ABB电子版选型手册-5月11日

技术资料控制产品－软起动器PSR•PSS••PST/PSTB（带力矩控制）Softstarter电压 Ｖ100 %电流 /力矩 /时间电动机转速电动机转速图中所示的是直接起动、星/三角起动和软起动在电动机电压 (V)、电动机电流 (I) 和电动机力矩 (T) 时的不同表现。

58 %70 %30 %电动机电压直接起动直接起动直接起动软起动软起动星 / 三角起动软起动可调节的起动斜坡曲线星 / 三角起动星 / 三角起动电动机电流电动机力矩软起动器当第一台电动机出现时，工程师就一直在寻找一种方法，避免在使用直接起动和星三角起动时出现的电气和机械问题。

自20世纪80年代初，ABB 就一直生产软起动器，并且拥有宝贵的经验。

如今这些经验也融入到产品系列的设计中。

最新推出的PST 系列是 ABB 在软起动技术上的一次重大进步。

应用了现代电力电子学中的智能电路和软件，ABB 开发出的软起动器可以出色地使用电子元件来控制电动机起动和停止时的电流和电压，同时还添加了几种设计特性。

机械和电气问题的解决方案交流电动机 — 被称做 "工业的驮马"，用于驱动风扇、压碎机、搅拌机、水泵、输送带等设备。

在全世界的生产中，它经常引发不必要的负荷高峰。

这些不良的起动方式造成多方面的损坏，其中包括：电气问题，在直接起动或星三角起动中产生的电压和电•流突变，带来了大量的电气问题。

这些突变现象可能使得本地电网过载，并产生不可接受的电压波动，从而影响与电网连接的其他设备。

机械问题，整条传动链 (从电动机到受驱动的设备) 都会•受到剧烈的应力。

运行问题，例如管道的压力、损坏输送带上的产品，以•及引起乘坐升降机的不舒适。

经济损失也应当受关注的：每个技术问题和故障后，以及因需要维修及停产所造成的大量损失。

解决这些问题的简单方法是安装ABB 的PSR 、PSS 或PST 型的软起动器。

有了ABB 软起动器，就可以顺畅地起动和停止，最大程度地减少机械上和电气上的冲击。

High Voltage Surge ArrestersBuyer´s Guide — Section HS PEXLIM T-TZinc-Oxide Surge Arrester HS PEXLIM T-TProtection of switchgear, transformers and other equipment in high voltage systems against atmospheric and switching overvoltages.−in areas with very high lightning intensity−where grounding or shielding conditions are poor or incomplete−for important installations−where energy requirements are very high (e.g. very long lines, capacitor protection).−Specially suited to extreme seismic zones.Superior where low weight, non-fragility and additional personnel safety is required.Other data can be ordered on request. Pleasecontact your local sales representative.Brief performance dataSystem voltages (U m)245 - 800 kVRated voltages (U r)180 - 624 kV Nominal discharge current (IEC)10/15/20 kA peak Classifying current (ANSI/IEEE)10/15 kA peakDischarge current withstand strength:High current 4/10 µsLow current 2000 µs100 kA peak2200 A peakEnergy capability:Line discharge class (IEC)[2 impulses, (IEC Cl. 8.5.5)Fulfils/exceeds requirements of ANSI transmission-line discharge test for 362 kV systems.Class 515.4 kJ/kV (U r)]Short-circuit/Pressure relief capability65 kA symExternal insulation Fulfils/exceedsstandardsMechanical strength:Specified long-term load (SLL)Specified short-term load (SSL)19000 Nm28000 NmService conditions:Ambient temperatureDesign altitudeFrequency-50 °C to +45 °Cmax. 1000 m15 - 62 HzABB Surge Arresters — Buyer´s Guide | Technical information 71HS PEXLIM T-T Guaranteed protective dataMax. system voltage RatedvoltageMax. continuousoperating voltage 1)TOV capability 2)Max. residual voltage with current waveas perIECas perANSI/IEEE30/60 µs8/20 µsU m kV rms U rkV rmsU ckV rmsMCOVkV rms1 skV rms10 skV rms1 kAkV peak2 kAkV peak3 kAkV peak5 kAkV peak10 kAkV peak20 kAkV peak40 kAkV peak245180144144209198354364371389405438476 192154154218207369380387406423457497 216156174246233415427435457476514559 228156180259246438451459482502542590 300228182182259246438451459482502542590 240191191273258461475484507528571621 362258206209310293523538548575599647704 264211212310293523538548575599647704 276221221314297531546556583608656714 380288230230328310554569580609634685745 400300240240342323577593604634660713776 420330264267378358638656669702731789859 360267291410388692712725761792856931 3902673154444207507717868248589271013 5503963173184744487938168318729089811072 4203363364784538078308468889249981091 44434935350647985387889493897710601153 800On requestMore detailed information on the TOV capability and the protective characteristics are given in Publ. 1HSM 9543 13-01en.1) The continuous operating voltages U c (as per IEC) and MCOV (as per ANSI) differ only due to deviations in type test procedures.U c has to be considered only when the actual system voltage is higher than the tabulated.Any arrester with U c higher than or equal to the actual system voltage divided by √3 can be selected.2) With prior duty equal to the maximum single-impulse energy stress (10.0 kJ/kV (U r)).Arresters with lower or higher rated voltages may be available on request for special applications.72 Technical information | ABB Surge Arresters — Buyer´s GuideMax. system voltage RatedvoltageHousing CreepagedistancemmExternal insulation *)DimensionsU m kV rms U rkV rms1.2/50 µsdrykV peak50 Hzwet (60s)kV rms60 Hzwet (10s)kV rms250/2500 µswetkV peakMasskgA maxmmBmmCmmDmmFig.245180-216TH245695010815245107501702310600-3001 228TV2459900150070070010502453495600-3002 300228-240TV30099001500700700105026034951600100010003 362258-276TH36299001500700700105026534951600100010003 380288TH38099001500700700105027034951600100010003 400300TM40099001500700700105027034951600100010003 420330TH420119001831874860127530040351600100010003 360TH42011900183187486012753004035120010006003390TV4201390021621048102015003304575120010006003 550396TH55014300216210481020150035048902000100012004 420TH55014300216210481020150035048902000100012004444TH55014850225010501050157540555402000100012005*) Sum of withstand voltages for empty units of arrester.ABB Surge Arresters — Buyer´s Guide | Technical information 7374 Technical information | ABB Surge Arresters — Buyer´s GuideFigure 1Figure 2Figure 4Figure 5Line terminals1HSA410 000-AAluminium1HSA410 000-B Aluminium flag with other items in stainless steel1HSA410 000-CAluminium1HSA410 000-DStainless steel Earth terminals1HSA420 000-UStainless steel1HSA420 000-VStainless steelDrilling plansWithout insulating baseAluminiumInsulating base1HSA430 000-PGalvanized steelM20 bolts for connection tostructure are not supplied by ABB.HS PEXLIM T-TAccessoriesABB Surge Arresters — Buyer´s Guide | Technical information 7576 Technical information | ABB Surge Arresters — Buyer´s GuideRated voltage Housing Number of arresters per crate One Three Six U r kV rms Volume m 3Gross kg Volume m 3Gross kg Volume m 3Gross kg 180TH245 5.4315 5.4676 6.01262192TH245 5.4316 5.4680 6.01270216TH245 5.4321 5.4692 6.01295228TV245 2.6340 4.3893--228TV300 2.8405 5.31006--240TV300 2.8407 5.31011--258TH362 2.8411 5.31026--264TH362 2.8411 5.31026--276TH362 2.8412 5.31028--288TH380 2.8414 5.31033--300TM400 2.8416 5.31038--330TH420 5.8507 6.61163--360TH420 5.2452 5.51086--390TV420 5.2483 5.51179--396TH550 6.7611 6.71355--420TH550 6.76126.71357--HS PEXLIM T-TShipping dataEach crate contains a certain number of arrester units and accessories for assembly and erection. A packing list is at-tached externally on each crate.Each separate crate is numbered and the numbers of all crates and their contents are listed in the shipping specifica-tion. ABB reserves the right to pack arresters in the most effective/economic combination. Alternate or non-standard crates may involve additional charges.The table above is to be seen as an approximation and specific data for deliveries may differ from the values given.Rated voltage HousingNumber of arresters per crate One Two U r kV rms Volume m 3Gross kg Volume m 3Gross kg 444TH550 3.76025.51054S e c t i o n o f 1H S M 9543 12-00e n H i g h V o l t a g e S u r g e A r r e s t e r s B u y e r ´s G u i d e , E d i t i o n 9.1, 2012-02For more information please contact:ABB ABHigh Voltage Products Surge ArrestersSE-771 80 Ludvika, Sweden Phone: +46 (0)240 78 20 00 Fax: +46 (0)240 179 83E-Mail:********************.com/arrestersonline©Copyright 2012 ABBAll rights reservedNOTE: ABB AB works continuously with product improvements. We therefore reserve the right to change designs, dimensions and data without prior notice.。

选用手册ABB低压电器元件1SXF100200L2006 10-2006低压产品低压产品20062006低压电器元件选用手册目录页1.断路器1空气断路器- New E ............................................................................... 1/ 1-4塑壳断路器- T ....................................................................................... 1/5-8塑壳断路器- Iso................................................................................... 1/9- 10漏电保护组件/漏电保护继电器........................................................................ 1/ 11双电源自动切换装置- DPT ............................................................................. 1/ 12配电智能化元件-IPD ............................................................................... 1/ 13- 142.工控产品软起动器..................................................................................................... 2/ 1-7 2接触器........................................................................................................... 2/8手动电机起动器- MS系列........................................................................... 2/9- 11短路保护电器和接触器及热继电器的配合.......................................................... 2/ 12电动机保护.............................................................................................. 2/ 13- 17指示装置.................................................................................................. 2/ 18- 19接线端子.................................................................................................. 2/20-2 1电子产品和继电器..................................................................................... 2/22-243.开关及熔断器组3开关熔断器组- PowerLine ............................................................................... 3/ 1负荷开关- Sw itchLine .................................................................................. 3/2-3熔断器开关- Easy Line .................................................................................... 3/44.终端配电保护产品4建筑电器元件............................................................................................... 4/ 1-8建筑用接触器- ESB 导轨安装........................................................................ 4/9电涌保护器- OV R ......................................................................................... 4/ 10优化脉冲提前放电避雷针- OPR ...................................................................... 4/ 115.箱体终端配电箱- A CM/A CP/A CF 系列..................................................................... 5/ 1 5三相配电箱- SDB系列................................................................................. 5/2-3动力配电箱- MDS系列................................................................................. 5/4-56.电网质量产品6电容器专用接触器........................................................................................... 6/ 1无功补偿控制器件........................................................................................ 6/2-3有源动态滤波器........................................................................................... 6/4-57.断路器保护配合表7断路器保护配合表...................................................................................... 7/ 1- 10●因产品技术不断改进，所有数据应以本公司最新确认为准。

ABB分销商培训教材技术部分内容简介1产品选用基本技术参数2常用产品选用注意事项3产品大全及分类1元件选用基本技术参数本章节列出的是选用每种元件必须的基本技术参数，具体参数选择请参阅《ABB 低压电器元件选用手册》及相关样本。

断路器 1.1 1-7Emax空气断路器 1.1.1•框架•框架电流•分断能力•额定电流•脱扣器•极数•安装方式•附件控制电压例如:E1 B 12 PR111/P-LI R1250 3P WHR框架分断能力框架电流脱扣器额定电流极数安装方式技术参数代号解释框架: E1 E1 Iu = 800~1250AE1 Iu = 800~1250AE2 Iu = 1250~2000AE3 Iu = 1250~3200AE4 Iu = 3200~4000AE6 Iu = 3200~6300A分断能力： B B: 40kAB: 40kAN: 65kAS: 75kAH: 100kAV: 150KAL: 130KA框架电流：12 1250A（E1，1250A--E6，6300A）脱扣器：PR111/P-LI PR111/P-LI PR111脱扣器，二段保护PR111/P-LI PR111脱扣器，二段保护PR111/P-LSI PR111脱扣器，三段保护PR111/P-LSIG PR111脱扣器，四段保护PR112/P-LSI PR112脱扣器，三段保护PR112/P-LSIG PR112脱扣器，四段保护PR112/PD-LSI PR112脱扣器，三段保护带对话单元PR112/PD-LSIG PR112脱扣器，四段保护带对话单元PR113/P-LSIG PR113脱扣器，四段保护PR113/PD-LSIG PR113脱扣器，四段保护带对话单元额定电流：R1250 1250A（E1，250A--E6，6300A）极数: 3P 3极（3或4极可选）安装方式：WHR W：抽出式（W：抽出式F：固定式）HR：水平后接线HR 水平后接线VR 垂直后接线F 延伸接线FL 端面接线（固定式无）附件控制电压：需要注明控制电压附件---YO，YC，YU，MIsomax塑壳断路器 1.1.2 •框架•框架电流•额定电流•分断能力•脱扣器（TM热敏电磁脱扣器型无须提供）•极数•安装方式•附件控制电压例如:TM热敏电磁脱扣器型：S2 S – 160 / R125 3P FFC框架分断能力框架电流额定电流极数安装方式技术参数代号解释框架: S2 S2S1 I=125S2 I=160S3 I=160,250S5 I=400,630S6 I=630,800分断能力：S SS1: B / N KA数值请查样本S2: B / N / S KA数值请查样本S3: N / H / L KA数值请查样本S5: N / H / L * KA数值请查样本S6: N / S / H / L KA数值请查样本框架电流：160A 参阅框架额定电流：R125 125AS1-125, 10A----S6-800, 800A极数：3P 3极（3或4极可选）安装方式：FFC F: 固定式F: 固定式P: 插入式(S6/S7不适用)W: 抽出式(S1/S2不适用)FC: 铜电缆前接线F: 前接线EF: 加长前接线ES: 加长扩展前接线FC: 铜电缆前接线R: 螺纹后接线RC: 铜/铝后接线附件控制电压：需要注明控制电压附件---YO，YC，YU，M框架 分断能力 框架电流 脱扣器 额定电流 极数 安装方式微处理器脱扣器型：S4 N – 250 / In125 LSIG 3P FFC技术参数 代号 解释框架:S4S4 I=160,250 S4 I=160,250 S5 I=400,630 S6 I=630,800 S7 I=1250,1600S8 I=2000, 2500, 3200分断能力： N NS4: N / H / L KA 数值请查样本 S5: N / H / L KA 数值请查样本 S6: N / S / H / L KA 数值请查样本 S7: S / H / L KA 数值请查样本 S8: H / V （新品）KA 数值请查样本框架电流： 250 参阅框架 额定电流： R125 125AS4-160, 100A----S6-800, 3200A脱扣器： LSIG LSIG: 长延迟＋短延迟＋瞬动＋接地故障I: 短路瞬动 LI: 长延迟＋瞬动LSI: 长延迟＋短延迟＋瞬动LSIG: 长延迟＋短延迟＋瞬动＋接地故障 LRIU: 长延迟+堵转+瞬动+断相或相不平衡( PR010/K,PR212/D,PR212/T 参见样本 )极数： 3P 3极（3或4极可选）安装方式： FFC F: 固定式F: 固定式P: 插入式(S6/S7不适用) W: 抽出式(S1/S2不适用)FC: 铜电缆前接线 F: 前接线 EF: 加长前接线 ES: 加长扩展前接线 FC: 铜电缆前接线 R: 螺纹后接线 RC: 铜/铝后接线 附件控制电压： 需要注明控制电压附件---YO ，YC ，YU ，MIsomax塑壳断路器限流型 1.1.3 •框架•框架电流•额定电流•分断能力•极数•安装方式附件控制电压例如:技术参数代号解释S3 X - 125 / R80 3P FEF框架分断能力框架电流额定电流极数安装方式框架: S3 S3S2 I=1~100 分档S3 I=125,200S4 I=250S6 I=400,630分断能力：X XS2X分断能力70KA； S3X，S4X，S6X分断能力200KA框架电流：125 参阅框架额定电流：R80 80AS2X-80: 1~80(19档), 3P,单磁 (参见样本)S2X-100:1~100(16档), 3P, 参见样本S3X-125: 32,50,80,100,125S3X-200: 125,160,200S4X-250: 100,160,250S6X-400: 320,400S6X-630: 630极数：3P 3极（3或4极可选）安装方式：FEF F: 固定式F: 固定式P: 插入式(S6)W: 抽出式(S1/S2不适用)EF: 加长前接线F: 前接线EF: 加长前接线ES: 加长扩展前接线FC: 铜电缆前接线R: 螺纹后接线RC: 铜/铝后接线附件控制电压：需要注明控制电压附件---YO，YC，YU，M一体化剩余电流断路器 1.1.4•框架•框架电流•额定电流•极数•安装方式•排列•附件控制电压例如:S2 N – 160 / R125 4P FFC +RC212/ 2V框架分断能力框架电流额定电流极数安装方式脱扣器技术参数代号解释框架、分断能力、框架电流：S2N-160只有两种S2N-160，S3N-250额定电流：R80 80AS2-160: 12.5,16,20,25,32,40,50,63,80,100,125,160S3-250: 32,40,50,63,80,100,125,160,200,250S3及以下磁脱扣固定为10倍,非标可有5倍或单磁. 极数：4P 4P安装方式：FFC F: 固定式F: 固定式FC: 铜电缆前接线F: 前接线（S3N）FC: 铜电缆前接线（S2N）排列：V V：垂直安装V：垂直安装，H：水平安装附件控制电压：需要注明控制电压附件---YO，YC，YU，M切换回路数回路数额定电流额定电流 安装方式 电源自动切换装置1.1.5DPT• 切换回路数 • 额定电流例如:DPT / SE1600技术参数代号 解释 切换回路数： SESE 双电源切换，TE 三电源切换 额定电流：1600 1600A 主回路电流Isomax 低压塑壳断路器配合剩余电流保护继电器1.1.6RC212• 框架电流• 安装方式例如:RC212 / 2 / 垂直安装技术参数 代号解释额定电流： 2（代码） 配S2-160/4P: 选 2 配S2-160/4P: 选 2 配S3-250/4P: 选 3 安装方式： 垂直安装 垂直安装与断路器叠装: 垂直安装 与断路器并装: 水平安装RCD• 剩余动作电流例如:剩余动作电流互感器内径主回路电流极数辅助触头数量控制电压RCD 0.03技术参数代号解释剩余动作电流: 0.03 30 mA剩余动作电流：0.03 - 0.1 - 0.3 -0.4 - 1A剩余电流保护继电器 1.1.7 RCQ•互感器内径例如:RCQ Ф110技术参数代号解释互感器内径: 110mm Φ110 mmΦ60 mm互感器内径Φ110 mm互感器内径工控产品及接线附件 1.2 1-3接触器系列 1.2.1接触器 1.2.1a •主回路电流•控制电压（交、直流）•极数•辅助触头数量例如:A30 – 30 - 10 控制电压ac220V技术参数代号解释主回路电流: 30 30A极数: 30 3常开前一位代表常开，后一位代表常闭，数字为数量辅助触头数量10 一常开前一位代表常开，后一位代表常闭，数字为数量控制电压（交、直流）ac220V 交流220VTA热过载继电器 1.2.1b •热脱扣电流•轻重载（450以上）例如:T450 DU 400主回路电流轻重载脱扣电流技术参数代号解释主回路电流: 450 450A轻重载：DU DU普通DU普通SU重载中间继电器 1.2.1c •触点数、主触点组合方式（常开、常闭）•控制电压、交、直流操作例如:N 63 E 控制电压ac220V触点数、主触点组合方式控制电压、交、直流操作技术参数代号解释触点数、主触点组合方式：63 6常开，3常闭前一位代表常开，后一位代表常闭，数字为数量控制电压、交、直流操作：控制电压ac220V额定电流触点数、主触点组合方式控制电压、交、直流操作框架电流和分断能力额定电流ESB接触器 1.2.1d •额定电流•主触点组合方式（常开、常闭）•控制电压、交、直流操作•灯具应用请参阅样本例如:ESB 63 - 31 控制电压ac220V技术参数代号解释额定电流：63 63A20 对AC1/AC7a负载24 对AC1/AC7a负载40 对AC1/AC7a负载63 对AC1/AC7a负载触点数、主触点组合方式：31 6常开，3常闭ESB20: 可选: 20, 02, 11ESB24: 可选: 40, 04, 22, 31, 13ESB40: 可选: 40ESB63: 可选: 40前一位代表常开，后一位代表常闭，数字为数量控制电压、交、直流操作：控制电压ac220V灯具应用：请参阅样本电动机起动器 1.2.2 •框架电流和分断能力•热脱扣电流例如:MS 325 - 20框架电流和分断能力：325 MS325 50KA，0.1-25AMS325 50KA，0.1-25AMS450 50kA，16~50AMS451 50KA，16~50AMS495 50KA，40~100AMS496 100KA，40~100AMS497 100KA，16~100A额定电流20 20APSS、PST、PSTB软启动器 1.2.3 •电机额定电流（结合功率考虑）•负载类型（重、轻载）•控制电源电压例如:PSS - 18/30电机额定电流技术参数代号解释电机额定电流：18/30 18A外接法/30A内接法（PSS）负载类型（重、轻载）：参阅样本控制电源电压：参阅样本开关及熔断器设备 1.3 1-3开关熔断器组 1.3.1 OS、OESA•额定电流•极数例如:OESA 250 D3PL 3P额定工作电流极数额定工作电流：250 250A极数：3P 3极负荷开关/隔离开关 1.3.2 OT、OETL•额定电流•极数例如:OETL 250 K3 3P额定工作电流极数技术参数代号解释额定工作电流：250 250A极数：3P 3极Easyline熔断丝切换隔离开关 1.3.3 XLP三极•额定电流例如：XLP 00额定电流技术参数代号解释额定电流：00 160A按照样本根据电流选择型号线路保护装置 1.4极数脱扣特性额定电流极数脱扣特性额定电流数量剩余电流动作电流微型断路器 1.4.1 •额定电流•极数（最后位数字为可选项，1为1极，2为2极…依此类推，例如S261）•分断能力•脱扣特性（B、C、D、K等）例如:S 261 – C 20技术参数代号解释极数: 261 1极最后位数字为可选项，1为1极，2为2极…依此类推脱扣特性： C CB、C、D、K、Z根据样本，由不同系列不同电流而不同额定电流：20 20A根据样本，由不同系列有不同电流范围过电流保护电磁式剩余电流动作断路器 1.4.2DS250S•额定电流•极数(最后位数字为可选项，1为1极，2为2极…依此类推，例如DS252) •分断能力•脱扣特性（B、C）•剩余电流动作电流例如:DS253S-C 40 / 0.03技术参数代号解释极数：DS253 3极极数脱扣特性额定电流数量剩余电流动作电流最后位数字为可选项，2为2极…依此类推（无1极）脱扣特性： C CB、C两种额定电流：40 40A根据样本，由不同系列有不同电流范围剩余电流动作电流：0.03 30mADS9•额定电流•极数(最后位数字为可选项，1为1极，2为2极。

1STC802005D0201ArTu PBPanelboardTechnical catalogueIndexThree-step selection process (2)PanelboardGeneral information (4)Selection (5)Custom panelboardGeneral information (6)Selection (7)Custom pan assemblyGeneral information (8)Selection (9)Incoming selection kit (10)MCCB Outgoing breaker selection (11)AccessoriesMCCB (13)Panelboard (14)Custom panelboard and pan assembly (15)In-depth technical information (16)Overall dimensions (20)Lifting and overhead travelling (23)List of codes (24)ABB SACE1ArTu PB Panelboard Three-step selection process3ABB SACE STEP 1Select the fixed Panelboard required from page 5or Select the Custom Panelboard required from page 7or Select the Custom Pan Assembly required from page 9STEP 2Select the incoming device and the inner door required from page 10STEP 3Select the outgoing device required from page 11Remember4ABB SACEArTu PB PanelboardGeneral informationThe ArTu distribution switchboards are enriched by the new ArTuPB Panelboard series, for applications up to 800 A incomer withoutgoing ways up to 250 A, which complete now the ABB offer.The ArTu PB panelboard is extremely sturdy, thanks to the new design in metalwork system.The ArTu PB panelboard is available as wall mounted as standard,and in three configurations of 6, 12 and 18 outgoing ways, withthe option of building your own custom panelboard.The new system allows you to fit T1 and T3 three or four pole and the single pole MCCB off the same copper system using the all Technical characteristicsCompliance with Standards CEI EN 60439-1Rated service voltage - Ue up to 690 V Rated insulation voltage - Ui up to 1000 V Rated frequency 50-60 Hz Rated impulse withstand voltage - Uimp 8 kV Rated current - Inup to 800 A Rated short-circuit short-timeWithstand current - Icw up to 50 kA Rated short-circuit peak current - Ipk up to 110 kA IP degree of protection 43 with doornew plug in system designed by ABB.An extension box is available with a width of 390mm which can be fitted on both sides of the structure.There is also an option of adding a top and bottom extension box;metering extension boxes are also available.Trunking has been fitted vertically behind each row of MCCBs to allow cabling from SR’s, UV’s and AUX contacts to be channelled away. As standard the panelboard is fitted with a plain door but,as an option, it can be fitted with a glazed one.5ABB SACE ArTu PB Panelboard SelectionSTEP 1Select the fixed capacity Panelboardrequired from the table below.Panelboard fixed capacityOrder code* T3 4 pole Panelboard equals only 16 outgoing ways.ArTu PB Custom Panelboard General informationThe new ArTu PB panelboard gives you the flexibility to design your own custom panelboard.There are three sizes for the fixed panelboard, 6, 12 and 18 outgoing ways, and each one can be equipped with an incoming breaker from 250 A to 800 A, three or four pole.Each panelboard has a fixed dimension of copper depending on the quantity of outgoing ways you require.All you have to do is select the plug-in bases and fill up the copper bar to suit the breakers you need.Any left over copper can be shrouded and MCB blanking platescan be used to fill out the inner door.6ABB SACEABB SACE7ArTu PB Custom Pan Assembly General informationAlso the pan assembly version allows you to design your own customized switchboard. As for the panelboard, it is available in three sizes with 6, 12 and 18 outgoing ways, each of which can be equipped with an incoming breaker from 250 A to 800 A, three or four pole.As standard the pan assembly is supplied as a three or four pole.Each pan assembly has a fixed dimension of copper depending on the quantity of outgoing ways you require. All you have to do is select the plug-in bases and fill up the copper bar to suit the breakers you need. Any left over copper can be shrouded andMCB blanking plates can be used to fill out the inner door.8ABB SACEArTu PB Custom Pan AssemblySelectionCustom Pan AssemblyOrder code* T3 4 pole beakers equals only 16 outgoing ways.ABB SACE9ArTu PB PanelboardIncoming selection kitDirect connection kitSTEP 2Select the incoming connection kitrequired from the table below.Order codeIncomer options(Connection kits must be ordered with each incoming breaker)Order codeArTu PB PanelboardMCCB Outgoing breaker selectionSTEP 3Select the outgoing devices requiredfrom the table below.T1B Single pole MCCB(Thermomagnetic release)Order codeT1B Three pole MCCB(Thermomagnetic release)Order codeT1C Three pole MCCB(Thermomagnetic release)Order codeArTu PB PanelboardMCCB Outgoing breaker selectionT1N Three pole MCCB(Thermomagnetic release)Order codeT3N Three pole MCCB(Thermomagnetic release)Order codeT3S Three pole MCCB(Thermomagnetic Release)Order codeFront connection terminal sets are required for all T3 outgoing devices.ArTu PB PanelboardAccessoriesShunt opening release - SOR(cabled version)Undervoltage release - UVR(cabled version)Auxiliary contacts - AUX(cabled version)High terminal cover HTCOrder codeFront terminal for copper cables - FC CUMCCBArTu PB PanelboardAccessoriesGlazed door for panelboardPlinthTop/Bottom extension modulesSide extension modules for panelboardOrder CodeMetering extension modulesCustom PanelboardArTu PB PanelboardAccessoriesPlug In deviceAccessoriesCustom Panelboard and Pan AssemblyIPIP122nd number defined by the CEI 70-1 – IEC 529 Standards1S T C 802095F 0001ArTu PBIn-depth technical informationArTu PBIn-depth technical informationFigure defined by the CEI EN 50102 StandardArTu PB PanelboardIn-depth technical informationCompliance with CEI EN 60439-1 StandardThe ArTu PB Panelbord have undergone the type tests foreseen by the CEI EN 60439-1 Standards. The results of these tests guarantee the performances of the ArTu switchboards and, by using the metalwork structures, ABB SACE air, modular and moulded-case circuit-breakers, mean that the end switchboard constructor does not have to carry out any further type tests by following the selection criteria and the assembly instructions for the various components. These results, which are indicated below, can be referred to for making out the declaration of conformity of the switchboard.Over-temperature (Ref. par. 8.2.1 of the Standard)The table on page 7/5 and following pages shows the thermal dissipation values referred to all the dimensions of ArTu switchboards and to the type of installation, deriving from the type tests carried out. The dissipated power data (in Watt) is according to the admissible over-temperature inside the switchboard (appropriately taking into account the simultaneity factor).ArTu PBRated service voltage:up to 690V ACRated insulation voltage:up to 1000V ACRated impulse withstand voltage:8kVArTu PB up to 400A ArTu PB up to 800AShort-circuit withstand current:phase-phase35kA (1s)50kA (1s)phase-neutral21kA (1s)30kA (1s)Rated max. peak short-circuit current:52,5kA73,5kAArTu PB up to 400A ArTu PB up to 800A(Rif. par. 8.2.4.1)Following the assembly indications of the metal components, the effective electrical continuitybetween the exposed conductive parts is verified, with negligible resistance values.(Rif par. 8.2.4.2)Protection circuit short-circuit withstand current: phase-earthing busbar21kA (1s)30kA (1s)The insulation distances are guaranteed by following the ABB SACE metalwork structure and circuit-breaker assembly and mounting instructions. Mechanical operation is verified by following the assembly and mounting instructions of the ABB SACE metalwork structures and circuit-breakers.ArTu PBWith door IP 43ArTu PB with the following rated characteristics:Rated service voltage up to 690 V Rated insulation voltage up to 1000V Rated current / I CW ArTu PB up to 400A / 35kA flat busbar ArTu PB up to 800A / 50kA profiled busbar Degree of protectionArTu PBIP 43 (with door)ArTu PB PanelboardIn-depth technical informationMaterialArTu PB structure 12/10mm thick pickled steel sheet Panels 12/15/10mm thick steel sheetDoors15/10mm hot galvanised steel sheet. 4mm thick glass tempered from insidePaintingStructureColour Grey orange-peel RAL 7035Base strip colour Grey RAL 7012Standard cycleSheet washingPhosphating with iron salt base Drying in tunnel at 100°CExternal and internal painting with electrostatic application of thermosetting powder enamel with epoxy polyester binders. Grey orange-peel RAL 7035 colour, total thickness: 60/70 micron.Polymerisation in oven at 180°C.Paint characteristicsBinder:epoxy polyester Specific gravity: 1.61 g/cm 3Theoretical coverage:10.4 m 2/kg with average film thickness 60 micron Melting point:85-95°C (Kofler bench method)Granulometry:standard distribution between 5 and 100 micron with average size of theparticles between 30 and 40 micron. Hardening: 12 min. at 190°C (temperature of object)Hardness:1H - 2H DIN 53152 bending elasticity:unaltered on 1/4” spindle DIN 53151 reticular adherence:GT O (100%)Erichem elasticity:SEN DIN 53156: > 6mm Gardner resistance to impact:25 Kg. x cm.Tests carried out on degreased and phosphated sheets with film thickness of 60/70 micron.The painting has passed the resistance tests to saline fog (193 hours).Ambient characteristicsType of installation indoors Installation conditions Wall / Floor Service climate (t ° /% r.h.)constant 23°C/83% - 40°C/93%variable 23°C/98% - 40°C/98%Ambient temperature limitsoperating -5°C +40°C storage-25°C +55°CThe above is valid if the switchboard is designed and constructed:•selecting the materials according to the performances indicated in the ABB catalogues;•sizing the conductors according to the prescriptions of the EN 60439-1 and CEI 64-8 Standards;•carrying out the individual tests foreseen under the EN 60439-1 Standard successfully.when correctly selected and assembled, as per the indications given in this catalogue and in the instruction manual, they allow construction of switchboards complying with the EN 60439-1 Standard, on the basis of what is foreseen by the Low Voltage Directive of the European Community (Directive 73/23/EEC, Law 791/1977).ArTu PB Panelboard Overall DimensionsArTu PB PanelboardOverall Dimensions21ABB SACEArTu PB PanelboardOverall Dimensions22ABB SACE23ABB SACE In the case of structures W=900mm (with internal or external cable container) containing busbar systems, check the centre of gravity before handling.Structure(mm)(mm)(mm)(mm)ArTu PBWidth 600mm4759697296For greater safety during transport using a fork-lift truck,it is advisable to anchor the switchboard to the truck:To handle using a crane or overhead travelling crane, check the following conditions before lifting the switchboard:excellent state of the ropes or chains;•the angle between the lifting ropes and the switchboard roof must be ≥ 45°;•the maximum number of columns transported is 3;•ArTu PB maximum weight lifted as per DIN 580 (M8).To respect the conditions described above, a lifting beam with appropriate characteristics can be used when there are several columns side by side.24ABB SACEArTu PB PanelboardList of codes640T1PB3400A 6 way 3 pole T1 outgoing 160A 1050x690x20474,95640T3PB3400A 6 way 3 pole T3 outgoing 250A 1250x690x20486,35680T3PB3800A 6 way 3 pole T3 outgoing 250A 1250x690x20487,25640T1PB4400A 6 way 4 pole T1 outgoing 160A 1250x690x20485,65640T3PB4400A 6 way 4 pole T3 outgoing 250A 1450x690x24099,65680T3PB4800A 6 way 4 pole T3 outgoing 250A 1450x690x240101,05124T1PB3400A 12 way 3 pole T1 outgoing 160A 1450x690x240100,15124T3PB3400A 12 way 3 pole T3 outgoing 250A 1650x690x240109,55128T1PB3800A 12 way 3 pole T1 outgoing 160A 1450x690x240101,35128T3PB3800A 12 way 3 pole T3 outgoing 250A 1650x690x240111,15124T1PB4400A 12 way 4 pole T1 outgoing 160A 1650x690x240112,05124T3PB4400A 12 way 4 pole T3 outgoing 250A 1850x690x240125,95128T1PB4800A 12 way 4 pole T1 outgoing 160A 1650x690x240114,15128T3PB4800A 12 way 4 pole T3 outgoing 250A 1850x690x240128,75184T1PB3400A 18 way 3 pole T1 outgoing 160A 1850x690x240127,65188T1PB3800A 18 way 3 pole T1 outgoing 160A 1850x690x240130,05188T3PB3800A 18 way 3 pole T3 outgoing 250A 2050x690x240138,65184T1PB4400A 18 way 4 pole T1 outgoing 160A 2050x690x240139,95188T1PB4800A 18 way 4 pole T1 outgoing 160A 2050x690x240143,05188T3PB4800A 16 way 4 pole T3 outgoing 250A 2050x690x240145,15CU680PB3 6 Way 3 pole (800A Busbar) 1250mm High 1250x690x20485,77CU128PB312 Way 3 pole (800A Busbar) 1650mm High 1650x690x240105,97CU188PB318 Way 3 pole (800A Busbar) 2050mm High 2050x690x240128,77CU680PB4 6 Way 4 pole (800A Busbar) 1450mm High 1450x690x24095,37CU128PB412 Way 4 pole (800A Busbar) 1850mm High 1850x690x240117,37CU188PB418 Way 4 pole (800A Busbar) 2050mm High 2050x690x240131,37CU680PA3 6 Way 3 pole (800A Busbar) 1177mm High 1177x544x10518,09CU128PA312 Way 3 pole (800A Busbar) 1577mm High 1577x544x10524,09CU188PA318 Way 3 pole (800A Busbar) 1977mm High 1977x544x10527,99CU680PA4 6 Way 4 pole (800A Busbar) 1377mm High 1377x544x10519,09CU128PA412 Way 4 pole (800A Busbar) 1777mm High 1777x544x10525,89CU188PA418 Way 4 pole (800A Busbar) 1977mm High 1977x544x10530,59400DC3/4P 400A Direct connection kit 3 and 4 pole 1,010800DC3P 800A Direct connection kit 3 pole 2,210800DC4P 800A Direct connection kit 4 pole 2,610P6X6DC Direct connection inner door 4,810250T33P 250A T3 3 pole MCCB connection kit 3,010250T34P 250A T3 4 pole MCCB connection kit 3,410P6X6T3T3 inner door7,5310400S53P 400A S5 3 pole MCCB connection kit 3,610400S54P 400A S5 4 pole MCCB connection kit 4,210630S53P 630A S5 3 pole MCCB connection kit 3,710630S54P 630A S5 4 pole MCCB connection kit 4,410P6X6S5S5 inner door7,5310800S63P 800A S6 3 pole MCCB connection kit 3,110800S64P 800A S6 4 pole MCCB connection kit 3,510P6X6S6S6 inner door 7,5310PV1000Glazed Door 1000mm 1000h x 690w 10,314PV1200Glazed Door 1200mm 1200h x 690w 12,314PV1400Glazed Door 1400mm 1400h x 690w 14,414PV1600Glazed Door 1600mm 1600h x 690w 16,314PV1800Glazed Door 1800mm 1800h x 690w 18,314PV2000Glazed Door 2000mm2000h x 690w20,314ZL1000Four Corner Feet 100mm High For Main Structure 2,514ZL1001Finishing Profile For Above Plinth1,114Part DescriptionDimensions Weights Page Number (Kg)Part DescriptionDimensionsWeights Page Number (Kg)ZL3000Two Feet 100mm High For Side Extension Box 1,514ZL2001Finishing Profile For Side Extension Box 0,714200EXMOD 200mm High top & bottom extension box 200h x 690w 12,514RC1000385mm structure extension box 385h x 690w 24,014RC2000385mm cable container extension box 385h x 390w 18,014MI1000Side Extension Box Uprights 1000mm 1000mm 2,814VC1000Side Extension Box Cable Container 1000mm 1000mm 9,814PC1002Side Extension Box Front Door 1000mm 1000mm 5,714MI1200Side Extension Box Uprights 1250mm 1250mm 3,414VC1200Side Extension Box Cable Container 1250mm 1250mm 11,714PC1202Side Extension Box Front Door 1250mm 1250mm 7,214MI1400Side Extension Box Uprights 1450mm 1450mm 4,014VC1400Side Extension Box Cable Container 1450mm 1450mm 13,714PC1402Side Extension Box Front Door 1450mm 1450mm 8,414MI1600Side Extension Box Uprights 1650mm 1650mm 4,514VC1600Side Extension Box Cable Container 1650mm 1650mm 15,014PC1602Side Extension Box Front Door 1650mm 1650mm 9,514MI1800Side Extension Box Uprights 1850mm 1850mm 5,114VC1800Side Extension Box Cable Container 1850mm 1850mm 16,214PC1802Side Extension Box Front Door 1850mm 1850mm 10,614MI2000Side Extension Box Uprights 2050mm 2050mm 5,714VC2000Side Extension Box Cable Cotainer 2050mm 2050mm 18,014PC2002Side Extension Box Front Door 2050mm 2050mm11,814PLT11L1/L3P T1 Single Pole L1 & L3 plug in base0,315PLT11L2P T1 Single Pole L2 plug in base 0,315PLT13P T1 Three Pole plug in base 0,915PLT14P T1 Four Pole plug in base 0,415PLT23P T2 Three Pole plug in base 1,015PLT24P T2 Four Pole plug in base 0,415PLT33P T3 Three Pole plug in base 1,115PLT34P T3 Four Pole plug in base 0,515PLRCD Dummy Base For RCD0,915SH630Busbar Shroud 630mm Long 3 pcs 630mm Long 0,315MODT1T1 Busbar Shroud 10pcs 0,115MODT2T2 Busbar Shroud 10pcs 0,115MODT3T3 Busbar Shroud 10pcs 0,115SPARE1Spares Kit0,815200EXMET200mm High metering box200h x 690w11,81S T C 005001B 0901 06/’03P r i n t e d i n I t a l y 2.000/O c é F a c i l i t y S e r v i c e s S P A /C A LABB SACE S.p.A.Automation and Distribution Boards23846 Garbagnate Monastero (LC) - Italy Via Italia, 58Tel.: ++39 031.3570.1 - Telefax: ++39 031.3570.228To take into account the evolution of Standards and materials, the characteristics and overall dimensionsindicated in this catalogue can only be considered binding after confirmation from ABB SACE.Certificate N °1612/98/S Certificate N °EMS-051Certificate N °OHS-015。

低压产品目 录页1.断路器空气断路器 - Emax 空气断路器 - New Emax 空气断路器 - Megamax 塑壳断路器 - Isomax 漏电保护组件/漏电保护继电器 塑壳断路器 - Tmax 双电源自动切换装置 - DPT 配电智能化元件 - IPD 2.工控产品软起动器接触器建筑用接触器 - ESB (导轨安装)手动电机起动器 - MS 系列短路保护电器和接触器及热继电器的配合电机控制/保护器件指示装置接线端子3.开关及熔断器组开关熔断器组 - OS/OESA (32…800A)负荷开关 - OT/OETL (16…3150A)熔丝开关 - Easyline/Fastline 4.终端配电保护建筑电器元件电涌保护器 - OVR 5.箱体终端配电箱 - ACM/ACP/ACF 系列三相配电箱 - SDB 系列动力配电箱 - MDS 系列6.电网质量产品无功补偿控制器件有源谐波滤波器7.断路器保护配合表断路器保护配合表因产品技术不断改进，所有数据应以本公司最新确认为准。

ABB 公司对本手册的接受或使用无任何商业承诺或保证，由使用者根据具体应用考虑本手册的适应性。

0/1ABB 低压电器元件选用手册1234567...................................................................................... 1/1-3.............................................................................. 1/4-7................................................................................ 1/8-9................................................................................ 1/10-15........................................................................ 1/16.................................................................................. 1/17-20............................................................................ 1/21............................................................................... 1/22-23..................................................................................................... 2/1-7........................................................................................................... 2/8........................................................................ 2/9......................................................................... 2/10-12.......................................................... 2/13................................................................................... 2/14-22................................................................................................. 2/23-24................................................................................................. 2/25-26............................................................. 3/1................................................................ 3/2-3........................................................................ 3/4-5............................................................................................. 4/1-13........................................................................................ 4/14..................................................................... 5/1................................................................................. 5/2-3................................................................................. 5/4-5........................................................................................ 6/1-4.............................................................................................. 6/5........................................................................................ 7/1-5。

前言衷心感谢您使用“华振”牌智能变频供水设备，我们将为您提供优质的产品和星级的售后服务。

我公司吸取行业内智能变频供水设备的技术精髓，集长期从事水泵行业和智能变频供水设备的设计经验，研制开发的ZBH第三代、第四代、第五代、第六代智能变频供水设备，已广泛运于高层建筑、住宅楼、商住楼、新老小区降耗节能改造、高级宾馆、医院、学校、工矿企业的生产生活用水等，是一种节能型，现代化，智能化的变频供水设备。

本使用说明书向您详细介绍了“华振”牌系列智能变频供水设备的产品说明、技术说明、操作、故障处理，保养维护等各方面内容。

为了更好的使用智能变频供水设备，请您在操作前仔细阅读本说明书，这将会：●帮助您了解智能变频供水设备的结构及性能特点。

●避免由于操作不当而引起的设备故障。

●提高设备的使用寿命。

●增强设备使用的可靠性。

值得注意的是，本说明书的资料及图形在出版时是正确的，但我公司产品的结构和性能总在不断地改进和完善，本说明书的相关内容可能有变化，恕不一一通知,敬请谅解。

感谢您对“华振”的信任，衷心地祝愿您在事业中大展宏图，取得辉煌成就。

成都华振供水设备有限公司- 1 -))1 MΩ电阻与机壳连接用于模拟输入电位器的给定电压输出.10 V±2%))1 MΩ电阻与机壳连接频率。

0…20 mA ( 数字输入6，可编程。

默认Ω。

数字输入最大电压一般显示性能软键功能每个软键上方的文字描述的是当前软键功能的含义。

显示对比度同时按住 MENU （菜单）键和 UP （向上）或DOWN （向下）可以改变显示对比- 5 -顶行液晶屏的顶行显示变频器的基本的状态信息。

• LOC （本地） - 表示变频器处于本地控制，即控制命令来自控制盘。

• REM （远程） - 表示变频器处于远程控制, 例如 I/O (X1) 或现场总线。

• - 显示变频器和电机的旋转状态:4、应用宏的选择 中崛供水设备应用宏选择，用于泵的循环软起控制中，在ABB 变频器设置中9902的值为15（SPFC 控制）.注意! 参数2108 START INHIBIT （禁止起动）必须保持为默认设置0 (OFF)。

0.4-1.0倍，步距 0.04倍 0.4-1.0倍，步距 0.02倍0.4-1.0倍，步距 0.02倍Tmax型号说明，四段保护，额定电流800A,4极，单磁保护，额定电流250A,3极Tmax 型号说明塑壳断路器漏电组件及漏电保护继电器1.漏电组件T1-160/3P或4P+RC221/RC222T2-160/3P或4P+RC221/RC222T3-250/3P或4P+RC221/RC222T4-320/4P或T5-630/4P+RC222注： 1.RC221漏电动作电流：0.03--0.1--0.3--0.5--1--3A 可调。

2.RC222漏电动作电流：0.03--0.05--0.1--0.3--0.5--1--3--5--10 A 可调。

3.RC222延迟时间: 0--0.1--0.2--0.3--0.5--1--2--3S可调。

4.RC222可提供预报警信号触头和报警信号触头。

2.漏电保护继塑壳型号 +RCQ注： 1.RCQ 漏电动作电流：0.03--0.05--0.1--0.3--0.5--1--3--10--30 A 可调。

2.延迟时间： 0--0.1--0.2--0.3--0.5--0.7--1--2--3--5S可调。

3.可提供报警接点。

协议报警ModbusRTUstandard测量功能相电流，中性线电流，接地电流维护信号功能L 功能的LED预报警与报警L 功能报警接点输出数据获取开关况态: 开-合模式: 本机, 远程操作机构保护参数设置IL, S, I, G功能报警脱扣控制失败报警操作总次数脱扣和脱扣测试总次数人工操作总次数各种保护功能脱扣的次数最后一次脱扣的相关数据开关分合(通过马达操作)报警重置开关再扣 (通过马达操作)设定保护装置的曲线和脱扣值。

ABB电子版选型手册《ABB电子版选型手册》随着科技的迅速发展，电子设备已经成为我们日常生活和工业领域中不可或缺的一部分。

ABB（ASEA Brown Boveri）是一家全球领先的电力和自动化技术供应商，他们的产品在能源、工业、交通和基础设施领域中得到广泛应用。

为了帮助用户更好地选择适合其需求的ABB产品，本手册提供了详细的电子版选型指南。

## 第一部分：ABB简介在开始探讨ABB电子版选型手册之前，让我们先简要了解ABB公司。

ABB成立于1883年，总部位于瑞士苏黎世，拥有遍布全球的分支机构和办事处。

他们专注于电力传输、电力配电、工业自动化以及电动交通等领域，提供各种电子设备和解决方案，以满足不同行业的需求。

## 第二部分：为什么选择ABB电子设备在众多电子设备供应商中，ABB脱颖而出的原因在于其卓越的产品质量、可靠性和创新性。

以下是一些选择ABB电子设备的关键原因：1. **卓越的质量控制**：ABB以高标准的质量控制流程著称，确保其产品在各种环境下都能稳定运行。

2. **广泛的产品线**：ABB提供各种电子设备，包括变频器、电机、传感器、控制系统等，满足不同行业的需求。

3. **创新技术**：ABB不断投资于研发，推出领先市场的新技术和解决方案，有助于提高效率和可持续性。

4. **可持续性承诺**：ABB致力于减少环境影响，通过其产品和解决方案帮助客户降低能源消耗和排放。

## 第三部分：ABB电子版选型手册的优势ABB电子版选型手册是一份宝贵的资源，可以帮助用户快速准确地选择适合其需求的ABB电子设备。

以下是这一手册的主要优势：1. **详尽的产品信息**：手册提供了ABB各种产品的详细信息，包括规格、性能数据和应用领域。

2. **选型建议**：手册中包含专业的选型建议，帮助用户根据其具体需求和应用场景选择最合适的产品。

3. **案例研究**：通过实际案例研究，手册展示了ABB产品在不同行业中的应用，帮助用户更好地理解其潜在价值。

ABB Emax 空气断路器选型表
包括标准附件：
分励(YO) 220V
合闸线圈(YC) 220V
电机(M) 220V
机械及电气跳闸指示
辅助接点： 10CO - PR121
4CO - PR122
注： 1.以上开关均可选择3极，4极；标注为3P，4P。

2.以上开关均可选固定式或抽出式。

3.脱扣器 PR121/P为基本保护型脱扣器,有二、三、四段保护可选；
PR122/P为可拓展保护型脱扣器，有二、三、四段保护可选(部分电量采集)
PR122/PD为可带通讯功能的拓展保护型脱扣器
PR123/P为可拓展保护型脱扣器，有三、四段保护可选(全电量采集)
PR123/PD为可带通讯功能的拓展保护型脱扣器
L，S，I，G分别为过载，短路短延时，短路瞬时，接地保护。

例：E3S25 PR121/P-LSI R2500 3P W HR
ABB--ACB--E。

Dimensions: [mm]Scale - 1:17443641015074436410150744364101507443641015074436410150T e m p e r a t u r eT pT L74436410150Cautions and Warnings:The following conditions apply to all goods within the product series of WE-HCF of Würth Elektronik eiSos GmbH & Co. KG:General:•This electronic component was designed and manufactured for use in general electronic equipment.•Würth Elektronik must be asked for written approval (following the PPAP procedure) before incorporating the components into any equipment in fields such as military, aerospace, aviation, nuclear control, submarine, transportation (automotive control, train control, ship control), transportation signal, disaster prevention, medical, public information network, etc. where higher safety and reliability are especially required and/or if there is the possibility of direct damage or human injury.•Electronic components that will be used in safety-critical or high-reliability applications, should be pre-evaluated by the customer. •The component was designed and manufactured to be used within the datasheet specified values. If the usage and operation conditions specified in the datasheet are not met, the wire insulation may be damaged or dissolved.•Do not drop or impact the components, as the core may flake apart.•Würth Elektronik products are qualified according to international standards, which are listed in each product reliability report. Würth Elektronik does not guarantee any customer qualified product characteristics beyond Würth Elektroniks’ specifications, for its validity and sustainability over time.•The customer is responsible for the functionality of their own products. All technical specifications for standard products also apply to customer specific products.Product specific:Soldering:•The solder profile must comply with the Würth Elektronik technical soldering specification. All other profiles will void the warranty. •All other soldering methods are at the customers’ own risk.Cleaning and Washing:•Washing agents used during the production to clean the customer application may damage or change the characteristics of the wire insulation, marking or plating. Washing agents may have a negative effect on the long-term functionality of the product. Potting:•If the product is potted in the costumer application, the potting material may shrink or expand during and after hardening. Shrinking could lead to an incomplete seal, allowing contaminants into the core. Expansion could damage the core or wire contacts. Werecommend a manual inspection after potting to avoid these effects. Storage Conditions:• A storage of Würth Elektronik products for longer than 12 months is not recommended. Within other effects, the terminals may suffer degradation, resulting in bad solderability. Therefore, all products shall be used within the period of 12 months based on the day of shipment.•Do not expose the components to direct sunlight.•The storage conditions in the original packaging are defined according to DIN EN 61760-2.Packaging:•The packaging specifications apply only to purchase orders comprising whole packaging units. If the ordered quantity exceeds or is lower than the specified packaging unit, packaging in accordance with the packaging specifications cannot be ensured. Handling:•Violation of the technical product specifications such as exceeding the nominal rated current will void the warranty•Applying currents with audio-frequency signals may result in audible noise due to the magnetostrictive material properties. •Due to heavy weight of the components, strong forces and high accelerations may have the effect to damage the electrical connection or to harm the circuit board and will void the warranty.These cautions and warnings comply with the state of the scientific and technical knowledge and are believed to be accurate and reliable.However, no responsibility is assumed for inaccuracies or incompletenessWürth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODElGa004.0002023-04-26DIN ISO 2768-1mDESCRIPTIONWE-HCF SMT High CurrentInductor ORDER CODE74436410150SIZE/TYPE BUSINESS UNIT STATUS PAGEImportant NotesThe following conditions apply to all goods within the product range of Würth Elektronik eiSos GmbH & Co. KG:1. General Customer ResponsibilitySome goods within the product range of Würth Elektronik eiSos GmbH & Co. KG contain statements regarding general suitability for certain application areas. These statements about suitability are based on our knowledge and experience of typical requirements concerning the areas, serve as general guidance and cannot be estimated as binding statements about the suitability for a customer application. The responsibility for the applicability and use in a particular customer design is always solely within the authority of the customer. Due to this fact it is up to the customer to evaluate, where appropriate to investigate and decide whether the device with the specific product characteristics described in the product specification is valid and suitable for the respective customer application or not.2. Customer Responsibility related to Specific, in particular Safety-Relevant ApplicationsIt has to be clearly pointed out that the possibility of a malfunction of electronic components or failure before the end of the usual lifetime cannot be completely eliminated in the current state of the art, even if the products are operated within the range of the specifications.In certain customer applications requiring a very high level of safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health it must be ensured by most advanced technological aid of suitable design of the customer application that no injury or damage is caused to third parties in the event of malfunction or failure of an electronic component. Therefore, customer is cautioned to verify that data sheets are current before placing orders. The current data sheets can be downloaded at .3. Best Care and AttentionAny product-specific notes, cautions and warnings must be strictly observed. Any disregard will result in the loss of warranty.4. Customer Support for Product SpecificationsSome products within the product range may contain substances which are subject to restrictions in certain jurisdictions in order to serve specific technical requirements. Necessary information is available on request. In this case the field sales engineer or the internal sales person in charge should be contacted who will be happy to support in this matter.5. Product R&DDue to constant product improvement product specifications may change from time to time. As a standard reporting procedure of the Product Change Notification (PCN) according to the JEDEC-Standard inform about minor and major changes. In case of further queries regarding the PCN, the field sales engineer or the internal sales person in charge should be contacted. The basic responsibility of the customer as per Section 1 and 2 remains unaffected.6. Product Life CycleDue to technical progress and economical evaluation we also reserve the right to discontinue production and delivery of products. As a standard reporting procedure of the Product Termination Notification (PTN) according to the JEDEC-Standard we will inform at an early stage about inevitable product discontinuance. According to this we cannot guarantee that all products within our product range will always be available. Therefore it needs to be verified with the field sales engineer or the internal sales person in charge about the current product availability expectancy before or when the product for application design-in disposal is considered. The approach named above does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.7. Property RightsAll the rights for contractual products produced by Würth Elektronik eiSos GmbH & Co. KG on the basis of ideas, development contracts as well as models or templates that are subject to copyright, patent or commercial protection supplied to the customer will remain with Würth Elektronik eiSos GmbH & Co. KG. Würth Elektronik eiSos GmbH & Co. KG does not warrant or represent that any license, either expressed or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right relating to any combination, application, or process in which Würth Elektronik eiSos GmbH & Co. KG components or services are used.8. General Terms and ConditionsUnless otherwise agreed in individual contracts, all orders are subject to the current version of the “General Terms and Conditions of Würth Elektronik eiSos Group”, last version available at .Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODElGa004.0002023-04-26DIN ISO 2768-1mDESCRIPTIONWE-HCF SMT High CurrentInductor ORDER CODE74436410150SIZE/TYPE BUSINESS UNIT STATUS PAGE。

目 录页1.断路器空气断路器 - New Emax 空气断路器 - Megamax 塑壳断路器 - Isomax 漏电保护组件/漏电保护继电器 塑壳断路器 - Tmax 双电源自动切换装置 - DPT 配电智能化元件 - IPD 2.工控产品软起动器接触器建筑用接触器 - ESB (导轨安装)手动电机起动器 - MS 系列短路保护电器和接触器及热继电器的配合电机控制/保护器件指示装置接线端子3.开关及熔断器组开关熔断器组 - PowerLine 负荷开关 - SwitchLine 熔断器开关 - EasyLine/FastLine 4.终端配电保护产品建筑电器元件电涌保护器 - OVR 5.箱体终端配电箱 - ACM/ACP/ACF 系列三相配电箱 - SDB 系列动力配电箱 - MDS 系列6.电网质量产品无功补偿控制器件有源谐波滤波器7.断路器保护配合表断路器保护配合表因产品技术不断改进，所有数据应以本公司最新确认为准。

ABB 公司对本手册的接受或使用无任何商业承诺或保证，由使用者根据具体应用考虑本手册的适应性。

0/1ABB 低压电器元件选用手册1234567.............................................................................. 1/1-4................................................................................ 1/5-6................................................................................ 1/7-12........................................................................ 1/13.................................................................................. 1/14-17............................................................................ 1/18............................................................................... 1/19-20..................................................................................................... 2/1-7........................................................................................................... 2/8........................................................................ 2/9......................................................................... 2/10-12.......................................................... 2/13................................................................................... 2/14-22................................................................................................. 2/23-24................................................................................................. 2/25-26............................................................................... 3/1.................................................................................. 3/2-3................................................................... 3/4-5............................................................................................... 4/1-8........................................................................................... 4/9..................................................................... 5/1................................................................................. 5/2-3................................................................................. 5/4-5........................................................................................ 6/1-4.............................................................................................. 6/5........................................................................................ 7/1-53/1开关熔断器组 - OS/OESA (32…800A )开关熔断器组 - P o w e r L i n e 3说 明：1. 开关熔断器组不包括熔断器,熔断器需另行订购2. 熔断器应符合 IEC 有关标准。

abb低压电器元件 - 选用手册1. 引言在现代工业生产和家庭生活中，电气设备已经成为必不可少的一部分。

而abb作为全球领先的电气设备制造和解决方案提供商，其低压电器元件备受信赖。

在选择abb低压电器元件时，掌握其选用手册是至关重要的。

2. abb低压电器元件概述abb低压电器元件包括断路器、接触器、继电器、隔离开关等，涵盖了电气系统中各种重要的功能。

这些元件的选用与性能直接关系到电气系统的安全可靠性和稳定运行。

3. abb低压电器元件选用手册abb低压电器元件选用手册是abb官方提供的一本重要参考资料，其中包含了各种abb低压电器元件的技术参数、选型指南、安装要求等详细信息。

通过研读选用手册，用户可以全面了解abb低压电器元件的特性以及如何正确选型和使用。

4. 深入探讨abb低压电器元件的选用要点（1）技术参数分析在选用abb低压电器元件时，首先需要仔细研读选用手册中的技术参数。

断路器的额定电流、额定短路容量，接触器的触点额定电流、额定短路保护等。

这些参数直接关系到元件在电气系统中的使用范围和可靠性。

（2）选型指南abb低压电器元件选用手册还会详细介绍不同型号的元件适用的场合和用途。

针对不同的负载类型，abb会推荐适合的断路器和接触器型号，并提供详细的选型方法。

（3）安装要求在选用abb低压电器元件后，正确的安装和使用也是至关重要的。

选用手册中会包含元件的安装要求，包括安装尺寸、接线方法、绝缘要求等，用户需要严格按照要求进行安装，以确保元件的正常运行。

5. abb低压电器元件的未来发展abb作为全球领先的电气设备制造商，其低压电器元件在性能和稳定性上都有着显著的优势。

随着数字化技术的不断应用，abb低压电器元件也在不断创新，未来将更加智能化和便捷化。

6. 个人观点和总结通过研读abb低压电器元件选用手册，我深切感受到abb在电气设备领域的技术实力和丰富经验。

在未来的工作和生活中，我将继续关注abb低压电器元件的发展，努力将其应用到实际生产和生活中，为提升电气系统的安全稳定性作出贡献。

Dimensions: [mm]Scale - 1:17443641022074436410220744364102207443641022074436410220T e m p e r a t u r eT pT L74436410220Cautions and Warnings:The following conditions apply to all goods within the product series of WE-HCF of Würth Elektronik eiSos GmbH & Co. KG:General:•This electronic component was designed and manufactured for use in general electronic equipment.•Würth Elektronik must be asked for written approval (following the PPAP procedure) before incorporating the components into any equipment in fields such as military, aerospace, aviation, nuclear control, submarine, transportation (automotive control, train control, ship control), transportation signal, disaster prevention, medical, public information network, etc. where higher safety and reliability are especially required and/or if there is the possibility of direct damage or human injury.•Electronic components that will be used in safety-critical or high-reliability applications, should be pre-evaluated by the customer. •The component was designed and manufactured to be used within the datasheet specified values. If the usage and operation conditions specified in the datasheet are not met, the wire insulation may be damaged or dissolved.•Do not drop or impact the components, as the core may flake apart.•Würth Elektronik products are qualified according to international standards, which are listed in each product reliability report. Würth Elektronik does not guarantee any customer qualified product characteristics beyond Würth Elektroniks’ specifications, for its validity and sustainability over time.•The customer is responsible for the functionality of their own products. All technical specifications for standard products also apply to customer specific products.Product specific:Soldering:•The solder profile must comply with the Würth Elektronik technical soldering specification. All other profiles will void the warranty. •All other soldering methods are at the customers’ own risk.Cleaning and Washing:•Washing agents used during the production to clean the customer application may damage or change the characteristics of the wire insulation, marking or plating. Washing agents may have a negative effect on the long-term functionality of the product. Potting:•If the product is potted in the costumer application, the potting material may shrink or expand during and after hardening. Shrinking could lead to an incomplete seal, allowing contaminants into the core. Expansion could damage the core or wire contacts. Werecommend a manual inspection after potting to avoid these effects. Storage Conditions:• A storage of Würth Elektronik products for longer than 12 months is not recommended. Within other effects, the terminals may suffer degradation, resulting in bad solderability. Therefore, all products shall be used within the period of 12 months based on the day of shipment.•Do not expose the components to direct sunlight.•The storage conditions in the original packaging are defined according to DIN EN 61760-2.Packaging:•The packaging specifications apply only to purchase orders comprising whole packaging units. If the ordered quantity exceeds or is lower than the specified packaging unit, packaging in accordance with the packaging specifications cannot be ensured. Handling:•Violation of the technical product specifications such as exceeding the nominal rated current will void the warranty•Applying currents with audio-frequency signals may result in audible noise due to the magnetostrictive material properties. •Due to heavy weight of the components, strong forces and high accelerations may have the effect to damage the electrical connection or to harm the circuit board and will void the warranty.These cautions and warnings comply with the state of the scientific and technical knowledge and are believed to be accurate and reliable.However, no responsibility is assumed for inaccuracies or incompletenessWürth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODElGa004.0002023-04-26DIN ISO 2768-1mDESCRIPTIONWE-HCF SMT High CurrentInductor ORDER CODE74436410220SIZE/TYPE BUSINESS UNIT STATUS PAGEImportant NotesThe following conditions apply to all goods within the product range of Würth Elektronik eiSos GmbH & Co. KG:1. General Customer ResponsibilitySome goods within the product range of Würth Elektronik eiSos GmbH & Co. KG contain statements regarding general suitability for certain application areas. These statements about suitability are based on our knowledge and experience of typical requirements concerning the areas, serve as general guidance and cannot be estimated as binding statements about the suitability for a customer application. The responsibility for the applicability and use in a particular customer design is always solely within the authority of the customer. Due to this fact it is up to the customer to evaluate, where appropriate to investigate and decide whether the device with the specific product characteristics described in the product specification is valid and suitable for the respective customer application or not.2. Customer Responsibility related to Specific, in particular Safety-Relevant ApplicationsIt has to be clearly pointed out that the possibility of a malfunction of electronic components or failure before the end of the usual lifetime cannot be completely eliminated in the current state of the art, even if the products are operated within the range of the specifications.In certain customer applications requiring a very high level of safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health it must be ensured by most advanced technological aid of suitable design of the customer application that no injury or damage is caused to third parties in the event of malfunction or failure of an electronic component. Therefore, customer is cautioned to verify that data sheets are current before placing orders. The current data sheets can be downloaded at .3. Best Care and AttentionAny product-specific notes, cautions and warnings must be strictly observed. Any disregard will result in the loss of warranty.4. Customer Support for Product SpecificationsSome products within the product range may contain substances which are subject to restrictions in certain jurisdictions in order to serve specific technical requirements. Necessary information is available on request. In this case the field sales engineer or the internal sales person in charge should be contacted who will be happy to support in this matter.5. Product R&DDue to constant product improvement product specifications may change from time to time. As a standard reporting procedure of the Product Change Notification (PCN) according to the JEDEC-Standard inform about minor and major changes. In case of further queries regarding the PCN, the field sales engineer or the internal sales person in charge should be contacted. The basic responsibility of the customer as per Section 1 and 2 remains unaffected.6. Product Life CycleDue to technical progress and economical evaluation we also reserve the right to discontinue production and delivery of products. As a standard reporting procedure of the Product Termination Notification (PTN) according to the JEDEC-Standard we will inform at an early stage about inevitable product discontinuance. According to this we cannot guarantee that all products within our product range will always be available. Therefore it needs to be verified with the field sales engineer or the internal sales person in charge about the current product availability expectancy before or when the product for application design-in disposal is considered. The approach named above does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.7. Property RightsAll the rights for contractual products produced by Würth Elektronik eiSos GmbH & Co. KG on the basis of ideas, development contracts as well as models or templates that are subject to copyright, patent or commercial protection supplied to the customer will remain with Würth Elektronik eiSos GmbH & Co. KG. Würth Elektronik eiSos GmbH & Co. KG does not warrant or represent that any license, either expressed or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right relating to any combination, application, or process in which Würth Elektronik eiSos GmbH & Co. KG components or services are used.8. General Terms and ConditionsUnless otherwise agreed in individual contracts, all orders are subject to the current version of the “General Terms and Conditions of Würth Elektronik eiSos Group”, last version available at .Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODElGa004.0002023-04-26DIN ISO 2768-1mDESCRIPTIONWE-HCF SMT High CurrentInductor ORDER CODE74436410220SIZE/TYPE BUSINESS UNIT STATUS PAGE。

GeneralThe following questionnaires are used to select sensors according to the client's requirements.The characteristics shown in the catalogue are given with respect to a defined environment (worst case conditions).The technical requirements will not always reach these extreme limits, and it is possible, following confirmation by us, to propose higher maximum electrical or thermal values to those published, thanks to a knowledge and detailed analysis of the sensor operating environment.A technical relationship between the client and ABB will allow the proposal of the best selection of sensors, equally from the viewpoint of performance and economy.Two principal areas are considered in the selection of a sensor:–the electrical aspect–the thermal aspectThe sensor performance is based on a combination of electrical and thermal conditions; any values other than those indicated in this catalogue cannot be guaranteed unless validated by us. The information below is only valid for sensors using closed loop Hall effect technology.Contact your local supplier for other technologies.Profile missionDue to the design of converters with integrate more power with less volume, sensors are very constraint; leading to reduce their life time. As a matter of fact, even though the application main conditions are well within the sensors characteristics, these conditions have an impact on the sensor life time.The main general characteristics that involves the sensors life time are the following:–the ambient temperature above 40 °C. It is usually said that every additional 10 °C, the life time is reduced by a factor of 2. Of course, this value is a theoretical value and has to be defined in line with the concerned project.–the ambient temperature variations also impact the sensor life time. Even small variations (like 10 °C) can change the life time of the sensor especially on the electronic part.–the way the sensors are used also impact its duration (numbers of ON/OFF per day, average current or voltage value, powersupply value, load resistor value, vibrations levels…)The above general impacting conditions are well defined in standards like IEC 62380, UTE C 80-810 and must be consider during any new converter design.ABB can provide theoretical reliability calculation based on specific profile mission of your projects.Electrical characteristicsThe electrical characteristics values mentioned in this catalogue are given for a particular sensor operating point. These values may vary, according to the specific technical requirement, in the following way:–The primary thermal current (voltage) (I PN or U PN) may be increased if:-t he maximum operating temperature is lower than thevalue shown in the technical data sheet-the sensor supply voltage (V A) is reduced-the load resistance value (R M) is increased–The maximum current (voltage) measurable by the sensor may be increased if:-the maximum operating temperature is lower than thevalue shown in the technical data sheet-the sensor supply voltage (V A) is increased-the secondary winding resistance value (R S) is reduced(e.g. by using a lower transformation ratio)-the load resistance value (R M) is reducedThermal characteristicsThe operating temperature values mentioned in this catalogue are given for a particular sensor operating point. These values may vary, according to the specific technical requirement, in the following way:–The maximum operating temperature may be increased if: -the primary thermal current (voltage) (I PN or U PN) is reduced -the sensor supply voltage (V A) is reduced-the load resistance value (R M) is increasedPS: The minimum operating temperature cannot be lower than that shown in the technical data sheet as this is fixed by the lower temperature limit of the components used in the sensor.74S21Application1. Application :–Variable speed drive ................................................................ –UPS ....................................................................................... –Wind generator ....................................................................... –Active harmonic filter ............................................................... –Welding machines ................................................................... –Solar ...................................................................................... –Other (description) ......................................................................2. Quantity per year: ...........................................................................Mechanical characteristics1. Sensor fixing:–By soldering to the PCB .......................................................... –By the enclosure ..................................................................... –By the primary conductor ........................................................ 2. Primary conductor:–Cable diameter ................................................................... (mm) –Cable connection size ......................................................... (mm) –Bar size .............................................................................. (mm)3. Secondary connection:–By connector .......................................................................... –By cable without connector ..................................................... –Other ......................................................................................Sensor environmental conditions1. Minimum operating temperature ................................................ (°C)2. Maximum operating temperature ............................................... (°C)3. Presence of strong electromagnetic fields ....................................4. Max. continuous primary conductor voltage ................................ (V)5. Main reference standards ................................................................Electrical characteristics1. Nominal current (I PN ) ......................................................... (A r.m.s.)2. Current type (if possible, show current profile on graph):–Direct ..................................................................................... –Alternating .............................................................................. 3. Bandwidth to be measured ...................................................... (Hz)4. Current measuring range:–Minimum current .................................................................... (A) –Maximum current ................................................................... (A) –Duration (of max. current) .................................................... (sec) –Repetition (of max. current) ......................................................... –Measuring voltage (on R M ) at max current .............................. (V)5. Overload current (not measurable):–Not measurable overload current ........................................... (A) –Duration.............................................................................. (sec) –Repetition ...................................................................................6. Sensor supply voltage:–Bipolar supply voltage .......................................................... (±V) –Unipolar supply voltage .......................................... (0 +V or 0 -V)7. Output current–Secondary current at nominal current I PN ............................. (mA) 8. Current output (NCS range only)–Secondary current at maximum current I PMAX ....................... (mA)9. Voltage output–Secondary voltage at nominal current I PN ............................... (V)10. Voltage output (NCS range only)–Secondary voltage at maximum current I PMAX (V)Company:Address:Tel:Name:Fax:Email:Other requirements (description)74S 0201Company:Address:Tel:Name:Fax:Email:Other requirements (description)Application1. Project name ...................................................................................2. Application:Rolling stock:–Power converter ..................................................................... –Auxiliary converter ................................................................... –Other ......................................................................................Short or long distance train:–Power converter ..................................................................... –Auxiliary converter ...................................................................Metro or tramway:–Power converter ..................................................................... –Auxiliary converter ................................................................... Fixed installation (e.g. substation)..................................................... 3. Quantity per year: ............................................................................4. Total quantity for the project.............................................................Mechanical characteristics1. Sensor fixing:–By the enclosure ..................................................................... –By the primary conductor ........................................................ 2. Primary conductor:–Cable diameter ................................................................... (mm) –Bar size .............................................................................. (mm) 3. Secondary connection:–Screw or Faston...................................................................... –By connector .......................................................................... –By shielded cable .................................................................... –Other ...................................................................................... Electrical characteristics1. Nominal current (I PN ) .......................................................... (A r.m.s.)2. C urrent type (if possible, show current profile on graph):–Direct ..................................................................................... –Alternating .............................................................................. 3. Bandwidth to be measured ....................................................... (Hz)4. Current measuring range:–Minimum current .................................................................... (A) –Maximum current ................................................................... (A) –Duration (of max. current) .................................................... (sec) –Repetition (of max. current) ......................................................... –Measuring voltage (on R M ) at max current .............................. (V)5. Overload current (not measurable):–Not measurable overload current ............................................(A) –Duration.............................................................................. (sec) –Repetition ...................................................................................6. Sensor supply voltage:–Bipolar supply voltage .......................................................... (±V) –Unipolar supply voltage .......................................... (0 +V or 0 -V)7. Output current–Secondary current at nominal current I PN ............................. (mA) 8. Current output (NCS125 & NCS165 only for fixed installations)–Secondary current at maximum current I PMAX ....................... (mA)9. Voltage output (NCS125 & NCS165 only for fixed installations)–Secondary voltage at nominal current I PN ............................... (V)10. Voltage output (NCS125 & NCS165 only for fixed installations)–Secondary voltage at maximum current I PMAX (V)Sensor environmental conditions1. Minimum operating temperature ................................................ (°C)2. Maximum operating temperature ............................................... (°C)3. Average nominal operating temperature ......................................(°C)4. Maximum continuous primary conductor voltage ..........................(V)5. Main reference standards ................................................................74S 0201Company:Address:Tel:Name:Fax:Email:Other requirements (description)Application1. Project name ...................................................................................2. Application:Short or long distance train:–Power converter ..................................................................... –Auxiliary converter ...................................................................Metro or tramway:–Power converter ..................................................................... –Auxiliary converter ...................................................................Fixed installation (e.g. substation) ................................................ 3. Quantity per year: ............................................................................4. Total quantity for the project.............................................................Mechanical characteristics1. Primary connection:–By screw ................................................................................ –Other ...................................................................................... 2. Secondary connection:–Screw or Faston...................................................................... –By connector .......................................................................... –Other ...................................................................................... Electrical characteristics1. Nominal voltage (U PN ) ........................................................ (V r.m.s.)2. Voltage type (if possible, show voltage profile on graph):–Direct ..................................................................................... –Alternating .............................................................................. 3. Bandwidth to be measured ...................................................... (Hz)4. Voltage measuring range:–Minimum voltage .................................................................... (V) –Maximum voltage ................................................................... (V) –Duration (at max. voltage) .................................................... (sec) –Repetition (at max. voltage) ......................................................... –Measuring voltage (on R M ) at max voltage ............................... (V)5. Overload voltage (not measurable):–Not measurable overload voltage ............................................ (V) –Duration.............................................................................. (sec) –Repetition ................................................................................... –Category (from OV1 to OV3) ........................................................6. Sensor supply voltage:–Bipolar supply voltage .......................................................... (±V) –Unipolar supply voltage .......................................... (0 +V or 0 -V)7. Output current–Secondary current at nominal voltage U PN ............................ (mA)Sensor environmental conditions1. Minimum operating temperature ................................................ (°C)2. Maximum operating temperature ............................................... (°C)3. Average nominal operating temperature .....................................(°C)4. Main reference standards ................................................................74S 0201Company:Address:Tel:Name:Fax:Email:Other requirements (description)Application1. Project name ...................................................................................2. Application:Short or long distance train:–Power converter ..................................................................... –Auxiliary converter ...................................................................Metro or tramway:–Power converter ..................................................................... –Auxiliary converter ...................................................................Fixed equipment (e.g. substation) ................................................ 3. Quantity per year: ...........................................................................4. Total quantity for the project.............................................................Electrical characteristics1. Nominal voltage (U PN ) ............................................................ (V DC)2. Maximum voltage long duration: 5 min (U MAX2) ........................ (V DC)3. Maximum voltage overload: 20 ms (U MAX3) .............................. (V DC)4. Minimum voltage to be detected . (V)Sensor environmental conditions1. Minimum operating temperature ................................................ (°C)2. Maximum operating temperature ............................................... (°C)3. Average nominal operating temperature ..................................... (°C)4. Pollution degree ..............................................................................5. Over voltage category (from OV1 to OV3) .........................................6. Maximum ambient light level ......................................................(lux)7. Main reference standards ................................................................74S 0201。