75867-101LF中文资料

7/8” Diameter Single TurnConductive PlasticPrecision Potentiometer /Position SensorModel 6180 series61811/8” Shaft, 1/4” Bushing 6184 6 mm Shaft, 3/8” Bushing 61861/8” Shaft, 3/8” Bushing 61871/4” Shaft, 3/8” Bushing 6188 for side load applications1/4” Shaft, 3/8” BushingTotal Mechanical Travel 360° Continuous (320° ±3° with stop feature)Number of Gangs 1 maximumWeight 0.53 oz. nominal (single gang)Backlash1° maximumStatic Stop Strength 40 oz.-in.Panel Nut Tightening Torque 25 lb.-in. maximumStart/Run Torque1.0 oz.-in.11Specifications subject to change without notice.2Linearity is measured between 1% and 99% of input voltage.3Special TCR available to ±100 ppm/°C.4Measured with 10 VDC CW to CCW and slider at 50% of electrical travelResistance Range1K to 100K OhmsStandard Resistance Tolerance±10% Minimum Practical Resistance Tolerance ±5%Independent Linearity 2±1%Minimum Practical Independent Linearity ±0.5%Input Voltage 400 VDC maximum, not to exceed power ratingPower Rating 1.0 Watt at 70°C, derating to 0 at 125°CDielectric Strength 750 V rmsInsulation Resistance 1,000 Megohms minimumOutput smoothness 0.1% maximumActual Electrical Travel 340° nominal (300° with stop feature)Electrical Continuity Travel 350° nominal (320° with stop feature)End Voltage maximum 0.5% of input voltageResolutionessentially infinite Temperature Coefficient of Resistance 3-400 ppm/°C typical Temperature Coefficient of Output Voltage 4±10 ppm/°C typicalOperating Temperature Range-40°C to +125°C dynamic, -65°C to +125°C staticTemperature Cycling 5 cycles, -65°C to +125°C, maximum 10% ΔRShock 6 ms Saw-tooth, 100 G’s, 0.1 ms maximum discontinuityVibration10 G’s, 10 to 500 Hz, maximum 2% ΔR, 0.1 ms maximum discontinuityMoisture Resistancefive 24 hour cycles, maximum 25% ΔR High Temperature Exposure 1,000 hours at 125°C, maximum 0.5% ΔV RRotational Life 5 million shaft revolutions Rotational Load Life5 million shaft revolutions, maximum 10% ΔRIngress Protection Rating (IP Code)IP40Model Series Resistance PrefixResistance ValueOptional Feature Code (see table)Optional Non-standard Tolerance6187 R 10K T5 L1.0 xx LFLinearityOptional RoHS Compliant Product CodeSTANDARD RESISTANCE VALUESWhen multiple feature codes are used the P/N shall be in thesame sequence as listed in this table (top to bottom).分销商库存信息:OPTEK-TECHNOLOGY6187R10KL1.0LF6187R5KL1.0LF6187R10KL1.0 6187R5KL1.0。

1.Product profile1.1General descriptionA 20W LDMOS RF transistor for broadcast applications and industrial applications in the HF and VHF band.1.2FeaturesI Typical CW performance at frequency of 225MHz,a supply voltage of 50V and an I Dqof 50 mA:N Average output power =20W N Power gain =27.5dB N Efficiency =70%I Easy power controlI Integrated ESD protection I Excellent ruggedness I High efficiencyI Excellent thermal stabilityI Designed for broadband operation (10 MHz to 500 MHz)I Compliant to Directive 2002/95/EC, regarding Restriction of Hazardous Substances (RoHS)1.3ApplicationsI Industrial, scientific and medical applications I Broadcast transmitter applicationsBLF571HF / VHF power LDMOS transistorRev. 01 — 11 December 2008Preliminary data sheetTable 1.Production test performanceMode of operationf V DS P L G p ηD(MHz)(V)(W)(dB)(%)CW225502027.570CAUTIONThis device is sensitive to ElectroStatic Discharge (ESD). Therefore care should be taken during transport and handling.2.Pinning information[1]Connected to flange.3.Ordering information4.Limiting values5.Thermal characteristicsTable 2.PinningPin Description Simplified outlineGraphic symbol1drain 2gate 3source[1]123sym112132Table 3.Ordering informationType numberPackage NameDescriptionVersion BLF571-flanged LDMOST ceramic package; 2 mounting holes;2leadsSOT467CTable 4.Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).Symbol ParameterConditionsMin Max Unit V DS drain-source voltage -110V V GS gate-source voltage −0.5+11V I D drain current - 3.6A T stg storage temperature −65+150°C T jjunction temperature-225°CTable 5.Thermal characteristics Symbol ParameterConditionsTyp Unit R th(j-c)thermal resistance from junction to caseT case =80°C; P L =20W2.9K/W6.CharacteristicsTable 6.DC characteristicsT j = 25°C unless otherwise specifiedSymbol Parameter Conditions Min Typ Max UnitV(BR)DSS drain-source breakdownvoltageV GS=0V; I D=0.25mA110--V V GS(th)gate-source threshold voltage V DS=10 V; I D=25mA 1.25 1.7 2.25VV GSq gate-source quiescent voltage V DS=50 V; I D=50mA 1.25 1.75 2.25VI DSS drain leakage current V GS=0V; V DS=50V-- 1.4µAI DSX drain cut-off current V GS=V GS(th)+3.75 V;V DS=10V3.0 3.6-AI GSS gate leakage current V GS=11V; V DS=0V--140nAg fs forward transconductance V DS=10V; I D=1.25A- 1.8-SR DS(on)drain-source on-stateresistance V GS=V GS(th) + 3.75V;I D=833mA- 1.34-ΩC rs feedback capacitance V GS=0V; V DS=50V;f=1MHz-0.18-pFC iss input capacitance V GS=0V; V DS=50V;f=1MHz-22.9-pFC oss output capacitance V GS=0V; V DS=50V;f=1MHz-9.64-pFTable 7.RF characteristicsMode of operation: CW; f=225 MHz; RF performance at V DS=50V; I Dq=50mA; T case=25°C; unless otherwise specified; in a class-AB production test circuitSymbol Parameter Conditions Min Typ Max Unit G p power gain P L = 20 W25.527.529.5dB RL in input return loss P L = 20 W1013-dBηD drain efficiency P L = 20 W6770-%6.1Ruggedness in class-AB operationThe BLF571is capable of withstanding a load mismatch corresponding to VSWR =13:1through all phases under the following conditions: V DS =50V; I Dq =50 mA; P L =20 W;f =225MHz.7.Application information7.1Impedance informationV GS = 0 V; f = 1 MHz.Fig 1.Output capacitance as a function of drain-source voltage; capacitance value without internal matchingV DS (V)05040203010001aaj1722030104050C oss (pF)Table 8.Typical impedanceSimulated Z S and Z L test circuit impedances.f Z S Z L MHz ΩΩ2259.7 + j31.531.7 + j29.3Fig 2.Definition of transistor impedance001aaf059drain Z LZ Sgate7.2ReliabilityTTF (0.1 % failure fraction).(1)T j = 100°C (2)T j = 110°C (3)T j = 120°C (4)T j = 130°C (5)T j = 140°C (6)T j = 150°C (7)T j = 160°C (8)T j = 170°C (9)T j = 180°C (10)T j = 190°C (11)T j = 200°CFig 3.BLF571 electromigration001aaj17310210104103105Y ears 1I DS(DC) (A)0 1.61.20.80.4(1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)8.Test information8.1RF performanceThe following figures are measured in a class-AB production test circuit.8.1.11-Tone CWV DS = 50 V; I Dq =50 mA; f = 225 MHz.V DS = 50 V; f =225MHz.(1)I Dq = 20 mA (2)I Dq = 40 mA (3)I Dq = 50 mA (4)I Dq = 60 mA (5)I Dq = 80 mAFig 4.Power gain and drain efficiency as function of load power; typical valuesFig 5.power gain as a function of load power;typical values001aaj174P L (W)03020102515526242830G p (dB)22402060800ηD (%)G pηD001aaj175P L (W)03020102515526242830G p (dB)22(4)(3)(2)(1)(5)8.1.22-Tone CWV DS = 50 V; I Dq =50 mA; f = 225 MHz.(1)P L(1dB) = 43.3 dBm (21.4 W)(2)P L(3dB) = 44 dBm (25.1 W)Fig 6.Load power as function of input power; typical valuesP i (dBm)1321191517001aaj1764446424850P L (dBm)40(1)(2)ideal P LP LV DS = 50 V; I Dq =50 mA; f 1 = 224.95 MHz;f 2=225.05MHz.V DS = 50 V; f 1 = 224.95 MHz; f 2=225.05MHz.(1)I Dq = 20 mA (2)I Dq = 40 mA (3)I Dq = 50 mA (4)I Dq = 60 mA (5)I Dq = 80 mAFig 7.Power gain and drain efficiency as function of peak envelope load power; typical valuesFig 8.Third order intermodulation distortion as a function of peak envelope load power; typical values001aaj177P L(PEP) (W)030201026242830G p (dB)ηD (%)22402060800G pηDP L(PEP) (W)0302010001aaj178−40−200IMD3(dBc)−60(2)(3)(4)(5)(1)8.2Test circuit[1]American Technical Ceramics type 100B or capacitor of same quality.[2]Printed-Circuit Board (PCB): Rogers 5880;εr = 2.2 F/m; height = 0.79 mm; Cu (top/bottom metallization);thickness copper plating =35µm.Table 9.List of componentsAll capacitors should be soldered vertically. For test circuit, see Figure 9 and Figure ponent DescriptionValueRemarksC1, C3, C4,C5, C14multilayer ceramic chip capacitor 100 pF [1]C2multilayer ceramic chip capacitor 39 pF [1]C6multilayer ceramic chip capacitor 68 pF [1]C7, C9multilayer ceramic chip capacitor 1 nF [1]C8multilayer ceramic chip capacitor 4.7 F TDK C4532X7R1E475MT020U or equivalentC10multilayer ceramic chip capacitor 8.2 pF [1]C11electrolytic capacitor470 FC12multilayer ceramic chip capacitor 33 pF [1]C13multilayer ceramic chip capacitor 15 pF [1]L11 turn enamelled copper wireD =5.5mm;d =1mm;length =1mm L2 2 turns enamelled copper wireD =3.5mm;d =1mm;length =3mm L3 5 turns enamelled copper wireD =6mm;d =1mm;length =5mm L4 3.3 turns enamelled copper wireD =3mm;d =1mm;length =4mm L5 3 turns enamelled copper wireD =3mm;d =1mm;length =3mm L6stripline-[2](L × W)16.5mm × 2.4mm L7, L8, L10,L11,L17,L19,L20stripline -[2](L × W)3.0mm × 5.0mmL9stripline -[2](L × W)43.0mm × 2.4mm L12, L15stripline -[2](L × W)3.5mm × 2.4mm L13, L14stripline -[2](L × W)8.0mm × 8.0mm L16stripline -[2](L × W)3.0mm × 5.9mm L18stripline -[2](L × W)27.0mm × 2.4mm L21stripline-[2](L × W)28.5mm × 2.4mmR1metal film resistor1000Ω; 0.6 WFig 9.Class-AB common-source production test circuitC1input50 ΩC14output 50 ΩC8C7V GGR1L13L11L12C6C5L10L2L17L16L4L20L19L5L8L7L1L9L18L21L6L14L3C11C9V DD001aaj179L15C4C3C2C12C13C10Fig ponent layout for class-AB production test circuit001aaj180C11C9C7C8C10C12C6C5C4C2C3C1C13C14L3R1L4L2L1L59 mm NXP BLF571 225 MHz INPUT PCB REV1NXP BLF571 225 MHz OUTPUT PCB REV25.5 mm6.5 mm 5 mm3 mm9.Package outlineFig 11.Package outline SOT467CREFERENCESOUTLINEVERSION EUROPEAN PROJECTIONISSUE DATE IECJEDECEIAJSOT467C99-12-0699-12-280510 mmscaleFlanged LDMOST ceramic package; 2 mounting holes; 2 leads0.150.105.595.339.259.041.651.4018.5417.02DIMENSIONS (millimetre dimensions are derived from the original inch dimensions)3.433.184.673.942.211.96DD 1U 1132AU 2EE 1pbHQFcUNIT Q c D 9.279.02D 1 5.925.77E 5.975.72E 1F H p q mm 0.1840.155inchb 14.2720.4520.19U 2U 1 5.975.720.25w 10.510.0060.0040.2200.2100.3640.3560.0650.0550.730.670.1350.1250.0870.0770.3650.3550.2330.2270.2350.2250.5620.8050.7950.2350.2250.0100.020w 2A M MC CAw 1w 2A B M M MqBSOT467C10.AbbreviationsTable 10.AbbreviationsAcronym DescriptionCW Continuous WaveEDGE Enhanced Data rates for GSM EvolutionGSM Global System for Mobile communicationsHF High FrequencyLDMOS Laterally Diffused Metal-Oxide SemiconductorLDMOST Laterally Diffused Metal-Oxide Semiconductor TransistorRF Radio FrequencyTTF Time T o FailureVHF Very High FrequencyVSWR Voltage Standing-Wave Ratio11.Revision historyTable 11.Revision historyDocument ID Release date Data sheet status Change notice Supersedes BLF571_120081211Preliminary data sheet--12.Legal information12.1Data sheet status[1]Please consult the most recently issued document before initiating or completing a design.[2]The term ‘short data sheet’ is explained in section “Definitions”.[3]The product status of device(s)described in this document may have changed since this document was published and may differ in case of multiple devices.The latest product status information is available on the Internet at URL .12.2DefinitionsDraft —The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. NXP Semiconductors does not give any representations or warranties as to the accuracy or completeness ofinformation included herein and shall have no liability for the consequences of use of such information.Short data sheet —A short data sheet is an extract from a full data sheet with the same product type number(s)and title.A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local NXP Semiconductors sales office. In case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail.12.3DisclaimersGeneral —Information in this document is believed to be accurate andreliable.However,NXP Semiconductors does not give any representations or warranties,expressed or implied,as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information.Right to make changes —NXP Semiconductors reserves the right to make changes to information published in this document, including withoutlimitation specifications and product descriptions, at any time and without notice.This document supersedes and replaces all information supplied prior to the publication hereof.Suitability for use —NXP Semiconductors products are not designed,authorized or warranted to be suitable for use in medical, military, aircraft,space or life support equipment, nor in applications where failure ormalfunction of an NXP Semiconductors product can reasonably be expected to result in personal injury, death or severe property or environmentaldamage. NXP Semiconductors accepts no liability for inclusion and/or use of NXP Semiconductors products in such equipment or applications and therefore such inclusion and/or use is at the customer’s own risk.Applications —Applications that are described herein for any of these products are for illustrative purposes only. NXP Semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification.Limiting values —Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC 60134)may cause permanent damage to the device.Limiting values are stress ratings only and operation of the device at these or any other conditions above those given in theCharacteristics sections of this document is not implied. Exposure to limiting values for extended periods may affect device reliability.Terms and conditions of sale —NXP Semiconductors products are sold subject to the general terms and conditions of commercial sale,as published at /profile/terms , including those pertaining to warranty,intellectual property rights infringement and limitation of liability, unless explicitly otherwise agreed to in writing by NXP Semiconductors. In case of any inconsistency or conflict between information in this document and such terms and conditions, the latter will prevail.No offer to sell or license —Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance or the grant,conveyance or implication of any license under any copyrights,patents or other industrial or intellectual property rights.Quick reference data —The Quick reference data is an extract of theproduct data given in the Limiting values and Characteristics sections of this document, and as such is not complete, exhaustive or legally binding.12.4TrademarksNotice:All referenced brands,product names,service names and trademarks are the property of their respective owners.13.Contact informationFor more information, please visit:For sales office addresses, please send an email to:salesaddresses@Document status [1][2]Product status [3]DefinitionObjective [short] data sheet Development This document contains data from the objective specification for product development.Preliminary [short] data sheet Qualification This document contains data from the preliminary specification.Product [short] data sheetProductionThis document contains the product specification.14.Contents1Product profile. . . . . . . . . . . . . . . . . . . . . . . . . . 11.1General description. . . . . . . . . . . . . . . . . . . . . . 11.2Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.3Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Pinning information. . . . . . . . . . . . . . . . . . . . . . 23Ordering information. . . . . . . . . . . . . . . . . . . . . 24Limiting values. . . . . . . . . . . . . . . . . . . . . . . . . . 25Thermal characteristics. . . . . . . . . . . . . . . . . . . 26Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . 36.1Ruggedness in class-AB operation. . . . . . . . . . 47Application information. . . . . . . . . . . . . . . . . . . 47.1Impedance information. . . . . . . . . . . . . . . . . . . 47.2Reliability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58Test information. . . . . . . . . . . . . . . . . . . . . . . . . 68.1RF performance . . . . . . . . . . . . . . . . . . . . . . . . 68.1.11-T one CW . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68.1.22-T one CW . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78.2T est circuit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89Package outline . . . . . . . . . . . . . . . . . . . . . . . . 1010Abbreviations. . . . . . . . . . . . . . . . . . . . . . . . . . 1111Revision history. . . . . . . . . . . . . . . . . . . . . . . . 1112Legal information. . . . . . . . . . . . . . . . . . . . . . . 1212.1Data sheet status . . . . . . . . . . . . . . . . . . . . . . 1212.2Definitions. . . . . . . . . . . . . . . . . . . . . . . . . . . . 1212.3Disclaimers. . . . . . . . . . . . . . . . . . . . . . . . . . . 1212.4T rademarks. . . . . . . . . . . . . . . . . . . . . . . . . . . 1213Contact information. . . . . . . . . . . . . . . . . . . . . 1214Contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Please be aware that important notices concerning this document and the product(s)described herein, have been included in section ‘Legal information’.© NXP B.V.2008.All rights reserved.For more information, please visit: For sales office addresses, please send an email to: salesaddresses@Date of release: 11 December 2008。

USB2.0 HUB控制器集成电路USB 2.0 HIGH SPEED 4-PORT HUB CONTROLLERSL2.2s数据手册Data Sheet内容目录第一章管脚分配 (3)1.1 SL2.2S管脚图 (3)1.2 SL2.2S管脚定义 (3)第二章 功能叙述 (5)2.1综述 (5)2.2指示灯 (5)2.2.1单灯方案 (5)2.2.2多灯方案 (6)2.2.3 LED指示定义 (6)2.3过流保护 (6)2.4充电支持 (6)2.5I2C接口 (7)2.6EEPROM设置 (7)第三章电气特性 (8)3.1极限工作条件 (8)3.2工作范围 (8)3.3直流电特性 (8)3.4HS/FS/LS电气特性 (8)3.5ESD特性 (8)附录一封装 (9)表格目录表格1: 端口LED定义 (6)表格 2 : ACTIVE LED定义 (6)表格3：EEPROM数据结构定义 (7)表格4: 最大额定值 (8)表格5: 工作范围 (8)表格6: 直流电特性 (8)插图目录图1：SSOP28 管脚图 (3)图2：单灯方案配置 (5)图3: 5灯方案配置 ............................................................................... (6)图 4：附录 封装图 ................................................................................... .9第一章管脚分配1.1SL2.2s管脚图图1：SSOP28 管脚图1.2SL2.2s管脚定义管脚名称28Die IO类型定义Pin#VSS 1 P 芯片地XOUT 2 O晶振PAD XIN 3 IDM4 4 B下行口4的USB信号DP4 5 BDM3 6 B下行口3的USB信号DP3 7 BDM2 8 B下行口2的USB信号DP2 9 BDM1 10 B下行口1的USB信号DP1 11 BVDD18 12 P 模拟1.8vVDD33 13 P 模拟3.3v - 14 NCUDM 15 B上行口的USB信号UDP 16 BRESET_N 17 I,Pu 芯片外部复位输入- 18 NCPSELF 19 I,Pu 高为自供电，低为总线供电VDD5 20 P 5v输入VDD33 21 P 3.3v输出DRV 22 B,Pu 点灯驱动信号LED1 23 B,Pu 点灯驱动信号LED2 24 B,Pu 点灯驱动信号PWRN 25 B,Pu 下行口电源输出控制，低有效OVCRN/SDA 26 B,PuI2C SDA数据线，内部上拉；芯片初始化完成后作为过流保护输入脚，低有效SCL 27 B,Pu I2C SCL时钟输出VDD18 28 P 数字1.8v注释：O，输出；I 输入；B 双向；P 电源/接地；Pu 上拉；Pd 下拉；NC 悬空；第二章 功能叙述2.1综述SL2.2s 是一颗高集成度,高性能,低功耗的USB2.0集线器主控芯片；该芯片采用STT 技术,单电源供电方式，芯片供电电压为5v , 内部集成5V 转3.3V,只需在外部电源添加滤波电容；芯片自带复位电路，低功耗技术让他更加出众。

CompactLogix 系統型號：•Armor Compact GuardLogix 5370•Armor CompactLogix 5370•Compact GuardLogix 5370•CompactLogix 5370•Compact GuardLogix 5380•CompactLogix 5380產品選型指南CompactLogix系統Logix 控制器比較特性CompactLogix™ 5380控制器Compact GuardLogix® 5380控制器CompactLogix 5370 L3控制器Compact GuardLogix 5370 L3控制器Armor™ CompactLogix 5370 L3控制器Armor Compact GuardLogix 5370控制器控制器工作：連續週期式事件式•32•1000個程式／工作•32•1000個程式／工作事件任務消費者標籤、EVENT指令啟動裝置、模組輸入資料變更及運動事件消費者標籤、EVENT指令啟動裝置及運動事件使用者記憶體5069-L306ER、5069-L306ERM0.6 MB1769-L30ER、1769-L30ER-NSE、1769-L30ERM、1769-L30ERMK1 MB5069-L310ER、5069-L310ER-NSE、5069-L310ERM 1 MB1769-L33ER、1769-L33ERM、1769-L33ERMK、1769-L33ERMO2 MB5069-L320ER、5069-L320ERM 2 MB1769-L36ERM、1769-L36ERMO 3 MB5069-L330ER、5069-L330ERM 3 MB1769-L37ERM、1769-L37ERMK、1769-L37ERMO 4 MB5069-L340ER、5069-L340ERM 4 MB1769-L38ERM、1769-L38ERMK、1769-L38ERMO 5 MB5069-L350ERM 5 MB1769-L30ERMS 1 MB + 0.5 MB安全記憶體5069-L380ERM8 MB1769-L33ERMS、1769-L33ERMSK、1769-L33ERMOS 2 MB + 1 MB安全記憶體5069-L3100ERM10 MB1769-L36ERMS、1769-L36ERMOS 3 MB + 1.5 MB安全記憶體5069-L306ERS2、5069-L306ERMS2 0.6 MB + 0.3 MB安全記憶體1769-L37ERMS、1769-L37ERMSK、1769-L37ERMOS 4 MB + 1.5 MB安全記憶體5069-L310ERS2、5069-L310ERMS2 1 MB + 0.5 MB安全記憶體1769-L38ERMS、1769-L38ERMSK、1769-L38ERMOS 5 MB + 1.5 MB安全記憶體5069-L320ERS2、5069-L320ERMS2、5069-L320ERS2K、5069-L320ERMS2K 2 MB + 1 MB 安全記憶體5069-L330ERS2、5069-L330ERMS2、5069-L330ERS2K、5069-L330ERMS2K 3 MB + 1.5 MB 安全記憶體5069-L340ERS2、5069-L340ERMS2 4 MB + 2 MB安全記憶體5069-L350ERS2、5069-L350ERMS2、5069-L350ERS2K、5069-L350ERMS2K 5 MB + 2.5 MB 安全記憶體5069-L380ERS2、5069-L380ERMS2 8 MB + 4 MB安全記憶體5069-L3100ERS2、5069-L3100ERMS2 10 MB + 5 MB安全記憶體內建連接埠•2個乙太網路連接埠（10 Mpbs/100Mbps/1 Gbps）•1個連接埠，USB用戶端•2個EtherNet/IP連接埠•1個連接埠，USB用戶端通訊選項•EtherNet/IP•USB用戶端•EtherNet/IP–內嵌式交換器–單一IP位址•DeviceNet•USB用戶端控制器連線—256個連線2Rockwell Automation出版物1769-SG001U-ZC-P – 2018年4月Rockwell Automation 出版物1769-SG001U-ZC-P – 2018年4月3CompactLogix 系統網路節點Studio 5000 Logix Designer®應用程式（第31版或更新版本）(1)5069-L306ER 、5069-L306ERM 、5069-L306ERS2、5069-L306ERMS2161769-L30ER 、1769-L30ER-NSE 、1769-L30ERM 、1769-L30ERMK 、1769-L30ERMS165069-L310ER 、5069-L310ER-NSE 、5069-L310ERM 、5069-L310ERS2、5069-L310ERMS2241769-L33ER 、1769-L33ERM 、1769-L33ERMK 、1769-L33ERMS 、1769-L33ERMSK 、1769-L33ERMO 、1769-L33ERMOS325069-L320ER 、5069-L320ERM 、5069-L320ERS2、5069-L320ERMS25069-L320ERS2K 、5069-L320ERMS2K401769-L36ERM 、1769-L36ERMS 、1769-L36ERMO 、1769-L36ERMOS485069-L330ER 、5069-L330ERM 、5069-L330ERS2、5069-L330ERMS25069-L330ERS2K 、5069-L330ERMS2K601769-L37ERM 、1769-L37ERMS 、1769-L37ERMO 、1769-L37ERMOS 、1769-L37ERMK 、1769-L37ERMSK 645069-L340ER 、5069-L340ERM 、5069-L340ERS2、5069-L340ERMS2901769-L38ERM 、1769-L38ERMS 、1769-L38ERMO 、1769-L38ERMOS 、1769-L38ERMK 、1769-L38ERMSK805069-L350ERM 、5069-L350ERS2、5069-L350ERMS25069-L350ERS2K 、5069-L350ERMS2K1205069-L380ERM 、5069-L380ERS2、5069-L380ERMS21505069-L3100ERM 、5069-L3100ERS2、5069-L3100ERMS2180控制器備援無透過DeviceNet 備援 – 限CompactLogix 5370 L3控制器與Compact GuardLogix 5370 L3控制器整合式運動控制EtherNet/IPEtherNet/IP保護塗層5069-L320ERS2K 、5069-L320ERMS2K 、5069-L330ERS2K 、5069-L330ERMS2K 、5069-L350ERS2K 、5069-L350ERMS2K1769-L30ERMK 、1769-L33ERMK 、1769-L33ERMSK 、1769-L37ERMK 、1769-L37ERMSK 、1769-L38ERMK 、1769-L38ERMSK(1)列出的最大節點數是指控制器搭配Logix Designer 應用程式（第31版或更新版本）使用時。

Extract from the onlinecatalogGMSTB 2,5/ 5-ST-7,62Order No.: 1767038The figure shows a 10-position version of the product/phoenix/treeViewClick.do?UID=1767038Plug component, Nominal current: 12 A, Nom. voltage: 400 V, Pitch:7.62 mm, Number of positions: 5, Connection type: Screw connection, Color: greenhttp://Please note that the data givenhere has been taken from theonline catalog. For comprehensiveinformation and data, please referto the user documentation. TheGeneral Terms and Conditions ofUse apply to Internet downloads. Technical dataDimensions / positionsPitch7.62 mmDimension a30.48 mmNumber of positions5Screw thread M3Tightening torque, min0.5 Nm Tightening torque max0.6 NmTechnical dataInsulating material group IRated surge voltage (III/3) 6 kV Rated surge voltage (III/2) 6 kV Rated surge voltage (II/2) 6 kV Rated voltage (III/2)630 V Rated voltage (II/2)1000 V Connection in acc. with standard EN-VDE Nominal current I N12 A Nominal voltage U N400 V Nominal cross section 2.5 mm²Maximum load current12 A Insulating material PA Inflammability class acc. to UL 94V2 Internal cylindrical gage A3 Stripping length7 mmConnection dataConductor cross section solid min.0.2 mm²Conductor cross section solid max. 2.5 mm²Conductor cross section stranded min.0.2 mm²Conductor cross section stranded max. 2.5 mm²0.25 mm²Conductor cross section stranded, with ferrulewithout plastic sleeve min.Conductor cross section stranded, with ferrule2.5 mm²without plastic sleeve max.0.25 mm²Conductor cross section stranded, with ferrulewith plastic sleeve min.2.5 mm²Conductor cross section stranded, with ferrulewith plastic sleeve max.Conductor cross section AWG/kcmil min.24 Conductor cross section AWG/kcmil max122 conductors with same cross section, solid min.0.2 mm²2 conductors with same cross section, solid max. 1 mm²2 conductors with same cross section, strandedmin.0.2 mm²2 conductors with same cross section, strandedmax.1.5 mm²2 conductors with same cross section, stranded,ferrules without plastic sleeve, min.0.25 mm²2 conductors with same cross section, stranded,ferrules without plastic sleeve, max.1 mm²2 conductors with same cross section, stranded,TWIN ferrules with plastic sleeve, min.0.5 mm²2 conductors with same cross section, stranded,TWIN ferrules with plastic sleeve, max.1 mm²Certificates / ApprovalsCertification CB, CSA, CUL, GOST, UL, VDE-PZICSANominal voltage U N300 VNominal current I N10 AAWG/kcmil28-12CULNominal voltage U N300 VNominal current I N10 AAWG/kcmil30-12ULNominal voltage U N300 VNominal current I N10 AAWG/kcmil30-12AccessoriesItem Designation DescriptionGeneral1803918KGG-MSTB 2,5/ 7Cable housing, Number of positions: 7, Dimension a: 35 mm,Color: greenMarking1051993B-STIFT Marker pen, for manual labeling of unprinted Zack strips, smear-proof and waterproof, line thickness 0.5 mm0804549SK 7,62/3,8:FORTL.ZAHLEN Marker card, printed horizontally, self-adhesive, 10-section markerstrip, 12 identical decades marked 1-10, 11-20 etc. up to 91-99,sufficient for 120 terminal blocks0805153SK 7,62/3,8:SO Marker card, special printing, self-adhesive, labeled acc. tocustomer requirements, 12 identical marker strips per card, max.25-position labeling per strip, color: whitePlug/Adapter1734634CP-MSTB Keying profile, is inserted into the slot on the plug or invertedheader, red insulating materialTools1205053SZS 0,6X3,5Screwdriver, bladed, matches all screw terminal blocks up to 4.0mm² connection cross section, blade: 0.6 x 3.5 mm, without VDEapprovalAdditional productsItem Designation DescriptionGeneral1828838GIC 2,5/ 5-ST-7,62Plug component, Nominal current: 12 A, Nom. voltage: 400 V,Pitch: 7.62 mm, Number of positions: 5, Connection type: Screwconnection, Color: green1766152GMSTB 2,5/ 5-G-7,62Header, Nominal current: 12 A, Nom. voltage: 400 V, Pitch: 7.62mm, Number of positions: 5, Color: green, Assembly: Soldering 1766262GMSTBA 2,5/ 5-G-7,62Header, Nominal current: 12 A, Nom. voltage: 400 V, Pitch: 7.62mm, Number of positions: 5, Color: green, Assembly: Soldering 1766592GMSTBV 2,5/ 5-G-7,62Header, Nominal current: 12 A, Nom. voltage: 400 V, Pitch: 7.62mm, Number of positions: 5, Color: green, Assembly: Soldering 1766806GMSTBVA 2,5/ 5-G-7,62Header, Nominal current: 12 A, Nom. voltage: 400 V, Pitch: 7.62mm, Number of positions: 5, Color: green, Assembly: SolderingDiagrams/Drawings DiagramDimensioned drawingAddressPHOENIX CONTACT GmbH & Co. KGFlachsmarktstr. 832825 Blomberg,GermanyPhone +49 5235 3 00Fax +49 5235 3 41200© 2010 Phoenix ContactTechnical modifications reserved;。

电器布线材料的UL安全标准，UL 758第二版，2006年4月24日总结的主题UL 758的修订现正印发予:明确5.1.1,5.6.1,48.2(d) & (f)，删除5.3.2中对金属箔导体的要求;将FRPE和EPDM以及编辑更改添加到表7.1;添加一个用于挤压尼龙覆盖物的新表8.2和用于挤压尼龙覆盖物的8.4;明确13.3.2中较薄护套的测试要求并添加新的13.3.3;修订表13.1和表13.2中大直径电缆的套管厚度;在18.1中澄清受导体腐蚀试验的材料;修订19.1，加入含氟聚合物的温度限制，修订表19.1，加入THV;在22.1和48.2(b)中加入可选冷弯等级;将油墨打印试验耐久性老化要求重新调至26.1;增加室温下的短期绝缘电阻和高温下的长期绝缘电阻要求，分别达到34.1和35.1;在48.2(e)和(f)中澄清导体材料的标记。

被UL电子出版系统以任何方式修改或影响的文本，在空白处标上垂直线。

需求的变化在空白处用一条垂直线标出，然后是一份有效的日期说明，表明发布日期或需求变化生效的日期。

修订后的规定大致符合2009年2月13日、2009年3月27日、2009年5月1日及2009年5月8日就该课题提出的建议。

保留所有权利。

未经UL事先许可，本出版物任何部分不得复制、存储在检索系统中，或以任何形式通过电子、机械复印、记录或其他方式传送。

UL提供此标准，且不提供任何形式的明示或默示保证，包括但不限于适销性或适合任何用途的默示保证。

没有事件UL将承担任何特殊的、附带的、间接的、间接的或类似的损失,包括利润损失,失去了储蓄,损失的数据,或任何其他损害引起的使用或无法使用这个标准,即使UL或授权UL 代表建议的这种损害的可能性。

无论索赔的形式如何，在任何情况下，UL对任何损害的赔偿都不应超过本标准所支付的价格用户的电子版本的UL安全标准同意保护,赔偿,并持有UL无害的从和反对任何损失,费用,责任,损失,索赔,或判断(包括合理的律师费)所产生的任何错误或偏差引入购买者是存储电子标准在买方年代计算机系统。

1367073-1 Product DetailsCorporate Home | Electronic Components | Segments | Who We AreSea1367073-1ActivePluggable Connectors, Cages, Transceivers & AccessoriesAlways EU RoHS/ELV Compliant (Statement ofCompliance )Product Highlights:z SFP Application z Connectorz PCB Mount Style = Single Sided z Number of Positions = 20z Termination Type = Surface Mount View all Features | Find Similar ProductsCheck Pricing & Availability Search for ToolingProduct Feature SelectorContact Us About This ProductQuick LinksDocumentation & Additional InformationProduct Drawings:z PT CONNECTOR ASSEMBLY, 20 POSITION, SFP, RTANG, 0.8MM (PDF, English)Catalog Pages/Data Sheets:z SFP SYSTEM (1) (PDF, English)z SFP SYSTEM (2) (PDF, English)z SMALL FORM-FACTOR PLUGGABLE (SFP) SYSTEM (PDF, English)z Pluggable Input / Output Solutions Catalog 1773408-1 (PDF, English)Product Specifications:z Small Form Factor Pluggable, 0.8 mm Centerline Conne... (PDF, English)z SFP Cage Assemblies (PDF, English)z SFP HSSDC II Copper Module Transceiver (PDF, English)z Small Form Factor Pluggable, 0.8mm Centerline Connectors (PDF, Japanese) z SFP Cage Assemblies (PDF, Japanese) zSFP 20 Position Connector (PDF, Japanese)Application Specifications:z Small Form-Factor Pluggable (SFP) Connector and Cage... (PDF, English)z Small Form-Factor Pluggable (SFP) and SFP+ Suface Mo... (PDF, English) z Small Form-Factor Pluggable (SFP) Ganged Press-Fit P... (PDF, English) z Small Form-Factor Pluggable (SFP) DWDM (Dense Wavele... (PDF, English)Instruction Sheets:z Small Form-Factor Pluggable (SFP) DWDM (Dense Wavele... (PDF, English)z Small Form-Factor Pluggable (SFP) Connector and Cage... (PDF, English)Additional Information:z Product Line InformationRelated Products:z ToolingWorldwideHome | Customer Support | Suppliers | Site Map | Privacy Policy | Browser Support© 2007 Tyco Electronics Corporation All Rights ReservedCAD Files: (CAD Format & Compression Information )z 2D Drawing (DXF, Version G)z 3D Model (IGES, Version G) z 3D Model (STEP, Version G)List all DocumentsProduct Features (Please use the Product Drawing for all design activity)Product Type Features:z Product Type = Connectorz PCB Mount Style = Single Sided z Number of Positions = 20z Termination Type = Surface MountContact Related Features:z Contact Mating Area Plating = Gold (15) over Nickelz Contact Material = Phosphor BronzeHousing Related Features:z Housing Color = Blackz Housing Flammability Rating = UL 94V-0z Housing Material = Liquid Crystal Polymer (LCP)Industry Standards:z RoHS/ELV Compliance = RoHS compliant, ELV compliantz Lead Free Solder Processes = Reflow solder capable to 245°C,Reflow solder capable to 260°Cz RoHS/ELV Compliance History = Always was RoHS compliantOperation/Application:z Application = SFPPackaging Related Features:z Packaging Method = ReelOther:z Brand = AMPProvide Website Feedback | Contact Customer Support。

自动转换开关ATSASCO(Automatic Switch Company) 美国自动开关公司创立于1888年，于1920年研发制造出第一台自动转换开关，经由不断的创新与发展，一直是电力界自动转换开关产品的首选，是ATS 业界领导者。

右图为ASCO 全球总部及主要生产工厂，位于美国新泽西州Florham Park,拥有超过1300名员工，此工厂每年制造及运送数以万计的ATS 至全球各地。

全球总部-Florham Park, 美国新泽西州当您了解越多，您会更加坚定选择ASCO 提供多元化产品及解决方案以符合各种对紧急电源转换应用的要求：◆一般开路转换开关ATS◆不停电转换闭路转换开关CTTS◆延迟转换开关DTTS◆维修时仍可继续供应电力的旁路隔离抽出型转换开关ATB ，ACTB◆固态电子式快速转换开关STS◆闭路式线性加卸载转换开关SLTS◆中压转换开关MV ATS ，MVCTTS◆多电源转换系统◆发电机并联系统 ◆紧急电力管理系统 2000A 含维护旁路自动转换开关 ◆照明控制接触器◆瞬时浪涌电压突波抑制器全球销售与服务网络ASCO 产品销售及服务网遍布全球，ASCO 自动转换开关为强制认证(CCC)合格产品、UL1008认证合格产品,是全球第一家取得CE,IEC60947-6-1及KemaKeur 认证合格的自动转换开关,符合NFPA 20,70，99,110,IEEE 241,446及NEMA ICS10-1993(ICS2-447)法规标准。

自动转换开关提供最佳可靠度◆真正PC级自动转换开关，GB/T 14048.11-2002、UL1008及IEC60947-6-1认证的合格产品◆适用于各类型负载，可使用于最复杂负载类型AC-33A ◆带载转换及耐受故障电流能力高，方便保护协调设计及设定◆线圈激磁型双投式转换开关，转换速度快且稳定◆电气操作，机械保持触头闭合◆电气及机械互锁，无中间暂停位置，保证只接触一路电源供电，避免双边电源不供电或双路电源短路◆具灭弧触头及灭弧室，保护主触头，有足够灭弧距离，保证明显断开点◆大电流ATS静主触头为分片式设计，保证最佳接触面积避免过热，并具有自我清洁功能◆百分之百电流额定◆不需外接触独立控制电源，降低故障率◆可由正面检视维修◆转换速度快，3000A以下机械动作时间低于50ms,4000A 低于60ms◆微处理机控制器，控制精密度高◆可搭配同相位侦测器进行同相位转换◆可搭配重叠转换第四极（中性级），避免转换过程产生瞬间异常电压◆可搭配通讯模块，远程监控ATS状态重要负载供电需要ATS 医院、电子半导体业、商业大楼及工业厂房计算机数据处理中心，电信通讯机房石化工业及制造业300系列开路转换自动转换开关ATS◆适用于商业、工业及紧急重要的供电场所◆GB/T 14048.11-2002、UL1008及IEC60947-6-1认证合格产品◆2、3、4极，适用于120V-600V，单相及三相系统，30A-3000A，50/60HZ◆PC级ATS适用于各类负载及AC-33A◆真正双投式自动转换开关，采用先离后接转换模式，转换过程负载短瞬间停电，有明显断开点◆转换机构电力来自于即将投入端电源，不需额外控制电源，减少故障率◆简单明了的盘面控制及显示面板，LED灯号显示开关位置及电源状态，并含测试及延时取消开关◆附发电机每周定时启动测试定时器，可设定有载或无载测试，若有必要也可取消此设定◆有时正常及紧急电于瞬间压降或瞬间停电后马上复电,一般ATS在此状况下会做不必要的频繁转换;ASCO300系列ATS可以延时设定忽略此种电力问题，使ATS不作无谓转换200A ATS，屋外型外箱UL1008耐受短时电流及带载转换闭合额定能力对称电流值(A/RMS)ATS电流(A) 以熔丝保护时可达(A)值以断路器保护时可达(A)值30 100,00010,000 70-200 200,000 22,000 230 100,00022,000 260,400 200,000 42,000600 200,00050,000 800,1000,1200 200,000 65,0001600,2000 200,000 85,000 2600,3000 200,000 100,000300系列微处理机控制器电压与频率侦测◆三相侦测◆电压复归值可设定为90%或95% ◆电压跳脱值可设定为70%至90% ◆频率复归值设定为95% ◆频率跳脱值设定为85%延时设定 ◆发电机延时启动1或3秒可调 ◆转换至紧急侧延时0至5分钟可调 ◆转回市电侧延时1秒至30分钟可调 ◆4秒延时转回市电侧以防止因发电机短时间低电压而 造成开关不必要的转换 ◆发电机冷却运转延时5分钟标准功能◆附同相位转换侦测器(In-Phasc Monitor),避免因不同步转换造成上游断路器无故跳脱,严重时损坏设备 ◆可选用重叠转换式中性极(第四极Overlapping Neutral),采用先后离的操作程序,避免转换过程中产生瞬间异常电压 ◆附转换前及转换后负载隔离信号接点,于转换前或转换后提供信号给电动机启动器，电梯控制器，变频器或其它可供选择控制的负载进行特别控制；例如电梯可于转换前接受信号，通知先行暂停于某一楼层，待转换后信号解除再正常运行,以避免危险 ◆附发电机每周定时启动测试定时器，可设定有载或无载测试，若有必要也可取消此功能遥控功能 ◆透过干接点与监控中心联机进行遥控测试,禁止转换至紧急电源，延时取消等控制功能◆可选购通讯模块72A,连接(Ethernet TCP/IP)利用计算机Windows 浏览器即可监视ATS 状态300系列盘面控制及显示面板300系列微处理机控制器符合GB ，UL ，IEC ，EMC 检测标准300系列ATS箱体定制1、开门方向标准的ASCO ATS外箱均为右开门（如上图所示），若须左开门请于订购时选购原厂加长型控制线。

ControlLogix 增强型冗余系统产品目录号 1756-RM 、1756-RMXT 、1756-RM2、1756-RM2XT用户手册重要用户须知固态设备具有与机电设备不同的运行特性。

Safety Guidelines for the Application, Installation and Maintenance of Solid State Controls （出版号 SGI-1.1，本资料可从当地罗克韦尔自动化销售处索取或从 /literature/ 网站下载）。

该资料介绍了固态设备与硬接线电动机械设备之间的一些重要差异。

由于存在这些差异，同时固态设备的应用又非常广泛，因此负责应用此设备的所有人员，都必须确保仅以可接受的方式应用此设备。

任何情况下，对于因使用或操作本设备造成的任何间接或连带损失，罗克韦尔自动化公司概不负责。

本手册中的示例和图表仅用于说明。

由于任何具体的安装都存在很多可变因素和要求，罗克韦尔自动化公司对于依据这些示例和图表进行的实际应用不承担任何责任和义务。

对于因使用本手册中所述信息、电路、设备或软件而引起的专利问题，罗克韦尔自动化有限公司概不承担任何责任。

未经罗克韦尔自动化公司的书面许可，任何单位或个人不得复制本手册之全部或部分内容。

在整本手册中，我们在必要的地方使用了以下注释，来提醒您注意相关的安全事宜。

Allen-Bradley 、ControlFLASH 、ControlLogix 、FactoryTalk 、PanelView 、PhaseManager 、Rockwell Software 、Rockwell Automation 、RSLinx 、RSLogix 、RSNetW orx 、VersaView 、RSView32、Logix5000、ControlLogix-XT 、Integrated Architecture 、Stratix 8000、PowerFlex 、POINT I/O 是罗克韦尔自动化公司的商标。

TMFile Number4846HUF75852G375A, 150V, 0.016 Ohm, N-Channel,UltraFET Power MOSFET PackagingJEDEC TO-247SymbolFeatures•Ultra Low On-Resistance-r DS(ON) = 0.016Ω,V GS =10V•Simulation Models-Temperature Compensated PSPICE™ and SABER ©Electrical Models-Spice and SABER © Thermal Impedance Models •Peak Current vs Pulse Width Curve •UIS Rating CurveSOURCEDRAINGATEDRAIN (TAB)DGSOrdering InformationPART NUMBER PACKAGE BRANDHUF75852G3TO-24775852GAbsolute Maximum RatingsT C = 25o C, Unless Otherwise SpecifiedHUF75852G3UNITS Drain to Source Voltage (Note 1). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V DSS 150V Drain to Gate Voltage (R GS = 20k Ω) (Note 1). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V DGR 150V Gate to Source Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .V GS ±20V Drain CurrentContinuous (T C = 25o C, V GS = 10V) (Figure 2). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I D Continuous (T C = 100o C, V GS = 10V) (Figure 2). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I D Pulsed Drain Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I DM 7575Figure 4A APulsed Avalanche Rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .UIS Figures 6, 14, 15Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .P D Derate Above 25o C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5003.33W W/o COperating and Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .T J , T STG -55 to 175o C Maximum Temperature for SolderingLeads at 0.063in (1.6mm) from Case for 10s. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .T L Package Body for 10s, See Techbrief TB334. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .T pkg 300260o C o CNOTE:1.T J = 25o C to 150o C.CAUTION:Stresses above those listed in “Absolute Maximum Ratings”may cause permanent damage to the device.This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied.Data SheetApril 2000查询HUF75852G3供应商Electrical Specifications T C= 25o C, Unless Otherwise SpecifiedPARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITS OFF STATE SPECIFICATIONSDrain to Source Breakdown Voltage BV DSS I D = 250µA, V GS = 0V (Figure 11)150--V Zero Gate Voltage Drain Current I DSS V DS = 140V, V GS = 0V--1µAV DS = 135V, V GS = 0V, T C = 150o C--250µA Gate to Source Leakage Current I GSS V GS =±20V--±100nA ON STATE SPECIFICATIONSGate to Source Threshold Voltage V GS(TH)V GS = V DS, I D = 250µA (Figure 10)2-4V Drain to Source On Resistance r DS(ON)I D = 75A, V GS = 10V (Figure 9)-0.0130.016W THERMAL SPECIFICATIONSThermal Resistance Junction to Case RθJC TO-247--0.30o C/W Thermal Resistance Junction toAmbientRθJA--30o C/W SWITCHING SPECIFICATIONS(V GS = 10V)Turn-On Time t ON V DD = 75V, I D = 75AV GS=10V,R GS = 2.0Ω(Figures 18, 19)--260nsTurn-On Delay Time t d(ON)-22-ns Rise Time t r-151-ns Turn-Off Delay Time t d(OFF)-82-ns Fall Time t f-107-ns Turn-Off Time t OFF--285ns GATE CHARGE SPECIFICATIONSTotal Gate Charge Q g(TOT)V GS = 0V to 20V V DD = 75V,I D = 75A,I g(REF) = 1.0mA(Figures 13, 16, 17)-400480nCGate Charge at 10V Q g(10)V GS = 0V to 10V-215260nC Threshold Gate Charge Q g(TH)V GS = 0V to 2V-1517.5nC Gate to Source Gate Charge Q gs-25-nC Gate to Drain “Miller” Charge Q gd-66-nC CAPACITANCE SPECIFICATIONSInput Capacitance C ISS V DS = 25V, V GS = 0V,f = 1MHz(Figure 12)-7690-pFOutput Capacitance C OSS-1650-pF Reverse Transfer Capacitance C RSS-535-pF Source to Drain Diode SpecificationsPARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITS Source to Drain Diode Voltage V SD I SD = 75A-- 1.25VI SD = 35A-- 1.00V Reverse Recovery Time t rr I SD = 75A, dI SD/dt = 100A/µs--260ns Reverse Recovered Charge Q RR I SD = 75A, dI SD/dt = 100A/µs--1830nCTypical Performance CurvesFIGURE 1.NORMALIZED POWER DISSIPATION vs CASETEMPERATURE FIGURE 2.MAXIMUM CONTINUOUS DRAIN CURRENT vsCASE TEMPERATUREFIGURE 3.NORMALIZED MAXIMUM TRANSIENT THERMAL IMPEDANCEFIGURE 4.PEAK CURRENT CAPABILITYT C , CASE TEMPERATURE (o C)P O W E R D I S S I P A T I O N M U L T I P L I E R002550751001750.20.40.60.81.01.2125150204060805075100125150025I D , D R A I N C U R R E N T (A )T C , CASE TEMPERATURE (o C)V GS = 10V1750.11210-410-310-210-11001010.0110-5t, RECTANGULAR PULSE DURATION (s)Z θJ C , N O R M A L I Z E DT H E R M A L I M P E D A N C E SINGLE PULSENOTES:DUTY FACTOR: D = t 1/t 2PEAK T J = P DM x Z θJC x R θJC + T CP DMt 1t 2DUTY CYCLE - DESCENDING ORDER 0.50.20.10.050.010.0210020005010-410-310-210-110010110-5I D M , P E A K C U R R E N T (A )t, PULSE WIDTH (s)TRANSCONDUCTANCE MAY LIMIT CURRENT IN THIS REGIONT C = 25o CI = I 25175 - T C 150FOR TEMPERATURESABOVE 25o C DERATE PEAK CURRENT AS FOLLOWS:1000V GS = 10VFIGURE 5.FORWARD BIAS SAFE OPERATING AREANOTE:Refer to Intersil Application Notes AN9321 and AN9322.FIGURE 6.UNCLAMPED INDUCTIVE SWITCHING CAP ABILITYFIGURE 7.TRANSFER CHARACTERISTICS FIGURE 8.SATURATION CHARACTERISTICSFIGURE 9.NORMALIZED DRAIN TO SOURCE ONRESISTANCE vs JUNCTION TEMPERATURE FIGURE 10.NORMALIZED GATE THRESHOLD VOLTAGE vsJUNCTION TEMPERATURE1010010500100011100µs10ms1msV DS , DRAIN TO SOURCE VOLTAGE (V)I D , D R A I N C U R R E N T (A )LIMITED BY r DS(ON)AREA MAY BEOPERATION IN THIS T J = MAX RATED T C = 25o CSINGLE PULSE 10010010000.010.1110I A S , A V A L A N C H E C U R R E N T (A )t AV , TIME IN AVALANCHE (ms)t AV = (L)(I AS )/(1.3*RATED BV DSS - V DD )If R = 0If R ≠ 0t AV = (L/R)ln[(I AS *R)/(1.3*RATED BV DSS - V DD ) +1]STARTING T J = 25o CSTARTING T J = 150o C1005010015020023456I D , D R A I N C U R R E N T (A )V GS , GATE TO SOURCE VOLTAGE (V)PULSE DURATION = 80µs DUTY CYCLE = 0.5% MAX V DD = 15VT J = 175o CT J = 25o CT J = -55o C501001502001236I D , D R A I N C U R R E N T (A )V DS , DRAIN TO SOURCE VOLTAGE (V)V GS =5VV GS = 20VPULSE DURATION = 80µs DUTY CYCLE = 0.5% MAX T C = 25o CV GS = 10V V GS = 7V V GS = 6V450.41.01.62.22.8-80-404080120200N O R M A L I Z E D D R A I N T O S O U R C E T J , JUNCTION TEMPERATURE (o C)O N R E S I S T A N C EV GS = 10V, I D = 75APULSE DURATION = 80µs DUTY CYCLE = 0.5% MAX 1600.40.81.01.2-80-4004080120200N O R M A L I Z E D G A T E T J , JUNCTION TEMPERATURE (o C)V GS = V DS , I D = 250µAT H R E S H O L D V O L T A G E0.6160FIGURE 11.NORMALIZED DRAIN TO SOURCE BREAKDOWNVOLTAGE vs JUNCTION TEMPERATUREFIGURE 12.CAPACITANCE vs DRAIN TO SOURCE VOLTAGENOTE:Refer to Intersil Application Notes AN7254 and AN7260.FIGURE 13.GATE CHARGE WAVEFORMS FOR CONSTANT GATE CURRENT0.91.01.11.2-80-404080120200T J , JUNCTION TEMPERATURE (o C)N O R M A L I Z E D D R A I N T O S O U R C E B R E A K D O W N V O L T A G EI D = 250µA160100100010000200000.11.010100C , C A P A C I T A N C E (p F )V DS , DRAIN TO SOURCE VOLTAGE (V)V GS = 0V, f = 1MHzC ISS =C GS + C GDC OSS ≅ C DS + C GDC RSS =C GD246810050100150200250V G S , G A T E T O S O U R C E V O L T A G E (V )V DD = 75VQ g , GATE CHARGE (nC)I D = 75A I D = 30AWAVEFORMS INDESCENDING ORDER:Test Circuits and WaveformsFIGURE 14.UNCLAMPED ENERGY TEST CIRCUIT FIGURE 15.UNCLAMPED ENERGY WAVEFORMSt PV GS0.01ΩLI AS+-V DSV DDR GDUTVARY t P TO OBTAIN REQUIRED PEAK I AS0VV DDV DSBV DSSt PI ASt AVFIGURE 16.GATE CHARGE TEST CIRCUIT FIGURE 17.GATE CHARGE WAVEFORMSFIGURE 18.SWITCHING TIME TEST CIRCUIT FIGURE 19.SWITCHING TIME WAVEFORMTest Circuits and Waveforms(Continued)R LV GS+-V DSV DDDUTI g(REF)V DDQ g(TH)V GS = 2V Q g(10)V GS = 10VQ g(TOT)V GS = 20VV DSV GS I g(REF)0Q gsQ gdV GSR LR GSDUT+-V DDV DS V GSt ON t d(ON)t r90%10%V DS90%10%t ft d(OFF)t OFF 90%50%50%10%PULSE WIDTHV GS 0.SUBCKT HUF75852 2 1 3 ;rev 26 Oct 1999CA 12 8 12.0e-9CB 15 14 12.0e-9CIN 6 8 7.15e-9DBODY 7 5 DBODYMOD DBREAK 5 11 DBREAKMOD DPLCAP 10 5 DPLCAPMODEBREAK 11 7 17 18 159.2EDS 14 8 5 8 1EGS 13 8 6 8 1ESG 6 10 6 8 1EVTHRES 6 21 19 8 1EVTEMP 20 6 18 22 1IT 8 17 1LDRAIN 2 5 1.0e-9LGATE 1 9 7.46e-9LSOURCE 3 7 3.87e-9MMED 16 6 8 8 MMEDMOD MSTRO 16 6 8 8 MSTROMOD MWEAK 16 21 8 8 MWEAKMODRBREAK 17 18 RBREAKMOD 1RDRAIN 50 16 RDRAINMOD 9.50e-3RGATE 9 20 0.80RLDRAIN 2 5 10RLGATE 1 9 74.6RLSOURCE 3 7 38.7RSLC1 5 51 RSLCMOD 1e-6RSLC2 5 50 1e3RSOURCE 8 7 RSOURCEMOD 2.37e-3RVTHRES 22 8 RVTHRESMOD 1RVTEMP 18 19 RVTEMPMOD 1S1A 6 12 13 8 S1AMOD S1B 13 12 13 8 S1BMOD S2A 6 15 14 13 S2AMOD S2B 13 15 14 13 S2BMOD VBAT 22 19 DC 1ESLC 51 50 VALUE={(V(5,51)/ABS(V(5,51)))*(PWR(V(5,51)/(1e-6*245),2.5))}.MODEL DBODYMOD D (IS = 6.03e-12 RS = 2.17e-3TRS1 = 1.97e-3TRS2 = 1.03e-6CJO = 7.91e-9TT = 1.69e-7 M = 0.60).MODEL DBREAKMOD D (RS = 3.53e-1TRS1 = 0TRS2 = 0).MODEL DPLCAPMOD D (CJO = 9.52e-9IS = 1e-30N = 1 M = 0.88).MODEL MMEDMOD NMOS (VTO = 3.05 KP = 8.50 IS = 1e-30 N = 10 TOX = 1 L = 1u W = 1u RG = 0.80).MODEL MSTROMOD NMOS (VTO = 3.53 KP = 215 IS = 1e-30 N = 10 TOX = 1 L = 1u W = 1u).MODEL MWEAKMOD NMOS (VTO = 2.63 KP = 0.075 IS = 1e-30 N = 10 TOX = 1 L = 1u W = 1u RG = 8.0 ).MODEL RBREAKMOD RES (TC1 = 1.12e-3TC2 = -1.00e-7).MODEL RDRAINMOD RES (TC1 = 1.03e-2TC2 = 3.04e-5).MODEL RSLCMOD RES (TC1 = 2.52e-3 TC2 = 0).MODEL RSOURCEMOD RES (TC1 = 1.01e-3 TC2 = 0).MODEL RVTHRESMOD RES (TC1 = -3.65e-3 TC2 = -1.55e-5).MODEL RVTEMPMOD RES (TC1 = -2.85e-3TC2 = 0).MODEL S1AMOD VSWITCH (RON = 1e-5ROFF = 0.1VON = -3.5VOFF= -3.0).MODEL S1BMOD VSWITCH (RON = 1e-5ROFF = 0.1VON = -3.0VOFF= -3.5).MODEL S2AMOD VSWITCH (RON = 1e-5ROFF = 0.1VON = -2.5VOFF= -0.5).MODEL S2BMOD VSWITCH (RON = 1e-5ROFF = 0.1VON = -0.5VOFF= -2.5).ENDSNOTE:For further discussion of the PSPICE model, consult A New PSPICE Sub-Circuit for the Power MOSFET Featuring Global Temperature Options ; IEEE Power Electronics Specialist Conference Records, 1991, written by William J. Hepp and C. Frank Wheatley.1822+-68+-551+-198+-17186858+-RBREAKRVTEMP VBAT RVTHRESIT17181922121315S1A S1BS2A S2BCACB EGSEDS1481381413MWEAKEBREAK DBODYRSOURCESOURCE1173LSOURCERLSOURCECINRDRAINEVTHRES 16218MMEDMSTRODRAIN 2LDRAINRLDRAINDBREAKDPLCAPESLC RSLC11055150RSLC21GATE RGATE EVTEMP9ESGLGATERLGATE20+-+-+-6REV 26 Oct 1999template huf75852 n2,n1,n3electrical n2,n1,n3{var i iscld..model dbodymod = (is = 6.03e-12, cjo = 7.91e-9, tt = 1.69e-7, m = 0.60)d..model dbreakmod = ()d..model dplcapmod = (cjo = 9.52e-9, is = 1e-30, n=1, m = 0.88 )m..model mmedmod = (type=_n, vto = 3.05, kp = 8.50, is = 1e-30, tox = 1)m..model mstrongmod = (type=_n, vto = 3.53, kp = 215, is = 1e-30, tox = 1)m..model mweakmod = (type=_n, vto = 2.63, kp = 0.075, is = 1e-30, tox = 1)sw_vcsp..model s1amod = (ron = 1e-5, roff = 0.1, von = -3.5, voff = -3)sw_vcsp..model s1bmod = (ron =1e-5, roff = 0.1, von = -3, voff = -3.5)sw_vcsp..model s2amod = (ron = 1e-5, roff = 0.1, von = -2.5, voff = -0.5)sw_vcsp..model s2bmod = (ron = 1e-5, roff = 0.1, von = -0.5, voff = -2.5)c.ca n12 n8 = 12.0e-9c.cb n15 n14 = 12.0e-9c.cin n6 n8 = 7.15e-9d.dbody n7 n71 = model=dbodymod d.dbreak n72 n11 = model=dbreakmod d.dplcap n10 n5 = model=dplcapmod i.it n8 n17 = 1l.ldrain n2 n5 = 1.0e-9l.lgate n1 n9 = 7.46e-9l.lsource n3 n7 = 3.87e-9m.mmed n16 n6 n8 n8 = model=mmedmod, l=1u, w=1u m.mstrong n16 n6 n8 n8 = model=mstrongmod, l=1u, w=1u m.mweak n16 n21 n8 n8 = model=mweakmod, l=1u, w=1u res.rbreak n17 n18 = 1, tc1 = 1.12e-3, tc2 = -1.00e-7res.rdbody n71 n5 = 2.17e-3, tc1 = 1.97e-3, tc2 = 1.03e-6res.rdbreak n72 n5 = 3.53e-1, tc1 = 0, tc2 = 0res.rdrain n50 n16 = 9.50e-3, tc1 = 1.03e-2, tc2 = 3.04e-5res.rgate n9 n20 = 0.80res.rldrain n2 n5 = 10res.rlgate n1 n9 = 74.6res.rlsource n3 n7 = 38.7res.rslc1 n5 n51 = 1e-6, tc1 = 2.52e-4, tc2 = 0res.rslc2 n5 n50 = 1e3res.rsource n8 n7 = 2.37e-3, tc1 = 1.01e-3, tc2 = 0res.rvtemp n18 n19 = 1, tc1 = -2.85e-3, tc2 = 0res.rvthres n22 n8 = 1, tc1 = -3.65e-3, tc2 = -1.55e-5spe.ebreak n11 n7 n17 n18 = 159.2spe.eds n14 n8 n5 n8 = 1spe.egs n13 n8 n6 n8 = 1spe.esg n6 n10 n6 n8 = 1spe.evtemp n20 n6 n18 n22 = 1spe.evthres n6 n21 n19 n8 = 1sw_vcsp.s1a n6 n12 n13 n8 = model=s1amod sw_vcsp.s1b n13 n12 n13 n8 = model=s1bmod sw_vcsp.s2a n6 n15 n14 n13 = model=s2amod sw_vcsp.s2b n13 n15 n14 n13 = model=s2bmod v.vbat n22 n19 = dc=1equations {i (n51->n50) +=iscliscl: v(n51,n50) = ((v(n5,n51)/(1e-9+abs(v(n5,n51))))*((abs(v(n5,n51)*1e6/245))** 2.5))}}1822+-68+-198+-171868+-58+-RBREAK RVTEMPVBAT RVTHRESIT17181922121315S1AS1BS2A S2BCACB EGSEDS1481381413MWEAKEBREAKDBODYRSOURCESOURCE1173LSOURCE RLSOURCE CINRDRAIN EVTHRES 16218MMEDMSTRODRAIN 2LDRAINRLDRAINDBREAKDPLCAP ISCL RSLC11055150RSLC21GATE RGATE EVTEMP9ESGLGATERLGATE20+-+-6RDBODYRDBREAK7271REV 19 Oct 1999HUF75852TCTHERM1 th 6 9.75e-3CTHERM2 6 5 3.90e-2CTHERM3 5 4 2.50e-2CTHERM4 4 3 2.95e-2CTHERM5 3 2 6.55e-2CTHERM6 2 tl 12.55RTHERM1 th 6 1.96e-3RTHERM2 6 5 4.89e-3RTHERM3 5 4 1.38e-2RTHERM4 4 3 7.73e-2RTHERM5 3 2 1.17e-1RTHERM6 2 tl 1.55e-2SABER Thermal ModelSABER thermal model HUF75852T template thermal_model th tl thermal_c th, tl {ctherm.ctherm1 th 6 = 9.75e-3ctherm.ctherm2 6 5 = 3.90e-2ctherm.ctherm3 5 4 = 2.50e-2ctherm.ctherm4 4 3 = 2.95e-2ctherm.ctherm5 3 2 = 6.55e-2ctherm.ctherm6 2 tl = 12.55rtherm.rtherm1 th 6 = 1.96e-3rtherm.rtherm2 6 5 = 4.89e-3rtherm.rtherm3 5 4 = 1.38e-2rtherm.rtherm4 4 3 = 7.73e-2rtherm.rtherm5 3 2 = 1.17e-1rtherm.rtherm6 2 tl = 1.55e-2}RTHERM4RTHERM6RTHERM5RTHERM3RTHERM2RTHERM1CTHERM4CTHERM6CTHERM5CTHERM3CTHERM2CTHERM1tl 23456thJUNCTIONCASEAll Intersil semiconductor products are manufactured, assembled and tested under ISO9000 quality systems certification.Intersil semiconductor products are sold by description only.Intersil Corporation reserves the right to make changes in circuit design and/or specifications at any time with-out notice.Accordingly,the reader is cautioned to verify that data sheets are current before placing rmation furnished by Intersil is believed to be accurate and reliable.However,no responsibility is assumed by Intersil or its subsidiaries for its use;nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries.For information regarding Intersil Corporation and its products,see web site Sales Office HeadquartersNORTH AMERICA Intersil CorporationP. O. Box 883, Mail Stop 53-204Melbourne, FL 32902TEL:(321) 724-7000FAX: (321) 724-7240EUROPE Intersil SAMercure Center100, Rue de la Fusee 1130 Brussels, Belgium TEL: (32) 2.724.2111FAX: (32) 2.724.22.05ASIAIntersil (Taiwan) Ltd.7F-6, No. 101 Fu Hsing North Road Taipei, Taiwan Republic of ChinaTEL: (886) 2 2716 9310FAX: (886) 2 2715 3029TO-2473 LEAD JEDEC STYLE TO-247 PLASTIC PACKAGEAbb 1c DELL 1ØR 12e 131J 1ØSQØPBACK VIEWTERM. 43e b 22SYMBOLINCHESMILLIMETERS NOTESMIN MAX MIN MAX A 0.1800.190 4.58 4.82-b 0.0460.051 1.17 1.292, 3b 10.0600.070 1.53 1.771, 2b 20.0950.105 2.42 2.661, 2c 0.0200.0260.510.661, 2, 3D 0.8000.82020.3220.82-E 0.6050.62515.3715.87-e0.219 TYP 5.56 TYP 4e 10.438 BSC 11.12 BSC 4J 10.0900.105 2.29 2.665L 0.6200.64015.7516.25-L 10.1450.155 3.69 3.931ØP 0.1380.144 3.51 3.65-Q 0.2100.220 5.34 5.58-ØR 0.1950.205 4.96 5.20-ØS0.2600.2706.616.85-NOTES:1.Lead dimension and finish uncontrolled in L 1.2.Lead dimension (without solder).3.Add typically 0.002 inches (0.05mm) for solder coating.4.Position of lead to be measured 0.250inches (6.35mm)from bottom of dimension D.5.Position of lead to be measured 0.100inches (2.54mm)from bottom of dimension D.6.Controlling dimension: Inch.7.Revision 1 dated 1-93.。

KYN61-40.5型铠装移开式交流金属封闭开关设备KYN61-40.5 type indoor a.c metal-clad enclosed switchgear配移开式ZN95-40.5(3AV3)型和SF型和FP系列六氟化硫断路器With moved ZN95-40.5(3AV3) 、SF and FP series SF6 breaker一.概述GeneralKYN61-40.5 type indoor a. c metal-clad enclosed switchgear ( abbr.Switchgear hereinafter) is a complete set of the latest indoor electric distribution equipment produced by Shenyang Haocen Electric Co., Ltd. It is applied to three-phase a.c distribution single busbar sectionalizing system with rated voltage of 40.5KV，50HZ，indoor electric distribution equipment. Becoming recognized more and more widely, it has been used in many industries such as power plant, metallurgy, and chemical industry. KYN61-40.5 comply with the standards GB/T11022-1999.GB3906-1991 and DL404-1997 .型铠装移开式交流金属封闭开关柜(以下简称开关柜)系三相交流50Hz,额定电压40.5kV的户内成套配电装置.作为发电厂.变电站及工矿企业接受和分配电能之用,对电路起到控制.保护和检测等功能,还可用于频繁操作的场所.本开关柜符合GB/T11022-1999.GB3906-1991及DL404-1997等标准.二.使用环境条件normal service condition1. Ambient temperature:Maximum +40℃～-15℃the average temperature within 24 hours ambient temperature shall not be greater than +35℃, the lowest ambient temperature shall not be smaller than -15℃环境温度: 上限+40C,且24小时内测得的平均值不超过35C,下限-15C.2. Height above sea level shall not exceed 1000m海拔高度: 海拔不超过1000m3. humidity : the average relative humidity should not exceed 90% withina day.The average relative humidity should not exceed 95% within a month.相对湿度: 日平均值不超过95%, 月平均值不超过90%.4. earthquake intensity should not be greater than 8 degrees.地震烈度: 不超过8度5.the vapor pressure should not exceed 2.2kPa within a day.The vapor pressure should not exceed 90% within a month.水蒸气压力: 日平均值不超过2.2kPa,月平均值不超过90%.三.Structure features结构特点1.The thermal shrinkage insulating material and epoxy-coatedinsulating process is used. The electrode shape is optimized. The structure of cabinet body is compact and the floor area is reduced.采用热缩绝缘材料及环氧涂覆绝缘工艺,优化电极形状,柜体结构紧凑,缩小占地面积;2. For the switch cabinet body, the high-grade cold rolled steel plate is formed by the NCsheet metal processing and then it is connected by the high –strength bolt and nut as well as riveting nut. For the surface of structural member, the plastic spraying or galvanizing process is adopted. 开关柜体选用冷轧钢板经数控钣金加工成形后通过高强度螺栓螺母和铆螺母连接而成,构件表面采用喷塑或镀锌工艺.3. it can be equipped with the homemade ZN85-40.5(3AV3) vacuum circuit breaker and French Schneider SF1 and SF2 model as well as Alston FP series of sulfur hexafluoride circuit breaker to meet the demands of different clients系列六氟化硫断路器,以满足不同用户的要求.;4. The metal partition is used to separate among every funcking 开关柜各功能小室均采用金属隔板封隔,并设有独立的压力释放通道;5. the circuit breaker and earthing switch are operated at the high voltage compartment door of closed .断路器.接地开关等操作均可在柜门关闭情况下进行,即可实现关门操作.7. all the interlocking between the main circuit breaker, the hand cart and the cubicle door are of mandatory mechanical locking means and can satisfy the requirements of five prevention.手车.断路器.接地开关和后柜门之间设有防止误操作的机械联锁装置,”五防”功能齐全,安全可靠.四. Technical parameter技术参数1. 开关柜技术参数序号项目单位参数1 额定电压Rated voltage kV 40.52 额定频率all the interlocking between Hz 503 主母线额定电流Main busbar rated current A 1250,1600,20004 分支母线额定电流Branchal busbar rated current A 630, 1250, 1600额定1min 工频耐受电压(有效值)Rated power-frequency withstand voltage (1min)kV 相间.相对地一次间隔断口绝缘95 1155. 水平雷电冲击耐受电压(峰值)Rated lightening impulse withstand voltagekV 185 215辅助控制回路1min 工频耐受电压V 2000Rated voltage of aux. control circuit6. 额定短路开断电流kA 25 , 31.5Rated short time breaking current7 额定短路关合电流(峰值) kA 63.80Rated short time msking current8. 额定短时耐受电流(4S) kA 25, 31.5Rated short time withstand current9 额定峰值耐受电流kA 63.8Rated peak withstand current10 辅助控制回路额定电压V -110 ~220 -220Rated voltage of aux. control circuit11 防护等级IP4X for enclose 外壳Protective class隔室间.断路器门打开时IP2XIP2x for each compartment12. 外形尺寸(宽x深x高) mm 1400x2800(3000)x2800( *包括内数字为SF6手车方案) 13 重量kg 约2300weight2. ZN95-40.5(3AV3)真空断路器技术参数technical parameter ofZN95-40.5(3AV3)vacuum circuit braker序号no. 单位unit sepcification 参数1.额定电压Rated voltage kV 40.52.额定频率Rated frequency3.额定绝工频耐受电压(有效值) power withstand (rms)954.Rated insulated loevel缘水平雷电冲击耐受电压(峰值) kV 185 Rated switching (Lighting) impulse withstand voltage((peak)5.额定电流rated current A630,1250,1600,20006.额定短路开断电流kA 25, 31.5Rated short-circuit breaking current7.额定短路关合电流kA 63.80Rated short-circuit making current8.额定短时耐受电流(4S) kA 25,9.Rated short time withstand current10.额定峰值耐受电流kA 63.80Rated peak withstand current11.额定电容器组开断电流 A 630Rated capacitor bank breaking current12.额定短路开断电流开断次数次20Rated short circuit breaking times13.额定操作顺序Rated operating sequence0-0.3-CO-180S-CO14.分闸时间ms 35~60Opening time15.合闸时间ms 45~100Closing time16.机械寿命次10000Mechanical life17.触头开距mm 20±2Clearance between contacts18.超行程mm 6±2Distance over travel19.触头允许磨损累积厚度mm 3Wearing for contract permitted20.平均合闸速度m/S 0.5~0.8Average closed speed21.平均分闸速度m/S 1.6~2.0 Average trip speed22.触头合闸弹跳时间ms ≤2Time of contract closed23.三相触头分闸不同期ms ≤2Non synchronous of 3-phase contacts trip24.三相触头合闸不同期ms ≤2Non synchronous of 3-phase contacts closed25.每相回路直流电阻μΩ≤50DC resistance for each circuit26. 合闸状态额定触头弹簧压力N 3100±Rated contacts spring pressure at closed20027. 相间中心距mm 300Center distance between phase3. FP40系列六氟化硫断路器技术参数technical parameter of FP40series of SF6 circuit breaker绝缘水平最高工开断作电压冲击工频耐压电流耐压50Hz kAkV KVP kV1min 400 630 800 1250 1600 2000 2500 315040.5 185 95 12.5 FP4012A FP4012B FP4012C FP4012D16 FP4016B FP4016C FP4016D FP4016E20 FP4020C FP4020D FP4020E FP4020F FP4020G FP4020H25 FP4025C FP4025D FP4025E FP4025F FP4025G FP4025H31.54. 施耐德SF型六氟化硫断路器技术参数序号项目单位参数1.额定电压kV 40.52.额定绝(工频耐受电压) kV 95缘水平雷电冲击耐压(峰值) kV 1853.额定电流 A 630,1250,1600,20004.额定短路开断电流kA 25, 31.55.额定短路关合电流kA 63.806.额定短时耐受电流(3S) kA 25, 31.57.额定峰值耐受电流kA 63.808.额定电容器组开断电流 A 440, 875, 17509.额定短路开断电流开断次数次2010.额定操作顺序0-0.3-CO-180S-CO11.分闸时间ms 45±412.合闸时间ms 68±413.机械寿命次100005. LZZQJ9-35C型电流互感器技术参数额定一次电流准确级相应准确级下的额定输出额定短时耐受电流额定峰值耐受电流Rated primary current accuracy class rated output rated short time withstand current rated peak withstand current( A) 组合combine 0.2 0.5 10p10 10p15 10p20 (1S有效值rms)(KA) (有效值rms)(KA)30~100 0.2/10P10 15 30 50 30 20 150 lin 375lin150 0.2/10P15 15 30 50 30 20 31.5 80200 0.2/10P20 15 30 50 30 20 44.5 80300~500 0.5/10P10 15 30 50 30 20 54.5 80600~800 0.5/10P15 30 50 50 40 30 63 801000~2000 0.5/10P20 40 50 50 50 30 80 1006. LDBJ8-40.5型环氧树脂浇注全封闭触头盒式电流互感器技术参数epoxy resin casting whole sealed contacts box type CT主要技术参数;额定绝缘水平: 95/185kV表面爬距: 830 mm额定二次电流: 5A(或2A,1A)局部放电量: ≤20PC准确级次: 0.2S. 0.2. 0.5. 10P10. 10P15. 10P20额定一次电流准确级组合与相应的额定输出(VA) 额定短时耐受电流额定峰值耐受电流(A)0.2/10P10 0.5/10P10 0.2/0.5 10P10/10P10 (Is有效值)(kA) (有效值)(kA)5~300 1`0/30 20/30 10/20 20/20 150lin 375lin400~500 10/40 15/40 10/15 25/25 63 130600~800 20/50 30/50 20/30 30/30 63 1301000~1600 30/50 50/50 30/50 40/40 80 1802000~3150 40/50 50/50 40/50 50/50 100 1807. JN□-40.5/31.5型接地开关技术参数earthing switch序号名称单位参数1 额定电压kV 40.52 额定绝雷电冲击耐压(峰值) kV 95缘水平1min工频耐受电压kV 853 额定短时耐受电流(4S) kA 31.54 额定峰值耐受电流(峰值) kA 805 额定短路关合电流(峰值) kA 80五. 开关柜结构KYN61-40.5 structure1. 结构structureKYN61-40.5型金属封闭开关设备主要由柜体和断路器手车两大部分组成.柜体分为断路器室(也称手车室),母线室,电缆室和继电器仪表室等四个单独隔室.外壳防护等级为IP4X,断路器门打开时防护等级为IP2X,断路器手车由断路器和底盘车两部分构成.并具有电缆进出线.架空进出线.联络.计量.隔离及其他功能方案.The switchgear consists of a fixed body and the withdrawable parts(the handcarts), the body is of assembly type structure and is assembled by the bolts. the fixed body is divided into a busbar compartment, a CB compartment, a cable compartmentand an instrument compartment by the baffle plates. The protection grade of the enclosure is IP3X, and that of the compartment is IP2X, further more, all the metal parts reliably connect ground, and each compartment of the main circuit system has a pressure releasing passage with independent exhaust. 2. 柜体柜体是选用优质冷轧钢板或敷铝锌板经过数控钣金设备加工折弯形成,通过高强度螺栓.螺母(8.8级)或拉铆螺母组装而成.柜体各构件采用喷塑或表面镀锌工艺,这样使柜体不仅具有很高的精度,而且与同类设备相比具有重量轻,机械强度高,外形美观的特点.同时由地采用了组装式结构使零.部件通用性强.加工周期短,生产占地面积小.可以根据订货情况便捷地组织生产.Cabinet bodyThe cabinet body is made from the high-grade cold-cooled steel plate or aluminized zinc plate. It is assembled through the high-strength bolt and nut (grade 8.8) or riveted nut after the plate is machined and bent as well as formed by the NC sheet metal equipment. For every structural member of cabinet body, the plastic-spraying or surface galvanizing process is used. Therefore, the cabinet body not only has the very high height but also it can have such features as lightweight and high mechanical strength as well as beautiful appearance comparing with the similar equipment. At same time, there are such features as strong versatility, short machining period, small floor area for production of component because the assembly-type structure is adopted. The production can be organized conveniently depending on the ordering condition.1.手车室Truck compartment2.二次插头Secondary plug3.断路器手车(ZN95或SF6) breaker truck4.二次仪表室low voltage compartment5.活门shutter6.小母线室small busbar compartment7.压力释放装置pressure release device8.架空进出线穿墙套管wall bushing9.母线室busbar compartment10.母线套管busbar bushing11.触头盒case of plug-in contracts12.带电流互感器触头盒contact box with CT13.接地开关earthing switch14.绝缘隔板insulated clapboard15.电缆接线cable connect16.电缆室cable compartment17.电流互感器CT18.接地母线earthing busbar图1. KYN61-40.5 开关柜内部结构示意图product structure1.手动储能孔2.机械计数器3.手动合闸按钮4.储能指示牌5.摇进机构孔.活门6.拉手7.断路器铭牌8.观察窗9.手车面板10.紧急跳闸钮11.横梁栓舌12.接地开关联锁杆13.活门开启装置14.分/合位置指示牌15.手动分闸按钮接地触头图2 ZN95-40.5真空断路器与手车面板布置图3手车手车骨架由优质钢板折弯焊接而成,根据用途手车可分为断路器手车,隔离手车,电压互感器手车和避雷器手车等,同规格手车可以互换,本开关柜为落地手车柜.手车制底盘车有丝杠螺母推进机构,超越离合器和联锁机构等.丝杠螺母推进机构可轻便地操作使手车在试验位置和工作位置之间移动,借助丝杠螺母自锁性可使手车可靠地锁定在工作位置,而防止因电动力作用引起手车窜动引发事故,超越离合器在手车移动退至试验位置和进至工作位置到位时起作用,使操作轴与丝杠自动脱离而空转,可防止超限操作损坏推进机构.T rolley1.The framework of trolley is bent and welded by the high-grade sheet steel. The trolley can be divided into the trolley of circuit breaker, separation trolley, trolley of voltage transformer and trolley of lightning arrester and so on according to the purpose. Trolley of same specification can be interchangeable. .The pushing device of trolley consists of leading screw nut pushing mechanism, overrunning clutch and interlocking mechanism and so on. The leading screw nut pushing mechanism can operate easily to make the trolley move between the testing position and working position. The elf-locking property of leading screw nut can be utilized to lock the trolley at the working position reliably and prevent the accident from play of trolley due to action ofelectrical force. The overrunning clutch will enable the operating shaft to separate from the lead screw automatically and the operating shaft runs idly when the trolley moves back to the testing position and advances to the working position, and thus avoid damage to the construction.4 隔室CompartmentKYN61-40.5型金属封闭开关设备设有独立的隔室,即为断路器隔室.母线室.电缆室和继电器仪表室,而且断路器室.母线室和电缆室都设有泄压通道.The individual compartment, namely, compartment of circuit breaker, bus compartment, cable compartment and compartment of relay instrument, is installed in the KYN61-40.5 metal enclosed switchgear. The pressure-relief channel is installed in the compartment of circuit breaker and bus compartment as well as cable compartment.(1 ) 断路器室compartment of circuit breaker断路器室底部装有导轨,对手车在试验位置和工作位置间平稳运动起正确导向作用.触头盒前装有活门,上下活门在手车从实验位置移动到工作位置过程中自动打开,当手车反方向移动时自动关闭形成有效的隔离,上下活门联动检修时可锁定,可保证检修人员不会触及带电体,柜门关闭时手车可以操作;门面开有紧急分闸操作孔,在故障特别情况下可手动分闸,通过门上的观察窗可以观察到手车所处位置,断路器分合位置指示器及合闸弹簧储能状态.The guide rail is installed at the bottom of circuit breaker compartment to function as the correct guidance for the smooth operation of trolley between the testing position and working position. The valve is installed in front of the contact box. The upper and lower valve opens automatically during the process that the trolley moves to the working position from the testing position. When the trolley moves oppositely, the valve closes automatically to form the effective separation. The upper and lower valve can be locked while overhauling so that it can ensure that the maintainer will not contact the charged body. The trolley can be operated when the cabinet door is closed. The emergency switching-off operating hole is installed at the door face for manual switching off. The position where the trolley is located at and on/off position indicator of circuit breaker as well as energy-storage state of switching-on spring can be observed through the observation window on the door.(2) 母线室Busbar compartment主母线.分段母线.通过分支母线和触头盒固定,不需要其他绝缘子支撑,主母线为紫铜圆母线,联络母线和分支母线均为短形截面铜排,相邻柜间用母线套管隔开,能有效防止事故蔓延,同时对主母线起到辅助支撑作用,母线均采用硫化涂覆绝缘.The main bus and staged bus is fixed through the branch bus and contact box and the support from the other insulator is not necessary. The main bus andconnecting bus as well as branch bus is the red copper bus. The wall sleeve is separated between adjacent cabinets so that it can prevent the accident form spreading effectively. At same time, it functions as the auxiliary support for main bus. The compound insulation technique is used for main insulation in the bus compartment to ensure the insulation reliability.(3) 电缆室Cable compartment每相可并接1~3根电缆,最多并接6根单芯电缆,将手车和可抽出式水平隔板移开后,安装检修人员就可以从正面进入柜内,可对其电流互感器.电压互感器.接地开关.避雷器等元件进行检修安装,柜底配置开缝的可拆卸式封板,方便电缆的施工.1-3 cables can be connected in parallel in every phase. Maximum 6 ingle-core cables can be connected in parallel. After the trolley is moved away, the installer and maintainer can enter into the cabinet from the front side to repair and install such elements as current transformer, voltage transformer, grounding switch and lightning arrester and so on. It is equipped with the slotted dismountable sealing plate for easy cable construction.(4) 继电器仪表室Compartment of relay instrument继电器仪表室内可安装继电保护控制元件,仪表以及特殊要求的二次设备,二次线路的辅设在线槽内并有金属盖板可使二次线与高压部分隔离.The relay protection and control element and instrument as well as secondaryequipment with special requirement can be installed in the compartment of relay instrument. The small bus is located at the top of compartment of relay instrument for laying and control of small bus.六防止误操作联锁装置Interlocking device preventing false operation KYN61-40.5型金属封闭开关设备装有可靠的防误联锁装置,可满足”五防要求”KYN61-40.5 metal enclosed switchgear is equipped with reliable interlocking device preventing false operation so that it can meet the“5-pretection requirement”.1 继电器仪表室门上有明显提示标志的操作按钮或KK转换开关以及与用户之模拟图板上提示标志(如红绿翻牌) 相配合以防误合.误分断路器..There are operating button with obvious prompting sign or KK changeover switch and prompting sign on the analog drawing board from the client (e.g. red/green drawing) on the door of relay instrument compartment. They arecooperated to prevent the circuit breaker from wrong switching on and off.2. 断路器手车只有处在试验或工作位置时断路器才能进行分合闸操作,而且断路器只有处在分闸位置时手车才能从实验位置推向工作位置,或者从工作位置退到实验位置,从而可靠的防止带负荷分合隔离插头.The switching-on/off operation of circuit breaker can be done only when the trolley of circuit breaker is located at the testing position or working position. Moreover, the trolley can be pushed to the working position from the testingposition or returned back to the testing position from the working position only when the circuit breaker is located at the switching-off position. Thus, it prevents switching on and off isolating contact with charge.手车只有在实验位置接地开关才能进行合闸操作,防止带电合隔离开关.3.The switching-on operation of grounding switch can be done only when the trolley is located at the testing position to prevent switching on the grounding switch with charge.接地开关处于合闸状态,手车不能推到工作位置,防止带接地开关合闸.4.When the grounding switch is located at the switching-on state, the trolley cannot be entered into the working position to prevent switching on the grounding switch.接地开关不合则开关柜后门开不了;反之,后门不关则接地开关不能分闸,从而防止误入带电间隔.5.The rear door of switch cabinet cannot be opened if the grounding switch does not switch on. On the other hand, the grounding switch cannot switch off if the rear door is not closed. Thus, it can be prevented that the charged compartment is entered wrongly.不装接地开关的断路器柜,母线分段柜和母线设备柜等还需要相应的电磁锁(或程序锁)配合完成全部防误功能.6.For the circuit breaker cabinet and subsection cabinet of bus as well as bus contact cabinet and so on without installation of grounding switch, the corresponding electromagnetic lock (or program lock) is needed to cooperate and finish allmistake-prevention functions.手车只有在试验位置二次插件才能插入或拔出,手车在工作位置二次插件被锁定拔不出.7.The secondary plug-in unit can be inserted in or plugged out only when the trolley is located at the testing position. The secondary plug-in unit is locked at the working position and it cannot be plugged out if the trolley is located at the working position.七接地装置Earthing device1.手车与柜体间有可靠的接地装置;There is a reliable earthing devicebetween the trolley and cabinet body.2.电缆室内单独设有5X40(mm2)接地铜排,此铜排能贯穿整个排列与柜体接触良好,供直接接地元件使用,从而使整个柜都处于良好的接地状态之中..The 5×40(mm2) copper grounding bar is installed in the cable compartmentindividually. This copper bar can be through the whole arrangement and contacts with the cabinet body well. It is provided to the direct grounding element for its use. Thus, the whole cabinet is located at the good grounding state.八泄压装置pressure relief device在断路器式,母线道和电缆室设有泄压通道,各泄压盖板的一端用金属螺栓固定,另一端用塑料螺栓固定,当故障时,内部高压气体能容易地将泄压盖板冲开释放压力,以确保操作人员和开关设备安全.The pressure relief devices are equipped on the top of the circuit breaker compartment, busbar compartment and cable compartment. In case fault arcing is occurred inside these three compartments, the special sealing ring seals the front door completely, and along with the increase of the gas pressure inside the compartment , the top mounted pressure relief metal cover plate will open automatically to release pressure and the high temperature gas to ensure operator and switchgear in safe condition.九电压显示装置charge indicator开关柜装设有监视一次回路带电状态的带电显示装置,该装置不但可以显示高压回路带电状态,而且可以与电磁锁配合实现强制闭锁手柄,从而提高产品的防护性能.The charge indicator is in talled in the switchgear to monitor the operation of the primary circuit. it consists of high sensor and indicator which are connected together by external wiring. This device is used to monitor whether the high-voltage circuit is in live. And it also can be equipped with electrical magnetic lock to ensure the front and back door not be opened when there are power on. So that opera tors don’t make such mistakes as close earthing switchgear in live or access the compartments in live.十防凝露措施condensation and corrosion prevention为了防止在高温度或温度变化较大的气候环境中产生凝露而带来的危害,可在断路器室和电缆室分别装设加热器,To prevent switchgear form undesirable condensation due to high humidity or big change in climate condition, heaters could be added inside switchgear which can be controlled by humiture probe.十一操作程序operation procedures制作KYN61-40.5型金属封闭开关设备设计有保证开关柜各部分操作程序正确性的联锁,但操作人员对该型开关柜各部分的操作仍应严格按照有关操作规程和本《说明书》中的要求进行,不应在操作受阻时不加分析地进行操作,可能容易造成设备损坏甚至引起事故.Operator must operate the switchgear in accordance with the related operating procedures and this technical document. Any optionaloperating must be avoided and in case of trouble, any rough and forced operation without careful analysis must be avoided and otherwise damage and person injury might result.十二. 无接地开关的断路器柜的操作operation of circuit breaker panel without earthing switch1.断路器手车进入柜内;断路器手车准备由柜外推入柜内前应认真检查断路器状态是否完好,断路器是否处于分闸状态,否则应进行分闸,有无工具等杂物遗漏在手车上,确认良好后,将手车推入柜内并锁定在试验位置上,Mount with drawable circuit breaker into the panel:Before moving the withdrawable circuit breaker into the compartment, it is necessary to check the withdrawable circuit breker wheather in good condition, wheather any part or sundries are left inside the mechanism box and compartment. Put the withdrawable circuit breaker on the transfer truck and lock it well. Push the transfer truck up to the fornt of the switchgear and lift it to a proper height. Insert the front positioning lock plate of the transfer truck into the slot of the compartment partition and lock the transfer truck and the compartment body together. Open the locking hook of the withdrawable circuit breaker and push it into the compartment smoothly and steadily and lock it well. After the locking of withdrawable circuit breaker and compartment body is confirmed, unlock and disconnect the transfer truck from the compartment body and move it away.2.手车在柜内的操作;Operation of the withdrawable circuit breaker inside the compartment:当手车在试验位置后即将二次插件插好,此时对断路器进行操作试验,若还要继续操作,首先必须将所有的柜门关闭并确认断路器处于分闸状态,然后打开推进机构操作孔挡析插入操作摇把,并以顺进针方向转动,使手车向前移动,直至超越离合器,起作用使操作轴空转,此时主回路已接通,手车已处于工作位置(热备用状态),可通过控制回路对其进行和分闸操作.若将手车从工作位置退出时,则以逆时针方向转动摇把,手车向后移动,直至超越离合器起作用使操作轴空转,手车便退至试验位置,此时主回路已断开,活门已关闭(处于冷备用状态).After the withdrawable circuit breaker is moved inside the compartment by transfer truck and the withdrawable circuit breaker is in sconnected/testing position, first insert the secondary plug of the auxiliary circuit to put withdrawable circuit breaker into ready operating status. With power connected, the testing position indicator on the low voltage compartment will light, and at that time, an electrical operating test could be made without connection of the main circuit. For further operation, it must close all compartment doors, insert the keys to lock the doors and confirm the circuit breaker at its opening condition . Then insert the hand crank into the operating hole of the middle panel to turn it clockwise till the crank is obstructed obviously and hear a clear switchover sound of the auxiliary switch. In the meantime, the service position indicator on the low voltage compartment will light and then remove the hand crank. At this time, the main circuit is connected with power and the withdrawable circuit breaker is at its service position, operator can open or close the withdrawable circuit breaker via control circuit. To withdraw the withdrawable circuit breaker from its service position, it should first confirm the withdrawable circuit breaker at its opening state , insert withdrawable the circuit breaker hand crank and turn the hand crank anticlockwise till the crank is obstructed obviously and hear a clear switchover sound of the auxiliary switch. At that time, the withdrawable circuit breaker returns back its testing position, the main circuit is open completely and the shutters are closed.3. 手车退出柜外;Take the withdrawable circuit breaker out of thecompartment:首先应确认手车已处于试验位置,然后拔出二次插件并将扣锁在手车上,解除手车与柜体间的锁定,拉动手车退至柜外.In order to take the withdrawable circuit breaker out of the compartment, first it should confirm the withdrawable circuit breaker in testing position, then unplug the secondary plug of the auxiliary circuit, and lock the moving plug onto the withdrawable circuit breaker frame. Push the transfer truck up to the front of the panel.4.断路器在柜内分合闸状态的确认;Confirmation of open or close state of the circuit breaker inside the compartment:可由断路器手车面板分合闸指示牌及继电器仪表们上的合闸指示灯两方面来判定.judgment be made according to the open and close indication plate on the withdrawable circuit breaker and open and close indicative lamps on the low voltage compartment.5.紧急手动分闸操作;在控制回路发生故障.断路器失去了控制电源的情况下,而且由于特殊原因必须断路器分闸,可由操作人员在柜前对断路器进行紧急分闸,严禁在正常运行情况下用手动分闸操作杆使断路器分闸.十三. 有接地开关的断路器柜的操作;Operation of Withdrawable Circuit Breaker Panel With Earthing Switch1.手车推入柜内或手车从柜内退出的操作程序与无接地开关之断路器的操作是完全相同的,固不再繁述.The operation procedures to move the withdrawable circuit breaker in and out of the compartment are as same as that for withdrawable circuitbreaker without earthing switch.2.手车在柜内操作Operation of the withdrawable circuit breaker inside the compartment欲将手车推入工作位置时,除了要遵守无接地开关之断路器柜操作11.12中的各项要求外,还应确认接地开关处于分闸状态,否则下一步操作无法完成.To move the withdrawable circuit breaker into its service position, in addition to the operation requirements as described in 11,12, it must confirm the earthing switch in its opening condition otherwise no further operation can be done.3.合分接地开关操作; Operation of earthing switch ON and OFFa)接地开关合闸操作; operation of earthing switch on首先确认手车已处于实验位置,而且电压显示装置之表示灯已完全熄灭,然后解除手车与接地开关操作轴的锁定,插入接地开关操作手柄,以顺时针方向转动270°接地开关合闸;To turn on the earthing switch, first confirm the withdrawable circuit breaker has been moved to its testing and take out the forward moving hand crank. Then insert the eathing switch operating handle to turn it 270°to turn on the earthing switch.b)接地开关分闸操作; operation of earthing switch off首先确认手车处于实验位置,而且前后门都已关闭,然后插入接地开关操作手柄,以逆时针方向转动270°接地开关分闸.To turn off the earthing switch, first confirm the withdrawable circuit breaker has been moved to its testing position and closed the doors. Then insert the searthing switch operating handle to turn it anticlockwise 270°,it will turn the earthing switch.十四. 隔离柜的操作operation of isolation truck隔离车不具备接通和开断负荷电流的能力,因此在进行隔离手车柜内操作时必须保证先将与之配合的断路器分闸后,而且通过辅助接点转换解除与之配合的隔离手车上的电气连锁,只有这时才能操作隔离手车,具体操作程序与断路器手车相同.The isolation truck is unable to connect or disconnect load current, therefore, to push or pull the truck with load is not allowed. In operation of isolation truck inside the compartment, first it must ensure related circuit breaker truck open and after the circuit breaker truck is open, it should unlock the electrical interlock between the auxiliary contact changeover and isolation truck. Only at that time, it is possible to operate the isolation truck with the specific operation procedures as same as that for withdrawable circuit breaker.The isolation truck is unabl十五. 安装installation1.安装前工作preparation for installation1.首先检查合同与开关柜型号.规格是否相同符合,无问题后方可开箱;At first, check the model and size and quantity of switch cabinet isconformed to the contract. It can be unpacked if there no problem.2.开箱后起吊时挂钩在挂在吊孔中以及搬运中,不得较大冲击力.Note that the proper force is applied and the product is lifted up and down slightly during the process of unpacking and handling as well as transportation to protect the product against the undesirable loss for damage.3.检查柜体及断路器元件等有无损坏,如发现损坏应速与厂家联络Check the cabinet body and element of the circuit breaker and so on for damage. The manufacturer shall be contracted quickly in case of any damage.4.清除脏污,尤其绝缘表面,应清扫干净.Remove the dirt especially insulating surface shall be cleaned up.5.手动使断路器分闸,同时手动储能进行合分闸,良好后进行开关柜安装.Manual switch off the circuit breaker and manual store the energy to switch on and off at same time. The switch cabinet installed after it is in good condition.安装Installation1.首先检查基础是否符合设计要求,以及本产品之基础(见图P15)要求,合格后方可安装;。

180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Featuresn Wide 3.6V to 32V Input Voltage Range n0.22V FB adjustable LED drive current n Directly drive 11 Series 1W LED at VIN>=12Vn Fixed 180KHz Switching Frequencyn Max. 5A Switching Current Capabilityn Up to 94% efficiencyn Excellent line and load regulationn EN PIN TTL shutdown capability & With PWM Dimming Functionn Internal Optimize Power MOSFETn Built in Soft-Start Functionn Built in Frequency Compensationn Built in Thermal Shutdown Functionn Built in Current Limit Functionn Available in TO252-5L package Applicationsn LED Lightingn Boost constant current drivern Monitor LED Backlightingn7’ to 15’ LCD Panels General DescriptionThe XL6005 regulator is fixed frequency PWM Boost (step-up) LED constant current driver, capable of driving Series 1W/3W/5W LED units with excellent line and load regulation. The regulator is simple to use because it includes internal frequency compensation and a fixed-frequency oscillator so that it requires a minimum number of external components to work.The XL6005 could directly drive 11 Series 1W LED units at VIN>12V .The PWM control circuit is able to adjust the duty ratio linearly from 0 to 95%. An enable function, an over current protection function is built inside. An internal compensation block is built in to minimize external component count.Figure1. Package Type of XL6005180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 Pin ConfigurationsFigure2. Pin Configuration of XL6005 (Top View)Table 1 Pin DescriptionPin Number Pin Name Description1 GND Ground Pin.2 EN Enable Pin. Drive EN pin low to turn off the device, drive it high to turn it on. Floating is default high.3 SW Power Switch Output Pin (SW).4 VIN Supply V oltage Input Pin. XL6005 operates from a 3.6V to 32V DC voltage. Bypass Vin to GND with a suitably large capacitor to eliminate noise on the input.5 FB Feedback Pin (FB). The feedback threshold voltage is 0.22V.180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 Function BlockFigure3. Function Block Diagram of XL6005Typical Application CircuitFigure4. XL6005 Typical Application Circuit180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Ordering InformationPart Number Marking ID Lead Free Lead Free Packing Type XL6005E1 XL6005E1 Tube PackageTemperature RangeXL6005TRE1XL6005E1Tape & ReelXLSEMI Pb-free products, as designated with “E1” suffix in the par number, are RoHS compliant.Absolute Maximum Ratings （Note1）ParameterSymbol Value Unit Input VoltageVin -0.3 to 36 V Feedback Pin Voltage V FB -0.3 to Vin V EN Pin VoltageV EN -0.3 to Vin V Output Switch Pin Voltage V Output -0.3 to 60 V Power DissipationP D Internally limitedmW Thermal Resistance (TO252-5L)(Junction to Ambient, No Heatsink, Free Air) R JA 50 ºC/W Operating Junction Temperature T J -40 to 125 ºC Storage TemperatureT STG -65 to 150 ºC Lead Temperature (Soldering, 10 sec) T LEAD 260 ºC ESD (HBM)>2000VNote1: Stresses greater than those listed under Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operation is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 XL6005 Electrical CharacteristicsT a = 25℃;unless otherwise specified.Symbol Parameter Test Condition Min. Typ. Max. Unit System parameters test circuit figure4VFB FeedbackV oltageVin = 5V to 12V, V out=24VIload=100mA209 220 231 mVEfficiency ŋVin=12V ,V out=24VIout=1A- 92 - %Electrical Characteristics (DC Parameters)Vin = 12V, GND=0V, Vin & GND parallel connect a 100uf/50V capacitor; Iout=100mA, T a = 25℃; the others floating unless otherwise specified.Parameters Symbol Test Condition Min. Typ. Max. Unit Input operation voltage Vin 3.6 32 V Shutdown Supply Current I STBY V EN=0V 70 100 uAQuiescent Supply Current I q V EN =2V,V FB =Vin2.5 5 mAOscillator Frequency Fosc 144 180 216 Khz Switch Current Limit I L V FB =0 5 AOutput Power NMOS Rdson Vin=12V,I SW=4A110 120 mohmEN Pin Threshold V EN High (Regulator ON)Low (Regulator OFF)1.40.8VI H V EN =2V (ON) 3 10 uA EN Pin Input LeakageCurrent ILV EN =0V (OFF) 3 10 uA Max. Duty Cycle D MAX V FB=0V 90 %180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Schottky Diode Selection TableCurrent SurfaceMountThrough Hole VR (The same as system maximum input voltage)20V 30V 40V 50V60V1A √1N5817 1N5818 1N5819√ 1N5820 1N5821 1N5822√ MBR320 MBR330 MBR340 MBR350 MBR360 √ SK32 SK33 SK34SK35SK36 √ 30WQ03 30WQ04 30WQ05 √ 31DQ03 31DQ04 31DQ05 3A√SR302SR303SR304SR305SR306√ 1N5823 1N5824 1N5825 √ SR502 SR503 SR504 SR505 SR506 √ SB520 SB530 SB540SB550SB560 5A√50WQ0350WQ04 50WQ05Typical System Application for VIN=12V to driver 11 x 1W series LED unitsFigure5. XL6005 System Parameters Test Circuit (12V ~11 x 1W LED)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005 Typical System Application for VIN>=12V to driver 6 x 3W series LED unitsFigure6. XL6005 System Parameters Test Circuit (12V ~ 6 x 3W LED)Typical System Application for VIN>=24V to driver 11 x 3W series LED unitsFigure7. XL6005 System Parameters Test Circuit (24V ~ 11 x 3W LED)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Typical System Application for VIN>=12V to driver 11 series x 40 parallelWhite LED ArrayFigure8. XL6005 System Parameters Test Circuit (12V ~ 11 x 40 White LED) Typical System Application for SEPIC Buck-Boost LED DriverFigure9. XL6005 System Parameters Test Circuit (Buck-Boost LED Driver)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Typical System Application for VIN>=12V to driver 6 x 3W series LED units With Dimming FunctionFigure10. XL6005 System Parameters Test Circuit (12V ~ 6 x 3W LED with Dimming Function)180KHz 60V 4A Switching Current Boost LED Constant Current Driver XL6005Package InformationTO252-5L。