-State,RB5 Low-Power Receive ModeTable 1b. MAX245 Control Pin ConfigurationsTable 1c. MAX246 Control Pin ConfigurationsENA ENB OPERATION STATUS TRANSMITTERS RECEIVERSTA1–TA4TB1–TB4RA1–RA5RB1–RB500Normal Operation All Active All Active All Active All Active 01Normal Operation All Active All 3-State All Active RB1–RB4 3-State,RB5 Active 1ShutdownAll 3-StateAll ActiveRA1–RA4 3-State,RA5 Active All Active 11Shutdown All 3-State All 3-StateRA1–RA4 3-State,RA5 Low-Power Receive ModeRB1–RB4 3-State,RA5 Low-Power Receive ModeMAX220–MAX249Drivers/ReceiversM A X 220–M A X 249_______________Detailed DescriptionThe MAX220–MAX249 contain four sections: dual charge-pump DC-DC voltage converters, RS-232 dri-vers, RS-232 receivers, and receiver and transmitter enable control inputs.Dual Charge-Pump Voltage ConverterThe MAX220–MAX249 have two internal charge-pumps that convert +5V to ±10V (unloaded) for RS-232 driver operation. The first converter uses capacitor C1 to dou-ble the +5V input to +10V on C3 at the V+ output. The second converter uses capacitor C2 to invert +10V to -10V on C4 at the V- output.A small amount of power may be drawn from the +10V (V+) and -10V (V-) outputs to power external circuitry (see the Typical Operating Characteristics section),except on the MAX225 and MAX245–MAX247, where these pins are not available. V+ and V- are not regulated,so the output voltage drops with increasing load current.Do not load V+ and V- to a point that violates the mini-mum ±5V EIA/TIA-232E driver output voltage when sourcing current from V+ and V- to external circuitry. When using the shutdown feature in the MAX222,MAX225, MAX230, MAX235, MAX236, MAX240,MAX241, and MAX245–MAX249, avoid using V+ and V-to power external circuitry. When these parts are shut down, V- falls to 0V, and V+ falls to +5V. For applica-tions where a +10V external supply is applied to the V+pin (instead of using the internal charge pump to gen-erate +10V), the C1 capacitor must not be installed and the SHDN pin must be tied to V CC . This is because V+is internally connected to V CC in shutdown mode.RS-232 DriversThe typical driver output voltage swing is ±8V when loaded with a nominal 5k ΩRS-232 receiver and V CC =+5V. Output swing is guaranteed to meet the EIA/TIA-232E and V.28 specification, which calls for ±5V mini-mum driver output levels under worst-case conditions.These include a minimum 3k Ωload, V CC = +4.5V, and maximum operating temperature. Unloaded driver out-put voltage ranges from (V+ -1.3V) to (V- +0.5V).Input thresholds are both TTL and CMOS compatible.The inputs of unused drivers can be left unconnected since 400k Ωinput pullup resistors to V CC are built in (except for the MAX220). The pullup resistors force the outputs of unused drivers low because all drivers invert.The internal input pullup resistors typically source 12µA,except in shutdown mode where the pullups are dis-abled. Driver outputs turn off and enter a high-imped-ance state—where leakage current is typically microamperes (maximum 25µA)—when in shutdownmode, in three-state mode, or when device power is removed. Outputs can be driven to ±15V. The power-supply current typically drops to 8µA in shutdown mode.The MAX220 does not have pullup resistors to force the outputs of the unused drivers low. Connect unused inputs to GND or V CC .The MAX239 has a receiver three-state control line, and the MAX223, MAX225, MAX235, MAX236, MAX240,and MAX241 have both a receiver three-state control line and a low-power shutdown control. Table 2 shows the effects of the shutdown control and receiver three-state control on the receiver outputs.The receiver TTL/CMOS outputs are in a high-imped-ance, three-state mode whenever the three-state enable line is high (for the MAX225/MAX235/MAX236/MAX239–MAX241), and are also high-impedance whenever the shutdown control line is high.When in low-power shutdown mode, the driver outputs are turned off and their leakage current is less than 1µA with the driver output pulled to ground. The driver output leakage remains less than 1µA, even if the transmitter output is backdriven between 0V and (V CC + 6V). Below -0.5V, the transmitter is diode clamped to ground with 1k Ωseries impedance. The transmitter is also zener clamped to approximately V CC + 6V, with a series impedance of 1k Ω.The driver output slew rate is limited to less than 30V/µs as required by the EIA/TIA-232E and V.28 specifica-tions. Typical slew rates are 24V/µs unloaded and 10V/µs loaded with 3Ωand 2500pF.RS-232 ReceiversEIA/TIA-232E and V.28 specifications define a voltage level greater than 3V as a logic 0, so all receivers invert.Input thresholds are set at 0.8V and 2.4V, so receivers respond to TTL level inputs as well as EIA/TIA-232E and V.28 levels.The receiver inputs withstand an input overvoltage up to ±25V and provide input terminating resistors withDrivers/ReceiversTable 2. Three-State Control of ReceiversMAX220–MAX249Drivers/Receiversnominal 5k Ωvalues. The receivers implement Type 1interpretation of the fault conditions of V.28 and EIA/TIA-232E.The receiver input hysteresis is typically 0.5V with a guaranteed minimum of 0.2V. This produces clear out-put transitions with slow-moving input signals, even with moderate amounts of noise and ringing. The receiver propagation delay is typically 600ns and is independent of input swing direction.Low-Power Receive ModeThe low-power receive mode feature of the MAX223,MAX242, and MAX245–MAX249 puts the IC into shut-down mode but still allows it to receive information. This is important for applications where systems are periodi-cally awakened to look for activity. Using low-power receive mode, the system can still receive a signal that will activate it on command and prepare it for communi-cation at faster data rates. This operation conserves system power.Negative Threshold—MAX243The MAX243 is pin compatible with the MAX232A, differ-ing only in that RS-232 cable fault protection is removed on one of the two receiver inputs. This means that control lines such as CTS and RTS can either be driven or left floating without interrupting communication. Different cables are not needed to interface with different pieces of equipment.The input threshold of the receiver without cable fault protection is -0.8V rather than +1.4V. Its output goes positive only if the input is connected to a control line that is actively driven negative. If not driven, it defaults to the 0 or “OK to send” state. Normally‚ the MAX243’s other receiver (+1.4V threshold) is used for the data line (TD or RD)‚ while the negative threshold receiver is con-nected to the control line (DTR‚ DTS‚ CTS‚ RTS, etc.). Other members of the RS-232 family implement the optional cable fault protection as specified by EIA/TIA-232E specifications. This means a receiver output goes high whenever its input is driven negative‚ left floating‚or shorted to ground. The high output tells the serial communications IC to stop sending data. To avoid this‚the control lines must either be driven or connected with jumpers to an appropriate positive voltage level.Shutdown—MAX222–MAX242On the MAX222‚ MAX235‚ MAX236‚ MAX240‚ and MAX241‚ all receivers are disabled during shutdown.On the MAX223 and MAX242‚ two receivers continue to operate in a reduced power mode when the chip is in shutdown. Under these conditions‚ the propagation delay increases to about 2.5µs for a high-to-low input transition. When in shutdown, the receiver acts as a CMOS inverter with no hysteresis. The MAX223 and MAX242 also have a receiver output enable input (EN for the MAX242 and EN for the MAX223) that allows receiver output control independent of SHDN (SHDN for MAX241). With all other devices‚ SHDN (SH DN for MAX241) also disables the receiver outputs.The MAX225 provides five transmitters and five receivers‚ while the MAX245 provides ten receivers and eight transmitters. Both devices have separate receiver and transmitter-enable controls. The charge pumps turn off and the devices shut down when a logic high is applied to the ENT input. In this state, the supply cur-rent drops to less than 25µA and the receivers continue to operate in a low-power receive mode. Driver outputs enter a high-impedance state (three-state mode). On the MAX225‚ all five receivers are controlled by the ENR input. On the MAX245‚ eight of the receiver out-puts are controlled by the ENR input‚ while the remain-ing two receivers (RA5 and RB5) are always active.RA1–RA4 and RB1–RB4 are put in a three-state mode when ENR is a logic high.Receiver and Transmitter EnableControl InputsThe MAX225 and MAX245–MAX249 feature transmitter and receiver enable controls.The receivers have three modes of operation: full-speed receive (normal active)‚ three-state (disabled)‚ and low-power receive (enabled receivers continue to function at lower data rates). The receiver enable inputs control the full-speed receive and three-state modes. The transmitters have two modes of operation: full-speed transmit (normal active) and three-state (disabled). The transmitter enable inputs also control the shutdown mode. The device enters shutdown mode when all transmitters are disabled. Enabled receivers function in the low-power receive mode when in shutdown.M A X 220–M A X 249Tables 1a–1d define the control states. The MAX244has no control pins and is not included in these tables. The MAX246 has ten receivers and eight drivers with two control pins, each controlling one side of the device. A logic high at the A-side control input (ENA )causes the four A-side receivers and drivers to go into a three-state mode. Similarly, the B-side control input (ENB ) causes the four B-side drivers and receivers to go into a three-state mode. As in the MAX245, one A-side and one B-side receiver (RA5 and RB5) remain active at all times. The entire device is put into shut-down mode when both the A and B sides are disabled (ENA = ENB = +5V).The MAX247 provides nine receivers and eight drivers with four control pins. The ENRA and ENRB receiver enable inputs each control four receiver outputs. The ENTA and ENTB transmitter enable inputs each control four drivers. The ninth receiver (RB5) is always active.The device enters shutdown mode with a logic high on both ENTA and ENTB .The MAX248 provides eight receivers and eight drivers with four control pins. The ENRA and ENRB receiver enable inputs each control four receiver outputs. The ENTA and ENTB transmitter enable inputs control four drivers each. This part does not have an always-active receiver. The device enters shutdown mode and trans-mitters go into a three-state mode with a logic high on both ENTA and ENTB .The MAX249 provides ten receivers and six drivers with four control pins. The ENRA and ENRB receiver enable inputs each control five receiver outputs. The ENTA and ENTB transmitter enable inputs control three dri-vers each. There is no always-active receiver. The device enters shutdown mode and transmitters go into a three-state mode with a logic high on both ENTA and ENTB . In shutdown mode, active receivers operate in a low-power receive mode at data rates up to 20kb/s.__________Applications InformationFigures 5 through 25 show pin configurations and typi-cal operating circuits. In applications that are sensitive to power-supply noise, V CC should be decoupled to ground with a capacitor of the same value as C1 and C2 connected as close as possible to the device.Drivers/Receivers。

Eaton JGH310032GEaton Series G electronic molded case circuit breaker, JG-frame, JG, Digitrip 310 RMS, Electronic LSI trip, Three-pole, 100A, 600 Vac, 250 Vdc, 100 kAIC at 240 Vac, 65 kAIC at 480 Vac, 25 kAIC at 600 Vac, Line and load, 50/60 HzGeneral specificationsEaton Series G electronic molded case circuit breakerJGH310032G 7821160180863.44 in 7 in4.13 in 6.5 lb Eaton Selling Policy 25-000, one (1) year from the date of installation of theProduct or eighteen (18) months from thedate of shipment of the Product,whichever occurs first.CE Marked UL ListedIEC RatedCSA CertifiedProduct NameCatalog NumberUPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertificationsSeries G25 kAIC at 600 Vac 100 kAIC at 240 Vac 65 kAIC at 480 VacComplete breakerJGJG50/60 HzComplete breakerLine and load600 Vac, 250 Vdc100 AElectronic LSIThree-pole Application of Multi-Wire Terminals for Molded Case Circuit Breakers Application of Tap Rules to Molded Case Breaker TerminalsStrandAble terminals product aidComprehensive circuit protection for control panel applicationsCircuit breaker motor operators product aidMotor protection circuit breakers product aidMulti-wire lugs product aidSeries G MCCB quick selectorCurrent limiting molded case circuit breaker module for series G, JG and CLCurrent limiting molded case circuit breaker module product aidPower metering and monitoring with Modbus RTU product aidMolded case circuit breakers providing higher levels of selective coordination product aidHigh performance operating handles for Series G circuit breakers product aidPlug-in adapters for molded case circuit breakers product aidBreaker service centersJ-Frame 310+ and L-Frame 310+ Molded-case circuit breakersMolded case circuit breakers catalogEaton's Volume 4—Circuit ProtectionAB DE-ION CIRCUIT BREAKER TYPE JG BRKR JG CURR LIMITER 3 POLE OUTLINEJG-frame Molded Case Circuit Breaker DrawingInstallation Instructions for Series G J-Frame Circuit BreakersEaton Specification Sheet - JGH310032GMOEM MCCB product selection guideSeries G, J-frame Time Current CurveNG and ND-Frame molded case circuit breakersSeriesInterrupt ratingTypeFrameCircuit breaker type Frequency ratingCircuit breaker frame type TerminalsVoltage rating Amperage RatingTrip TypeNumber of poles Application notesBrochuresCatalogsDrawingsInstallation instructions Specifications and datasheetsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

Sensing distance Supply voltageOutput80 mA12 to 24 VDC2 m 10, 30 cm2, 5 m Photoelectric SensorE3SGeneral-purpose Miniature SensorsShort response time: 3 ms.Easy adjustment of sensitivity and optical axis with STABILITY and LIGHT indicators.Wire-selectable operation mode.Mutual interference protective circuit eliminates cross talk (reflective sensor only).Sensing distance (m)Sensing distance (m)E x c e s s g a i n r a t i oSensing distance (m)E3S-DS30E4S(1)Sensing distance (m)Parallel Operating RangeE3S-2E4(1)E3S-5E4(41)(42)E3S-R2E4(1)Distance X (cm)Distance X (cm)Distance X (m)Indicates the optical reception level according to the sensing distance. There is a reception level margin of five to ten times at the rated sensing distance.E3S-SE4SOperating levelIndicates the optical reception level according to the sensing distance.There is a reception level margin of approximately three times at the rated sensing distance.E3S-DS30E4SOperating levelE3S-2E41E3S-2E4XYXYOperating RangeE3S-DS10E4(1)Distance X (cm)Distance X (cm)Distance X (cm)Distance X (cm)SensitivityE3S-DS30E4(1)(2), E3S-DS10E4(1)Size of object d (cm)Distance XOptical axisStandard object (5×5 cm)XOptical axisStandard object (5×5 cm)XOperating positionStandardsensing object (10 x 10 cm)E3S-DS30E4(1)(2)E3S-DS10E4 (1)White mat paperObjectddYXNote:1.A mounting bracket can be attached to side A.2.Receiver only.E3S-2E(B)41Cord:4-mm dia., 18/0.12, 3-conductor Standard length: 2 mWeight:approx. 80 g each for emitter andreceiverNote:1.A mounting bracket can be attached to side A.2.Receiver only.12.8 dia.6 dia.7 mm dia. lens(see note 1)E39-L3Two, M3 screws12.8 dia.6 dia.Indicator7 mm dia. lensSensitivity adjustor (see note 2)(A) (see note 1)Two, M3 screwsNote:1.A mounting bracket can be attached to side A.2.Receiver only.E3S-5E(B)41Cord:4-mm dia., 18/0.12, 3-conductor Standard length: 2 mWeight:approx. 165 g each for emitter andreceiver Note:1.A mounting bracket can be attached to side A.2.Receiver only.13.dia.E39-L6Two, M4 slotted hexagonal bolts11 mm dia. lens(A) (see note 1)IndicatorSensitivity adjustor(see note 2)Two, M4 slotted hexagonal bolts13 dia.E3S-5E(B)4S(1)4.5-mm dia., 18/0.12, 4-conductor Standard length: 2 mWeight:approx. 155 g11 mm dia. lensIndicatorTwo, M4 slotted hexagonal boltsSensitivity adjustor (receiver only)Mode selector (receiver only)Cord protectorTwo mounting holesMounting bracket16 dia.(2.1R)Note: A mounting bracket can be attached to side A.E3S-DS30E(B)4S(1)4.5-mm dia., 18/0.12, 4-conductorStandard length: 2 mapprox. 155 gE3S-R2E42E3S-DS30E42Cord:4-mm dia., 18/0.12, 3-conductorStandard length: 2 mWeight:approx. 165 gMounting HolesE3S-2LE(B)4, E3S-2DE(B)4E3S-2LE(B)41, E3S-2DE(B)41E3S-DS10E(B)4, E3S-DS10E(B)41E3S-5LE(B)4(1), E3S-5DE(B)4(1), E3S-5E4S(1)E3S-DS30E(B)4, E3S-R2E(B)4, E3S-R2E42E3S-DS30E(B)41, E3S-R2E(B)41E3S-DS30E42, E3S-DS30E4S(1)Two, M4 slottedhexagonal boltsEmitterReceiverLens (10 x 15)13 dia.(A) (see note)EmitterReceiverTwo, M4 slottedhexagonal bolts11 mmdia. lensSensitivity adjustor (receiver only)Mode selector (receiver only)Cord protectorTwo mounting holesIndicatorMounting bracket16 dia.Two, M4 slotted hexagonal bolts EmitterReceiverLens (10 x 15)Indicator Sensitivity adjustor13 dia.Two, M3 holes Two, M4 holes2025.4Note: A mounting bracket can be attached to side A.E3S-DS10E(B)41Cord:4.5-mm dia., 18/0.12, 3-conductor Standard length: 2 mWeight:approx. 80 gNote: A mounting bracket can be attached to side A.E3S-R2E(B)4E3S-DS30E(B)44-mm dia., 18/0.12, 3-conductor Standard length: 2 mapprox. 165 gNote: A mounting bracket can be attached to side A.Emitter ReceiverLens (7 x 13)6 dia.12.8 dia.Indicator Sensitivity adjustorEmitterReceiver(A) (see note)Lens (7 x 13)6 dia.12.8 dia.Two, M3(A) (see note)Lens (10 x 15)IndicatorSensitivity adjustorReceiverEmitter Two, M4 slotted hexagonal bolts13 dia.Accessories (Order Separately)E39-R1 Retroreflector(Supplied with E3S-R2E(B)4(1))Two, 3.5 dia.E39-L2 Mounting BracketApplicable Photoelectric Sensors:E3S-5E41, E3S-R2E41,E3S-DS30E41E39-L4 Mounting BracketApplicable Photoelectric Sensors:E3S-2E41, E3S-DS10E41E39-G1 Sensitivity Adjuster KnobThis accessory is attached to the following models:E3S-5E4(41), E3S-DS30E4(41), E3S-R2E4(41),E3S-LS10XE4, E3S-LS20XE4, E3S-GS1E4, E3S-GS3E4Note:This adjuster cannot be used with Models E3S-2DE4(41)and E3S-DS10E4(41).Two, M4 slottedhexagonal boltsE39-S2SpacerNote: 1.Model E39-S2 can have any of three different dimensions:6.5 x 0.5 mm, 6.5 x 1 mm, and 6.5 x 2 mm.2.Two slits (one for the emitter and the other for the receiver) are used inDistance with SlitPhotoelectric sensor E3S-5E4, E3S-5E4j, E3S-5B4, E3S-5B4j E3S-2E4, E3S-2E41, E3S-2B4, E3S-2B41E39-S21 mm2 mm 4 mm0.5 mm58 cm 1.2 m 2.5 m17 cm1 mm2 mm 4 mm0.5 mm。

Eaton PDG32PH400E2WLEaton Power Defense molded case circuit breaker, Globally Rated, Frame 3, Two Pole, 400A High Override, 100kA/480V, PXR20 LSI w/ Modbus RTU, ZSI and Relays, Standard Terminals Load Only (PDG3X2TA631)General specificationsEaton Power Defense molded case circuit breakerPDG32PH400E2WL 109.1 mm257.1 mm 138.9 mm 5.2163 kgEaton Selling Policy 25-000, one (1) year from the date of installation of the Product or eighteen (18) months from the date of shipment of the Product, whichever occurs first.RoHS CompliantUL 489 IEC 60947-2 CCC Marked CSAProduct NameCatalog Number Product Length/Depth Product Height Product Width Product Weight WarrantyCompliances Certifications400A High Override Complete breaker 3Two-polePD3 Global Class A PXR 20 LSIModbus RTU600 Vac600 VStandard Terminals Load Only100 kAIC at 480 Vac 200 kAIC @240V (UL) 22 kAIC Icu @250 Vdc 400 A high overridePower Xpert Protection Manager x64Consulting application guide - molded case circuit breakers Power Xpert Protection Manager x32StrandAble terminals product aidPower Defense molded case circuit breaker selection posterAmperage Rating Circuit breaker frame type Frame Number of poles Circuit breaker type Class Trip Type Communication Voltage rating Voltage rating - max TerminalsInterrupt rating Interrupt rating range Trip ratingApplication notesBrochuresPower Defense brochurePower Defense technical selling bookletCataloguesPower Xpert Release trip units for Power Defense molded case circuit breakersMolded case circuit breakers catalogCertification reportsPDG3 CSA certification 100-400aPDG3 CSA certification 250-600aPDG3 UL authorization 100-400aPDG3 45-400A CB reportPDG3 UL authorization 250-600a TMTUEU Declaration of Conformity - Power Defense molded case circuit breakersPDG3B 450A-600A CB reportInstallation instructionsPower Defense Frame 3 interphase barrier - IL012229EN H03Power Defense Frame 1-2-3-4 IP door barrier assembly instructions -IL012278ENPower Defense Frame 3 reverse feed connector kit Cat NumPDG3X3(2)(4)TA630RF instructions - IL012253ENPower Defense Frame 3 multi-tap terminal kit Cat NumPDG3X3(2)(4)TA6006WSW instructions - IL012250ENPower Defense Frame 3 box terminal installation instructions -IL012299ENPower Defense Frame 3 multi-tap terminal kit Cat NumPDG3X3(2)(4)TA6006W Instructions - IL012248ENPower Defense Frame 3 trip unit replacement instructions - IL012157EN Power Defense Frame 3 Aux, Alarm, ST and UVR Animated Instructions.rh Power Defense Frame 3 Direct Rotary Handle Assy With Interlock Version Instructions (IL012139EN).pdfPower Defense Frame 4 shunt trip UVR instructions - IL012129EN Power Defense Frame 3 terminal kit Cat Num PDG3X3(2)(4)TA400RF instructions - IL012251ENPower Defense Frame 3 multi wire connector kit -PDG3X3(2)(4)TA4006W and PDG3X3(2)(4)TA4003W instructions-IL012247EN H01Power Defense Frame 3 finger protection assembly installation instructions - IL012279ENPower Defense Frame 3 reverse feed connector kit Cat NumPDG3X3(2)(4)TA400HRF instructions - IL012252ENPower Defense Frame 4 locking devices and handle block instructions - IL012151ENPower Defense Frame 3 shunt trip UVR instructions - IL012140EN Power Defense Frame 3 rear connection installation instructions -IL012300ENPower Defense Frame 3 adapter kit installation instructions LZM3 to PD3 - IL012227ENPower Defense Frame 3 extendable shaft rotary handle mech -IL012112ENPower Defense Frame 3 handle mech direct rotary handle instructions - IL012111ENPower Defense Frame 3 locking devices and handle block instructions - IL012150ENPower Defense Frame 4 reverse feed connector kit instructions for PDG4X3(2)(4)TA800RF instructions - IL012254ENPower Defense Frame 3 terminal spreader assembly instructions -IL012301ENPower Defense Frame 3 Breaker Instructions (IL012107EN).pdfPower Defense Frame 2/3/4/5/6 voltage neutral sensor module wiring instructions – IL012316ENPower Defense Frame 3 plug-in adapter installation instructions -IL012311ENInstallation videosPower Defense Frame 3 Locking Devices and Handle Block Animated Instructions.pdf.rhPower Defense Frame 3 Handle Mech Variable Depth Rotary Handle Animated Instructions.rhPower Defense Frame 3 Shunt Trip_UVR Animated Instructions.pdf.rh Power Defense Frame 3 trip unit replacement animated instructions.rh Power Defense Frame 3 Handle Mech Direct Rotary Handle Animated Instructions.rhMultimediaPower Defense Frame 3 Aux, Alarm, Shunt Trip, and UVR How-To Video Power Defense Frame 5 Trip Unit How-To VideoEaton Power Defense for superior arc flash safetyPower Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense molded case circuit breakersPower Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 6 Trip Unit How-To VideoPower Defense BreakersEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaPower Defense time current curve Frame 3 - PD3Selling Policy 25-000 - Distribution and Control Products and Services Intelligent circuit protection yields space savings Single and double break MCCB performance revisited Molded case and low-voltage power circuit breaker health Intelligent power starts with accurate, actionable dataImplementation of arc flash mitigating solutions at industrial manufacturing facilitiesMaking a better machineSafer by design: arc energy reduction techniques Molded case and low-voltage breaker healthTime/current curvesWarranty guidesWhite papers。

环保型高导电塑料护套综合贯通地线范围本说明规定了环保型高导电塑料护套综合贯通地线（以下简称贯通地线）的使用特性、型号、规格、技术要求、试验方法、检验规则、标志、包装、运输及贮存。

本标准规定的环保型高导电塑料护套综合贯通地线适用于铁路信号系统轨道电路区段与电缆同沟敷设的贯通地线，亦适用于铁路客运专线综合接地系统、电气化铁路电力牵引回流地线或电气设备的接地线。

使用特性产品机械强度高，弯曲能力和抗冲击能力强。

可用于震动较为剧烈、使用条件较为恶劣的铁路运输环境。

产品的敷设温度不低于－10℃。

产品的使用环境温度范围：－40℃～＋60℃，导体长期工作温度不超过70℃。

产品的允许弯曲半径应不小于产品外径的15倍。

产品所用材料均无毒，不会对环境造成污染。

型号、名称、规格及产品表示方法产品的型号、名称如下表产品规格应符合下表的规定。

产品表示方法产品用型号、规格表示。

示例1：环保型铜芯高导电塑料护套综合贯通地线，标称截面35 mm2，表示为：DHS 1×35技术要求与试验方法1 导体导体应采用符合GB 3953规定的TR型软圆铜线。

对于DHS型贯通地线，导体应采用GB/T 3956规定的第2种绞合导体。

绞合时的最外层绞合节距为绞合外径的10～15倍，内层绞合节距为不大于内层绞合外径的20倍。

最外层绞合方向为右向，相邻层绞向相反。

绞合后的导体表面应光洁、无氧化、无毛刺、无油污、无凸起或断裂的单线。

允许单根导体接续，接续处的抗张强度不得小于无接续导体抗张强度的90%，试验方法应符合GB/T4909.3 规定。

绞合导体不允许整股接续，参与绞合的单根导体同一层内相邻两个接头之间的距离不小于300mm。

2 高导电塑料护套高导电塑料护套标称厚度为1.2 mm。

高导电塑料护套的任一点最小厚度应不小于1.0mm，试验方法为采用精度不低于0.02㎜的卡尺测量。

高导电塑料护套挤出要求包覆紧密，表面光滑圆整，无气泡、脱胶进水、刮伤现象。

关于DAY,CSB,TDK,ZDK系列开水器详细参数介绍DAY/CSB/ZDK等系列产品属于2001年度发行的《01S125开水器（开水炉）选用及安N72H》开水器参选产品，系由上海正水环保科技有限公司与工业设计研究院以及建筑标准设计研院根据开水器最新标准拟定的最新开水器选用标准产品。

所有产品采用最新的步进式加热技术，内置净化装置，部分产品选用膜处理技术，冷热两用。

型号解释：DAY--表示“电开水器”T81--指我是开水器序列代号，表示“标准型净化开水器”一般内置1-3级别初级净化装置（PP+UDF+CTO)T82--指我是开水器序列代号，表示“直饮水、开水两用净化开水器“一般内置5-6级净化装置（PP+UDF+CTO+UF+T33+uv杀菌）末尾数字（1-5）--指的是开水器规格序号。

---------------------------------------------------------------------------------------CSB--表示”电开水器“CSB末尾数字（4、6、9、12)--表示功率KW---------------------------------------------------------------------------------------TDK/ZDK表示”电开水器“TDK/ZDK-3、6、9、12等中间两位数表示功率KWTDK/ZDK末尾两位数字表示有效容积L。

型号有效容积（L)额定功率(KW)额定电压(V)开水产生供水功能必威尔DAY-T811353380、22036开水必威尔DAY-T81235638072开水必威尔DAY-T81350638072开水必威尔DAY-T814509380108开水必威尔DAY-T8155012380144开水必威尔DAY-T82135338036冷热两用必威尔DAY-T82235638072冷热两用必威尔DAY-T82350638072冷热两用必威尔DAY-T824509380108冷热两用必威尔DAY-T8255012380144冷热两用必威尔CSB-420422040开水必威尔CSB-650638060开水必威尔CSB-9809380110开水必威尔CSB-1210012380150开水必威尔CSB-1815018380190开水必威尔TDK6-30306380/22072开水必威尔TDK12-606012380/220144开水必威尔TDK24-10010024380288开水必威尔TDK45-20020045380540开水必威尔TDK60-30030060380720开水必威尔ZDK1.5-1313 1.522018开水必威尔ZDK3-2520322036开水必威尔ZDK6-3525638072开水必威尔ZDK7.5-50507.538090开水必威尔ZDK9-80809380108开水必威尔ZDK12-10510512380144开水必威尔ZDK15-15015015380180开水必威尔ZDK18-20020018380216开水必威尔ZDK24-24824824380288开水。