MH4V644AWXJ-5中文资料

RF 矢量信号发生器TSG4100A系列TSG4100A 系列RF 矢量信号发生器以入门级RF 信号发生器的价格，提供了中档性能和高达200 MHz 的调制带宽。

它们采用新技术提供无杂散输出，实现了低相位噪声(1 GHz 载波在20 kHz 偏置时为-113 dBc/Hz)及超高频率分辨率(在任意频率时为1 μHz)。

TSG4100A 系列标配模拟调制功能。

方便地现场升级软件可以简便地从模拟调制功能转向高级矢量调制和数字调制功能，提供最灵活的配置和最佳的投资保护。

这些仪器完善了泰克其他领先的中档RF 测试解决方案，如基于USB 的RSA306频谱分析仪及MDO4000B 和MDO3000混合域示波器。

TSG4100A 系列仪器采用恒温箱式SC 切割振荡器(TSG410xA-M00或E1型号)时基，与采用TCXO 时基的仪器相比，稳定性提高了100倍(密闭相位噪声下降了100倍)。

主要特点模拟和矢量/数字信号发生功能双基带ARB发生器模拟调制标准以极低成本通过软密钥升级到矢量/数字调制GSM、EDGE、W-CDMA、APCO-25、DECT、NADC、PDC 和TETRA数字调制应用USB、GPIB、RS-232和LAN接口12磅(5.6千克)2U 高和半标准机架宽度主要性能指标真正的DC ~ 2 GHz、4 GHz 或6 GHz ，支持生成模拟信号和矢量/数字信号10 MHz ~ 6 GHz 时≤±0.30 dB 的典型幅度精度(0 dBm CW 信号 @ 22 ºC)I/Q 调制输入(400 MHz RF带宽)ASK, FSK, MSK, PSK, QAM, VSB 和自定义I/Q模拟调制泰克TSG4100A 系列RF 矢量信号发生器提供了多种调制功能。

模式包括幅度调制(AM)、频率调制(FM)、相位调制(ΦM)和脉冲调制模式。

有一个内部调制源及一个外部调制输入。

Fluid Control Division Global Marketing Update High Flow Valve Actuation SeriesGlobal Marketing Update No. 134, June 14, 2007 __________________________________________________________________________________________________________________________________ Parker Fluid ControlDivision is continually expanding its Valve Actuation product portfolio to meet the ever increasing demands of the process industry. Our goal is to provide the highest quality feature enhanced portfolio to the actuation segment of the process industry.We are pleased to introduce our new Series of High Flow direct mount NAMUR solenoid valves for the Process and Industrial markets. The High Flow Series complements our highly successful specification grade 7300 Series product line. The High Flow product line provides new, cost effective solutions for general purpose customer application needs.Attachments and EnclosuresI Catalog BrochureII List Price SheetIII Installation, Operation andMaintenanceInstructionsIV Competitive FeatureComparisonV CompetitiveCross-Reference ValveListing PRODUCT FEATURESThe High Flow Series is a NAMUR interfaceinternal pilot spool valve for direct mounting toactuators. The NAMUR mount spool valve isavailable for either 3/2 normally closed valveor 5/2 four-way functionality.The axial valve construction allowsa low profile or in-line operatororientation with valve body valve style.The portfolio consists of 1/4” ported single and dual solenoid valves (Cv = 1.2) and a larger high flow 1/2” ported valve (Cv = 3.0) meeting a wide variety of application requirements. (Reference catalog pages and construction reference drawings)The valve body is a hard anodized aluminum. The standard pressure vessel end cap is made of an engineered thermoplastic.The primary valve characteristic is a patented “swimming” o-ring sealing system that increases sealing force as pressure increases thereby minimizing stiction potential at lower pressures. The valve series incorporates numerous other benefits including: •Utilizing a combined pneumatic and spring return for standard fail-safe operation in case of power failure.•The valves are equipped with a standard locking manual override.•The valve uses a “bug screen” nut exhausting the pilot section of the valve to atmosphere for safe outdoor service.•Mounting plates are available for use with the hazardous coils.The spool valve design uses a low power coil for reduced energy consumption and computer base control. DIN, conduit and hazardous coils complete the electrical portfolio.Global Marketing Update No. 134, June 14, 2007 __________________________________________________________________________________________________________________________________ OPERATION FUNCTIONALITY3/2 Single Solenoid (4 ported, 2 position)NAMUR valve, solenoid operated, for 3-way normally closed operation. In case of an electrical or air failure, valve returns to a fail-safe position through pneumatic and assisted spring return.5/2 Single Solenoid (5 ported, 2 position)NAMUR valve solenoid operated, for 4-way, 2 position operation. In case of an electrical or air failure, valve returns to a fail-safe position through pneumatic and assisted spring return.5/2 Dual Solenoid (5 ported, 2 position)NAMUR valve used for 4-way, 2-position operation. In case of an electrical or air failure, valve “fails as is”. Therefore, valve remains in last position upon failure and will not return to a predetermined position.5/3 Dual Solenoid, Center Position Closed (5 ported, 2 position)NAMUR valve used for 4-way, 2-position operation. In case of an electrical or air failure, the spool returns to the center position thereby removing pressure to the cylinder ports.TECHNICAL PRODUCT CHARACTERISTICSThe new line of valve actuation products offer many features and benefits as follows:Modular construction – Facilitates use of various body configurations and coil options.Mounting Configurations - Direct mount NAMUR pattern with axial operator orientation for single and dual solenoid models for low profile mounting requirements.Manual Override – Standard on all models for manual valve operation during start-up and diagnostic procedures.7mm (1.2Cv ) and 12mm (3.0 Cv) orifice sizes – Multiple sizes to meet various application demands to ensure the solenoid valve is properly sized.Body Materials - Lightweight anodized aluminum.Spool Design – Stainless steel with NBR sealing materials.Exhaust Pilot Cap– Protected pilot sleeve exhaust using “Bug Screen” nut. Helps protect against plugging, dirt, and insects, etc.Ratings – Meets pressures up to 150 psi.Ambient Temperatures – From 14°F (-10°C) to 122°F (50°C), serving most temperature environments. Fluid Temperatures – From 32°F (0°C) to 104°F (40°C).COIL PRODUCT CHARACTERISTICSA selection of low power encapsulated coils as follows:•DIN coil - with 3-pin DIN 43650 type B plug.•Conduit - 3-wire coil.•Hazardous – 3-wire coil with FM and CSA agency approvals meeting Class 1, Groups A,B,C,D and Class II, Groups E,F,G. Meets EEx m II T4 Division 1 requirements.NAMUR INTERFACEMany actuator manufacturers utilize a common mounting pattern referred to as a NAMUR interface for mounting configurations of solenoid valves.The actuator interface dimensions for NAMUR mounting of the pilot valve to the actuator is shown below (dimensions in millimeters).MATERIALS OF CONSTRUCTIONBody: Anodized AluminumEnd Covers: Thermoplastic – Glass-Filled Polyamid 6/6Plunger: 430 Stainless SteelCore Tube: 304 Stainless SteelSteelSprings: StainlessSeals: NBRCages: Polyamide Filled ThermoplasticSteelSpool: StainlessShading Rings: CopperMOUNTING BOLTSThe standard NAMUR interface includes (2) mounting bolts to mount the valve on to the actuator, a positioning stud and two O-rings seals.MOUNTING PLATESDue to the increased width of the hazardous coil to comply with FM and CSA certifications, a mounting plate must be installed as shown in the photograph.The mounting plate kit contains the plate, 2 o-rings, and 2 longer mounting screws.For the ¼” port valve, order kit N60001. For the ½ “ port valve, order kit N60002.ElectricalStandard voltages and voltage code:VOLTAGE CODE 12VDC A 24VDC B 120/60 C 240/60 D 24/60 E 120/50-60 F 240/50-60 GSolenoid Coil SpecificationsThe electrical portfolio is comprised of general purpose class F DIN coil per 43650B and conduit class H coils rated for NEMA classification Types, 1, 2, 3, 3S, 4, 4X. In addition, the hazardous location class H coil is rated for NEMA classification Types 7 and 9; Class I, Divisions 1 and 2, Groups A,B,C,D and Class II, Division 1, Groups E,F,G. The coils are rated for continuous duty application demands.The electrical selector table summarizes each coil specification:Coil Type Coil Part Number Class Protection Construction Agency22mm DINND1x F DIN connector needed for IP65 protection Per DIN 43650B epoxy moldedUL,CSA Conduit –Ordinary locationNC1x H Type 1,2,3,3S,4,4X Epoxy molded, ½ inch NPT conduit None Conduit –Hazardous locationNH1xHType 4X,7,9½ inch NPT conduitCSA,FMCOMPETITIVE FEATURES AND BENEFITSThe primary valve characteristic is a patented “swimming” o-ring sealing system that increases sealing force as pressure increases thereby minimizing stiction potential at lower pressures.The diagram shows a typical cross section view of the valve.valve-head to keep moisture out in brass or in stainless steel available on request, only in combination with alu-head Spool in stainless steel, other inner-parts made from brass, NBR, POM stainless steel Fiber-enforced PA-head, aluminium-version on request 360° turnable,Date CodePRODUCT LABELINGValves are sold in either:• A modular format ordering pressure vessel and coil separately. • Fully assembled with coil assembled to pressure vessel.In either case, the pressure vessel valve body provides the valve identification information defining the valve part number, performance rating and date code. Sample pressure vessel markingCoils will be marked with the appropriate part number, voltage and wattage, and agency information.Sample coil markingAll valves will be packaged with an installation, operation and maintenance instruction sheet indicating conformity with the CE Mark.ORDERING INFORMATIONPRODUCT OFFERINGReference the enclosed catalog brochure (Attachment I) describing the High Flow Series product offering. The catalog pages describe the valve features, general specifications, valve and electrical selection guide, dimensional drawings, and ordering information.PRICINGPressure Vessel list prices for the High Flow NAMUR Series valves are shown in Attachment II. ORDERING INFORMATIONThe Series uses a simple valve number to identify each model. The valves are available fully assembled or in modular form allowing application flexibility in electrical selection. The electrical parts can also be purchased in modular form.Reference the enclosed catalog pages.•When purchasing individual pressure vessels, select the pressure vessel shown on the catalog page and associated list price.•When ordering electrical parts, select the electrical part and associated list price for standard voltages.•When ordering complete valves, add the list price of each component to determine the complete list price for the fully assemble valve selected.The voltage code is the last character of the fully assembled valve or electrical part selected. For example, selecting a single solenoid, 5/2 configuration, 120/60 DIN coil, the complete valve number is:U341N03 + ND1FAVAILABILITY AND DELIVERYParker Fluid Control Division plans to maintain an appropriate service level of finished goods stock to meet business demand of the following NAMUR mount valves. If finished goods stock is available, units will be shipped within 5 business days from receipt of order for order quantities of 25 units or fewer:Product Class 1 Items:U331N03U341N03ND1B, ND1F, ND1G - 24vdc, 120vac, 240vacNC1B, NC1F, NC1G - 24vdc, 120vac, 240vacNH1B, NH1F, NH1G - 24vdc, 120vac, 240vacProduct Class 4 Items - the estimated lead-time (subject to change) is 4 weeks from receipt of order.U347N03U342N03U331N04U341N04ND1A - 12vdcNC1A - 12vdcNH1A - 12vdcAs always, for larger customer orders requiring shorter lead-times, Parker Fluid Control Division will work jointly with each customer by establishing finished goods items to meet customer provided forecasts.DISCOUNTSParker Fluid Control Division’s standard published discounts apply. Current terms and conditions apply for the product.SERVICERETURNSParker Fluid Control Division’s standard return policy applies.REPAIR PARTSParker Fluid Control Division is NOT offering component repair kits for field service at this time. Since the valve is a small, cost effective product, industry experience shows the process markets will replace the complete valve rather than rebuild the valve in the field.INSTALLATION OPERATION AND MAINTENANCE (IOM)An IOM has been created describing valve operation, installation and mounting instructions, maintenance, and troubleshooting procedures for the high flow Series NAMUR valves. Reference Attachment III, IOM HN01.WARRANTYParker Skinner’s standard 2 year warranty policy applies to the pressure vessel, coil and enclosures.PROMOTIONPromotional materials have been prepared to expedite introduction into the market place.CATALOG / LITERATURE• A new catalog has been created containing the features, specifications and outline drawings of the high flow Series valves.• A product launch announcement containing product introduction materials and detailed competitor information will be distributed to each Territory Sales Manager.TRAINING•Each Territory Sales Manager should contact their respective Fluid Control Division Authorized Distributor and Valve Actuation Accounts to arrange training.•The new high flow Series valves will be included in Fluid Control Division’s Valve Actuation Training Program.•Samples of the new high flow Series actuation valves will be provided upon receipt with a complete sample request form following standard Skinner Valve ™ sample procedures.PHASE-OUT OF 2340, 3300 and 7341 Series Product LinesThe introduction of the new product line has resulted in significant product overlap with the 2340, 3300 and 7341 series valves. Therefore, we are taking the following actions to phase out these product lines. Due to the low volume of many of the products, the old families will be replaced by the new High Flow NAMUR valve as follows:The Phase In – Phase Out schedule will begin upon introduction of the new High Flow NAMUR valve. It may be possible to order a specific older model until current inventory is fully depleted at which time the old product will no longer be available. Parker reserves the right to discontinue the old products sooner if conditions warrant.COMPETITIVE REVIEWReference Competitive Feature Comparison of select valves in Attachment IV. The attachment contains a broad selection of valves representative of the competitive offering.Attachment V provides a competitive cross-reference part number listing based on available information for the individual competitors.ASCO is considered the market leader for actuation valves. Other primary competitors include Versa, Automatic, and Herion.Below is a general description of the competitive product offerings.ASCOThe ASCO 8551 Series offers a product line of NAMUR and pipe mount versions. The portfolio consists of pad mount valves with various operator configurations with single and dual solenoids.In general, the ASCO 8551 Series consists of:•Anodized aluminum and stainless steel body using resilient spool construction. •Convertible 3-way and 4-way models based on the newer version. The older version consists of non-convertible 3-way and 4-way models that are similar to the 7300 Series. •20/35 to 150 psi operating pressure differential.•Single and dual solenoid, vertical and axial operator models available.•Cv 0.50 to 0.86.•AC versions from 2.5 watts to 10.1 watts.DC versions from 3.0 watts to 11.6 watts.•DIN, watertight and explosion solenoids available based on model.The Parker High Flow Series NAMUR mount valves are specified to meet the application requirement. A conversion or mounting plate is not required when using a DIN coil. The valve mounts directly to the actuator in a very cost-effective and efficient manner.VersaVersa offers a series of valves for process control markets including applications for pneumatic actuators and 316 stainless valves for corrosive requirements. The valve offering consists of NAMUR, body ported, lockout valves, latching and manual reset valves and redundant solenoid valves.Specific to the actuation area, Versa offers a convertible 3-way / 4-way version and direct acting 3-way pad mount valve. Available options include Intrinsically Safe, Low power and CENELEC flameproof enclosures.•3/2, 5/2 port plug versions. Valves field convertible by relocating a port plug converting from 3-way to 4-way or 4-way to 3-way.•Anodized aluminum, stainless steel and brass body using resilient spool construction. •Single and dual solenoid models (5/2) and dual solenoid centered position (5/3) with standard manual override.•15 to 115 psi operating pressure, Cv 0.75.•DIN, conduit and explosion solenoids available based on model.•8.5 watt AC, 10.5 watt DC.•Class A or F insulation.Automatic Valve Co. (AVC)They are considered the low price player in the market. They offer a NAMUR mount COMPACT Series. The series has limited options, but offers the ability to order valves with the solenoid on the left or right side.•3/2, 5/2 port plug versions, 1/4” npt porting only.•Anodized aluminum body using resilient spool construction.•40 to 150 psi operating pressure differential, Cv 1.0.•NEMA 4 and 7 solenoids, remote air and manual operators.•DIN, conduit and explosion solenoids available based on model, coil ratings to Class H. Herion•3/2, 5/2 port plug versions, NAMUR mount, 1/8” NPT, ¼” NPT, ½” NPT.•Anodized aluminum body using resilient spool construction.•25 to 150 psi operating pressure differential, Cv 1.1 to 1.4.•NEMA 4 and 7 solenoids, manual operators.•Low power coils available at reduced ratings.•DIN, conduit and explosion solenoids available based on models.•Locking and momentary manual override available.•Requires spacer plate for hazardous coil.Max-Air TechnologyU.S. division of M Technology Srl located in Italy. Also offer rack & pinion actuators and position indicators and mechanical switches that can be assembled as a complete unit.•3/2, 5/2 port plug versions, 1/4” npt porting only.•Epoxy coated aluminum body with plated spool. And standard manual override.•DIN and explosion solenoids available based on model, Class F standard, Class H optional. •Uses a pop-up air indicator located in pilot section to indicate if the solenoid valve is pressurized.•Optional IS and ATEX DIN coil construction.Q&A SESSIONQ? Why did we introduce the High Flow NAMUR Series valve product line?The principle reason for introducing the valve line is to meet increasing market demands for smaller, cost effective valve models for the process valve actuation markets. The Parker 7300 Series valve line offers a high-end specification grade product in multiple bodymaterials to meet general purpose ordinary requirements to the most stringent application requirements. Also, the 2340 series of aluminum body valves lacked a suitable hazardous coil limiting application potentials.The new product line overcomes the 2340 series deficiencies at a most competitive price for general purpose application requirements. The portfolio includes expanded models with higher flow factors for larger actuator designs. The new line includes a 1/2” namur valve to accommodate the trend toward larger actuators and higher flows.Finally, we’re continuing our strategic thrust in the process markets with a new product offering and responding to competitive product positions.Q? Will the High Flow Series product line replace the 2340 Series and 3300 Series valves?In a word, yes. First, since the introduction of the 2340 series and 3300 series valves(dating back to the late ‘90’s), many changes have taken place in the market. The general purpose ordinary location market generally does not require the high technical or safety standards found in these product lines. Due to deficiencies in the former product lines, specifically the lack of a hazardous coil, we were not able to meet the availability and price competitiveness. The current product lines are focused toward higher technicalrequirements resulting in low-volume market segments and overlap price-wise with the 7300 Series valve lines. To reduce complexity and offer a simplified, cost-effective processactuation valve line, the 2340 catalog portfolio will (eventually) be phased-out.Q? Describe the comparison to the 7300 product line.The High Flow Series offers similar product features and benefits compared to the 7300 Series, in particular:• Total modularity.•Interchangeable electrical parts.•Unique spool designs to eliminate risk of sticking.•High quality in proven valve designs.•Standard manual override.The distinctive features of the High Flow Series compared to the 7300 Series include:• Smaller physical size.•More cost effective compared to 7300 with manual override (for certain type application needs).Q? Where must the 7300 series valves be used versus the new line?The 7300 series contains features, multiple operator configurations and electrical coilsappropriate for more demanding critical applications including:•Higher flows appropriate for higher actuator torque specifications.•Intrinsically Safe (IS) and ultra low power environmental conditions.•Manual reset options used as a safety device on solenoid valves to prevent process resumption without manually resetting each valve.•Low temperatures application demands of –40°F/C.•Field convertible manual overrides including locking and momentary requirements. Q? Will a conversion plate eventually become available?The product line contains individual 3-way and 4-way valve configuration. When utilizing a DIN coil, this method provides the most cost-effective, competitive solution. Granted, whilea conversion plate offers the benefit of using one style valve, it also adds significant andunnecessary costs. Since the valve is focused and priced to pursue higher volumerequirements, the valve functionality will be known.。

4路串口继电器说明书适用产品系列/型号：LH-IO404历史版本目录1.产品介绍 ------------------------------------------------------------------------------ - 3 -1.1.产品简介-------------------------------------------------------------------------- - 3 -1.2.工作模式说明 --------------------------------------------------------------------- - 4 -1.2.1.正常模式 --------------------------------------------------------------------- - 4 -1.2.2.闪开闪闭功能----------------------------------------------------------------- - 4 -1.2.3.本机非锁联动模式 ------------------------------------------------------------ - 5 -1.2.4.本机自锁联动模式 ------------------------------------------------------------ - 5 -1.2.5.本机互锁模式----------------------------------------------------------------- - 6 -1.2.6.双机非锁联动模式 ------------------------------------------------------------ - 6 -1.2.7.双机自锁联动模式 ------------------------------------------------------------ - 7 -2.规格参数 ------------------------------------------------------------------------------ - 8 -3.产品尺寸 ----------------------------------------------------------------------------- - 10 -4.通信协议与数据格式 ------------------------------------------------------------------ - 10 -4.1.上位机软件下载 ------------------------------------------------------------------ - 10 -4.2.设备通信配置 -------------------------------------------------------------------- - 11 -4.2.1.拨码开关功能介绍 ----------------------------------------------------------- - 11 -4.2.2.偏移地址的设定与读取------------------------------------------------------- - 12 -4.2.3.波特率的设定与读取 --------------------------------------------------------- - 13 -4.3.通信协议说明 -------------------------------------------------------------------- - 13 -4.3.1.Modbus寄存器说明--------------------------------------------------------- - 13 -4.3.2.指令列表 -------------------------------------------------------------------- - 15 -4.3.3.指令详解 -------------------------------------------------------------------- - 16 -4.4.主动上报协议 -------------------------------------------------------------------- - 21 -5.电气接线 ----------------------------------------------------------------------------- - 22 -5.1.产品使用拓扑图 ------------------------------------------------------------------ - 22 -5.2.产品接线端子定义---------------------------------------------------------------- - 23 -5.3.产品输入接线图 ------------------------------------------------------------------ - 24 -5.4.产品输出接线图 ------------------------------------------------------------------ - 25 -6.产品维护保养------------------------------------------------------------------------- - 26 -6.1.设备使用环境 -------------------------------------------------------------------- - 26 -6.2.常见问题与解决办法-------------------------------------------------------------- - 27 -7.售后服务 ----------------------------------------------------------------------------- - 28 -7.1.售后服务承诺 -------------------------------------------------------------------- - 28 -7.2.免责声明------------------------------------------------------------------------- - 28 -7.3.联系方式------------------------------------------------------------------------- - 28 -用户须知❖使用前请详细阅读本说明书，并保存以供参考。

绝对式编码器采集卡PCIe2011产品手册TEL/FAX：0451-******** 16534616699 Email：***************************目录1 板卡说明 (1)1.1 板卡介绍 (1)1.2 规格参数 (2)1.3 软硬件支持 (3)1.4 环境要求 (3)1.5 配套附件 (3)1.5.1 连接电缆 (4)1.5.2 端子台 (4)1.5.3 连接示例 (6)2 安装方式 (6)3 引脚定义 (9)3.1 DB37接口引脚分配 (9)3.2 DB9接口引脚分配 (9)3.3 DB37接口引脚定义 (10)4 编程说明 (11)4.1 驱动安装 (11)4.2 windows下编程函数 (11)4.3 RTX操作系统编程说明 (11)4.4 数据协议 (12)5 装箱清单 (13)6 注意事项 (13)TEL/FAX：0451-******** 16534616699Email：***************************网址：1 板卡说明1.1 板卡介绍PCIe2011是开放高速串行总线BISS-C的接口卡，适用于Renishaw绝对式测角、测距传感器和工控机的接口，是一种快速多功能，多通道同步的PCI-Express总线接口板。

同时兼容EnDat2.1及SSI接口。

该板卡应用范围广泛，在恶劣的工业环境中表现出高精度和高可靠性。

该产品具备以下技术特点：1）采用FPGA技术，同步接收最多5个绝对式测角、测距传感器的角度、位移输出信号，将其处理后传输给计算机；2）精确的时基以及动态采样补偿专利技术保证了采样的高可靠性；3）传感器线长自动补偿技术，在EMC条件适宜时，可以将采样周期稳定在40.4µs，达到现有绝对式读数头的极限；4）高速电磁隔离技术；5）采样精度为20ns，利用动态采样计时技术，实时产生同步、高品质角速度、角加速度、线速度和线加速度信号，将大幅度提升伺服控制系统的控制品质；6）采用高速PCIe总线接口，硬件插槽可采用PCIe-X1/PCIe-X4/ PCIe-X8/PCIe-X16；7）主DMA高速传输技术，5通道同步数据传输到内存中时间低于3µs；8）兼容MFC+RTX技术，便于用户在Windows下实现丰富接口和界面管理。

K O L L M O R G E N | A K o l l m o r g e n C O M PA N Y欢迎来到科尔摩根官方微信科尔摩根3目录u AKM ™ 同步伺服电机4u AKD ™ 伺服驱动器8u AKM ™ 各种选件12u AKM ™ 防水型和食品级防水型电机13u AKM ™ 系统综述14u AKM ™ 图纸和性能数据AKM1x 16AKM2x 20AKM3x24AKM4x 28AKM5x 34AKM6x 40AKM7x 44AKM8x48u L 10 轴承疲劳寿命和轴负载53u 反馈选件56u 抱闸选件60u 伺服电机连接器选件61u 型号命名67u MOTIONEERING ® Online71科尔摩根A K M 同步伺服电机选型指南克服设计、采购和时间障碍科尔摩根明白：帮助原始设备制造商的工程师克服障碍，可以显著提高其工作成效。

因而，我们主要通过如下三种方式来提供帮助：集成标准和定制产品在很多情况下，理想方案都不是一成不变的。

我们拥有专业应用知识，可以根据全面的产品组合来修改标准产品或开发全定制解决方案，从而为设计奠定良好的基础。

提供运动控制解决方案而不仅仅是部件在各公司减少供应商数量和工程人力的过程中，他们需要一家能够提供多种集成解决方案的全系统供应商。

科尔摩根就采用了全面响应模式，为客户提供全套解决方案，这些方案将编程软件、工程服务以及同类优秀的运动控制部件结合起来。

覆盖全球我们在美洲、欧洲、中东和亚洲拥有众多直销、工程支持单位、生产工厂以及分销商，临近全球各地的原始设备制造商。

这种便利优势可以加速我们的供货过程，根据客户需要随时随地供货。

财务和运营稳定性科尔摩根隶属于Fortive 公司。

Fortive 业务系统是推动Fortive 各部门发展的一个关键力量。

该系统采用“不断改善”（Kaizen ）原理。

由高素质人才构成的多学科团队使用世界级的工具对过程进行评估，并制定相关计划以达到卓越的性能。

AO4459中⽂资料SymbolTyp Max 33406275R θJL 1824Maximum Junction-to-Lead CSteady-State°C/WThermal Characteristics ParameterUnits Maximum Junction-to-AmbientAt ≤ 10s R θJA °C/W Maximum Junction-to-Ambient ASteady-State °C/W AO4459AO4459SymbolMin TypMaxUnits BV DSS -30V -1T J =55°C-5I GSS ±100nA V GS(th)-1.5-1.85-2.5V I D(ON)-30A 3846T J =125°C53685872m ?g FS 11S V SD -0.78-1V I S-3.5A C iss 668830pF C oss 126pF C rss 92pF R g69?Q g (10V)12.716nC Q g (4.5V) 6.4nC Q gs 2nC Q gd 4nC t D(on)7.7ns t r 6.8ns t D(off)20ns t f 10ns t rr 2230ns Q rr15nCTHIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.DYNAMIC PARAMETERS Maximum Body-Diode Continuous CurrentGate resistanceV GS =0V, V DS =0V, f=1MHzV GS =0V, V DS =-15V, f=1MHz Input Capacitance Output Capacitance Turn-On Rise Time Turn-Off DelayTime V GS =-10V, V DS =-15V, R L =2.5?, R GEN =3?Turn-Off Fall TimeTurn-On DelayTime SWITCHING PARAMETERSTotal Gate Charge (4.5V)Gate Source Charge Gate Drain Charge Total Gate Charge (10V)V GS =-10V, V DS =-15V, I D =-6.5Am ?V GS =-4.5V, I D =-5AI S =-1A,V GS =0V V DS =-5V, I D =-6.5AR DS(ON)Static Drain-Source On-ResistanceForward TransconductanceDiode Forward VoltageI DSS µA Gate Threshold Voltage V DS =V GS I D =-250µA V DS =-24V, V GS =0VV DS =0V, V GS =±20V Zero Gate Voltage Drain Current Gate-Body leakage current Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions Body Diode Reverse Recovery Time Body Diode Reverse Recovery ChargeI F =-6.5A, dI/dt=100A/µsDrain-Source Breakdown Voltage On state drain currentI D =-250µA, V GS =0V V GS =-10V, V DS =-5V V GS =-10V, I D =-6.5AReverse Transfer Capacitance I F =-6.5A, dI/dt=100A/µs A: The value of R θJA is measured with the device mounted on 1in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in any a given application depends on the user's specific board design. The current rating is based on the t ≤ 10s thermal resistance rating.B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using < 300µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating. Rev0 Sept 2006AO4459AO4459。

DESCRIPTIONAPPLICATIONMain memory or graphic memory in computer systems10pin 11pinMax.Frequency Access Time from CLK [component level]133MHzPIN NO.PIN NAME PIN NO.PIN NAME PIN NO.PIN NAME PIN NO.PIN NAME 1VSS43VSS85VSS127VSS 2DQ044NC86DQ32128CKE0 3DQ145/S287DQ33129NC 4DQ246DQMB288DQ34130DQMB6 5DQ347DQMB389DQ35131DQMB7 6VDD48NC90VDD132NC 7DQ449VDD91DQ36133VDD 8DQ550NC92DQ37134NC 9DQ651NC93DQ38135NC 10DQ752CB294DQ39136CB6 11DQ853CB395DQ40137CB7 12VSS54VSS96VSS138VSS 13DQ955DQ1697DQ41139DQ48 14DQ1056DQ1798DQ42140DQ49 15DQ1157DQ1899DQ43141DQ50 16DQ1258DQ19100DQ44142DQ51 17DQ1359VDD101DQ45143VDD 18VDD60DQ20102VDD144DQ52 19DQ1461NC103DQ46145NC 20DQ1562NC104DQ47146NC 21CB063CKE1105CB4147REGE 22CB164VSS106CB5148VSS 23VSS65DQ21107VSS149DQ53 24NC66DQ22108NC150DQ54 25NC67DQ23109NC151DQ55 26VDD68VSS110VDD152VSS 27/WE69DQ24111/CAS153DQ56 28DQMB070DQ25112DQMB4154DQ57 29DQMB171DQ26113DQMB5155DQ58 30/S072DQ27114NC156DQ59 31NC73VDD115/RAS157VDD 32VSS74DQ28116VSS158DQ60 33A075DQ29117A1159DQ61 34A276DQ30118A3160DQ62 35A477DQ31119A5161DQ63 36A678VSS120A7162VSS 37A879CK2121A9163CK3 38A1080NC122BA0164NC 39BA181WP123A11165SA0 40VDD82SDA124VDD166SA1 41VDD83SCL125CK1167SA2 42CK084VDD126A12168VDDCB0CB1CB2CB3DQ28DQ29DQ30DQ31DQ24DQ25DQ26DQ27DQ20DQ21DQ22DQ23DQ16DQ17DQ18DQ19DQ12DQ13DQ14DQ15DQ8DQ9DQ10DQ11DQ4DQ5DQ6DQ7DQ0DQ1DQ2DQ3CB4CB5CB6CB7DQ60DQ61DQ62DQ63DQ56DQ57DQ58DQ59DQ52DQ53DQ54DQ55DQ48DQ49DQ50DQ51DQ44DQ45DQ46DQ47DQ40DQ41DQ42DQ43DQ36DQ37DQ38DQ39DQ32DQ33DQ34DQ35D0D1D2D3D4D5D6D7D8D9D10D11D12D13D14D15D16D17PLLCK1 - CK3From PLLRCKE0R/S0,2RDQM0-7RCKE0R/S0RDQM 0R/S2RDQM 1RDQM 4RDQM 3RDQM 2RDQM 7RDQM 5RDQM 6D0-1D2-4D5-6D7-8D9-10D11-13D14-15D16-17D0-17D0-4,9-13D5-8,14-17VDD REGE10KSCL WPBASIC FUNCTIONS/S Chip Select : L=select, H=deselect /RAS Command /CAS Command /WE CommandCKE Ref resh Option @ref resh commandA10Precharge Option @precharge or read/write commandCK def ine basic commandsThe MH64S72VJG provides basic functions,bank(row)activate,burst read / write, bank(row)precharge,and auto / self refresh.Each command is defined by control signals of /RAS,/CAS and /WE at CK rising edge. In addition to 3 signals,/S,CKE and A10 are used as chip select,refresh option,and precharge option,respectively.To know the detailed definition of commands please see the command truth table.Activate(ACT) [/RAS =L, /CAS = /WE =H]Read(READ) [/RAS =H,/CAS =L, /WE =H]Write(WRITE) [/RAS =H, /CAS = /WE =L]Precharge(PRE) [/RAS =L, /CAS =H,/WE =L]Auto-Refresh(REFA) [/RAS =/CAS =L, /WE =CKE =H]ACT command activates a row in an idle bank indicated by BA. READ command starts burst read from the active bank indicated by BA.First output data appears after /CAS latency. When A10 =H at this command,the bank is deactivated after the burst read(auto-precharge,READA ). WRITE command starts burst write to the active bank indicated by BA. Total datalength to be written is set by burst length. When A10 =H at this command, the bank is deactivated after the burst write(auto-precharge,WRITEA ). PRE command deactivates the active bank indicated by BA. This command also terminates burst read / write operation. When A10 =H at this command, both banks are deactivated(precharge all, PREA ).REFA command starts auto-refresh cycle. Refresh address including bank address are generated internally. After this command, the banks are precharged automatically.COMMAND TRUTH TABLECOMMAND MNEMONIC CKE n-1CKE n /S /RAS /CAS /WE BA0,1A10A0-9Deselect DESEL H X H X X X X X X No Operation NOP H X L H H H X X X Row Adress Entry &Bank Activate ACT H X L L H H V V V Single Bank Precharge PRE H X L L H L V L X Precharge All Bank PREA H X L L H L X H X Column Address Entry& Write WRITEHXLHLLVLVColumn Address Entry & Write with Auto-Precharge WRITEA H X L H L L V H VColumn Address Entry& Read READ H X L H L H V L VColumn Address Entry & Read with AutoPrecharge READA H X L H L H V H V Auto-Refresh REFA H H L L L H X X X Self-Refresh Entry REFS H L L L L H X X X Self-Refresh Exit REFSX L H H X X X X X X L H L H H H X X X Burst Terminate TERM H X L H H L X X X Mode Register SetMRSHXLLLLLLV*1H =High Level, L = Low Level, V = Valid, X = Don't Care, n = CK cycle number NOTE:1.A11-12= 0, A0-9 = Mode AddressA11-12X X V X X VV V V X X X X X LCurrent State/S/RAS/CAS/WE Address Command Action IDLE H X X X X DESEL NOPL H H H X NOP NOPL H H L BA TBST ILLEGAL*2L H L X BA,CA,A10READ/WRITE ILLEGAL*2L L H H BA,RA ACT Bank Active,Latch RAL L H L BA,A10PRE/PREA NOP*4L L L H X REFA Auto-Refresh*5L L L L Op-Code,Mode-AddMRS Mode Register Set*5ROW ACTIVE H X X X X DESEL NOP L H H H X NOP NOPL H H L BA TBST NOPL H L H BA,CA,A10READ/READA Begin Read,Latch CA, Determine Auto-PrechargeL H L L BA,CA,A10WRITE/WRITEABegin Write,Latch CA,Determine Auto-PrechargeL L H H BA,RA ACT Bank Active/ILLEGAL*2 L L H L BA,A10PRE/PREA Precharge/Precharge All L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALREAD H X X X X DESEL NOP(Continue Burst to END) L H H H X NOP NOP(Continue Burst to END)L H H L BA TBST Terminate BurstL H L H BA,CA,A10READ/READA Terminate Burst,Latch CA, Begin New Read,Determine Auto-Precharge*3L H L L BA,CA,A10WRITE/WRITEA Terminate Burst,Latch CA, Begin Write,Determine Auto-Precharge*3L L H H BA,RA ACT Bank Active/ILLEGAL*2L L H L BA,A10PRE/PREA Terminate Burst,Precharge L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALFUNCTION TRUTH TABLEFUNCTION TRUTH TABLE(continued)Current State/S/RAS/CAS/WE Address Command Action WRITE H X X X X DESEL NOP(Continue Burst to END) L H H H X NOP NOP(Continue Burst to END)L H H L BA TBST Terminate BurstL H L H BA,CA,A10READ/READA Terminate Burst,Latch CA, Begin Read,Determine Auto-Precharge*3L H L L BA,CA,A10WRITE/WRITEATerminate Burst,Latch CA,Begin Write,Determine Auto-Precharge*3L L H H BA,RA ACT Bank Active/ILLEGAL*2L L H L BA,A10PRE/PREA Terminate Burst,PrechargeL L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALREAD with H X X X X DESEL NOP(Continue Burst to END) AUTO L H H H X NOP NOP(Continue Burst to END) PRECHARGE L H H L BA TBST ILLEGALL H L H BA,CA,A10READ/READA ILLEGALL H L L BA,CA,A10WRITE/WRITEAILLEGALL L H H BA,RA ACT Bank Active/ILLEGAL*2 L L H L BA,A10PRE/PREA ILLEGAL*2L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALWRITE with H X X X X DESEL NOP(Continue Burst to END) AUTO L H H H X NOP NOP(Continue Burst to END) PRECHARGE L H H L BA TBST ILLEGALL H L H BA,CA,A10READ/READA ILLEGALL H L L BA,CA,A10WRITE/WRITEAILLEGALL L H H BA,RA ACT Bank Active/ILLEGAL*2 L L H L BA,A10PRE/PREA ILLEGAL*2L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALFUNCTION TRUTH TABLE(continued)Current State/S/RAS/CAS/WE Address Command Action PRE -H X X X X DESEL NOP(Idle after tRP) CHARGING L H H H X NOP NOP(Idle after tRP) L H H L BA TBST ILLEGAL*2L H L X BA,CA,A10READ/WRITE ILLEGAL*2L L H H BA,RA ACT ILLEGAL*2L L H L BA,A10PRE/PREA NOP*4(Idle after tRP)L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALROW H X X X X DESEL NOP(Row Active after tRCD ACTIVATING L H H H X NOP NOP(Row Active after tRCD L H H L BA TBST ILLEGAL*2L H L X BA,CA,A10READ/WRITE ILLEGAL*2L L H H BA,RA ACT ILLEGAL*2L L H L BA,A10PRE/PREA ILLEGAL*2L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALWRITE RE-H X X X X DESEL NOP COVERING L H H H X NOP NOPL H H L BA TBST ILLEGAL*2L H L X BA,CA,A10READ/WRITE ILLEGAL*2L L H H BA,RA ACT ILLEGAL*2L L H L BA,A10PRE/PREA ILLEGAL*2L L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALFUNCTION TRUTH TABLE(continued)Current State/S/RAS/CAS/WE Address Command Action RE-H X X X X DESEL NOP(Idle after tRC) FRESHING L H H H X NOP NOP(Idle after tRC) L H H L BA TBST ILLEGALL H L X BA,CA,A10READ/WRITE ILLEGALL L H H BA,RA ACT ILLEGALL L H L BA,A10PRE/PREA ILLEGALL L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALMODE H X X X X DESEL NOP(Idle after tRSC) REGISTER L H H H X NOP NOP(Idle after tRSC) SETTING L H H L BA TBST ILLEGALL H L X BA,CA,A10READ/WRITE ILLEGALL L H H BA,RA ACT ILLEGALL L H L BA,A10PRE/PREA ILLEGALL L L H X REFA ILLEGALL L L L Op-Code,Mode-AddMRS ILLEGALABBREVIATIONS:H = Hige Level, L = Low Level, X = Don't CareBA = Bank Address, RA = Row Address, CA = Column Address, NOP = No Operation NOTES:1. All entries assume that CKE was High during the preceding clock cycle and the current clock cycle.2. ILLEGAL to bank in specified state; function may be legal in the bank indicated by BA,depending on the state of that bank.3. Must satisfy bus contention, bus turn around, write recovery requirements.4. NOP to bank precharging or in idle state.May precharge bank indicated by BA.5. ILLEGAL if any bank is not idle.ILLEGAL = Device operation and / or date-integrity are not guaranteed.FUNCTION TRUTH TABLE FOR CKECurrent State CKEn-1CKEn/S/RAS/CAS/WE Add ActionSELF - H X X X X X X INVALIDREFRESH*1L H H X X X X Exit Self-Refresh(Idle after tRC) L H L H H H X Exit Self-Refresh(Idle after tRC)L H L H H L X ILLEGALL H L H L X X ILLEGALL H L L X X X ILLEGALL L X X X X X NOP(Maintain Self-Refresh) POWER H X X X X X X INVALIDDOWN L H X X X X X Exit Power Down to IdleL L X X X X X NOP(Maintain Self-Refresh) ALL BANKS H H X X X X X Refer to Function Truth Table IDLE*2H L L L L H X Enter Self-RefreshH L H X X X X Enter Power DownH L L H H H X Enter Power DownH L L H H L X ILLEGALH L L H L X X ILLEGALH L L L X X X ILLEGALL X X X X X X Refer to Current State = Power Down ANY STATE H H X X X X X Refer to Function Truth Tableother than H L X X X X X Begin CK0 Suspend at Next Cycle*3 listed above L H X X X X X Exit CK0 Suspend at Next Cycle*3 L L X X X X X Maintain CK0 SuspendABBREVIATIONS:H = High Level, L = Low Level, X = Don't CareNOTES:1. CKE Low to High transition will re-enable CK and other inputs asynchronously.A minimum setup time must be satisfied before any command other than EXIT.2. Power-Down and Self-Refresh can be entered only from the All banks idle State.3. Must be legal command.POWER ON SEQUENCEBefore starting normal operation, the following power on sequence is necessary to prevent a SDRAM from damaged or malfunctioning.1. Apply power and start clock. Attempt to maintain CKE high, DQMB0-7 high and NOP condition at the inputs.2. Maintain stable power, stable clock, and NOP input conditions for a minimum of 200us.3. Issue precharge commands for all banks. (PRE or PREA)4. After all banks become idle state (after tRP), issue 8 or more auto-refresh commands.5. Issue a mode register set command to initialize the mode register.After these sequence, the SDRAM is idle state and ready for normal operation.MODE REGISTERCK Burst Length, Burst Type and /CAS Latency can be programmed by setting the mode register(MRS). The mode register stores these date until the next MRS command, which may be issue when both banks are in idle state. After tRSC from a MRS command, the SDRAM is ready for new command.Latch mode operation in module, 1latency shouldCommand AddressCKDQBurst TypeA2A1A0Initial Address BL Sequential InterleavedColumn Addressing000001010011100101110111-00-01-10-11--0012345670123456712345670103254762345670123016745345671232107654456701234567012356701234547610326701234567452301701201231232301300176540123103223013201--11210345632111842ABSOLUTE MAXIMUM RATINGSRECOMMENDED OPERATING CONDITIONCAPACITANCE(Ta=0 ~ 70°C, Vdd = 3.3 +/- 0.3V, Vss = 0V, unless otherwise noted)AVERAGE SUPPLY CURRENT from Vdd(Ta=0 ~70°C, Vdd = 3.3 ± 0.3V, Vss = 0V, unless otherwise noted)AC OPERATING CONDITIONS AND CHARACTERISTICS(Ta=0 ~ 70°C, Vdd = 3.3 ± 0.3V, Vss = 0V, unless otherwise noted)Symbol Parameter Test ConditionLimitsUnitMin.Max.VOH(DC)High-Level Output Voltage(DC)IOH=-2mA 2.4V VOL(DC)Low-Level Output Voltage(DC)IOL=2mA 0.4V IOZ Off-stare Output Current Q floating VO=0 ~ Vdd uA Ii Input Current VIH=0 ~ Vdd+0.3V -1010uANotes1. addresses are changed 3 times during tRC , only 1bank is activ e & all other banks are idle2. all banks are idle3. input signals are changed one time during 3xtCLK4. input signals are stable5. all banks sre activ e-1010Test ConditionLimits (max)Unit tRC=min.tCLK=min, BL=1mA CKE<VILmax,tCLK=min mA mA mA tCLK=min, BL=4, gapless datamA tRC=min, tCLK=min mA CKE <VILmaxmASymbol Icc1Icc2P Icc2PS Icc2NS Icc4Icc5Icc6Icc2N Parameter operating currentone bank activ e (discrete)precharge stanby currentin power-down mode burst currentauto-refresh current self-refresh currentmA precharge stanby current in non power-down mode mA Icc3NS Icc3N mA active stanby currentin non power-down modeone bank activ e (discrete)193534233376522953555370423855585-6Note 122,32,43,54,55CKE<VILmax,tCLK=infinity CKE>VIHmin,tCLK=min CKE>VIHmin,tCLK=infinity CKE>VIHmin,tCLK=min CKE>VIHmin,tCLK=infinity 229534233376522953555370423855585-5AC TIMING REQUIREMENTS (Components)(Ta=0 ~ 70°C, Vdd = 3.3 +/- 0.3V, Vss = 0V, unless otherwise noted)Input Pulse Levels: 0.8V to 2.0V Input Timing Measurement Level: 1.4V CKSignal1.4V1.4VAny AC timing isreferenced to the input signal crossing through 1.4V.LATCH MODELimitsSymbol Parameter Unit tCLK CK cycle timens tCH CK High pulse width ns tCL CK Low pulse width ns tT Transition time of CKns tIS Input Setup time(all inputs)ns tIH Input Hold time(all inputs)ns tRC Row Cycle time ns tRCD Row to Column Delay ns tRAS Row Active timens tRP Row Precharge time ns tWR Write Recovery time ns tRRD Act to Act Deley timens tRSC Mode Register Set Cycle time ns tREFRefresh Interval timeusCL=3Min.Max.2.5102.51101.50.867.52045120K2015157.8CL=47.5ns ns 15tRFC Refresh Cycle time 75Min.Max.2.57.52.51101.50.8601545120K 1515157.87.51560-5-6SWITCHING CHARACTERISTICS(Ta=0 ~ 70°C, Vdd = 3.3 +/- 0.3V, Vss = 0V, unless otherwise noted)Unit ns ns nsLimitsSymbol Parameter tAC Access time from CK CL=3ns tOHOutput Hold time from CK tOLZ Delay time, output low impedance from CK tOHZDelay time, output high impedance from CKLATCH MODEMin.Max.036CL=4 5.4BUFFER MODE6CL=3CL=43Symbol Parameter Unit tCLK CK cycle timens tCH CK High pulse width ns tCL CK Low pulse width ns tT Transition time of CKns tIS Input Setup time(all inputs)ns tIH Input Hold time(all inputs)ns tRC Row Cycle time ns tRCD Row to Column Delay ns tRAS Row Active timens tRP Row Precharge time ns tWR Write Recovery time ns tRRD Act to Act Deley timens tRSC Mode Register Set Cycle time ns tREFRefresh Interval timeusns ns tRFC Refresh Cycle time LimitsCL=2Min.Max.2.5102.51106.5067.52045120K2015157.8CL=37.51575Min.Max.2.5102.51106.50601545120K 1515157.87.51560-5-6Min.Max.03 5.45.45.43-5-63335.435.4CL=3CL=41.4V1.4VDQCK tACtOHtOHZOutput Load ConditionBurst WRITE (single bank)BL=4,Buffer mode(REGE="L")REGE /CS/RAS/CAS /WECKE BA0,1DQACT#0WRITE#0PRE#0ACT#0WRITE#0CLK Italic parameter indicates minimum caseA0-9A10DQMA11Burst WRITE (multi bank)BL=4,Buffer mode(REGE="L")REGE /CS/RAS/CAS /WECKE BA0,1DQX X X 0Y 01D0D0D0D0X X 0YD0D0D0D0ACT#0WRITE#0PRE#0ACT#0WRITE#001234567891011121314151617tRCDtRAS tWRtRPtRCtRCDD1D1D1D1X X X 1tRRDY tWR0X 1X XX2tRRDACT#1WRITE#1PRE#1ACT#2CLKA0-9A10DQM A11Burst WRITE (single bank)BL=4,Lacth mode(REGE="H")REGE/CS/RAS/CAS /WECKE BA0,1DQACT#0WRITE#0PRE#0ACT#0WRITE#0CLKA0-9A10DQM A11Burst WRITE (multi bank)BL=4,Latch mode(REGE="H")REGE/CS/RAS/CAS /WECKEBA0,1DQXX X 0Y01D0D0D0D0X X 0YD0D0D0ACT#0WRITE#0PRE#0ACT#0WRITE#001234567891011121314151617tRCDtRAS tWRtRPtRCtRCDD1D1D1D1XX X 1tRRDYtWR0X1XXX2tRRDACT#1WRITE#1PRE#1ACT#2CLKA0-9A10DQM A11Burst READ (single bank)BL=4,CL=3,Buffer mode(REGE="L")REGE/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 00Q0Q0Q0Q0X XX0YQ0Q0ACT#0READ#0PRE#0ACT#0READ#01234567891011121314151617tRCDtRAStRPtRCtRCDCL=3READ to PRE ³BL allows full data outDQM read latency =2CLK Italic parameter indicates minimum caseA0-9A10DQMA11BL=4,CL=3,Buffer mode(REGE="L")Burst READ (multi bank)REGE/CS/RAS/CAS /WE CKEBA0,1DQX X X 0Y 00Q0Q0Q0Q0X X X 0YQ0ACT#0READ#0PRE#0ACT#0READ#001234567891011121314151617tRCDtRAStRPtRCtRCD CL=3DQM read latency =2tRRDX X X 1ACT#1Y 1tRRDQ1Q1Q1Q1X XX21CL=3READ#1PRE#1ACT#2CLKA0-9A10DQMA11Burst READ (single bank)BL=4, CL=4,Latch mode(REGE="H")REGE/CS/RAS/CAS /WE CKE BA0,1DQACT#0READ#0PRE#0ACT#0READ#0READ to PRE ³BL allows full data outCLKItalic parameter indicates minimum caseA0-9A10DQMA11BL=4,CL=4,Latch mode(REGE="H")Burst READ (multi bank)REGE/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 00Q0Q0Q0Q0X X X 0YACT#0READ#0PRE#0ACT#0READ#001234567891011121314151617tRCDtRAStRPtRCtRCD CL=4DQM read latency =3tRRDX X X 1ACT#1Y 1tRRDQ1Q1Q1Q1X XX21CL=4READ#1PRE#1ACT#2CLKA0-9A10DQMA11Burst WRITE (multi bank) with AUTO-PRECHARGE BL=4,Buffer mode(REGE="L")REGE/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 01D0D0D0D0X X 0Y 0D0D0D0D0ACT#0WRITE#0 with AutoPrechargeACT#0WRITE#01234567891011121314151617tRCDtRCtRCDD1D1D1D1X X X 1tRRDY X 1X XXtRRDACT#1WRITE#1 with AutoPrechargeBL-1+ tWR + tRPY1D1tRCDACT#1WRITE#1CLKBL-1+ tWR + tRPItalic parameter indicates minimum caseA0-9A10DQM A11Burst WRITE (multi bank) with AUTO-PRECHARGE BL=4,Latch mode(REGE="H")REGE /CS/RAS/CAS /WE CKEBA0,1DQX X X 0Y 01D0D0D0D0X X 0Y 0D0D0D0D0ACT#0WRITE#0 with AutoPrechargeACT#0WRITE#01234567891011121314151617tRCDtRCtRCDD1D1D1D1X X X 1tRRDY X 1X XXtRRDACT#1WRITE#1 with AutoPrechargeBL-1+ tWR + tRPY1tRCDACT#1WRITE#1CLKBL-1+ tWR + tRPItalic parameter indicates minimum caseA0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 0Q0Q0Q0Q0X X X 0Y 0Q0ACT#0READ#0 with Auto-PrechargeACT#0READ#01234567891011121314151617tRCDtRCtRCDCL=3DQM read latency =2tRRDX X X 1ACT#1Y 1tRRDQ1Q1Q1Q1CL=3READ#1 with Auto-PrechargeACT#1BL+tRPBL+tRPX XX1Y1CLKQ0CL=3tRCDItalic parameter indicates minimum caseBurst READ (multi bank) with AUTO-PRECHARG E BL=4,CL=3 Buffer mode(REGE="L")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 0Q0Q0Q0Q0X X X 0Y 0Q0ACT#0READ#0 with Auto-PrechargeACT#0READ#01234567891011121314151617tRCDtRCtRCDCL=4DQM read latency =3tRRDX X X 1ACT#1Y 1tRRDQ1Q1Q1Q1CL=4READ#1 with Auto-PrechargeACT#1BL+tRPBL+tRPX XX1Y1CLKCL=4tRCDBurst READ (multi bank) with AUTO-PRECHARG E BL=4,CL=4 Latch mode(REGE="H")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQXX X 0Y00D0D0D0D0ACT#0WRITE#0WRITE#01234567891011121314151617tRCDD1D1D1D1YYWRITE#1CLK XXX1tRRD1YD0D0D0D0D0D0D0ACT#1WRITE#0Italic parameter indicates minimum casePage Mode Burst Write (multi bank)BL=4,Buffer mode(REGE="L")REGE A0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 00D0D0D0D0ACT#0WRITE#0WRITE#01234567891011121314151617tRCDD1D1D1D1Y YWRITE#1CLK X XX1tRRD1Y D0D0D0D0D0D0ACT#1WRITE#0Italic parameter indicates minimum casePage Mode Burst Write (multi bank)BL=4,Latch mode(REGE="H")REGE A0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 00Q0Q0Q0ACT#0READ#0READ#01234567891011121314151617tRCDQ1Q1Q1Q1Y YREAD#1CLK X XX1tRRD1Y Q0Q0Q0Q0ACT#1READ#0Q0CL=3CL=3CL=3DQM read latency=2Italic parameter indicates minimum casePage Mode Burst Read (multi bank)BL=4,CL=3 Buffer mode(REGE="L")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 00Q0Q0Q0ACT#0READ#0READ#01234567891011121314151617tRCDQ1Q1Q1Y YREAD#1CLK X XX1tRRD1Y Q0Q0Q0Q0ACT#1READ#0Q0CL=4CL=4CL=4DQM read latency=3Page Mode Burst Read (multi bank)BL=4,CL=4 Latch mode(REGE="H")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 0D0D0D0D0ACT#0WRITE#001234567891011121314151617tRCDQ0WRITE#1CLK X XX1tRRD1Y D0D0D1D1Q0Q0Q0ACT#1WRITE#0Y Y 000YtCCDCL=3WRITE#0READ#0Burst Write can be interrupted by Write or Read of any active bank.Italic parameter indicates minimum caseWrite Interrupted by Write / Read BL=4,Buffer mode(REGE="L")REGEA0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQX X X 0Y 0D0D0D0D0ACT#0WRITE#001234567891011121314151617tRCDWRITE#1CLK X XX1tRRD1Y D0D0D1D1Q0Q0Q0ACT#1WRITE#0Y Y 000YtCCDCL=4WRITE#0READ#0Burst Write can be interrupted by Write or Read of any active bank.Write Interrupted by Write / Read BL=4,Latch mode(REGE="H")REGEA0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQ X X X 0Y 00Q0Q0Q0ACT#0READ#0WRITE#001234567891011121314151617tRCDQ0D0D0Y YREAD#1CLK X XX1tRRD0Y Q0Q0Q1Q1ACT#1READ#0Q0DQM read latency=20Y 1Y Burst Read can be interrupted by Read or Write of any active bank.READ#0READ#0blank to prevent bus contentionRead Interrupted by Read / Write BL=4,CL=3 Buffer mode(REGE="L")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQREAD#1CLK ACT#1Burst Read can be interrupted by Read or Write of any active bank.Italic parameter indicates minimum caseRead Interrupted by Read / Write BL=4,CL=4 Latch mode(REGE="H")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQ X X X 0Y 0D0D0D0D0ACT#0WRITE#01234567891011121314151617tRCDWRITE#1CLK X X X 1tRRD1D1D1D1D1D1ACT#1Y 11YBurst Write is not interruptedby Precharge of the other bank.0X XX1PRE#1PRE#0ACT#1WRITE#1Burst Write is interrupted by Precharge of the same bank.Write Interrupted by Precharge BL=4,Buffer mode(REGE="L")REGEA0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQ X X X 0Y 0D0D0D0D0ACT#0WRITE#01234567891011121314151617tRCDWRITE#1CLK X X X 1tRRD1D1D1D1D1ACT#1Y 11YBurst Write is not interruptedby Precharge of the other bank.0X XX1PRE#1PRE#0ACT#1WRITE#1Burst Write is interrupted by Precharge of the same bank.Write Interrupted by Precharge BL=4,Latch mode(REGE="H")REGEA0-9A10DQM A11/CS/RAS/CAS /WE CKE BA0,1DQ X X X 0Y 0Q0Q0Q0ACT#0READ#001234567891011121314151617tRCDY1PRE#1CLK X X X 1tRRDQ1Q1ACT#1PRE#0Q0DQM read latency=21Y 1Burst Read is not interruptedby Precharge of the other bank.0X XX1tRCDtRPREAD#1ACT#1READ#1Burst Read is interruptedby Precharge of the same bank.Read Interrupted by Precharge BL=4,CL=3 Buffer mode(REGE="L")REGEA0-9A10DQMA11/CS/RAS/CAS /WE CKE BA0,1DQ X X X 0Y 0Q0Q0Q0ACT#0READ#001234567891011121314151617tRCDY1PRE#1CLK X X X 1tRRDQ1Q1ACT#1PRE#0Q0DQM read latency=31Y 1Burst Read is not interruptedby Precharge of the other bank.0X XX1tRCDtRPREAD#1ACT#1READ#1Burst Read is interruptedby Precharge of the same bank.Read Interrupted by Precharge BL=4,CL=4 Latch mode(REGE="H")REGEA0-9A10DQMA11Mode Register Setting/CS/RAS/CAS /WE CKE BA0,1DQ Auto-Ref (last of 8 cycles)1234567891011121314151617YCLK tRCD0Mode Register SettingM 0X XX0tRCDtRSCACT#0WRITE#0D0D0D0REGEA0-9A10DQM A11Auto-Refresh @BL=4/CS/RAS/CAS /WE CKE BA0,1DQ Auto-Refresh1234567891011121314151617CLK tRCBefore Auto-Refresh,all banks must be idle state.YD0X XX0tRCDACT#0WRITE#0D0D0D0After tRC from Auto-Refresh, all banks are idle state.REGEA0-9A10DQM A11Self-Refresh/CS /RAS /CAS /WECKEBA0,1DQ Self-Refresh Entry 01234567891011121314151617CLK Before Self-Refresh Entry, all banks must be idle state.XXXSelf-Refresh Exit ACT#0After tRC from Self-Refresh Exit, all banks are idle state.tRC+1tSRXCLK can be stoppedCKE must be low to maintain Self-RefreshREGEA0-9A10DQM A11。

Symbol Symbolt ≤ 10s Steady-State Steady-StateR θJCMaximum Junction-to-Case°C/W°C/W Maximum Junction-to-Ambient A D 1551.5Power Dissipation B W Power DissipationAW =70°C=25°C A=25°C A =70°C=25°C =100°C Repetitive avalanche energy L=0.1mHCmJ Avalanche Current CContinuous Drain CurrentA V MaximumUnits Parameter Absolute Maximum Ratings T A =25°C unless otherwise noted V Gate-Source Voltage Drain-Source Voltage Units Maximum Junction-to-Ambient A °C/W R θJA 144017Junction and Storage Temperature Range °CThermal Characteristics Pulsed Drain Current CContinuous Drain CurrentParameterTyp Max =25°C =100°C DSPIN1SymbolMin Typ Max Units BV DSS 60VV DS =60V, V GS =0V100T J =55°C500I GSS 100nA V GS(th)Gate Threshold Voltage 1.522.5V I D(ON)170A 5.4 6.5T J =125°C9.611.56.48m Ωg FS 75S V SD 0.71V I S81A C iss 380048005800pF C oss 330470610pF C rss 110190270pF R g0.51 1.5ΩQ g (10V)648096nC Q g (4.5V)324048nC Q gs 121518nC Q gd 81420nC t D(on)13.5ns t r 4.2ns t D(off)51ns t f 7nst rr 141822ns Q rr435465nCCOMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.Body Diode Reverse Recovery TimeDrain-Source Breakdown Voltage On state drain currentI D =250µA, V GS =0V V GS =10V, V DS =5V V GS =10V, I D =20AReverse Transfer Capacitance I F =20A, dI/dt=500A/µsV GS =0V, V DS =30V, f=1MHz SWITCHING PARAMETERS Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions I DSS µA V DS =V GS I D =250µA V DS =0V, V GS = ±20V Zero Gate Voltage Drain Current Gate-Body leakage current Forward Transconductance Diode Forward VoltageR DS(ON)Static Drain-Source On-Resistancem ΩI S =1A,V GS =0VV DS =5V, I D =20A V GS =4.5V, I D =20AV GS =10V, V DS =30V, R L =1.5Ω,R GEN =3ΩGate resistanceV GS =0V, V DS =0V, f=1MHzTurn-Off Fall TimeTotal Gate Charge V GS =10V, V DS =30V, I D =20AGate Source Charge Gate Drain Charge Total Gate Charge Rev 1: Nov. 2010Body Diode Reverse Recovery Charge I F =20A, dI/dt=500A/µsMaximum Body-Diode Continuous CurrentInput Capacitance Output CapacitanceTurn-On DelayTime DYNAMIC PARAMETERS Turn-On Rise Time Turn-Off DelayTime A. The value of R θJA is measured with the device mounted on 1in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The Power dissipation P DSM is based on R θJA and the maximum allowed junction temperature of 150°C. The value in any given application depends on the user's specific board design, and the maximum temperature of 150°C may be used if the PCB allow s it.B. The power dissipation P D is based on T J(MAX)=150°C, using junction-to-case thermal resistance, and is more useful in setting the upper dissipation limit for cases where additional heatsinking is used.C. Repetitive rating, pulse width limited by junction temperature T J(MAX)=150°C. Ratings are based on low frequency and duty cycles to keep initial T J =25°C.D. The R θJA is the sum of the thermal impedence from junction to case R θJC and case to ambient.E. The static characteristics in Figures 1 to 6 are obtained using <300µs pulses, duty cycle 0.5% max.F. These curves are based on the junction-to-case thermal impedence which is measured with the device mounted to a large heatsink,assuming a maximum junction temperature of T J(MAX)=150°C. The SOA curve provides a single pulse ratin g.G. These tests are performed with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C.TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICSV GS (Volts)Figure 2: Transfer Characteristics (Note E)I D (A )V DS (Volts)Fig 1: On-Region Characteristics (Note E)I D (A )TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICSQ g (nC)Figure 7: Gate-Charge Characteristics V G S (V o l t s )102030405060V DS (Volts)Figure 8: Capacitance Characteristics C a p a c i t a n c e (p F )TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICSVdsChargeGate Charge Test Circuit & WaveformVddResistive Switching Test Circuit & WaveformsVddVdsIdVgsBV IUnclamped Inductive Switching (UIS) Test Circuit & WaveformsARDSS2E = 1/2 LI Vdd AR AR。

MGate5114Series1-port Modbus RTU/ASCII/TCP/IEC101-to-IEC104gatewaysFeatures and Benefits•Protocol conversion between Modbus RTU/ASCII/TCP,IEC60870-5-101,and IEC60870-5-104•Supports IEC60870-5-101master/slave(balanced/unbalanced)•Supports IEC60870-5-104client/server•Supports Modbus RTU/ASCII/TCP master/client and slave/server•Effortless configuration via web-based wizard•Status monitoring and fault protection for easy maintenance•Embedded traffic monitoring/diagnostic information for easy troubleshooting•microSD card for configuration backup/duplication and event logs•Built-in Ethernet cascading for easy wiring•Redundant dual DC power inputs and relay output•-40to75°C wide operating temperature models available•Serial port with2kV isolation protection•Security features based on IEC62443CertificationsIntroductionThe MGate5114is an industrial Ethernet gateway with2Ethernet ports and1RS-232/422/485serial port for Modbus RTU/ASCII/TCP,IEC60870-5-101,and IEC60870-5-104network communications.By integrating commonly used power protocols,the MGate5114provides the flexibility needed to fulfill the various conditions that arise with field devices that use different communications protocols to connect to a power SCADA system.To integrate Modbus or IEC60870-5-101devices onto an IEC60870-5-104network,use the MGate5114as a Modbus master/client or IEC 60870-5-101master to collect data and exchange data with IEC60870-5-104systems.Easy Configuration via Web ConsoleThe MGate5114Series comes with an illustrated Quick Setup guide designed to make configuration easy.With Quick Setup,you can easily access protocol conversion modes and finish the configuration in a few steps.Modbus RTU/ASCII/TCP Protocol Traffic MonitorMGate5114Series gateways support Modbus RTU/ASCII/TCP,IEC60870-5-101,and IEC60870-5-104Protocol Traffic Monitor for easy troubleshooting,especially during the installation stage.It is worth mentioning that traffic logs can be viewed in the popular troubleshooting tool, Wireshark.With this feature,you can easily analyze traffic to determine the root cause of a problem.Maintenance FunctionsMGate5114gateways support a system log function that records events in the MGate;users can easily review log data remotely through the web console.The gateways also support status monitoring and fault protection functions.The status monitoring function notifies a PSCADA system when a device gets disconnected or does not respond,in which case the PSCADA system gets the status of each end device and then issues alarms to notify operators.SpecificationsEthernet Interface10/100BaseT(X)Ports(RJ45connector)2Auto MDI/MDI-X connectionMagnetic Isolation Protection 1.5kV(built-in)Ethernet Software FeaturesIndustrial Protocols Modbus TCP Client(Master),Modbus TCP Server(Slave),IEC60870-5-104Client,IEC60870-5-104ServerConfiguration Options Web Console(HTTP/HTTPS),Device Search Utility(DSU),Telnet Console Management ARP,DHCP Client,DNS,HTTP,HTTPS,SMTP,SNMP Trap,SNMPv1/v2c/v3,TCP/IP,Telnet,SSH,UDP,NTP ClientMIB RFC1213,RFC1317Time Management NTP ClientSecurity FunctionsAuthentication Local databaseEncryption HTTPS,AES-128,AES-256,SHA-256Security Protocols SNMPv3SNMPv2c TrapHTTPS(TLS1.3)Serial InterfaceConsole Port RS-232(TxD,RxD,GND),8-pin RJ45(115200,n,8,1)No.of Ports1Connector DB9maleSerial Standards RS-232/422/485Baudrate50bps to921.6kbpsData Bits7,8Parity Even,Mark,None,Odd,SpaceStop Bits1,2Flow Control RTS Toggle(RS-232only),RTS/CTSRS-485Data Direction Control ADDC®(automatic data direction control)Pull High/Low Resistor for RS-4851kilo-ohm,150kilo-ohmsTerminator for RS-485120ohmsIsolation2kV(built-in)Serial SignalsRS-232TxD,RxD,RTS,CTS,DTR,DSR,DCD,GNDRS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDRS-485-4w Tx+,Tx-,Rx+,Rx-,GNDSerial Software FeaturesIndustrial Protocols Modbus RTU/ASCII Master,Modbus RTU/ASCII Slave,IEC60870-5-101Master(Balanced/Unbalanced),IEC60870-5-101Slave(Balanced/Unbalanced) Configuration Options Serial ConsoleModbus RTU/ASCIIMode Master,SlaveFunctions Supported1,2,3,4,5,6,15,16,23Max.No.of Commands128Modbus TCPMode Client(Master),Server(Slave) Functions Supported1,2,3,4,5,6,15,16,23Max.No.of Client Connections32Max.No.of Server Connections32Max.No.of Commands128IEC60870-5-104Mode ClientServerMax.No.of Client Connections32Max.No.of Server Connections32Max.No.of Information Objects2000pointsIEC60870-5-101Mode Master(Balanced/Unbalanced)Slave(Balanced/Unbalanced)Max.No.of Master Connections1Max.No.of Slave Connections1(Balanced),31(Unbalanced)Max.No.of Information Objects2000pointsMemorymicroSD Slot Up to32GB(SD2.0compatible) Power ParametersInput Voltage12to48VDCInput Current455mA@12VDCPower Connector Screw-fastened Euroblock terminal RelaysContact Current Rating Resistive load:2A@30VDCPhysical CharacteristicsHousing MetalIP Rating IP30Dimensions36x105x140mm(1.42x4.14x5.51in) Weight507g(1.12lb)Environmental LimitsOperating Temperature MGate5114:0to60°C(32to140°F)MGate5114-T:-40to75°C(-40to167°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsSafety EN60950-1,UL508EMC EN55032/24EMI CISPR32,FCC Part15B Class BEMS IEC61000-4-2ESD:Contact:8kV;Air:15kVIEC61000-4-3RS:80MHz to1GHz:10V/mIEC61000-4-4EFT:Power:4kV;Signal:2kVIEC61000-4-5Surge:Power:2kV;Signal:2kVIEC61000-4-6CS:150kHz to80MHz:10V/m;Signal:10V/mIEC61000-4-8PFMFHazardous Locations ATEX,Class I Division2,IECExFreefall IEC60068-2-32Shock IEC60068-2-27Vibration IEC60068-2-6,IEC60068-2-64MTBFTime1,140,815hrsStandards Telcordia SR332WarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x MGate5114Series gatewayCable1x RJ45-to-DB9console cableInstallation Kit1x DIN-rail kitDocumentation1x quick installation guide1x warranty cardDimensionsOrdering InformationModel Name Operating Temp.MGate51140to60°CMGate5114-T-40to75°CAccessories(sold separately)CablesCBL-F9M9-150DB9female to DB9male serial cable,1.5mCBL-F9M9-20DB9female to DB9male serial cable,20cmCBL-RJ45F9-1508-pin RJ45to DB9female serial cable,1.5mCBL-RJ45SF9-1508-pin RJ45to DB9female serial cable with shielding,1.5mConnectorsMini DB9F-to-TB DB9female to terminal block connectorPower CordsCBL-PJTB-10Non-locking barrel plug to bare-wire cableMounting KitsDK-25-01DIN-rail mounting kit,2screwsWK-36-02DIN-rail/wall-mounting kit,2plates,6screws©Moxa Inc.All rights reserved.Updated Feb08,2022.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

SSU5000A系列机械开关数据手册CN02A产品综述SSU5000A系列机械开关，型号的末尾四个数字，中间两个数字表示频率范围，最末尾数字表示端口数目。

工作频率范围涵盖DC-50GHz （最高），含有1-4个相互独立、带有SMA或2.4mm连接器的单刀双掷机械开关，或单刀六掷机械开关，支持TTL电平控制，可广泛应用在多通道多端口测试环境上。

指标特色阻抗：50 Ω最高频率：18GHz/26.5 GHz/50GHz最大测试端口数：12（2个机械开关）射频连接器：SMA Female or 2.4mmFemale驱动电压：12V最大驱动电流：1.25A控制方式：TTLSSU5000A原理框图开关模块依据最高工作频率可以分为DC-18GHz，DC-26.5GHz和DC-50GHz三个型号，每个型号内部都包含4个相互独立的单刀双掷机械开关，可通过TTL电平控制每个机械开关的选通情况。

SSU5184A型号（DC-18GHz）SSU5264A型号（DC-26.5GHz）SSU5504A型号（DC-50GHz）SSU5266A型号（DC-26.5GHz）条件定义对于本手册中的数据，若无另行说明，均为包含测量不确定度的技术指标。

技术指标：表示产品保证的参数性能，适用于常温环境温度范围，除非另作说明。

典型值：表示在室温（约25℃）条件下，80%的测试结果均可达到的典型性能，置信度95%。

该数据并非保证数据，并且不包含测量的不确定度。

标称值：表示预期的平均性能或设计的性能特征，如50Ω连接器。

该数据并非保证数据，并且是在室温（约25℃）条件下测量所得，并且不包含测量的不确定度。

指标参数远程控制USB: Universal Serial Bus（USB Device）；USB-TMC，SCPI SCPI命令控制1. 获取设备型号2. 获取设备序列号3. 获取设备软件版本4. 设置单个开关状态(SSU5264A)5. 获取单个开关状态(SSU5264A)6. 设置全部开关状态(SSU5264A)7. 获取全部开关状态8. 设置单个开关状态(SSU5266A)9. 获取单个开关状态(SSU5266A)软件控制用户可通过控制软件（EasySSU），切换开关的状态1. 用USB线连接设备，点击Rescan获取开关信息并连接。