EC-23097-000, 规格书,Datasheet 资料

251000Contents 目录25~47终端类Ex9PN 系列小型断路器（相线+中性线）Ex9BD 系列直流小型断路器Ex9BP 系列光伏专用直流小型断路器Ex9LE 剩余电流动作附件Ex9PLE 剩余电流动作保护断路器Ex9I 系列隔离开关Ex9F 系列熔断器Ex9U 系列电涌保护器Ex9B 系列小型断路器Ex9BM 系列小型断路器48~6667~6970~73控制类箱体类智能仪表Ex9Ci 系列低功耗交流接触器Ex9R 系列热过载继电器Ex9RC 系列中间继电器Ex9CC 系列电容接触器Ex9QC 系列电磁起动器Ex9QS 系列星--三角电磁起动器NEV 直流继电器Ex9C 系列交流接触器光伏汇流箱SUP 监控装置PMR700智能电动机保护器PMA700智能电力参数测量仪01~24配电类Ex9A 系列空气断路器Ex9M 系列塑壳断路器ExATS 系列自动转换开关019A16、9A32、9A40选型说明空气断路器Ex9A Ex9A 3P 产品代号极数代号16:1600A32:3200A40:4000A 16：1600A,1250A,1000A,800A,630A,400A 32：3200A,2900A,2500A,2000A,1600A 40：4000A,3200A,2900A,2500A,2000A Smart Unit 智能控制器SU30A:电流型30A SU40A:电流型40A SU50A:电流型5.0A SU30D:电压型30D SU40D:电压型40D SU50D:电压型50D SU30P:电能型30P SU40P:电能型40P SU50P:电能型50P SU30H:谐波型30HSU40H:谐波型40HSU50H:谐波型50HSU30GP:发电机电能型30GP SU30GH:发电机谐波型30GP AC230：交流230V AC400：交流400VDC220：直流220VDC110：直流110VDC24：直流24V N:55kA Q:65kA R:85kA H:100kA 9A16可选N 、Q 9A32可选Q 、R 、H 9A40可选Q 、R 、H 3P ：三极4P ：四极D/O ：抽屉式（可省略）F ：固定式无特殊要求此处无代号有特殊要求根据要求适时指定代号壳架等级额定电流代号额定电流代号智能控制器代号控制回路电源电压代号分断能力代号安装方式代号特殊要求代号161600SU 30A AC230N D/O OTHER 选型举例：“Ex9A16 3P 1250 F SU40P AC230”的含义为Ex9A 系列1600壳架的、三极的、1250A 的、固定式的、带多功能电能型4.0P 控制器的、控制回路电源电压为交流230V 的空气断路器。

接线图Micro800™ 非隔离型单极模拟量输出功能性插件模块产品目录号2080-OF2/idc/groups/literature/documents/wd/208 0-wd004_-mu-p.pdfFR Cette publication est disponible en français sous forme électronique (fichier PDF).Pour la télécharger, rendez-vous sur la page Internet indiquée ci-dessus.IT Questa pubblicazione è disponibile in Italiano in formato PDF. Per scaricarla collegarsi al sito Web indicato sopra.DE Diese Publikation ist als PDF auf Deutsch verfügbar. Gehen Sie auf die oben genannte Web-Adresse, um nach der Publikation zu suchen und sie herunterzuladen.ES Esta publicación está disponible en español como PDF. Diríjase a la dirección web indicada arriba para buscar y descarga esta publicación.PT Esta publicação está disponível em portugués como PDF. Vá ao endereço web que aparece acima para encontrar e fazer download da publicação.ZHZC2 Micro800™ 非隔离型单极模拟量输出功能性插件模块出版物 2080-WD004A-ZH-P - 2010年9 月环境和机柜防止静电放电本设备适用于在污染等级 2 工业环境、过电压 II 类应用中使用 (如 IEC 60664-1 所定义)，在海拔高达 2000 米 (6562 英尺) 时不降额。

AF140-30-11-13Extended Product Type:Product ID:EAN:Minimum Order Quantity:Customs Tariff Number:EAN:Product Net Depth:Product Net Height:Package Level 1 Width:Package Level 1 Length:Package Level 1 Height:Package Level 1 Gross Weight:Number of Main Contacts NC:Number of Auxiliary Contacts NO:Number of Auxiliary Contacts NC:Rated Operational Voltage:Rated Frequency (f):Conventional Free-air Thermal Current (I th ):Rated Operational Current AC-1 (I e ):Rated Operational Current AC-3 (I e ):Rated Operational Power AC-3 (P e ):Rated Breaking Capacity AC-3 acc.to IEC 60947-4-1:Rated Making Capacity AC-3 acc. to IEC 60947-4-1:Short-Circuit Protective Devices:Rated Short-time Withstand Current (I cw ):Maximum Breaking Capacity:General Inform ationAF140-30-11-13 100-250V 50/60Hz / DC 1SFL447001R13117320500476949Ordering1 piece 853649007320500476949Dim ensions126.0 mm 150.0 mm Container Inform ation194 mm 115 mm 169 mm 1.57 kg Technical011Main Circuit 690 V Main Circuit 50/60 Hz acc. to IEC 60947-4-1, Open Contactors q = 40 °C 200 A (690 V) 55 °C 175 A (690 V) 40 °C 200 A (690 V) 70 °C 160 A (690 V) 55 °C 80 A (415 V) 55 °C 140 A (220 / 230 / 240 V) 55 °C 140 A (440 V) 55 °C 140 A (380 / 400 V) 55 °C 140 A (500 V) 55 °C 130 A(500 V) 90 kW (690 V) 75 kW (220 / 230 / 240 V) 37 kW (380 / 400 V) 75 kW (440 V) 90 kW (415 V) 75 kW8 x Ie AC-310 x Ie AC-3gG Type Fuses 315 Aat 40 °C Ambient Temp, in Free Air, from a Cold State 15 min 200 A at 40 °C Ambient Temp, in Free Air, from a Cold State 30 s 674 A at 40 °C Ambient Temp, in Free Air, from a Cold State 10 s 1168 A at 40 °C Ambient Temp, in Free Air, from a Cold State 1 s 1460 A at 40 °C Ambient Temp, in Free Air, from a Cold State 1 min 477 Acos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 440 V 3000 A cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 690 V 1500 A AF140-30-11-13 100-250V 50/60Hz / DCMaximum Electrical Switching Frequency:Rated Operational Current DC-1 (I e):Rated Operational Current DC-3 (I e):Rated Operational Current DC-5 (I e):Rated Insulation Voltage (U i):Rated Impulse Withstand Voltage (U imp):Mechanical Durability:Maximum Mechanical Switching Frequency:Coil Operating Limits:Rated Control Circuit Voltage (U c): Coil Consumption:Operate Time:Connecting Capacity Main Circuit:Connecting Capacity Auxiliary Circuit:Degree of Protection:Terminal Type:Number of Main Contacts NO:Maximum Operating Altitude Permissible:RoHS Status:Ambient Air Temperature:General Use Rating UL/CSA: Horsepower Rating UL/CSA:Maximum Operating VoltageUL/CSA:Instructions and Manuals:CB Certificate:CCC Certificate:Data Sheet, Technical Information: Declaration of Conformity - CE: RINA Certificate:RoHS Information:ETIM 4:ETIM 5:UNSPSC:AC-3 300 cycles per hourAC-1 300 cycles per hourAC-2 / AC-4 150 cycles per hour(110 V) 2 Poles in Series, 40 °C 160 A(220 V) 3 Poles in Series, 40 °C 160 A(110 V) 2 Poles in Series, 40 °C 160 A(220 V) 3 Poles in Series, 40 °C 160 A(110 V) 2 Poles in Series, 40 °C 160 A(220 V) 3 Poles in Series, 40 °C 160 Aacc. to UL/CSA 600 Vacc. to IEC 60947-4-1 and VDE 0110 (Gr. C) 690 VMain Circuit 8 kV5 million300 cycles per hour(acc. to IEC 60947-4-1) 0.85 x Uc Min. ... 1.1 x Uc Max. (at θ ≤ 70 °C) °C 60 Hz 100…250 V50 Hz 100…250 VDC Operation 100…250 VPull-in at Max. Rated Control Circuit Voltage 60 Hz 130 V·AHolding at Max. Rated Control Circuit Voltage DC 3 WHolding at Max. Rated Control Circuit Voltage 50 Hz 6 V·APull-in at Max. Rated Control Circuit Voltage DC 135 WPull-in at Max. Rated Control Circuit Voltage 50 Hz 130 V·AHolding at Max. Rated Control Circuit Voltage 60 Hz 6 V·ABetween Coil Energization and NO Contact Closing 25…55 ms Between Coil De-energization and NO Contact Opening 37…47 ms Rigid Cu-Cable 2x10…95 mm²Flexible 2x10…70 mm²Solid 2x1…4 mm²Flexible with Insulated Ferrule 2x0.75…2.5 mm²Stranded 2x1…4 mm²Flexible 2x0.75…2.5 mm²Flexible with Ferrule 2x0.75…2.5 mm²acc. to IEC 60529, IEC 60947-1, EN 60529 Coil Terminals IP20acc. to IEC 60529, IEC 60947-1, EN 60529 Main Terminals IP00 Double Clamp3Environm ental3000 mFollowing EU Directiv e 2002/95/EC August 18, 2005 and amendmentClose to Contactor Fitted with Thermal O/L Relay (0.85 ... 1.1 Uc) -25…+50 °CClose to Contactor without Thermal O/L Relay (0.85 ... 1.1 Uc) -40…+70 °CClose to Contactor for Storage -40…+70 °CTechnical UL/CSA(600 V AC) 200 A(208 V AC) Three Phase 40 Hp(440 ... 480 V AC) Three Phase 100 Hp(550 ... 600 V AC) Three Phase 125 Hp(220 ... 240 V AC) Three Phase 50 Hp(200 V AC) Three Phase 40 HpMain Circuit 600 VCertificates and Declarations (Docum ent Num ber)1SFC100003M0201SE-70480CQC_20130103046040551SFC101070D02012CMT004242ELE060313X G/0021SFC101055D0202ClassificationsEC000066 - Magnet contactor, AC-switchingEC000066 - Magnet contactor, AC-switching39121529AF140-30-11-13。

14260Technical Data SheetRevision Date:25.07.14Rev 5Bay 150,Shannon Industrial Estate,Shannon County Clare,Ireland 2Ton EpoxyORDERING INFORMATIONStock No.1426020222Package Size 50ml Cartridge 200ml CartridgeDescriptionA high strength,non-shrinking,adhesive/potting compound specially formulated for high clarity,good impact strength,and water resistance.The adhesive bond is resistant to weathering,solvents,and wide variations in temperature.Features∙100%reactive,no solvents∙Good water and chemical resistance ∙Fills gaps and voids∙Room temperature curingRecommended applications∙Bonding or potting electronic components and assemblies ∙Creating moisture-resistant seals∙Suitable for bonding ceramics,ferrous and non-ferrous,ferrites,wood,glass and concretePRODUCT DATA Physical Properties (Uncured)ColourClear Mixed Viscosity8,000cps Mixed Ratio by Volume 1:1Mixed Ratio by weight 1.2:1Mixed Density1.10gm/cc Working time 28 grams @ 23˚C8–12minutes Fixture time @23oC 30–35minutes Functional cure @ 23˚C 2 hours Full Cure12hoursPhysical Properties (Cured)7days cured @24˚CAdhesive tensile shear,ASTM D100215.5MPa (0.25mm bondline)T peel4-5N/10mm Tensile Elongation1%Service temperature,dry-40–93oC Cured hardness,ASTM D224083DDielectric strength,ASTM D14924KV/mm Compression strength,ASTM D69575.86MPaSpecific Volume909cm 3/kg7days room temperature cure (30days immersion)Chemical ResistanceAcetic (dilute)10%Poor Acetone FairAmmonia Very Good Corn Oil Excellent Cutting oil Excellent Ethanol Poor Petrol (unleaded)Excellent Glycols/Antifreeze Excellent Hydrochloric 10%Poor Isopropanol Poor Kerosene Excellent MEK Poor Mineral Spirits Excellent Motor Oil Excellent Sodium Hydroxide 10%Very Good Sulphuric 10%PoorPlease consult ITW Devcon for other chemicalsTechnical Data SheetRevision Date:25.07.14Rev 5Bay 150,Shannon Industrial Estate,Shannon County Clare,Ireland 2Ton EpoxyAPPLICATION INFORMATION General Surface Preparation2Ton Epoxy works best on clean surfaces.Surfaces should be free of heavy deposits of grease,oil,dirt or other contaminants or cleaned with industrial cleaning equipment such as vapor degreasers or hot aqueous baths.Abrading or roughing the surfaces of metals will increase the microscopic bond area significantly and optimize the bond strength.MixingThis product is available in two cartridge sizes.The cartridge should be used with the appropriate manual Applicator Gun and Static Mixer Nozzle.The Static Mixer Nozzle enables the material to be thoroughly mixed when dispensed,and thus can be applied directly to the surfaces to be bonded.Please note:Once the product goes beyond its working time the nozzle has to be thrown away and a new nozzle used for further dispensing.ApplicationApply mixed epoxy directly to one surface in an even film or as a bead.Assemble with the mating part within the recommended working time.Obtain firm contact between the parts to minimize any gap and ensure good contact of the epoxy between the mating parts,clamping may optimize this part of the process.A small volume of epoxy should flow out the edges to show there is adequate gap filling.For very large gaps,apply epoxy to both surfaces and spread to cover the entire area,or make a bead pattern,which will allow flow throughout the joint.Let bonded assemblies stand for the recommended functional cure time before handling.They are capable of withstanding processing forces at this point,but should not be dropped,shocked or heavily loaded.Storage Shelf LifeDevcon Epoxy Adhesives should be stored in a cool dry place when not used for a longperiod of time.A shelf life of 3years from date of manufacture can be expected when stored at room temperature (22ºC)in their original containers.The expiry will be displayed on the product packaging.Precaution For complete safety and handling information,please refer to the appropriate Material Safety Data Sheets prior to using this product.WarrantyDevcon will replace any material found to be defective.Because the storage,handling and application of this material is beyond our control we can accept no liability for the results obtained.DisclaimerAll information on this data sheet is based on laboratory testing and is not intended for design purposes.ITW Devcon makes no representations or warranties of any kind concerning this data.For product information visit alternatively for technical assistance please call +35361771501(Ireland)or +49(0)431717910(Germany)14260。

9070T150D1Industrial Control TransformersProduct Description PRODUCT DESCRIPTIONControl power transformers from Schneider Electric set the industry standard for design innovation and performance. They are designed with low impedance windings for excellent voltage regulation, and can accomodate the high inrush current associated with contactors, starters, solenoids, and relays.A variety of designs are available to meet the diverse needs of panel builders and machinery OEMs. The versatility of our control transformer line offers unparalleled options for design engineers. We also have one of the most extensive offering of custom products with no minimum order requirements.We have a national network of distributors to ensure prompt delivery, including industry leading delivery on custom products. In most cases, we can design, manufacture, and ship a custom unit in two weeks or less.The Global Product Offering—Type TType T is our most popular and complete line of control transformers. It comes with unmatched design innovations for top performance and is manufactured using the most advanced insulating materials. The Type T control transformer is the best choice if size and cost are of concern.The Exceptional Regulation Offering —Type EOConstructed with traditional materials and manufacturing processes, Type EO transformers are UL and CSA Component Recognized. Units are designed for 55°C rise. All units are 60HZ rated, withde-rated VA levels for 50HZ.Transformers with Fuse Block Protection—Types TF and EOFWe offer both product lines with factory installed overcurrent protection fuse blocks.Type TF and EOF transformers consist of two primary fuse blocks and one secondary fuse block, a configuration that meets the majority of overcurrent needs by panel builders and machinery OEMs. Since the fuse blocks are pre-wired and mounted on top of the transformer, the Type TF and EOF transformers have the same footprint as the Type T and Type EO units, respectively. This design frees up space normally used for separate fuse blocksWe also have an extensive fuse block offering for custom applications. See the overcurrent section of this catalog for full details.Leaded Control Transformer LineSchneider Electric offers transformers with internally pre-wired 24-inch primary and secondary leads, instead of terminal boards, to make installation easier and faster for many applications. These are only available for single voltage primary and single voltage secondary applications.MultiTapSchneider Electric offers Type T and Type EO transformers in the MultiTap version. The MultiTap control transformer was designed to respond to the increased need for voltage and stock flexibility. It combines multiple primary voltages with one or more secondary voltages, all in a single transfomer. The most flexible MultiTap voltage is the Universal, available on the Type T product line only. It allows for standard primary voltages of 208 to 600V and 110, 115, or 120V secondary voltages.Industrial Control TransformersType T TransformersTYPE T TRANSFORMERSThe Type T units are designed for the global market and are the best choice when size and cost are of concern. This is our most popular and complete offering of industrial control transformers. The following features are included:•50/60 Hz rated•Customer installed accessories (Finger-Safe covers, fuse blocks, fuse clips)•Type T transformers are designed with various temperature classes:—25–150 VA with a 55° C temperature rise, 105° C insulation —200–350 VA with a 80° C temperature rise, 130° C insulation —500–5000 VA with a 115° C temperature rise, 180° C insulationSchneider Electric manufactures a wide variety of voltage combinations for control transformers. The voltage combinations are expressed as “Voltage Codes”, and are embedded within the catalog number of the transformer. Standard codes are listed. If the voltage combination you need is not listed, please call your Schneider Electric distributor for assistance.CE MarkingIndustrial control transformers (ICTs) entering the European Union (EU) after January 1, 1997 are required by EU standards to have CE marking or Declaration of Conformity to CE. EU documentation requires compliance with specification EN 61 558 of the Low Voltage Directive. Type T ICTs from Schneider Electric comply with this specification and are third party tested to T ÜV standards, which adhere to, and are accepted by, EU standards. A Declaration of Conformity for all Type T units is available upon request.Because of different overload criteria in the CE specification,Schneider Elecric dual rates these transformers for UL VA, cUL VA, CSA VA, NOM VA and CE VA ratings (see “Type T VA Ratings” table). Because they are widely used with control circuit panels, ICTs are also required to comply with EN 60 204 and EN 61 558 in these applications. The Type T transformer line complies with EN 60 204 when Fingersafe ® covers are installed.For more information regarding CE marking, please contact your local Schneider Electric field sales office.Type T VA RatingsUL, cUL, CSA and NOM VA RatingCEVA Rating252550507575100100150150200200250160300200350250500300750500100063015001000200015003000200050003000Type T ListingsListingFileVA RangeUL E61239, Guide XPTQ225–5000cUL E612391500–5000CSALR37055, Guide 184-N-9025–1000EN947923, EN 61 558/01.89 (TUV ref: 00941-RAG/sg E9371495E01)25–2009579078, EN 61 558/01.89 (TUV ref: 00941-RAG/sg E9471921E01)250–10009579078, EN 61 558/01.89 (TUV ref: 00941-RAG/sg E9471921.02E01)1500–3000Industrial Control TransformersType T Transformers120 Volt Control SecondaryVoltage and Connection OptionsVoltage CodeVoltagesConnectionsPrimary SecondaryPrimarySecondaryD1220 x 440230 x 460240 x 480110115120220/230/240 V:Connect to H1 and H4Jumper H1 with H3Jumper H2 with H4440/460/480 V:Connect to H1 and H4Jumper H2 with H3Connect to X1 and X2DimensionsVA CatalogNumberFigureAcc. KeyA BCEFSlotsULCEINmmINmmINmmINmmINmmINmm25259070T25D11I 3.0979 3.0076 2.5866 2.0051 2.50640.20 x 0.38 5 x 1050509070T50D11I 3.0979 3.0076 2.5866 2.0051 2.50640.20 x 0.38 5 x 1075759070T75D11I 3.3485 3.3886 2.8973 2.3861 2.81710.20 x 0.48 5 x 121001009070T100D11I 3.3485 3.3886 2.8973 2.3861 2.81710.20 x 0.48 5 x 121501509070T150D11I 3.5991 3.7595 3.2081 2.8873 3.13800.20 x 0.38 5 x 102002009070T200D11I 3.5991 3.7595 3.2081 2.8873 3.13800.20 x 0.38 5 x 102501609070T250D12I 5.30135 3.7595 3.2182 2.8873 3.13800.20 x 0.38 5 x 103002009070T300D12I 4.74120 4.50114 3.8498 2.5665 3.75950.20 x 0.38 5 x 103502509070T350D12I 5.11130 4.50114 3.8498 3.0076 3.75950.20 x 0.38 5 x 105003009070T500D12I 5.49139 4.50114 3.8498 3.5690 3.75950.20 x 0.38 5 x 107505009070T750D12I 5.61143 5.25133 4.51115 3.4387 4.381110.28 x 0.567 x 1410006309070T1000D12I 6.30160 5.25133 4.51115 4.31109 4.381110.28 x 0.567 x 14150010009070T1500D12I 5.921507.06179 6.17157 4.13105 5.811480.28 x 0.567 x 14200015009070T2000D12I 7.171827.06179 6.17157 4.56116 5.811480.28 x 0.567 x 14300020009070T3000D13I 7.241849.002298.75222 4.631187.631940.44 x 1.1311 x 29500030009070T5000D13I9.152329.002298.752226.561677.631940.44 x 1.1311 x 2914T R A N S F O R M E R SIndustrial ControlClass 9070 / Refer to Catalogs 9070CT9901, 7400CT9601Square D ® Type T and MultiTap™ TransformersType T transformers are designed with low impedance windings forexcellent voltage regulation and can accommodate the high inrush current associated with contactors, starters, solenoids, and relays. As the most popular and complete line of control transformers with unmatched design innovations for top performance, Type Ts are manufactured using the most advanced insulating materials and are the best choice if size and cost are of concern. It is available in the MultiTap version, designed to respond to the increased need for voltage and stock flexibility. It combines multiple primary voltages with one or more secondary voltages, all in a single transformer.VAVA Catalog No.$ PriceH W D W e i g h t (l b s )U L /C S A /N O MCEin (mm)in (mm)in (mm)Primary 240 x 480 Secondary 120; Primary 230 x 460 Secondary 115; or Primary 220 x 440Secondary 11025259070T25D174.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.550509070T50D177.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D192.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D1103.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D1110.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D1136.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D1159.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D1176.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D1187.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D1233.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D1322.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D1390.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D1558.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D1678.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D1941.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D11582.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 208 Secondary 12050509070T50D390.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D3108.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D3121.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D3153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D3195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D3242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D3248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D3288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D3314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D3443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D3558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D3780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D3905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D31276.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D32010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 600 Secondary 120; Primary 575 Secondary 115; or Primary 550 Secondary 11050509070T50D590.00 2.58 (65.5) 3 (76.2) 3.09 (78.5) 2.575759070T75D5108.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D5121.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D5153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D5195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D5242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D5248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D5288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D5314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D5443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D5558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D5780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D5905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D51276.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D52010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 120 Secondary 120; Primary 115 Secondary 115; or Primary 110 Secondary 11050509070T50D24312.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D24324.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D24326.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D24348.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D24475.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D24477.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D24481.00 3.8 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D24483.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D24498.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D24560.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D24594.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D24717.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D24929.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D241463.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D242010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 277 Secondary 120Primary 277 Secondary 120 (continued)2002009070T200D4195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D4242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D4248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D4288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D4314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D4443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D4558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D4780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D4905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D41276.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D42010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0VA VA Catalog No.$ PriceHW D W e i g h t (l b s )U L /C S A /N O MCEin (mm)in (mmin (mm)Primary 240 x 480 Secondary 120/240; Primary 230 x 460 Secondary 115/230; orPrimary 220 x 440 Secondary 110/22050509070T50D31125.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D31131.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D31138.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D31182.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D31235.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D31248.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D31290.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D31303.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D31339.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D31473.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D31558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D31816.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D31905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D311486.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D312010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 120 x240 Secondary 120/240; Primary 115 x 230 Secondary 115/230; orPrimary 110 x 2200 Secondary 110/22050509070T50D55312.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D55324.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D55326.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D55348.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D55475.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D55477.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D55481.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D55483.00 3.80 (96.5) 4.50(114.3) 5.09 (129.3)10.55003009070T500D55498.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D55560.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D55594.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D55856.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D55929.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D551588.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D552010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 240 X 480 Secondary 24/120 (24 V limited to 20% Capacity)50509070T50D1590.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D15108.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D15138.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D15153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D15195.00 3.2 0(81.3) 3.75 (95.3) 3.59 (91.2) 5.52501609070T250D15248.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D15290.00 3.80 (96.5) 4.50 9114.3) 4.70 (119.4)8.53502509070T350D15303.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D15339.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D15473.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D15558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D15816.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D15905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0300020009070T3000D151486.008.46 (214.9)9.00 (228.6) 6.86 (174.2)60.0500030009070T5000D152010.008.46 (214.9)9.00 (228.6)8.73 (221.7)89.0Primary 480 Secondary 24050509070T50D1290.00 2.58 (65.5) 3.00 (76.2) 3.09 (78.5) 2.575759070T75D12324.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81001009070T100D12121.00 2.89 (73.4) 3.38 (85.8) 3.34 (84.8) 3.81501509070T150D12153.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.2) 5.52002009070T200D12195.00 3.20 (81.3) 3.75 (95.3) 3.59 (91.20) 5.52501609070T250D12242.00 3.25 (82.6) 3.75 (95.3) 5.25 (133.4)7.130********T300D12248.00 3.80 (96.5) 4.50 (114.3) 4.70 (119.4)8.53502509070T350D12288.00 3.80 (96.5) 4.50 (114.3) 5.09 (129.3)10.55003009070T500D12314.00 3.80 (96.5) 4.50 (114.3) 5.46 (138.7)11.97505009070T750D12443.00 4.43 (112.5) 5.25 (133.4) 5.66 (143.8)11.010*********T1000D12558.00 4.43 (112.5) 5.25 (133.4) 6.04 (153.4)20.6150010009070T1500D12780.00 6.16 (156.5)7.06 (179.3) 5.81 (147.6)34.0200015009070T2000D12905.00 6.16 (156.5)7.06 (179.3)7.04 (178.8)47.0VA VA Catalog No.$ PriceH W DW e i g h t (l b s )U L /C S A /N O MCEin (mm)in (mm)in (mm)9070T150D1。

Unit 9, 12 Mars Rd Tel: +61 2 9420 0690CAP-XX (Australia) Pty Ltd Lane Cove NSW 2066 Fax: +61 2 9420 0692 ABN 28 077 060 872 Australia ACN 077 060 872HA130 / HA230 SUPERCAPACITORDatasheet Rev 4.3, July 2018This Datasheet should be read in conjunction with the CAP-XX Supercapacitors Product Guide which contains information common to our product lines.Electrical SpecificationsThe HA130 is a single cell supercapacitor. The HA230 is a dual cell supercapacitor with two HA130 cells in series, so HA230 capacitance = Capacitance of HA130/2 and HA230 ESR = 2 x HA130 ESR.Definition of TermsIn its simplest form, the Equivalent Series Resistance (ESR) of a capacitor is the real part of the complex impedance. In the time domain, it can be found by applying a step discharge current to a charged cell as in Fig. 1. In this figure, the supercapacitor is pre-charged and then discharged with a current pulse, I =1A for duration 0.01 sec.Figure 1: Effective capacitance, instantaneous capacitance and ESR for an HA230The ESR is found by dividing the instantaneous voltage step (∆V) by I. In this example = (5.487V-5.37V)/1A = 117mΩ.The instantaneous capacitance (C i) can be found by taking the inverse of the derivative of the voltage, and multiplying it by I.The effective capacitance for a pulse of duration ∆t n, Ce(∆t n) is found by dividing the total charge removed from the capacitor (∆Q n) by the voltage lost by the capacitor (∆V n). For constant current Ce(∆t n) = I x∆t n/∆V n. Ce increases as the pulse width increases and tends to the DC capacitance value as the pulse width becomes very long (~10 secs). After 2msecs, Fig 1 shows the voltage drop V2ms = (5.37 V – 5.296V) =74mV. Therefore Ce(2ms) = 1A x 2ms/74mV = 27mF. After 10ms, the voltage drop = 5.37 V – 5.216V = 154mV. Therefore Ce(10ms) = 1 A x 10ms/154mV = 65mF. The DC capacitance of an HA230 = 0.4 F. Note that ∆V, or IR drop, is not included because very little charge is removed from the capacitor during this time. Ce shows the time response of the capacitor and it is useful for predicting circuit behavior in pulsed applications.Measurement of DC CapacitanceFig 2: Measurement of DC Capacitance for an HA230Fig 2 shows the measurement of DC capacitance by drawing a constant 100mA current from a fully charged supercapacitor and measuring the time taken to discharge from 1.5V to 0.5V for a single cell, or from 3V to 1V for a dual cell supercapacitor. In this case, C = 0.1A x 9.47s /2V = 473.5F, which is well within the 0.4F +/- 20% tolerance for an HA230 cell.Measurement of ESRFig 3: Measurement of ESR for an HA230Fig 3 shows DC measurement of ESR by applying a step load current to the supercapacitor and measuring the resulting voltage drop. CAP-XX waits for a delay of 50µs after the step current is applied to ensure the voltage and current have settled. In this case the ESR is measured as 130mV/1.A = 130mΩ.Effective CapacitanceFigure 4: Effective CapacitanceFig 4 shows the effective capacitance for the HA130, HA230 @ 23°C. This shows that for a 1ms PW, you will measure 12% of DC capacitance or 96mF for an HA130 or 48mF for an HA230. At 10ms you will measure 27% of the DC capacitance and at 100ms you will measure 68% of DC capacitance. Ceffective is a time domain representation of the supercapacitor's frequency response. If, for example, you were calculating the voltage drop if the supercapacitor was supporting 1A for 10ms, then you would use the Ceff(10ms) = 27% of DC capacitance = 108mF for an HA230, so Vdrop = 1A x ESR + 1A x duration/C = 1A x 130mΩ + 1A x 10ms / 108mF = 277mV. The next section on pulse response shows how the effective capacitance is sufficient for even short pulse widths.Pulse ResponseFig 5 shows that the HA230supercapacitor does anexcellent job supporting aGPRS class 10 pulse train,drawing 1.8A for 1.1ms at25% duty cycle. The sourceis current limited to 0.6A andthe supercapacitor providesthe 1.2A difference toachieve the peak current. Atfirst glance the freq responseof Fig 8 indicates thesupercapacacitor would notsupport a 1ms pulse, but theCeff of 26mF coupled withthe low ESR supports thispulse train with only~280mV droop in the supplyrail.Fig 5: HA230 Pulse Response with GPRS Class 10 Pulse TrainDC Capacitance variation with temperatureFigure 6: Capacitance change with temperatureFig 6 shows that DC capacitance is approximately constant with temperature.ESR variation with temperatureFigure 7: ESR change with temperatureFig 7 shows that ESR at -40°C is ~1.9 x ESR at room temp, and that ESR at 70ºC is ~0.8 x ESR at room temperature.Frequency ResponseFig 8: Frequency Response of Impedance (biased at 5.5V with a 50mV test signal)Fig 9: Frequency Response of ESR, Capacitance & InductanceFig 8 shows the supercapacitor behaves as an ideal capacitor until approx 1.5 Hz when the magnitude no longer rolls off proportionally to 1/freq and the phase crosses -45°. Performance of supercapacitors with frequency is complex and the best predictor of performance is Fig 4 showing effective capacitance as a function of pulsewidth.Leakage CurrentFig 10: Leakage CurrentFig 10 shows the leakage current for HA130 at room temperature. The leakage current decays over time, and the equilibrium value leakage current will be reached after ~120hrs at room temperature. The typical equilibrium leakage current is 1.5µA at room temperature. At 70°C leakage current will be ~5µA. Charge CurrentFig 11: Charging an HA130 with low currentThe corollary to the slow decay in leakage currents shown in Fig 10 is that charging a supercapacitor at very low currents takes longer than theory predicts. At higher charge currents, the charge rate is as theory predicts. For example, it should take 0.8F x 2.4V / 0.00002A = 26.7hrs to charge a 0.8 F supercapacitor to 2.4V at20µA, but Fig 11 shows it took 50hrs. At 100µA charging occurs at a rate close to the theoretical rate.RMS CurrentFig 12: Temperature rise in HA230 with RMS currentContinuous current flow into/out of the supercap will cause self heating, which limits the maximum continuous current the supercapacitor can handle. This is measured by a current square wave with 50% duty cycle, charging the supercapacitor to rated voltage at a constant current, then discharging the supercapacitor to half rated voltage at the same constant current value. For a square wave with 50% duty cycle, the RMS current is the same as the current amplitude. Fig 12 shows the increase in temperature as a function of RMS current. From this, the maximum RMS current in an application can be calculated, for example, if the ambient temperature is 40︒C, and the maximum desired temperature for the supercapacitor is 70︒C, then the maximum RMS current should be limited to 2.2A, which causes a 30︒C temperature increase.CAP-XX Supercapacitors Product GuideRefer to the package drawings in the CAP-XX Supercapacitors Product Guide for detailed information of the product’s dimensions, PCB landing placements, active areas and electrical connections.Refer to the CAP-XX Supercapacitors Product Guide for information on endurance and shelf life, transportation and storage, assembly and soldering, safety and RoHS/EREACH certification.。

EconoPACK ™2 模块 采用第七代沟槽栅/场终止IGBT7和第七代发射极控制二极管带有温度检测NTC 特性•电气特性-V CES = 1200 V-I C nom = 100 A / I CRM = 200 A -沟槽栅IGBT7-低 V CEsat-过载操作达175°C•机械特性-高功率循环和温度循环能力-集成NTC 温度传感器-铜基板-低热阻的三氧化二铝 Al 2O 3 衬底-焊接技术可选应用•辅助逆变器•电机传动•伺服驱动器产品认证•根据 IEC 60747、60749 和 60068 标准的相关测试，符合工业应用的要求。

描述FS100R12N2T7_B15EconoPACK ™2 模块内容描述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1特性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1可选应用 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1产品认证 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1内容 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 1封装 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 2IGBT, 逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 3二极管,逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 4负温度系数热敏电阻 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6 5特征参数图表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 6电路拓扑图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 7封装尺寸 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12 8模块标签代码 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13修订历史 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14免责声明 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .151封装表 1绝缘参数特征参数代号标注或测试条件数值单位绝缘测试电压V ISOL RMS, f = 50 Hz, t = 1 min 2.5kV 模块基板材料Cu内部绝缘基本绝缘 (class 1, IEC 61140)Al2O3爬电距离d Creep端子至散热器10.0mm 电气间隙d Clear端子至散热器7.5mm 相对电痕指数CTI>200相对温度指数 (电)RTI封装140°C 表 2特征值特征参数代号标注或测试条件数值单位最小值典型值最大值杂散电感,模块L sCE26nH 模块引线电阻,端子-芯片R CC'+EE'T C=25°C, 每个开关 2.7mΩ储存温度T stg-40125°C 模块安装的安装扭距M根据相应的应用手册进行安装M5, 螺丝36Nm 重量G180g 注:The current under continuous operation is limited to 50 A rms per connector pin.2IGBT, 逆变器表 3最大标定值特征参数代号标注或测试条件数值单位集电极－发射极电压V CES T vj = 25 °C1200V 连续集电极直流电流I CDC T vj max = 175 °C T C = 95 °C100A 集电极重复峰值电流I CRM t P = 1 ms200A 栅极－发射极峰值电压V GES±20V表 4特征值特征参数代号标注或测试条件数值单位最小值典型值最大值集电极－发射极饱和电压V CE sat I C = 100 A, V GE = 15 V T vj = 25 °C 1.50 1.80VT vj = 125 °C 1.64T vj = 175 °C 1.72栅极阈值电压V GEth I C = 2.5 mA, V CE = V GE, T vj = 25 °C 5.15 5.80 6.45V 栅极电荷Q G V GE = ±15 V, V CE = 600 V 1.8µC 内部栅极电阻R Gint T vj = 25 °C 1.5Ω输入电容C ies f = 100 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V21.7nF 反向传输电容C res f = 100 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V0.076nF 集电极-发射极截止电流I CES V CE = 1200 V, V GE = 0 V T vj = 25 °C0.01mA 栅极-发射极漏电流I GES V CE = 0 V, V GE = 20 V, T vj = 25 °C100nA开通延迟时间(感性负载)t don I C = 100 A, V CE = 600 V,V GE = ±15 V, R Gon = 3.9 ΩT vj = 25 °C0.175µs T vj = 125 °C0.192T vj = 175 °C0.205上升时间(感性负载)t r I C = 100 A, V CE = 600 V,V GE = ±15 V, R Gon = 3.9 ΩT vj = 25 °C0.046µs T vj = 125 °C0.051T vj = 175 °C0.053关断延迟时间(感性负载)t doff I C = 100 A, V CE = 600 V,V GE = ±15 V, R Goff = 3.9 ΩT vj = 25 °C0.309µs T vj = 125 °C0.389T vj = 175 °C0.442下降时间(感性负载)t f I C = 100 A, V CE = 600 V,V GE = ±15 V, R Goff = 3.9 ΩT vj = 25 °C0.104µs T vj = 125 °C0.198T vj = 175 °C0.248开通损耗能量 (每脉冲)E on I C = 100 A, V CE = 600 V,Lσ = 35 nH, V GE = ±15 V,R Gon = 3.9 Ω, di/dt =1650 A/µs (T vj = 175 °C)T vj = 25 °C10.5mJ T vj = 125 °C14.7T vj = 175 °C16.8关断损耗能量 (每脉冲）E off I C = 100 A, V CE = 600 V,Lσ = 35 nH, V GE = ±15 V,R Goff = 3.9 Ω, dv/dt =3030 V/µs (T vj = 175 °C)T vj = 25 °C 6.68mJ T vj = 125 °C10.8T vj = 175 °C12.8(待续)表 4(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值短路数据I SC V GE≤ 15 V, V CC = 800 V,V CEmax=V CES-L sCE*di/dt t P≤ 8 µs,T vj=150 °C370At P≤ 7 µs,T vj=175 °C350结－外壳热阻R thJC每个 IGBT0.371K/W 外壳－散热器热阻R thCH每个 IGBT, λgrease= 1 W/(m*K)0.135K/W 允许开关的温度范围T vj op-40175°C注:T vj op > 150°C is allowed for operation at overload conditions. For detailed specifications, please refer to AN 2018-14.3二极管,逆变器表 5最大标定值特征参数代号标注或测试条件数值单位反向重复峰值电压V RRM T vj = 25 °C1200V 连续正向直流电流I F100A 正向重复峰值电流I FRM t P = 1 ms200A I2t-值I2t t P = 10 ms, V R = 0 V T vj = 125 °C1260A²sT vj = 175 °C1060表 6特征值特征参数代号标注或测试条件数值单位最小值典型值最大值正向电压V F I F = 100 A, V GE = 0 V T vj = 25 °C 1.72 2.10VT vj = 125 °C 1.59T vj = 175 °C 1.52反向恢复峰值电流I RM V R = 600 V, I F = 100 A,V GE = -15 V, -di F/dt =1650 A/µs (T vj = 175 °C)T vj = 25 °C57.7A T vj = 125 °C77.4T vj = 175 °C88.3(待续)表 6(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值恢复电荷Q r V R = 600 V, I F = 100 A,V GE = -15 V, -di F/dt =1650 A/µs (T vj = 175 °C)T vj = 25 °C 6.9µC T vj = 125 °C15.4T vj = 175 °C19.4反向恢复损耗（每脉冲）E rec V R = 600 V, I F = 100 A,V GE = -15 V, -di F/dt =1650 A/µs (T vj = 175 °C)T vj = 25 °C 2.04mJ T vj = 125 °C 4.61T vj = 175 °C 6.66结－外壳热阻R thJC每个二极管0.592K/W 外壳－散热器热阻R thCH每个二极管, λgrease= 1 W/(m*K)0.148K/W 允许开关的温度范围T vj op-40175°C注:T vj op > 150°C is allowed for operation at overload conditions. For detailed specifications, please refer to AN 2018-14.4负温度系数热敏电阻表 7特征值特征参数代号标注或测试条件数值单位最小值典型值最大值额定电阻值R25T NTC = 25 °C5kΩR100偏差ΔR/R T NTC = 100 °C, R100 = 493 Ω-55%耗散功率P25T NTC = 25 °C20mW B-值B25/50R2 = R25 exp[B25/50(1/T2-1/(298,15 K))]3375K B-值B25/80R2 = R25 exp[B25/80(1/T2-1/(298,15 K))]3411K B-值B25/100R2 = R25 exp[B25/100(1/T2-1/(298,15 K))]3433K 注:根据应用手册标定4 负温度系数热敏电阻6电路拓扑图图 17封装尺寸图 28模块标签代码图 3修订历史修订历史修订版本发布日期变更说明1.002021-11-19Initial version商标所有参照产品或服务名称和商标均为其各自所有者的财产。

WT230WT210130% input1% inputFunctions and Features of the WT210 and WT230● A Wide Frequency Range Lets You Work on a Variety of Different Applications2: Conditions apply to accuracy from 110% to 130%.● Powerful Tools for Energy Measurement● Wide range of 5 mA to 20 AThe built-in 5 mA range lets you measure currents as low as 25 µA. This makes it possible to measure very low currents on such things as intermittent control equipment. The wide current range (5 mA to 20 A) means a single power meter can be used for applications such as Energy Star® measuremnts, to measure everything from standby-power to rated-power.GP-IB/serial interface (RS-232-C)ExternalD/A outputComparator outputRecorderClamp probe The WT230’s advanced specifications and its wide range of functions let you handle all your measurement applications from low-frequency equipment to high frequency inverters using a single power meter.One unit also handles standby low-power measurements and rated-power measurements (functions available with the WT210 only).960 01751552N E W wareSoft Fr ee WTViewer for the WT210/WT230Easily Acquire and Manage Power Measurement Data from Your PCSee 8 pages orBulletin 7604- 32E for details.5ParameterVoltage15/30/60/150/300/600 VInput resistance: Approximately 2 M ΩInput capacitance: Approximately 13 pF Peak voltage of 2.8 kV or rms value of 2.0 kV (whichever is less)Peak voltage of 2.0 kV or rms value of 1.5 kV (whichever is less)Peak voltage of 1.5 kV or rms value of 1.0 kV (whichever is less)600 Vrms (with output connector protective cover), CA T II / 400 Vrms (without output connector protective cover) CA T II50/60 Hz, -80 dB or higher (±0.01% of range or less) with voltage input terminals shorted and current input terminals open and external input terminals shorted Reference value (up to 100 kHz): ±((Maximum range rating)/(Range rating) × 0.001 × f% of rng) or less (voltage range and 0.5-20 A current range and external input range 3)±((Maximum range rating)/(Range rating) × 0.0002 × f% of rng) or less (WT210; 5-200 mA range)Note: 0.01% or higher. f is in kHz. 3 Decuple the above-formula about the external input range.Resistance voltage dividerCurrentShunt input system Direct input:5/10/20/50/100/200 mA (WT210 only)1; 0.5/1/2/5/10/20 A (WT210/WT230)External input (optional): 2.5/5/10 V or 50/100/200 mVDirect input:Approximately 500 m Ω + approximately 0.1 µH (5-200 mA; WT210)Approximately 6 m Ω + 10 m Ω (max)2 + approximately 0.1 µH (0.5-20 A; WT210)Approximately 6 m Ω approximately 0.1 µH (0.5-20 A; WT230)External input: Approximately 100 k Ω (2.5/5/10 V), approximately 20 k Ω (50/100/200 mV)0.5-20 A (WT210/WT230): Peak current of 450 A or rms value of 300 A (whichever is less)5-200 mA (WT210): Peak current of 150 A or rms value of 100 A (whichever is less)External input: Peak value of 10 times range or less0.5-20 A (WT210/WT230): Peak current of 150 A or rms value of 40 A (whichever is less)5-200 mA (WT210): Peak current of 30 A or rms value of 20 A (whichever is less)External input: Peak value of 10 times range or less0.5-20 A (WT210/WT230): Peak current of 100 A or rms value of 30 A (whichever is less)5-200 mA (WT210): Peak current of 30 A or rms value of 20 A (whichever is less)External input: Peak value of 5 times range or lessInput typeRated values (ranges)Measuring instrument loss (input resistance)Maximum instantaneous allowed input (1 cycle, 20 ms duration)Maximum instantaneous allowed input (1 second duration)Maximum continuous allowed inputMaximum continuous common mode voltage (with 50/60 Hz input)CMRR600 Vrms across input terminal and caseFloating inputInput SpecificationsPlug-in terminal (safety terminal)Direct input: Large binding postExternal input: BNC connector (insulation type)Input terminal type A/D converterSimultaneous conversion of voltage and current inputs Resolution: 16 bitsMaximum conversion speed: Approximately 20 µs (approximately 51 kHz)Range switchingRanges can be set manually, automatically, or through online controls. Auto-range functionRange raising: When a measurement exceeds 130% of the rating, or when the peak value exceeds approximately 300% of the ratingRange lowering: When a measurement falls to 30% or less of the rating, and the peak value falls to approximately 300% or less of the rating for the low range Measurement mode switchingAny of the following, selected manually or through online controls: RMS (true rms value measurements for both voltage and current), V MEAN (calibration of average-value-rectified rms value for voltage; true rms value measurement for current), DC (simple averages for both voltage and current)Note: Current direct input and external sensor input cannot both be used at the same time. When you operate current input terminals and external input terminals, please be careful.Since these terminals are electrically connected inside the instrument.1, Connect wires that match the size of the measurement current.2, Factory settingParameterVoltage/currentDC:0.5 Hz ≤ f < 45 Hz:45 Hz ≤ f ≤ 66 Hz:66 Hz < f ≤ 1 kHz:1 kHz < f ≤ 10 kHz:10 kHz < f ≤ 100 kHz:* Add ±10 µA to the current DC accuracy.1-130% of voltage/current range rating (for accuracy at 110-130%, add the reading tolerance × 0.5 to the above accuracy) Add the accuracy's reading tolerance (three months after calibration) × 0.5 to the accuracy three months after calibration.A low-pass filter can be inserted in the input circuit for measurement. The cutoff frequency (fc) is 500 Hz.Voltage and current: Add 0.2% of rdg at 45-66 Hz. Add 0.5% of rdg below 45 Hz.Power: Add 0.3% of rdg at 45-66 Hz. Add 1% of rdg below 45 Hz.±0.03% of range/°C at 5-18°C and 28-40°C.0.1/0.25/0.5/1/2/5 secondsData updating rate0.1 second 0.25 second 0.5 second 1 second 2 seconds 5 seconds Measurement lower limit frequency25 Hz10 Hz5 Hz2.5 Hz1.5 Hz0.5 Hz±(0.2% or rdg + 0.2% of rng)*±(0.1% of rdg + 0.2% of rng)±(0.1% of rdg + 0.1% of rng)±(0.1% of rdg + 0.2% of rng)±((0.07 × f)% of rdg + 0.3% of rng)±((0.5% of rdg + 0.5% of rng) ±((0.04 × (f-10))% of rdg)Active powerDC:0.5 Hz ≤ f < 45 Hz:45 Hz ≤ f ≤ 66 Hz:66 Hz < f ≤ 1 kHz:1 kHz < f ≤ 10 kHz:10 kHz < f ≤ 100 kHz:* Add ±10 µA × voltage reading to the power DC accuracy.For cos ϕ = 045 Hz ≤ f ≤ 66 Hz: ±0.2% of VA (VA is a reading value of apparent power)Reference data (up to 100 kHz): ±((0.2 + 0.2 × f)% of VA)Indicated value tolerance for 0 < cos ϕ < 1Add (tan ϕ × (effect when cos ϕ = 0)% of power reading to the above power accuracy.Note: ϕ is the phase angle between voltage and current.±(0.3% or rdg + 0.2% of rng)*±(0.3% of rdg + 0.2% of rng)±(0.1% of rdg + 0.1% of rng)±(0.2% of rdg + 0.2% of rng)±(0.1% of rdg + 0.3% of rng) ±((0.067 × (f-1))% of rdg)±(0.5% of rdg + 0.5% of rng) ±((0.09 × (f-10))% of rdg)SystemFrequency range Crest factorAccuracy (three months after calibration) (Conditions)T emperature: 23±5°C Humidity: 30-75% RHInput waveform: Sinewave Power factor: cos ϕ = 1 In-phase voltage: 0 V DCFrequency filter: ON at 200 Hz or less Scaling: OFFDisplay digits: 5 digits After CAL is executedNote: In the accuracy calculation formula, f is in kHz.Power factor effectNote: In the accuracy calculation formula, f is in kHz. Effective input rangeAccuracy (12 months after calibration)Line filter functionAccuracy with line filter on T emperature coefficient Display updating intervals Measurement lower limit frequencyDigital sampling; sum of averages methodDC, and 0.5 Hz to 100 kHz3 (with rated input) 300 (with minimum effective input)Measurement Functionsrng: Range rdg: ReadingLead/lag is detected correctly when phase difference equal to or greater than ±5° with both voltage and current inputs as sine waves equal to or greater than 50% of rated range-value, and the frequency is between 20 Hz to 2 kHz.Lead/lag detectingThe latest product information is available at our web site /tm/. Review the specifications to determine which model is right for you.Frequency MeasurementsMeasurement inputs :V1, V2, V3, A1, A2, or A3 (select one)Measurement system :Reciprocal system Measurement frequency ranges100 ms:25Hz ≤ f ≤100 kHz 250 ms:10Hz ≤ f ≤100 kHz 500 ms: 5Hz ≤ f ≤100 kHz 1 sec: 2.5Hz ≤ f ≤100 kHz 2.5 sec:1.5Hz ≤ f ≤50 kHz 5 sec:0.5Hz ≤ f ≤20 kHzAccuracy:±(0.06% of rdg)Conditions:Input equal to at least 30% of voltage/current rated range.Frequency filter function ON at 200 Hz and below.Frequency filter cutoff frequency: 500 HzCommunication Functions (Optional for the WT210)GP-IB or serial interface (RS-232-C) (select one)GP-IBElectrical and mechanical specifications:Conform to IEEE Standard 488-1978 (JIS C1901-1987).Functional specifications:SH1, AH1, T5, L4, SR1, RL1, PR0, DC1, DT1, C0Protocol:Conforms to IEEE Standard 488.2-1992.Code used:ISO (ASCII) code Addresses:0-30 talker/listener addresses can be set.Serial interface (RS-232-C)Transmission mode :Asynchronous Baud rates:1200, 2400, 4800, 9600 bps62333Single-phase 3-wire Three-phase 3-wire (2 voltages, 2 currents)Three-phase 3-wire (3 voltages, 3 currents)Three-phase 4-wireVoltage ∑V (V1 + V3)/2(A1 + A3)/2W1 + W3(V1 + V2 + V3)/3(A1 + A2 + A3)/3W1 + W2 + W3var1 + var2 + var3VA1 + VA2 + VA3Current ∑A Active power ∑WPower factor PF , ∑PF Phaseangle deg, ∑degdegi =cos -1 (Wi/VAi)Reactive power var, ∑var Apparent power VA, ∑VA vari = (VA 2 - W 2)VAi = Vi × Ai Pfi = Wi/VAi ∑W/∑VA cos -1 (∑W/∑VA)VA1 + VA3var1 + var3(VA1 + VA3)(VA1 + VA2 + VA3)Notes1.This equipment's apparent power (VA), reactive power (var), power factor (PF),and phase angle (deg) are calculated from voltage, current, and active power.(Therefore, if the input contains a distorted wave, the values may not match those of other measuring instruments based on different measurement principles.)2.If either voltage or current falls to 0.5% of the range rating or less, then the apparent power (VA) and reactive power (var) are displayed as zero, and errors are displayed for power factor (PF) and phase angle (deg).3.The sign of the var of each phase is displayed with +(positive). In the ∑var calculation, the var value for each phase is calculated with a negative sign if the current input leads the voltage input, and with a positive sign if the current input lags the voltage input. Then the value of ∑ var may be displayed with –(negative).4.Apparent power (VA) and reactive power (var) cannot be calculated and displayed at the harmonics measurement mode.Display FunctionsDisplay unit:7-segment LED (light-emitting diode)Display areas:3V , A, W, VA, var (for each element), integration elapsed timeV , A, W, PF , deg (for each element, percentage (content percentage, THD)V , A, W, V/AHz, Vpk, Apk, ±Wh, ±Ah (for each element), MA THDisplay areaA B CDisplayed informationMeasurement parameters Maximum display Display resolutionV , A, W, VA, var PF deg ±Wh, ±AhVHz, AHz 99999±1.0000±180.0999999999990.001%0.01%0.1*0.0001%Input frequency/20,000Display digits: 4 or 5 digits (selectable by user).Factory default setting is 5 digits.Units:m, k, M, V , A, W, VA, var, Hz, h ±, deg, %Display updating intervals: 0.1/0.25/0.5/1/2/5 seconds Response time:Maximum 2 times the display updating interval (time requiredfor display value to enter accuracy range of final value with line filter off, when range rating abruptly changes from 0% to 100%,and from 100% to 0%)Maximum display:140% of voltage/current range rating Minimum display:About Vrms, Arms, and Ah, 0.5% of range rating.Less than 0.5% is zero suppression.Display scaling functionEffective digits:Selected automatically according to the digits in the voltage andcurrent ranges.Setting range:0.001 to 9999Averaging functionThere are two averaging methods (selectable by user):Exponential average Moving averageIn cases where response can be set and exponential average is used, the attenuation constant can be selected. In cases where a moving average is used, the number of averages N can be selected from 8, 16, 32, and 64.Auto-range monitorAn LED turns on when the input value is outside the range set for the auto-range.MAX hold functionThis function can be used to hold V, A, W, VA, var, Vpk, and Apk at maximum values.MA TH functions System:When a function key on DISPLA Y C is pressed to select theMATH functions, it is possible to perform efficiency (WT230 only)and input crest factor measurements, as well as arithmetic calculations on DISPLAY A and B measurements. In addition, it is possible to display average active power for time-converted integrated power.Integration FunctionsDisplay resolution:The minimum display resolution changes together with the integrated value.Maximum display:-99999 to 999999 MWh/MAhModes:Standard integration mode (timer mode), continuous integration mode (repeat mode), manual integration modeTimer:Automatic integration start/stop based on timer setting.Setting range: 000 h:00 min:00 sec to 10000 h:00 min:00 sec (If the time is set to zero, manual mode is automatically set.)Count over flow:When the integrated value exceeds 999999 MWh/MAh or falls to at least -99999 MWh/MAh, the elapsed time is saved and the operation is stopped.Accuracy:±(display accuracy + 0.1% of rdg)Timer accuracy:±0.02%Remote control:Starting, stopping, and resetting can be controlled through external contact signals. This function is only available when option /DA4, /DA12 or /CMP is installed.Calculation FunctionsInternal Memory FunctionsMeasurement dataStored data WT210 (760401)WT230 (760502)WT230 (760503)Normal measurement Data for 600 samples Data for 300 samples Data for 200 samplesHarmonic measurement Data for 30 samples Data for 30 samples Data for 30 samplesStore interval:Display updating interval and 1 second to 99 hours, 59 minutes,and 59 secondsRecall interval:Display updating interval and 1 second to 99 hours, 59 minutes,and 59 seconds(Both can be set in 1-second increments.)Panel setting information :Four different patterns of panel setting information can be written/read.Harmonic Measurement Function (optional)System:PLL synchronization Measurement frequency range:Fundamental frequency in range of 40-440 HzMaximum display:99999Display digits: 4 or 5 digits (selectable by user).Factory default setting is 5 digits.Measurement parameters: V , A, W, deg (WT210), V1, V2, V3, A1, A2, A3, W1, W2,W3, deg1, deg2, deg3 (WT230), individual harmonic levels, rms voltage, rms current, active power, fundamental frequency PF ,harmonic distortion rate, individual harmonic contentMeasurement element: These parameters can only be measured simultaneously fora single specified input element.Sampling speed, window width, and analysis ordersThe values for these parameters vary according to the input fundamental frequency as shown below.Fundamental frequency Sampling speed Window width Analysis orders 40 ≤ f < 70 Hz f × 512 Hz 2 periods of f 50 70 ≤ f < 130 Hz f × 256 Hz 4 periods of f 50130 ≤ f < 250 Hz f × 128 Hz 8 periods of f 50250 ≤ f ≤ 440 Hz f × 64 Hz 16 periods of f 30FFT data length:1024FFT processed word length: 32 bits Window function:Rectangular Display updating interval:0.25/0.5/1/2/5 seconds Updating is slower during online output according to the communication speed and the number of parameters transferred.Accuracy:Add ±0.2% of range to normal measurement accuracy.Note:For nth-order component input, add ((nth order reading)× (10/(m+1))%) to the n+mth order and n-mth order.D/A Output (optional)Output voltage:±5 V FS (maximum approximately ±7.5 V) for each rated value Number of outputs:12 parameters with /DA12 option; 4 parameters with /DA4 option Output data selection :Can be set separately for each channel.Accuracy:±(equipment accuracy + 0.2% of FS)D/A converter:12-bit resolution Response time:Maximum 2 times the display updating interval Updating interval:Same as the equipment's display updating interval Temperature coefficient:±0.05%˚C of FS Output typeD/A output7.5V 5.0V2.5V0.5V00.5Hz 100Hz10Hz1Hz1kHz10kHz Display value100kHz FrequencyIntegrationD/A output7.0V5.0Vt0Integration timeFor input equal to 140% of ratingFor rated inputt0: Rated setting timeOther parameters0V-100%-140%-5.0V -7.0V -7.5V5.0V7.0V 7.5V 140%100%D/A outputDisplay valueDisplay 140% 100% 0%-100%-140%Output 7.0V 5.0V 0V -5.0V -7.0VNote: For PF and deg, there is no output between ±5 and ±7 V. When an error occurs,approximately 7.5 V are output.7External Input (Optional)Select either /EX1 or /EX2 for the voltage output-type current sensor./EX1: 2.5/5/10 V /EX2:50/100/200 mV Specifications:See the section on input specifications.Comparator Output (Optional)Output method:Normal-open and normal-close relay contact output (pair)Number of output parameters and settings:Four parameters; can be set separately on each output channel.Contact capacitance:24 V/0.5 AD/A output (4-channel):See section on D/A output (optional)External Control Signal (with D/A or /CMP Option Only)External control signals :EXT -HOLD, EXT -TRIG, EXT -START, EXT -STOP , EXT -RESET ,INTEG-BUSYInput:TTL level negative pulseGeneral SpecificationsWarmup time:Approximately 30 minutesOperating temperature and humidity ranges: 5-40˚C, 20-80% RH (no condensation)Storage temperature :-25-60˚C (no condensation)Maximum operating elevation: 2000 metersInsulating resistance :50 M Ω or higher at 500 V DC across all of the following areas:Voltage input terminals (ganged) and case Current input terminals (ganged) and caseVoltage input terminals (ganged) and current input terminals (ganged)Voltage input terminals (ganged) of each element Current input terminals (ganged) of each element Voltage input terminals (ganged) and power plug Current input terminals (ganged) and power plug Case and power plugInsulating withstand voltage:3700 V for one minute at 50/60 Hz across all of the following areas:Voltage input terminals (ganged) and case Current input terminals (ganged) and caseVoltage input terminals (ganged) and current input terminals (ganged)Voltage input terminals (ganged) of each element Current input terminals (ganged) of each element Voltage input terminals (ganged) and power plug Current input terminals (ganged) and power plug1500 V for one minute at 50/60 Hz across case and power plug Power supply:Free power supply (100-240 V), 50/60 Hz frequency Consumed power:Max 35 VA for WT210, max 55 VA for WT230External dimensions for WT210:Approximately 213 × 88 × 379 mm (WHD) (excluding projections)External dimensions for WT230:Approximately 213 × 132 × 379 mm (WHD) (excluding projections)Weight:Approximately 3 kg for WT210, approximately 5 kg for WT230Safety standard Complying standard EN61010-1Overvoltage category (Installation category) II Pollution degree 2Emission Complying standard EN61326 Class AEN61000-3-2EN61000-3-3AS/NZS 2064 Class AImmunity Complying standard EN61326 Annex A■ Exterior ViewUnit : mmWT210WT23021332728.51322113233425073233562131798819359760401Power cord Options-D-F -R -Q/C1/C2 /EX1 /EX2/HRM/DA4/CMPWT210 single-input element modelUL/CSA standard VDE standard AS standard BS standardGP-IB communication interfaceSerial (RS-232-C) communication interface External input 2.5/5/10 V External input 50/100/200 mV Harmonic measurement function 4-channel DA outputComparator and D/A, 4 channels eachModel number DescriptionSuffix codeSelect oneSelect one Select oneNote: The WT210 communication interface cannot be changed or modified after delivery.760502760503Interface Power cord Options-C1-C2-D-F -R -Q/EX1/EX2/HRM /DA12/CMPWT230 2-input element model WT230 3-input element model GP-IB communication interfaceSerial (RS-232-C) communication interface UL/CSA standard VDE standard AS standard BS standardExternal input 2.5/5/10 V External input 50/100/200 mV Harmonic measurement function 12-channel DA outputComparator and D/A, 4 channels eachModel number DescriptionSuffix code Select oneSelect oneSelect one Model or part number751533-E2751533-J2751534-E2751534-J2751533-E3751533-J3751534-E3751534-J3SpecificationFor WT210 EIA standalone installation For WT210 JIS standalone installation For WT210 EIA connected installation For WT210 JIS connected installation For WT230 EIA standalone installation For WT230 JIS standalone installation For WT230 EIA connected installation For WT230 JIS connected installationOrder quantity11111111Product Rack mounting kit Rack mounting kit Rack mounting kit Rack mounting kit Rack mounting kit Rack mounting kit Rack mounting kit Rack mounting kitAsk Yokogawa for information on rack mounts in which WT210 and WT230 are combined.B9317WD B9284LK1.5 mm hex wrench External sensor cableFor fastening cable on 758931For external input; 50 cmModel numberDescription■ Model Numbers and Suffix Codes■ Rack mounts■ Accessories (sold separately)■ Standard AccessoriesPower cord, Power fuse, Current input protective cover, Rubber feet for the hind feet,24-pin connector (provided only on options/DA4, /DA12, and /CMP), User’s manualSingle-phase 2-wire Single-phase 3-wireThree-phase 3-wire (2 voltages, 2 currents)Three-phase 3-wire (3 voltages, 3 currents)Three-phase 4-wire760401✓––––760502✓✓✓––760503✓✓✓✓✓WiringModel■ Wiring Types and Model Numbers366921Conversion adapter 1758921Fork Terminal Adapter758917Measurement leadsLabVIEW* Driver Software (Free)interface. See Bulletin 04L00L00-00E for details.。

Product Data SheetTrigonox 101-50D-PD 2,5-Dimethyl-2,5-di(tert-butylperoxy) hexaneTrigonox® 101-50D-PD is a 50% formulation on an inert carrier sytem in powder form.CAS number78-63-7EINECS/ELINCS No.201-128-1TSCA statuslisted on inventoryMolecular weight290.4Active oxygen contentperoxide11.02%Concentration5.40-5.62%SpecificationsAppearance White powderAssay49.0-51.0 %ApplicationsTrigonox® 101-50D-PD is a bifunctional peroxide which is used for the crosslinking of natural rubber and synthetic rubbers, as well as polyolefins. Rubber compounds containing Trigonox® 101-50D-PD have excellent scorch safety, and under certain conditions one step mixing is possible. Safe processing temperature: 135°C (rheometer ts2 > 20 min.). Typical crosslinking temperature: 175°C (rheometer t90 about 12 min.).Thermal stabilityOrganic peroxides are thermally unstable substances, which may undergo self-accelerating decomposition. The lowest temperature at which self-accelerating decomposition of a substance in the original packaging may occur is the Self-Accelerating Decomposition Temperature (SADT). The SADT is determined on the basis of the Heat Accumulation Storage Test.SADT80°CMethod The Heat Accumulation Storage Test is a recognized test method for thedetermination of the SADT of organic peroxides (see Recommendations on theTransport of Dangerous Goods, Manual of Tests and Criteria - United Nations, NewYork and Geneva).StorageDue to the relatively unstable nature of organic peroxides a loss of quality can be detected over a period of time. To minimize the loss of quality, Nouryon recommends a maximum storage temperature (Ts max. ) for each organic peroxide product.Ts Max.30°CTs Min.0°CNote When stored under these recommended storage conditions, Trigonox® 101-50D-PD will remain within the Nouryon specifications for a period of at least 6 monthsafter delivery.Packaging and transportThe standard packaging is a cardboard box for 20 kg peroxide formulationBoth packaging and transport meet the international regulations. For the availability of other packed quantities contact your Nouryon representative. Trigonox®101-50D-PD is classified as Organic peroxide type E; solid, Division 5. 2; UN 3108.Safety and handlingKeep containers tightly closed. Store and handle Trigonox® 101-50D-PD in a dry well-ventilated place away from sources of heat or ignition and direct sunlight. Never weigh out in the storage room. Avoid contact with reducing agents (e. g. amines), acids, alkalis and heavy metal compounds (e. g. accelerators, driers and metal soaps). Please refer to the Safety Data Sheet (SDS) for further information on the safe storage, use and handling of Trigonox® 101-50D-PD. This information should be thoroughly reviewed prior to acceptance of this product. The SDS is available at /sds-search.Major decomposition productsMethane, Ethane, Acetone, tert-Butanol, tert-AmylalcoholAll information concerning this product and/or suggestions for handling and use contained herein are offered in good faith and are believed to be reliable.Nouryon, however, makes no warranty as to accuracy and/or sufficiency of such information and/or suggestions, as to the product's merchantability or fitness for any particular purpose, or that any suggested use will not infringe any patent. Nouryon does not accept any liability whatsoever arising out of the use of or reliance on this information, or out of the use or the performance of the product. Nothing contained herein shall be construed as granting or extending any license under any patent. Customer must determine for himself, by preliminary tests or otherwise, the suitability of this product for his purposes.The information contained herein supersedes all previously issued information on the subject matter covered. The customer may forward, distribute, and/or photocopy this document only if unaltered and complete, including all of its headers and footers, and should refrain from any unauthorized use. Don’t copythis document to a website.Trigonox® is a registered trademark of Nouryon Functional Chemicals B.V. or affiliates in one or more territories.Contact UsPolymer Specialties Americas************************Polymer Specialties Europe, Middle East, India and Africa*************************Polymer Specialties Asia Pacific************************2022-6-30© 2022Polymer crosslinking Trigonox 101-50D-PD。

DATA SHEETIntroductionProtectowire Linear Heat Detector is a proprietary cable that detects heat anywhere along its length. The sensor cable is comprised of two steel conductors individually insulated with a heat sensitive polymer. The insulated conductors are twisted together to impose a springpressure between them, then wrapped with a protective tape and finished with an outer jacket suitable for the environment in which the detector will be installed.Protectowire is a fixed temperature digital sensor and istherefore capable of initiating an alarm once its rated activation temperature is reached. At the rated temperature, the heat sensitive polymer insulation yields to the pressure upon it,permitting the inner conductors to move into contact with each other thereby initiating an alarm signal. This action takes place at the first heated point anywhere along the detector’s length. It does not require a specific length to be heated in order to initiate an alarm, nor system calibration to compensate for changes in the installed ambient temperature. Protectowire Linear Heat Detector provides the advantages of line coverage with point sensitivity.Protectowire Linear Heat DetectorFeatures•Line coverage…continuous sensitivity.•Seven alarm temperature ratings.•The ability to withstand severe environmental conditions.•Approval for use hazardous locations.•Ease of installation, testing, and splicing.•Compatibility with other initiation devices on same circuit.•Listed for spacing up to 50 ft. (15.2m).Applications•Cable trays •Conveyors•Power distribution apparatus: switchgear, transformers,motor control centers•Dust collectors/baghouses •Cooling towers•Warehouses/rack storage •Mines •Pipelines•Bridges, piers, marine vessels •Refrigerated storage •Tank farms•Aircraft hangarsIdeally suited to industrial high risk hazards as well as many types of commercial applications, Protectowire Linear Heat Detector has unique advantages over other types of detectors, especially when difficult installation factors or severe environmental conditions are present.When used with the appropriate Protectowire control equipment, the detector will activate a display, showing the location of an over heat or fire condition anywhere along its length. The detector also meets intrinsically safe standards and is Factory Mutual (FM) Approved for Class I, II, or III, Div. 1, Applicable Groups A, B, C, D, E, F & G hazardous areas, when used with suitably approved Protectowire control equipment.Protectowire Features & Benefits•Alarm location identified and displayed, at the control panel,anywhere along its length when used with the exclusive Protectowire Alarm Point Location Meter.•Sensitivity unaffected by changes in ambient temperature or length of cable used on the detection circuit. Compensating adjustments are not required.•Installation and splicing is simple with common tools.Junctions can be made without effecting the integrity of the system.•Compatibility with other types of alarm initiating devices on the same circuit such as manual pull stations, thermal heat detectors and smoke detectors.•Installation possible in hazardous areas when used with suitably approved Protectowire control equipment.•Full range of temperatures and models available to accommodate the most demanding applications.••Different temperature detectors may be utilized in the same initiating circuit.Detectors available on integrated stainless steel messenger wire for installations where mounting is difficult such as large open areas.•Test equipment is portable and available for easy field service.•Detectors are ideal for activation of extinguishingequipment, such as deluge or pre-action sprinkler systems.DescriptionThe detector is made in multiple temperature ratings to allowfor differences in normal ambient temperature. Guidelines for selecting the proper detector temperature rating are the same as for automatic sprinklers and other heat actuated devices. Refer to the Temperature Rating Chart for proper model selection based upon installation temperature limits.The detector’s product range consists of two distinct types of cable. Standard PHSC models and low resistance “Universal” versions designated with the prefix PLR. Each model number designation also identifies a specific outer jacket material carefully selected to accommodate the widest range ofinstallation environments. All specifications are subject to change without notice.EPC – Type EPC consists of a durable flame retardant vinyl outer jacket and is designed for interior commercial and industrial applications. Features of this jacket include low moistureabsorption, resistance to many common chemicals, and excellent flexibility at low temperatures.XCR – Type XCR consists of a high-performance fluoropolymer jacket and is designed for exterior environments as well as harsh interior applications. Features of this low smoke jacket include excellent chemical resistance, abrasion resistance, weather resistance, and high-temperature performance.XCR is the only detector that is FM-approved for corrosive environments.XLT – Type XLT consists of a outer jacket that is specifically selected for cold storage and freezers. Features of this jacket include low moisture absorption and excellent performance in extremely low temperatures. This detector has been UL and FM tested to –60°F (–51°C).PLR-R – Type PLR consists of a polypropylene elastomer jacket and is designed for universal compatibility through the use of special low-resistance inner conductors. Features of this jacket include good abrasion resistance, chemical resistance, and weather resistance.PLR-CR – Type PLR -CR is constructed with low resistance inner conductors, allowing for longer detector zone lengths on most types of fire alarm panels including addressable panels. Utilizing a high performance fluoropolymer outer jacket, this detector is specifically designed for use in applications where extremeOuter JacketConductor Tin Polyester Zinc ConductorPolymer Polymer Outer JacketApproximately 5/32” (4mm) diameterenvironment and product criteria must be met. The flame retardant, low smoke jacket provides excellent abrasion resistance and mechanical properties over a broad range of applications. It provides excellent chemical and permeation resistance to a wide range of acids, bases, and organic solvents, as well as simple gases. In addition, the jacket exhibits very little change in tensile properties upon outdoor exposure to sunlight and weather.InstallationThe Protectowire Linear Heat Detector is approved as a heat actuated automatic fire detector and is intended to be usedon a supervised initiating circuit of an approved fire protective signaling control unit. The detector must be installed in continuous runs without taps or branches in accordance with applicable sections of NFPA 70 National Electrical Code, NFPA 72 National Fire Alarm Code, or as determined by the local “authority having jurisdiction.”Protectowire may be installed at the ceiling level or on the side walls within 20 inches of the ceiling, to protect areas within buildings (area protection). The detector has the additional benefit of being suitable for installation close to the hazardin order to provide a rapid response (proximity or special application protection).On smooth ceilings, the distance between detector runs shall not exceed the listed spacing. There shall be a detector run within a distance of one half the listed spacing, measured at a right angle, from all walls, or partitions extending to within the top 15% of the ceiling height as shown in the illustration.The listed spacing shall be used as a guide or starting point in detector installation layout. Reduced spacing is required based upon factors such as ceiling height and construction, physical obstructions, air movement, or when Protectowire is used to activate sprinkler systems, special Factory Mutual (FM) spacing guidelines may also be applicable to the specific hazard being protected. It is mandatory that engineering judgment be applied in determining final detector location and spacing.In general, the use of Protectowire in any initiating device circuit, is limited to coverage of a specific hazard or area. Copper wire, of an approved type, with a minimum conductor size of 18 AWG, shall be installed from the control panel out to the hazard area where it is then connected to the beginning of the Protectowire portion of the circuit. The Protectowire portion of each initiating circuit shall begin and terminate at each end in an approved zone box or end-of-line zone box. SR-502 Series, StrainRelief Connectors, shall be installed in all zone boxes where Protectowire enters or exits the enclosure, in order to hold the cable securely.Ceiling of protected areaS=Listed spacing. See chart below.Temperature Ratings & Model Numbers (Use Linear Detector of Proper Temperature Rating)Product/Jacket TypeModelNumber Alarm TemperatureMax. RecommendedAmbient TemperatureMax. Listed SpacingFM UL/cULEPCMulti-Purpose/ Commercial & Industrial Applications PHSC-155-EPCPHSC-190-EPCPHSC-220-EPCPHSC-280-EPCPHSC-356-EPC155°F (68°C)190°F (88°C)220°F (105°C)280°F (138°C)356°F (180°C)115°F (46°C)*150°F (66°C)175°F (79°C)*200°F (93°C)221°F (105°C)30ft (9.1m)30ft (9.1m)25ft (7.6m)25ft (7.6m)See Note 150ft (15.2m)50ft (15.2m)50ft (15.2m)50ft (15.2m)50ft (15.2m)XCRHigh Performance/ Industrial Applications Excellent Abrasion & Chemical Resistance PHSC-155-XCRPHSC-190-XCRPHSC-220-XCRPHSC-280-XCRPHSC-356-XCR155°F (68°C)190°F (88°C)220°F (105°C)280°F (138°C)356°F (180°C)115°F (46°C)*150°F (66°C)175°F (79°C)*200°F (93°C)250°F (121°C)30ft (9.1m)30ft (9.1m)25ft (7.6m)25ft (7.6m)See Note 150ft (15.2m)50ft (15.2m)50ft (15.2m)50ft (15.2m)50ft (15.2m)XLTExclusively for cold storageand freezersPHSC-135-XLT**135°F (57°C)100°F (38°C)30ft (9.1m)50ft (15.2m)PLR-RGood Weathering Properties & Flexibility Over a Wide Temperature Range PLR-155RPLR-190R155°F (68°C)190°F (88°C)115°F (46°C)*150°F (66°C)30ft (9.1m)30ft (9.1m)50ft (15.2m)50ft (15.2m)PLR-CRHigh Performance/ IndustrialApplications Excellent Abrasion& Chemical ResistancePLR-500CR500°F (260°C)392°F (200°C)See Note 150ft (15.2m)* F or open area applications the recommended UL 521 maximum ambient temperature for all 155 models is 100°F (38°C), and 220 models is 150°F (66°C). Temperatures shown in table are acceptable for UL Special Application use.**PHSC-135°F XLT has been UL Listed and FM Approved for -60°F (-51°C).Note 1: FM Approved for special application use only.All Protectowire models can be supplied on Messenger Wire. Add suffix “-M” to above model numbers.The Protectowire Company, Inc., 60 Washington Street, Pembroke, MA 02359 | 781-826-3878 | © Copyright 2019, The Protectowire Company, Inc. All rights reserved. SpecificationsMaximum Voltage Rating: 30 VAC, 42 VDCResistance PHSC Models: .185 ohms/ft. (.607 ohms/m)Resistance PLR Models: .058 ohms/ft. (.191 ohms/m)Min. Bend Radius: 2.5 inches (6.4cm)Diameter: Nominal 5/32 inch (4mm)Weight:Nominal 8lbs./500 ft.(3.6 kg/152m)Installation AccessoriesA comprehensive range of mounting and installationaccessories are available for the installation of Protectowire Linear Heat Detector. These include several types of clips, straps, beam clamps, cable standoffs, connectors and zone boxes. Their proper use assures a neat and reliable installation. Only installation hardware supplied or recommended by The Protectowire Company should be used.Messenger wire is also available for any model detector on special order. It consists of high tensile strength stainless steel wire, which is wound around the detector at the rate of approximately one turn per foot (3x per meter). It is a carrier or support wire which is designed to simplify the installation of the detector in areas where mounting is difficult due to the lack of appropriate support structures or mounting surfaces. When using messenger wire to support the detector, turnbuckles and eyebolts must be employed at each end of a run to place tensionon the support wire. The maximum detector length between turnbuckles should not exceed 250 feet (76m) and the wiremust also be supported with approved intermediate fasteners at intervals ranging from 15 feet (4.5m) to 50 feet (15m) depending upon the application. Outdoor messenger wire installations present additional challenges due to environmental factors such as snow loads, ice build-up or wind. Increased detector support must be provided by using additional intermediate fasteners with closer spacing in all outdoor installations. When ordering messenger wire configurations, add suffix “-M” to the Protectowire model number.All models of Protectowire Linear Heat detector have the same size conductors and are readily spliced together with common tools, by means of PWSK-3 or PWSC Splicing Connectors. These devices are designed for this specific purpose and are the only approved methods of splicing the detector.System CapabilitiesProtectowire Linear Heat detector is a component of a complete family of systems manufactured by The Protectowire Company — a leader in fire detection since 1938.Protectowire fire detection systems provide a completesingle source solution for meeting any fire defense need, from hazardous area detection to auxiliary equipment shutdown, and automatic extinguishing release.AccessoriesThe Protectowire Company offers an assortment of fasteners and splicing devices to facilitate installation for both standardand special applications. Full details are available upon request.。

Low-cost 3.3V Zero Delay BufferCY2309Features•10-MHz to 100-/133-MHz operating range, compatible with CPU and PCI bus frequencies •Zero input-output propagation delay •Multiple low-skew outputs—Output-output skew less than 250 ps —Device-device skew less than 700 ps —One input drives five outputs (CY2305)—One input drives nine outputs, grouped as 4 + 4 + 1 (CY2309)•Less than 200 ps cycle-cycle jitter, compatible with Pentium -based systems•Test Mode to bypass phase-locked loop (PLL) (CY2309 only [see “Select Input Decoding” on page 2])•Available in space-saving 16-pin 150-mil SOIC or4.4-mm TSSOP packages (CY2309), and 8-pin, 150-mil SOIC package (CY2305)•3.3V operation•Industrial temperature availableFunctional DescriptionThe CY2309 is a low-cost 3.3V zero delay buffer designed to distribute high-speed clocks and is available in a 16-pin SOIC or TSSOP package. The CY2305 is an 8-pin version of the CY2309. It accepts one reference input, and drives out five low-skew clocks. The -1H versions of each device operate atup to 100-/133-MHz frequencies, and have higher drive than the -1 devices. All parts have on-chip PLLs which lock to an input clock on the REF pin. The PLL feedback is on-chip and is obtained from the CLKOUT pad.The CY2309 has two banks of four outputs each, which can be controlled by the Select inputs as shown in the “Select Input Decoding ” table on page 2. If all output clocks are not required,BankB can be three-stated. The select inputs also allow the input clock to be directly applied to the outputs for chip and system testing purposes.The CY2305 and CY2309 PLLs enter a power-down mode when there are no rising edges on the REF input. In this state,the outputs are three-stated and the PLL is turned off, resulting in less than 12.0 µA of current draw for commercial temper-ature devices and 25.0 µA for industrial temperature parts. The CY2309 PLL shuts down in one additional case as shown in the table below.Multiple CY2305 and CY2309 devices can accept the same input clock and distribute it. In this case, the skew between the outputs of two devices is guaranteed to be less than 700 ps. All outputs have less than 200 ps of cycle-cycle jitter. The input to output propagation delay on both devices is guaranteed to be less than 350 ps, and the output to output skew is guaranteed to be less than 250 ps.The CY2305/CY2309 is available in two/three different config-urations, as shown in the ordering information (page 10). The CY2305-1/CY2309-1 is the base part. The CY2305-1H/CY2309-1H is the high-drive version of the -1, and its rise and fall times are much faster than the -1s.Block Diagram12345678910111213141516REF CLKA1CLKA2V DD GND CLKB1CLKB2S2CLKOUT CLKA4CLKA3V DD GND CLKB4CLKB3S1SOIC/TSSOP Top ViewPin Configuration2309-12309-212345876REF CLK2CLK1GNDV DD CLKOUT CLK4CLK3SOIC Top View2309-3PLLMUXSelect Input REFS2S1CLKA1CLKA2CLKA3CLKA4CLKB1CLKB2CLKB3CLKB4DecodingCLKOUTNotes:1.Weak pull-down.2.Weak pull-down on all outputs.3.Weak pull-ups on these inputs.4.This output is driven and has an internal feedback for the PLL. The load on this output can be adjusted to change the skew between the reference and output.Pin Description for CY2309Pin SignalDescription1REF [1]Input reference frequency, 5V-tolerant input2CLKA1[2]Buffered clock output, Bank A 3CLKA2[2]Buffered clock output, Bank A 4V DD 3.3V supply 5GND Ground6CLKB1[2]Buffered clock output, Bank B 7CLKB2[2]Buffered clock output, Bank B 8S2[3]Select input, bit 29S1[3]Select input, bit 110CLKB3[2]Buffered clock output, Bank B 11CLKB4[2]Buffered clock output, Bank B 12GND Ground 13V DD 3.3V supply14CLKA3[2]Buffered clock output, Bank A 15CLKA4[2]Buffered clock output, Bank A16CLKOUT [2]Buffered output, internal feedback on this pinPin Description for CY2305Pin SignalDescription1REF [1]Input reference frequency, 5V-tolerant input2CLK2[2]Buffered clock output 3CLK1[2]Buffered clock output 4GND Ground5CLK3[2]Buffered clock output 6V DD 3.3V supply7CLK4[2]Buffered clock output8CLKOUT [2]Buffered clock output, internal feedback on this pinSelect Input Decoding for CY2309S2S1CLOCK A1–A4CLOCK B1–B4CLKOUT [4]Output SourcePLL Shutdown00Three-state Three-state Driven PLL N 01Driven Three-state Driven PLL N 10Driven Driven Driven Reference Y 11DrivenDrivenDrivenPLLNREF. Input to CLKA/CLKB Delay vs. Loading Difference between CLKOUT and CLKA/CLKB PinsZero Delay and Skew ControlAll outputs should be uniformly loaded to achieve Zero Delay between the input and output. Since the CLKOUT pin is the internal feedback to the PLL, its relative loading can adjust the input-output delay. This is shown in the above graph.For applications requiring zero input-output delay, all outputs, including CLKOUT, must be equally loaded. Even if CLKOUT is not used, it must have a capacitive load, equal to that on other outputs, for obtaining zero input-output delay. If input to output delay adjustments are required, use the above graph to calculate loading differences between the CLKOUT pin and other outputs.For zero output-output skew, be sure to load all outputs equally. For further information refer to the application note entitled “CY2305 and CY2309 as PCI and SDRAM Buffers.”Maximum RatingsSupply Voltage to Ground Potential...............–0.5V to +7.0V DC Input Voltage (Except REF) ............–0.5V to V DD + 0.5V DC Input Voltage REF.........................................–0.5V to 7V Storage Temperature .................................–65°C to +150°C Junction Temperature................................................. 150°C Static Discharge Voltage(per MIL-STD-883, Method 3015)...........................> 2,000VOperating Conditions for CY2305SC-XX and CY2309SC-XX Commercial Temperature Devices Parameter Description Min.Max.Unit V DD Supply Voltage 3.0 3.6V T A Operating Temperature (Ambient Temperature)070°C C L Load Capacitance, below 100 MHz30pF C L Load Capacitance, from 100 MHz to 133 MHz10pF C IN Input Capacitance7pFt PU Power-up time for all VDD's to reach minimum specified voltage(power ramps must be monotonic)0.0550msElectrical Characteristics for CY2305SC-XX and CY2309SC-XX Commercial Temperature Devices Parameter Description Test Conditions Min.Max.UnitV IL Input LOW Voltage[5]0.8VV IH Input HIGH Voltage[5] 2.0VI IL Input LOW Current V IN = 0V50.0µAI IH Input HIGH Current V IN = V DD100.0µAV OL Output LOW Voltage[6]I OL = 8 mA (–1)I OH = 12mA (–1H)0.4VV OH Output HIGH Voltage[6]I OH = –8 mA (–1)I OL = –12 mA (–1H)2.4VI DD (PD mode)Power Down Supply Current REF = 0 MHz12.0µAI DD Supply Current Unloaded outputs at 66.67 MHz,SEL inputs at V DD32.0mA Switching Characteristics for CY2305SC-1and CY2309SC-1 Commercial Temperature Devices[7] Parameter Name Test Conditions Min.Typ.Max.Unitt1Output Frequency30-pF load10-pF load 1010100133.33MHzMHzDuty Cycle[6] = t2÷ t1Measured at 1.4V, F out = 66.67 MHz40.050.060.0% t3Rise Time[6]Measured between 0.8V and 2.0V 2.50ns t4Fall Time[6]Measured between 0.8V and 2.0V 2.50ns t5Output to Output Skew[6]All outputs equally loaded250ps t6A Delay, REF Rising Edge toCLKOUT Rising Edge[6]Measured at V DD/20±350pst6B Delay, REF Rising Edge toCLKOUT Rising Edge[6]Measured at V DD/2. Measured in PLLBypass Mode, CY2309 device only.158.7nst7Device to Device Skew[6]Measured at V DD/2 on the CLKOUT pinsof devices0700pst J Cycle to Cycle Jitter[6]Measured at 66.67 MHz, loaded outputs200ps t LOCK PLL Lock Time[6]Stable power supply, valid clockpresented on REF pin1.0msNotes:5.REF input has a threshold voltage of V DD/2.6.Parameter is guaranteed by design and characterization. Not 100% tested in production.7.All parameters specified with loaded outputs.Switching Characteristics for CY2305SC-1H and CY2309SC-1H Commercial Temperature Devices [7]Parameter NameDescription Min.Typ.Max.Unit t1Output Frequency 30-pF load 10-pF load1010100133.33MHz MHz Duty Cycle [6] = t 2 ÷ t 1Measured at 1.4V, F out = 66.67 MHz 40.050.060.0%Duty Cycle [6] = t 2 ÷ t 1Measured at 1.4V, F out <50.0 MHz 45.050.055.0%t3Rise Time [6]Measured between 0.8V and 2.0V 1.50ns t 4Fall Time [6]Measured between 0.8V and 2.0V 1.50ns t 5Output to Output Skew [6]All outputs equally loaded250ps t 6A Delay, REF Rising Edge to CLKOUT Rising Edge [6]Measured at V DD /20±350ps t 6B Delay, REF Rising Edge to CLKOUT Rising Edge [6]Measured at V DD /2. Measured in PLL Bypass Mode, CY2309 device only.158.7ns t 7Device to Device Skew [6]Measured at V DD /2 on the CLKOUT pinsof devices700ps t 8Output Slew Rate [6]Measured between 0.8V and 2.0V using Test Circuit #21V/nst J Cycle to Cycle Jitter [6]Measured at 66.67 MHz, loaded outputs 200ps t LOCKPLL Lock Time [6]Stable power supply, valid clock presented on REF pin1.0msOperating Conditions for CY2305SI-XX and CY2309SI-XX Industrial Temperature DevicesParameter DescriptionMin.Max.Unit V DD Supply Voltage3.0 3.6VT A Operating Temperature (Ambient Temperature)–4085°CC L Load Capacitance, below 100 MHz30pF C L Load Capacitance, from 100 MHz to 133 MHz 10pF C INInput Capacitance7pFElectrical Characteristics for CY2305SI-XX and CY2309SI-XX Industrial Temperature DevicesParameter DescriptionTest ConditionsMin.Max.Unit V IL Input LOW Voltage [5]0.8V V IH Input HIGH Voltage [5] 2.0V I IL Input LOW Current V IN = 0V 50.0µA I IH Input HIGH Current V IN = V DD100.0µA V OL Output LOW Voltage [6]I OL = 8 mA (-1)I OH =12 mA (-1H)0.4V V OHOutput HIGH Voltage [6]I OH = –8 mA (-1)I OL = –12 mA (-1H) 2.4V I DD (PD mode)Power Down Supply Current REF = 0 MHz25.0µA I DDSupply CurrentUnloaded outputs at 66.67 MHz, SEL inputs at V DD35.0mASwitching Characteristics for CY2305SI-1and CY2309SI-1 Industrial Temperature Devices [7]Parameter NameTest ConditionsMin.Typ.Max.Unit t1Output Frequency 30-pF load 10-pF load1010100133.33MHz MHz Duty Cycle [6] = t 2 ÷ t 1Measured at 1.4V, F out = 66.67 MHz 40.050.060.0%t3Rise Time [6]Measured between 0.8V and 2.0V 2.50ns t 4Fall Time [6]Measured between 0.8V and 2.0V2.50nst 5Output to Output Skew [6]All outputs equally loaded 250ps t 6A Delay, REF Rising Edge to CLKOUT Rising Edge [6]Measured at V DD /20±350ps t 6BDelay, REF Rising Edge to CLKOUT Rising Edge [6]Measured at V DD /2. Measured in PLL Bypass Mode, CY2309 device only.158.7nst 7Device to Device Skew [6]Measured at V DD /2 on the CLKOUT pins of devices0700ps t J Cycle to Cycle Jitter [6]Measured at 66.67 MHz, loaded outputs200ps t LOCKPLL Lock Time [6]Stable power supply, valid clock presented on REF pin1.0msSwitching Characteristics for CY2305SI-1H and CY2309SI-1H Industrial Temperature Devices [7]Parameter NameDescriptionMin.Typ.Max.Unit t 1Output Frequency 30-pF load 10-pF load1010100133.33MHz MHz Duty Cycle [6] = t 2 ÷ t 1Measured at 1.4V, F out = 66.67 MHz 40.050.060.0%Duty Cycle [6] = t 2 ÷ t 1Measured at 1.4V, F out < 50.0 MHz 45.050.055.0%t 3Rise Time [6]Measured between 0.8V and 2.0V 1.50ns t 4Fall Time [6]Measured between 0.8V and 2.0V 1.50ns t 5Output to Output Skew [6]All outputs equally loaded250ps t 6A Delay, REF Rising Edge to CLKOUT Rising Edge [6]Measured at V DD /20±350ps t 6BDelay, REF Rising Edge to CLKOUT Rising Edge [6]Measured at V DD /2. Measured in PLL Bypass Mode, CY2309 deviceonly.158.7nst 7Device to Device Skew [6]Measured at V DD /2 on the CLKOUT pins of devices0700ps t 8Output Slew Rate [6]Measured between 0.8V and 2.0V using Test Circuit #21V/nst J Cycle to Cycle Jitter [6]Measured at 66.67 MHz, loaded outputs200ps t LOCKPLL Lock Time [6]Stable power supply, valid clock presented on REF pin1.0msSwitching WaveformsSwitching Characteristics for CY2305SI-1and CY2309SI-1 Industrial Temperature Devices [7]Parameter NameTest ConditionsMin.Typ.Max.Unit Duty Cycle Timingt 1t 21.4V1.4V1.4VSwitching Waveforms (continued)All Outputs Rise/Fall TimeOUTPUTt 33.3V 0V0.8V 2.0V 2.0V 0.8Vt 4Output-Output Skew1.4V1.4Vt 5OUTPUTOUTPUTInput-Output Propagation DelayV DD /2t 6INPUTOUTPUTV DD /2V DD /2V DD /2t 7CLKOUT, Device 1CLKOUT, Device 2Device-Device SkewTypical Duty Cycle [8] and I DD Trends [9] for CY2305-1 and CY2309-1Notes:8.Duty Cycle is taken from typical chip measured at 1.4V.9.I DD data is calculated from I DD = I CORE + nCVf, where I CORE is the unloaded current. (n = # of outputs; C = Capacitance load per output (F); V = SupplyVoltage (V); f = frequency (Hz)).Typical Duty Cycle[8] and IDD Trends[9] for CY2305-1H and CY2309-1HTest CircuitsOrdering InformationOrdering CodePackage TypeOperating Range CY2305SC-18-pin 150-mil SOICCommercial CY2305SC-1T 8-pin 150-mil SOIC –Tape and Reel Commercial CY2305SI-18-pin 150-mil SOICIndustrial CY2305SI-1T 8-pin 150-mil SOIC –Tape and Reel Industrial CY2305SC-1H 8-pin 150-mil SOICCommercial CY2305SC-1HT 8-pin 150-mil SOIC –Tape and Reel Commercial CY2305SI-1H 8-pin 150-mil SOICIndustrial CY2305SI-1HT 8-pin 150-mil SOIC –Tape and Reel Industrial CY2305ZC-18-pin 150-mil TSSOPCommercial CY2305ZC-1T 8-pin 150-mil TSSOP –Tape and Reel Commercial CY2309SC-116-pin 150-mil SOICCommercial CY2309SC-1T 16-pin 150-mil SOIC –Tape and Reel Commercial CY2309SI-116-pin 150-mil SOICIndustrial CY2309SI-1T 16-pin 150-mil SOIC –Tape and Reel Industrial CY2309SC-1H 16-pin 150-mil SOICCommercial CY2309SC-1HT 16-pin 150-mil SOIC –Tape and Reel Commercial CY2309SI-1H 16-pin 150-mil SOICIndustrial CY2309SI-1HT 16-pin 150-mil SOIC –Tape and Reel Industrial CY2309ZC-1H 16-pin 4.4-mm TSSOPCommercial CY2309ZC-1HT 16-pin 4.4-mm TSSOP –Tape and Reel Commercial CY2309ZI-1H 16-pin 4.4-mm TSSOPIndustrial CY2309ZI-1HT16-pin 4.4-mm TSSOP –Tape and ReelIndustrial0.1µFV DD0.1µFV DDCLKoutC LOADOUTPUTSGNDGND0.1µFV DD0.1µFV DD 10 pFOUTPUTSGNDGND1 k Ω1 k ΩTest Circuit # 1Test Circuit # 2For parameter t 8 (output slew rate) on -1H devicesDocument #: 38-07140 Rev. *C Page 11 of 13Package Diagrams8-lead (150-Mil)SOIC S851-85066-A16-lead (150-Mil)Molded SOIC S1651-85068-ADocument #: 38-07140 Rev. *C Page 12 of 13© Cypress Semiconductor Corporation, 2002. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a Cypress Semiconductor product. Nor does it convey or imply any license under patent or other rights. Cypress Semiconductor does not authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress Semiconductor products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress Semiconductor against all charges.Pentium is a registered trademark of Intel Corporation. All product and company names mentioned in this document may be the trademarks of their respective holders.Package Diagrams(continued)Document #: 38-07140 Rev. *C Page 13 of 13Document History Page Document Title: CY2305/CY2309 Low-Cost 3.3V Zero Delay Buffer Document Number: 38-07140REV.ECN NO.Issue Date Orig. of Change Description of Change **11024910/19/01SZV Change from Spec number: 38-00530 to 38-07140*A 11111703/01/02CKN Added t6B row to the Switching Characteristics Table; also added the letter“A ” to the t6A rowCorrected the table title from CY2305SC-IH and CY2309SC-IH toCY2305SI-IH and CY2309SI-IH*B 11762510/21/02HWT Added eight-pin TSSOP packages (CY2305ZC-1 and CY2305ZC-1T) to theordering information table.Added the Tape and Reel option to all the existing packages:CY2305SC-1T, CY2305SI-1T, CY2305SC-1HT, CY2305SI-1HT,CY2305ZC-1T, CY2309SC-1T, CY2309SI-1T, CY2309SC-1HT,CY2309SI-1HT, CY2309ZC-1HT, CY2309ZI-1HT*C 12182812/14/02RBIPower up requirements added to Operating Conditions Information。

太阳能胶体免维护蓄电池技术说明书一、标准：胶体太阳能免维护蓄电池符合如下标准：1、JIS C 8707-1992 阴极吸收式密封固定型铅酸蓄电池标准2、JB/T 8451-96 中华人民共和国机械行业标准3、YD/T 799-2002 中华人民共和国通信行业标准4、DL/T 637-1997 中华人民共和国电力行业标准5、GB/T 22473-2008 中华人民共和国密封固定型铅酸蓄电池标准6、GB13337.1-91 《固定型防酸式铅酸蓄电池技术条件》7、DL/T637-1997 《阀控式密封铅酸蓄电池订货技术条件》8、YD/T99-1996 《通信用阀控式密封铅酸蓄电池技术要求和检验方法》9、IEC896-2 《固定型铅酸蓄电池一般要求和试验方法》10、DL/T5044-2004《电力工程直流系统设计技术规程》11、GB2900.11-1988《电工名词术语蓄电池名词术语》12、GB/T3941-1999 《铅酸蓄电池包装标准》13、GB191-2000 《包装储运图示标志》14、YD/T799-2002《通信用阀控式密封铅酸蓄电池》15、JB/T8451-1996 《固定型阀控密封式铅酸蓄电池》16、JIS C8707-1992 《阴极吸收式密封固定性铅酸蓄电池》17、IEC896-2《固定型铅酸蓄电池一般要求和试验方法》18、DL/T5137-2001 《电测量及电能计量装置设计技术规程》二、应用范围：⑴太阳能、风能系统⑼车辆启动、牵引⑵电器设备、医疗设备及仪器仪表⑽无线电通讯系统⑶计算机不间断电源⑾应急照明、办公自动化系统、⑷输变电站、开关控制和事故照明⑿便携式电器及采矿系统⑸消防、安全及报警监测⒀交通及航标信号灯⑹通信用备用电源⒁发电厂、水电站直流电源⑺变电站开关控制⒂铁路用直流电源⑻电话交换机⒃移动机站三、主要特点:寿命长，基本上是铅酸电池的一倍以上：1、阻止正极脱落，由于采用纳米级气象级高导多聚硅酸盐电解质，有机物与无机酸共同起作用，无机硅晶提高了正极板表面的压力，阻止正极活性物质的软化脱落，从而进一步延长电池的使用寿命。

NV230A-REActuador para válvulas de asiento de 2 y 3 vías• Fuerza de actuación 1000 N• Tensión nominal AC 100...240 V• Control Todo-nada, 3 puntos• Carrera nominal 20 mmDatos técnicosDatos eléctricos Tensión nominal AC 100...240 VFrecuencia nominal50/60 HzObservación sobre rango de tensión nominal AC 85...265 VConsumo de energía en funcionamiento 2 WConsumo energía en reposo 1 WConsumo de energía para dimensionado 4.5 VAConexión de la alimentación / control Terminales 4 mm² (cable ø4...10 mm)Funcionamiento en paralelo Si (tenga en cuenta los datos defuncionamiento)Datos de funcionamiento Fuerza de actuación del motor1000 NAccionamiento manual con pulsador, se puede bloquearCarrera nominal20 mmTiempo de giro del motor150 s / 20 mmNivel de potencia sonora, motor45 dB(A)Indicador de posición Mecánico, carrera de 5...20 mmDatos de seguridad Clase de protección IEC/EN II, aislamiento reforzadoFuente de suministro eléctrico UL Class 2 SupplyGrado de protección IEC/EN IP54Grado de protección NEMA/UL NEMA 2Carcasa UL Enclosure Type 2CEM CE según 2014/30/UEDirectiva de baja tensión CE según 2014/35/UECertificación IEC/EN IEC/EN 60730-1 y IEC/EN 60730-2-14UL Approval cULus según UL60730-1A, UL 60730-2-14 yCAN/CSA E60730-1La marca UL en el actuador depende del centrode producción; en cualquier caso, el dispositivotiene conformidad ULTipo de acción Tipo 1Tensión de resistencia a los impulsos4 kVGrado de polución3Humedad ambiente Máx. 95% de RH, sin condensaciónTemperatura ambiente0...50°C [32...122°F]Temperatura de almacenamiento-40...80°C [-40...176°F]Mantenimiento sin mantenimientoPeso Peso 1.8 kgNV230A-REDatos técnicos••••••Notas de seguridadEste dispositivo ha sido diseñado para su uso en sistemas estacionarios de calefacción,ventilación y aire acondicionado y no se debe utilizar fuera del campo específico de aplicación, especialmente en aviones o en cualquier otro tipo de transporte aéreo.Aplicación en exterior: sólo es posible en el caso de que el dispositivo no esté expuestodirectamente a agua (de mar), nieve, hielo, radiación solar o gases nocivos y que se asegure que las condiciones ambientales se mantienen en todo momento dentro de los umbrales de acuerdo con la ficha de datos.Sólo especialistas autorizados deben realizar la instalación. Cualquier regulación legal al respecto debe ser tenida en cuenta durante la instalación.El conmutador que permite cambiar el sentido del movimiento y, con este, el punto de cierre, solamente lo pueden ajustar especialistas debidamente autorizados. El sentido delmovimiento es fundamental, especialmente en lo relativo a la protección antihielo de los circuitos.El dispositivo sólo se puede abrir en el centro del fabricante. No contiene piezas que el usuario pueda reemplazar o reparar.El dispositivo contiene componentes eléctricos y electrónicos y no se puede desechar con los residuos domésticos. Deben tenerse en cuenta todas las normas y requerimientos locales vigentes.Montaje en válvulas de otro fabricanteMontaje en válvulas de BelimoAccionamiento manualAlta fiabilidad funcionalPosición de inicioAjuste del sentido del movimientoCaracterísticas del productoLos actuadores RetroFIT+, que se pueden instalar en una amplia variedad de válvulas de distintos fabricantes, están compuestos por un actuador, un soporte, un adaptador para el cuello de válvula universal y un adaptador del vástago de la válvula universal. En primer lugar, es necesario adaptar el cuello de la válvula y el vástago de la válvula; a continuación, acople el soporte RetroFIT+ al adaptador para el cuello de válvula. Después, acople el actuador RetroFIT+ al soporte y conéctelo a la válvula. Teniendo en cuenta la posición del punto de cierre de la válvula, sujete el actuador al soporte y, después, ejecute el proceso de puesta en marcha. El adaptador para el cuello de válvula/actuador se puede girar 360° en el cuello de la válvula siempre y cuando lo permita el tamaño de la válvula instalada.Utilice los actuadores estándar de Belimo motorizar las válvulas de asiento de Belimo. Desde el punto de vista técnico, es posible instalar actuadores RetroFIT+ en las válvulas de asiento de Belimo.Es posible realizar un accionamiento manual oprimiendo el pulsador (el engranaje se mantiene desembragado mientras el pulsador siga presionado o bloqueado).La carrera se puede ajustar utilizando una llave Allen (4 mm) que se introduce en la partesuperior del actuador. El eje de la carrera se extiende cuando la llave se gira en sentido horario.El actuador se encuentra protegido contra sobrecargas, no necesita ningún contacto limitador y se detiene automáticamente cuando alcanza el final de carrera.Ajuste de fábrica: el vástago del actuador está retraído.Cuando se acciona, el conmutador de sentido de la carrera cambia la dirección de movimiento durante el funcionamiento normal.AccesoriosAccesorios eléctricos DescripciónModelo Contacto auxiliar 2x SPDT adaptable S2A-H Accesorios mecánicosDescripciónModelo Anillo distanciador para LDM, carrera 20 mm ZNV-203Anillo distanciador para Sauter, carrera 20 mmZNV-204NV230A-REDescripciónModelo Kit adaptador DanfossZNV-205AccesoriosInstalación eléctricaPrecaución: alimentaciónEs posible realizar una conexión en paralelo de otros actuadores. Respete los datos de funcionamiento.Ajuste de fábrica del conmutador del sentido de la carrera: vástago del actuador retraído (▲).Esquema de conexionado AC 230 V, todo-nadaAC 230 V, 3-puntosControles de funcionamiento e indicadores1Conmutador del sentido de la carrera Conmutación:Cambio del sentido de la carrera4Pulsador para desembrague manual Pulsar botón:Desembrague del engranaje, parada del motor, accionamiento manual posibleSoltar botón:Embrague del engranaje, modo estándar10Accionamiento manual Sentido horario:El vástago del actuador se extiende Sentido antihorario:El vástago del actuador se retraeNV230A-RE DimensionesDocumentación complementaria• Instrucciones de instalación para los actuadores。

L09-230温控器说明书引言感您选择了我们的产品及对我们的信任与支持。

本装置是电子式定时恒温器，可设置一星期为周期的运行程序。

通过该装置，可对安装环境的温度进行十分精确的调节控制，满足用户对创造一个舒适生活环境的要求。

符合标准：符合欧盟法令：EN 60730-1 标准及其修订容欧盟B.T.73/23/EEC号法令EN 60730-2-7 标准欧盟E.M.C.89/336/EEC号法令及93/68/EEC 修改法令EN 60730-2-9 标准产品规格：电源：二节LR6型1.5V碱性电池温度调节围：10至35℃显示屏显示之环境温度：0至40℃(分辩率0.1℃）温度修正频率：每分钟一次微分：0.2至0.4K探针传感器：NTC3%保护等级：IP20绝缘等级：热梯度：1K/15分输出：转换继电器触点容量：8（2.5）A250V~作用类型：1BU绝缘条件：正常环境最大工作温度：50℃储存温度：0-60℃防冻温度：6℃恒定运行程序：以一星期为周期设置软件等级：A液晶显示屏夏季/冬季（采暖/空调）切换程序设置中的最小增减允许时间：1小时安装：壁式安装安装及连接：安全预防措施在进行定时恒温器的连接之前，请确认受其控制的设备系统（采暖锅炉、泵和空调系统等）电源已断开，并需检查这些设备的使用电压是否与定时恒温器底座上表明的电压相符（最大250V~).（图4）安装位置定时恒温器须安装在远离热源（暖气装置、、厨房）和门窗之处，安装高度离地面约1.5米。

（图5）安装电气连接将受定时恒温器控制的设备系统电线与定时恒温器的1号及2号接线柱连接见接线图10所示U=受定时恒温器控制的设备1＝共用接线柱2＝常开接线柱3＝常闭接线柱重要事项：请务必严格遵照相关现行法律的规定及安全规安装定时恒温器。

电池更换：当在显示屏上闪烁显示“”标志时，定时恒温器还可正常工作约一个月左右，然后将会停止工作并固定显示“”。

更换电池时，请打开恒温器的前板按照前板上的说明进行操作，电池寿命为一年。

CM-230系列电导仪说明书电导率仪使用说明书一．概述CM-230(330)X系列智能型在线电导率仪表，为CM230、230双限、330、240、340的升级替代产品。

键盘式设置电极常数，上、下限报警，可迁移4～20mA电流信号输出，通过按键切换查看介质温度、μS/cm和ppm(TDS)转换，自动量程转换，可选配三种电极常数（0.1cm-1、1.0cm-1、10.0cm-1），支持更宽的测量范围。

超稳定测量采集，宽温度、低漂移设计，测量状态可以进行电导率/温度/TDS切换，水质超标报警功能，高亮度背景光LCD显示。

适用于电渗析、反渗透、离子交换制水系统、冷却水控制系统和一般工业用水的在线监测与控制。

二. 型号及基本功能：CM-230（330）A4～20mA输出（自动量程）设定1 电极常数设置1.000 0.500 – 1.5002计量单位选择只有电极类型选择10.0时才有此菜单34mA迁移值设置0000 可设范围:0—199944mA迁移小数点设置00.000.000、00.00、000.0、00005 20mA电流迁移设置1999 可设范围:0—19996 20mA迁移小数点设置19.991.999、19.99、199.9、1999CM-230（330）C继电器输出（固定回差值，自动量程）序号菜单说明出厂设定设定范围1 电极常数设置1.000 0.500 – 1.5002 计量单位只有电极类型选择10.0时才选择有此菜单3 水质超标报警上限1999 可设范围:0—19994 小数点设置19.99可设范围:1.999、19.99、199.9、1999注：回差值为设置的报警值的1.5%CM-230（330）D继电器输出（双限报警，自动量程）序号菜单说明出厂设定设定范围1 电极常数设置1.000 0.500 – 1.5002 计量单位选择只有电极类型选择10.0时才有此菜单3 水质超标报警上限1999 可设范围:0—19994 小数点设置19.99可设范围:1.999、19.99、199.9、19995 水质报警解除下限1900可设范围:0—1900（必须小于上限）6 小数点设19.00 可设范围:1.900、置19.00、199.0、1900三．主要技术指标★测量范围：电导率：0~19.990~199.9μS/cm(0.1cm-1电极)0~19.99 0~199.9、0~1999μS/cm (1.0 cm-1电极)0~199.9μS/cm0~1999μS/cm 0~19.99mS/cm(10cm-1电极)温度：0-50℃。

Eaton PDG23P0150P2MLEaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 150A, 100kA/480V, PXR25 LSI w/ Modbus RTU and Relays, Standard Terminals Load Only (PDG2X3TA225)General specificationsEaton Power Defense molded case circuit breakerPDG23P0150P2ML 78667990108388.9 mm 152.4 mm 104.6 mm 1.82 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 489IEC 60947-2CCC MarkedCSAProduct NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCompliancesCertifications150 AComplete breaker 2Three-polePD2 Global Class A PXR 25 LSIModbus RTU600 Vac600 VStandard Terminals Load Only100 kAIC at 480 Vac 35/25 kAIC @600V (UL/CSA)100 kAIC Icu/ 70 kAIC Ics/ 220 kAIC Icm @380-415V (IEC) 35/25 kAIC Icu/ 18/13 kAIC Ics @525V South Africa (IEC) 85 kAIC Icu/ 40 kAIC Ics/ 187 kAIC Icm @480V Brazil (IEC) 200 kAIC @240V (UL) 100 kAIC @480V (UL)200 kAIC Icu/ 150 kAIC Ics/ 440 kAIC Icm @240V (IEC) 22 kAIC Icu @125 Vdc 22 kAIC Icu @250 Vdc100 kAIC Icu/ 65 kAIC Ics/ 220 kAIC Icm @440V (IEC) 10 kAIC Icu/ 5 kAIC Ics/ 21 kAIC Icm @690V (IEC) 25 kAIC @600V (UL/CSA)Eaton Power Defense PDG23P0150P2ML 3D drawingAmperage 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 range3D CAD drawing packageApplication notesPower Xpert Protection Manager x64Power Xpert Protection Manager x32Consulting application guide - molded case circuit breakersBrochuresPower Defense technical selling bookletPower Defense molded case circuit breaker selection posterPower Defense brochurePower Defense molded case circuit breakers - Frame 2 product aidCatalogsMolded case circuit breakers catalogPower Xpert Release trip units for Power Defense molded case circuit breakersCertification reportsPower Defense Declaration concerning California’s Proposition 65PDG2 CB reportEU Declaration of Conformity - Power Defense molded case circuit breakersPDG4 CB reportPDG4 CCC certificationInstallation instructionsPower Defense Frame 2 global terminal shield, 3 pole - IL012330EN Power Defense Frame 2 Direct Rotary Handle Assy With Interlock Version Instructions (IL012138EN).pdfPower Defense Frame 2 screw terminal_end cap kit, 225A, 3 pole instructions - 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安徽富信半导体科技有限公司ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.FS2309 SOT-23-3L-60V P Channel Enhancement沟道增强型MOS Field Effect Transistor场效应管▉Absolute Maximum Ratings最大额定值Characteristic特性参数Symbol符号Rat额定值Unit单位Drain-Source V oltage漏极-源极电压BV DSS-60V Gate-Source Voltage栅极-源极电压V GS+20V Drain Current(continuous)漏极电流-连续I D（at T A=25°C）-1.6A Drain Current(pulsed)漏极电流-脉冲I DM-8A Total Device Dissipation总耗散功率P D(at T A=25°C)1500mW Thermal Resistance Junction-Ambient热阻RΘJA83℃/W Junction/Storage Temperature结温/储存温度T J,T stg-55~150℃▉Device Marking产品字标FS2309=S09ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.FS2309▉Electrical Characteristics电特性(T A=25℃unless otherwise noted如无特殊说明，温度为25℃)Characteristic 特性参数Symbol符号Min最小值Typ典型值Max最大值Unit单位Drain-Source Breakdown Voltage漏极-源极击穿电压(I D=-250uA,V GS=0V)BV DSS-60——VGate Threshold Voltage栅极开启电压(I D=-250uA,V GS=V DS)V GS(th)-1-1.5-2.4VZero Gate Voltage Drain Current零栅压漏极电流(V GS=0V,V DS=-60V)I DSS——1u AGate Body Leakage栅极漏电流(V GS=+20V,V DS=0V)I GSS——+100n AStatic Drain-Source On-State Resistance 静态漏源导通电阻(I D=-1.5A,V GS=-10V) (I D=-1.5A,V GS=-4.5V)R DS(ON)—138170160200mΩDiode Forward Voltage Drop内附二极管正向压降(I SD=-1.5A,V GS=0V)V SD——-1.2VInput Capacitance输入电容(V GS=0V,V DS=-30V,f=1MHz)C ISS—450—pF Common Source Output Capacitance共源输出电容(V GS=0V,V DS=-30V,f=1MHz)C OSS—20—pF Reverse Transfer Capacitance反馈电容(V GS=0V,V DS=-30V,f=1MHz)C RSS—18—pF Total Gate Charge栅极电荷密度(V DS=-30V,I D=-1.5A,V GS=-10V)Q g—11—nC Gate Source Charge栅源电荷密度(V DS=-30V,I D=-1.5A,V GS=-10V)Q gs—3—nC Gate Drain Charge栅漏电荷密度(V DS=-30V,I D=-1.5A,V GS=-10V)Q gd—2—nC Turn-ON Delay Time开启延迟时间(V DS=-30V I D=-1.5A,R GEN=3Ω,V GS=-10V)t d(on)—40—ns Turn-ON Rise Time开启上升时间(V DS=-30V I D=-1.5A,R GEN=3Ω,V GS=-10V)t r—35—ns Turn-OFF Delay Time关断延迟时间(V DS=-30V I D=-1.5A,R GEN=3Ω,V GS=-10V)t d(off)—15—ns Turn-OFF Fall Time关断下降时间(V DS=-30V I D=-1.5A,R GEN=3Ω,V GS=-10V)t f—10—nsANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.FS2309■Typical Characteristic Curve典型特性曲线Figure1:Output Characteristics Figure2:Transfer CharacteristicsFigure3:On-Resistance vs.Drain Current Figure4:On-Resistance vs.TemperatureFigure5:Capacitance Characteristics Figure6:Gate-Charge CharacteristicsANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.FS2309■Typical Characteristic Curve典型特性曲线Figure7:Drain Current vs.Temperature Figure8:Power DissipationFigure9:Body Diode Characteristics Figure10:Safe Operating AreaFigure11:Transient Thermal Response Curve安徽富信半导体科技有限公司ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.FS2309▉Dimension外形封裝尺寸Symbol Dimensions In Millimeters Dimensions In Inches Min Max Min MaxA 1.050 1.2500.0410.049 A10.0000.1000.0000.004 A2 1.050 1.1500.0410.045 b0.3000.5000.0120.020 c0.1000.2000.0040.008D 2.820 3.0200.1110.119E 1.500 1.7000.0590.067 E1 2.650 2.9500.1040.116 e0.950TYP0.037TYPe1 1.800 2.0000.0710.079 L0.600REF0.024REFL10.3000.6000.0120.024θ0o8o0o8o。

Features and benefitsApplicationsPRODUCT DATA SHEETBAROCEL 7000 SERIES CAPACITANCE GAUGESThe Barocel 7000 series has 3 main variants, 7025m, 7025 and 7045/7100. These are available in a range of full-scales from 1000 to 0.1 mbar/torr (100 to 10 for the 7025m) and with a number of flange options. This enables pressure measurement and control over 7 decades and simplicity when fitting to your system.• Superior performanceExcellent zero stability and accuracy • System enhancementSimple integration with dual set points for enhanced control • Flexible solutionsFrom compact to heated and everything between • Low cost of ownership Zero maintenance required• SemiconductorLoad lock, PVD, CVD, Etch • High energy physicsBeam lines, accelerators, laser evacuation, medical systems • AnalyticalMass spectrometry and electron microscopy • Quality & controlReference vacuum, batch control• IndustrialCoating systems, furnaces, sterilisation, food processing, oxidationBarocel 7025m - miniaturised accuracyFor those who need measurement accuracy on a budget, the 7025m is the gauge for you. Built on the same principles as the higher end Barocel 7000 gauges, this shares its ceramic sensing technology and excellent zero stability. Recognising the market need for a smaller more cost effective solution, this provides you with the first step on the way to a more efficient system.Barocel 7025 - benchmark performanceDesigned to give repeatable high performance, this is the gauge which sets the standard in a wide range of applications. Giving high levels of accuracy, it has been designed to be fit and forget, with multiple levels of internal protection; Baffle, coatings and shielding fitted as standard along with the excellent zero stability and any orientation mounting.Barocel 7045 and 7100 - temperature controlUsing the same measuring cell found in the 7025, these gauges then have integrated heaters to hold the gauges at fixed temperatures. For applications with harsh gasses, where condensation could cause an issue, we have implemented two levels of heated gauges. Heated to steady temperatures of either 45°C (7045) or 100°C (7100), these provide you with piece of mind that you will not get condensates in the gauge that could lead to damage to your control network.BOOST TECHNOLOGYTECHNICAL SPECIFICATIONS7025m702570457100FS options1000/100/101000/100/1010.11000/100/10/10.11000/100/10/10.1 Accuracy (% of reading)10.20.50.150.150.20.4 Temperature effectOn zero (percentage FS/°C) 0.020.0050.0150.020.00250.0050.00250.005 On span (% of reading/°C) 0.020.010.030.010.02Resolution (percent FS)0.050.0030.0030.003 Lowest reading (percent FS)0.050.050.050.05 Admissible tempsAmbient(°C) 0 to +70+5 to +50+10 to +40+10 to +50 Bakeout (at flange) (°C) <110<110<110<110 Storage (°C) -20 to +85-40 to +65-20 to +65-20 to +65 Burst pressure (bar)absolute6566 Supply voltage V (dc)+13 to +30+13 to +30+14 to +30 or +-15V+14 to +30 or +-15V Power consumptionDuring heat up (W) N/A N/A<12<15 At normal operation (W)<0.3<1<8<10 Output signal V (dc)+0 to +10+0 to +10+0 to +10+0 to +10 Response time (ms)100303030IP rating40304040 Dimensions NW16 (mm)28.3x28.3x9955x55x11382x82x14282x82x142 Set pointsNumbers of N/A222 Relay contact (V (dc))N/A303030Hysterisis (percent F.S)N/A111 Materials exposed tovacuum Aluminium oxide ceramic (AI2O3), stainless steel 1.4404 (AISI 316L)ORDERING INFORMATIONBarocel 7025m selection treeW611Pressure unit 1 = Torr 2 = mbarOutput0 = StandardFull scale (F.S)1 = 1000/11002 = 1003 = 10Flange 1 = NW162 = 8VCR 3 = DN16CFConnector 1 = RJ453 = D-Sub 9 pinBarocel 7025 selection treeW621Pressure unit 1 = Torr 2 = mbarFlange 1 = NW162 = 8VCR 3 = DN16CF Connector2 = D-Sub 15 pin 5 = D -Sub 15 pin & Dual RJ45*Full scale (F.S)1 = 1000/11002 = 1003 = 104 = 15 = 0.1*Only selectable with pressure units of torr and Output of “EtherCAT”. **Only available with D-Sub 15 pin.***Only available with D-SUB 15 pin & Dual RJ45Output0 = Standard**5 = EtherCAT***W63Barocel 7045/7100 selection treePressure unit 1 = Torr 2 = mbarHeatedTemperature (C)2 = 453 = 100Full scale (F.S)1 = 1000/11002 = 1003 = 104 = 15 = 0.1Flange 1 = NW162 = 8VCRConnector2 = D-Sub 15 pin 5 = D -Sub 15 pin & Dual RJ45**Only selectable with pressure units of torr and Output of “EtherCAT”. **Only available with D-Sub 15 pin.***Only available with D-SUB 15 pin & Dual RJ45Output0 = Standard**5 = EtherCAT***。