经济型B2900A 系列精密型源表配置指南

FMA-900 SERIESAir Velocity TransducersStandardRemote Probee-mail:**************For latest product manuals:User’sGuideShop online atIt is the policy of OMEGA Engineering, Inc. to comply with all worldwide safety and EMC/EMI regulations that apply. OMEGA is constantly pursuing certification of its products to the European New Approach Directives. OMEGA will add the CE mark to every appropriate device upon certification.The information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.WARNING: These products are not designed for use in, and should not be used for, human applications.General DescriptionThe OMEGA ®FMA-900 air velocity mass flow transducer is ideal for economical monitoring of clean air flows in ducts and pipes, while producing very little permanent pressure drop in the flowstream The FMA-900 employs two rugged glass-coated RTD elements, protected by a 1⁄4" diameter 304SS tube with a“window” cut out. One RTD is the velocity sensor, while the other RTD provides ambient air temperature compensation. The velocity sensor is heated to maintain a constant (approximately 30°C) temperature differential above the ambient air temperature, as measured by the second RTD element. The cooling effect of the air flow experienced by the velocity sensor is measured and converted to an electrical output signal proportional to air velocity. The FMA-900 is provided with a 13" long probe as standard. The 304SS tubing is provided with inch marks for ease of insertion depth.UnpackingThe following items are supplied with the FMA-900:•FMA-900 Series Air Velocity Transducer •Mating connector•Removable plastic protective cover (supplied on the sensor tip)•Operator’s manual1-1Important Considerations Before Installationintrinsically safe. Do not use for flammable or hazardous gases, or inhazardous areas.The FMA-900 air velocity transducer is intended for use with clean air or !nitrogen ONLY. Do not use with other gases, as other gases will produce anuncalibrated, non-linear output signal. In addition, air carrying dust or oil (suchas found in blower/compressor systems that utilize oil) can lead to coating of thesensor and thus, inaccurate readings. Refer to the Maintenance section for moreinformation on cleaning the sensor.The FMA-900 is a bi-directional device; flow in the forward or reverse directionprovides the same output.Installing the FlowmeterThe FMA-900 air velocity transducer can be mounted vertically or horizontallywithout shift in calibration.1.Remove the plastic protective cap from the sensor tip.2.Run a length of straight pipe before and after the flowmeter. The amount ofupstream straight pipe run required depends upon the type of obstruction whichis immediately upstream of the flow sensor. See Table 2-1 for specificrequirements. Downstream of the flow sensor, in all situations, run 5 diametersof straight pipe, regardless of the downstream obstruction.3.Align the FMA-900 with the air flow. Make sure the width of the electronics box(2 inches) is parallel with the flow stream.The score line on the tubing is another way of aligning the air flow sensor withthe flow stream. The score line starts from the center of the transducer windowand as a result it can be aligned properly.One means of installing the probe into a flow stream is to utilize a compressionfitting, such as OMEGA’s SSLK-14-14 stainless steel compression fitting withTeflon ferrules, which permits adjustment of the insertion depth of the probe.On Remote Probe Models (-R), connect the remote probe cable to the ElectronicHousing.1-2Table 2-1 Piping Requirements1-3Wiring the Flowmeter1.Connect pins as follows:PLUG PIN NO.DESCRIPTION1 0-5 Vdc or 4-20 mA Output (−)2 0-5 Vdc or 4-20 mA Output (+)3Power Supply (+)4No Connection5No Connection6Power Supply (−)2.Blow clean air through the FMA-900.3.Install the sensor into the pipe or duct.Measuring Air FlowThe FMA-900 measures standard velocity, which is the mass velocity of the airreferenced to 25°C and 760 mm Hg. No temperature or pressure corrections arerequired. Where SCFM (standard cubic feet per minute) measurements aredesired:1.Locate the point of average velocity in the pipe or duct.2.In round pipes, under turbulent flow conditions (where the Reynolds number isgreater than 5,000), mount the velocity sensor approximately 1⁄8of a pipediameter in from the the pipe wall. For example, in an 8" diameter pipe, mountthe probe 1" in from the pipe wall.3.For pipes or ducts where the flow is not turbulent, or the flow profile is notsymmetrical (due to inadequate straight pipe runs, etc.), perform a traverse ofthe duct, in accordance with standard duct traversal methods as recommendedby ASHRAE or the National Air Balance Council.4.To obtain SCFM, once the probe is mounted in the location of average velocity,multiply the average velocity readings (in SFPM, standard feet per minute) bythe cross-sectional area of the pipe or duct, in square feet. For standard pipe,these values can be found in the technical section of the OMEGA CompleteFlow and Level Measurement Handbook and Encyclopedia®. MaintenanceExcept for intermittent removal of the sensor from the line for cleaning, there isno routine maintenance for the FMA-900. If the probe becomes coated with dust,blow the dust away with clean air. If the probe is coated with sticky material,clean it with a solvent which is compatible with epoxy, glass, and 304SS, andwhich will not leave a residue on the sensor. You may clean the sensor withwater or alcohol (Ethanol) and an artist’s brush.CalibrationEach FMA-900 is individually calibrated in a NIST-traceable wind tunnel. Forcalibration certification or calibrating to a new range, the unit must be returnedto OMEGA. To obtain an Authorized Return (AR) number, call the OMEGACustomer Service Department with a Purchase Order number to cover therecalibration charges.1-4SpecificationsRanges:Model No.Model No.0-5 V Output4-20 mA Output RangeFMA-900-V FMA-900-I0-100 SFPMFMA-901-V FMA-901-I0-200 SFPMFMA-902-V FMA-902-I0-500 SFPMFMA-903-V FMA-903-I0-1000 SFPMFMA-904-V FMA-904-I0-2000 SFPMFMA-905-V FMA-905-I0-5000 SFPMFMA-906-V FMA-906-I0-10,000 SFPMAccuracy:±1.5% of Full Scale at room temperature. Add ±0.5% of readingfrom 32 to 122°. Add 1% Full Scale below 1,000 SFPM.Repeatability:±0.2% of Full ScaleResponse Time:400 milliseconds to within 63% of final value at room temperatureProbe:Aluminum oxide ceramic glass coating and epoxy;probe body 304SSProbe Temperature/-40 to 250°F (-40 to 121°C); 150 PSIG maximumPressure:Remote Probe (-R):Available with 15' (4.6 m) shielded cable between the Probe andthe Electronic HousingElectronics TemperatureRange:Operating: 32 to 122°F (0 to 50°C)Storage: 32 to 158°F (0 to 70°C)Ambient TemperatureCompensation:About 5 minutes for 20°F ambient temperature changePower:15 to 18 Vdc at 300 mA(15 to 24 Vdc at 300 mA for 0-100 SFPM and 0-200 SFPM ranges)Output Load Resistance:Voltage: 250 ohms minimumCurrent: 0-400 ohms maximum; 4-wireAccessories:Mating connector prewired to 15 feet shielded cable with built-inferrite core includedDimensions:Case: 3.5" H x 2" W x 1.25" D(89 mm H x 51 mm W x 31.8 mm D)Probe: 1/4" (6.35 mm) O.D., 13" long standard (330 mm),3.75" long optional (“-S”)Weight:0.35 lbs. (0.16 kg)1-5OTHER IMPORTANT CONSIDERATIONS BEFORE INSTALLATION----------------------------------------------------------------CAUTION----------------------------------------------------Follow All Safety Precautions and Operating Instructions Outlined in this Manual.The Unit May be Powered from a DC Power Supply. The Power Supply Should HaveIntegral Impedence Protection.Recommended Wiring Cable: Shielded 4-Conductor Cable, 22 or 24 AWG Stranded.Recommended Power Supply Rating: 0-24 Vdc @ 300 mA, 7.2 VAThere are No User Replaceable Fuse in this Product.Avoid Contact with Hazardous Live Parts.Do Not Operate in Flammable or Explosive Environments.This Product is for Use Only with Equipment which has no Accessible Live Parts.------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------TYPICAL INSTALLATION SCHEMATIC1-6Direct all warranty and repair requests/inquiries to the OMEGA Customer Service Department. BEFORE RET URNING ANY PRODUCT(S) T O OMEGA, PURCHASER MUST OBTAIN AN AUT HORIZED RET URN (AR) NUMBER FROM OMEGA’S CUST OMER SERVICE DEPART MENT (IN ORDER T O AVOID PROCESSING DELAYS). The assigned AR number should then be marked on the outside of the return package and on any correspondence.The purchaser is responsible for shipping charges, freight, insurance and proper packaging to prevent breakage in transit.FOR WARRANTY RETURNS, please have the following information available BEFORE contacting OMEGA:1.Purchase Order number under which the productwas PURCHASED,2.Model and serial number of the product underwarranty, and3.Repair instructions and/or specific problemsrelative to the product.FOR NON-WARRANTY REPAIRS,consult OMEGA for current repair charges. Have the following information available BEFORE contacting OMEGA: 1. Purchase Order number to cover the COSTof the repair,2.Model and serial number of the product, and3.Repair instructions and/or specific problemsrelative to the product.OMEGA’s policy is to make running changes, not model changes, whenever an improvement is possible. This affords our customers the latest in technology and engineering.OMEGA is a registered trademark of OMEGA ENGINEERING, INC.© Copyright 2006 OMEGA ENGINEERING, INC. All rights reserved. T his document may not be copied, photocopied, reproduced, translated, or reduced to any electronic medium or machine-readable form, in whole or in part, without the prior written consent of OMEGA ENGINEERING, INC.Where Do I Find Everything I Need for Process Measurement and Control?OMEGA…Of Course!Shop online at TEMPERATUREⅪߜThermocouple, RTD & Thermistor Probes, Connectors, Panels & AssembliesⅪߜWire: Thermocouple, RTD & ThermistorⅪߜCalibrators & Ice Point ReferencesⅪߜRecorders, Controllers & Process MonitorsⅪߜInfrared PyrometersPRESSURE, STRAIN AND FORCEⅪߜTransducers & Strain GagesⅪߜLoad Cells & Pressure GagesⅪߜDisplacement TransducersⅪߜInstrumentation & AccessoriesFLOW/LEVELⅪߜRotameters, Gas Mass Flowmeters & Flow ComputersⅪߜAir Velocity IndicatorsⅪߜTurbine/Paddlewheel SystemsⅪߜTotalizers & Batch ControllerspH/CONDUCTIVITYⅪߜpH Electrodes, Testers & AccessoriesⅪߜBenchtop/Laboratory MetersⅪߜControllers, Calibrators, Simulators & PumpsⅪߜIndustrial pH & Conductivity EquipmentDATA ACQUISITIONⅪߜData Acquisition & Engineering SoftwareⅪߜCommunications-Based Acquisition SystemsⅪߜPlug-in Cards for Apple, IBM & CompatiblesⅪߜDatalogging SystemsⅪߜRecorders, Printers & PlottersHEATERSⅪߜHeating CableⅪߜCartridge & Strip HeatersⅪߜImmersion & Band HeatersⅪߜFlexible HeatersⅪߜLaboratory HeatersENVIRONMENTALMONITORING AND CONTROLⅪߜMetering & Control InstrumentationⅪߜRefractometersⅪߜPumps & TubingⅪߜAir, Soil & Water MonitorsⅪߜIndustrial Water & Wastewater TreatmentⅪߜpH, Conductivity & Dissolved Oxygen InstrumentsM1893/0305。

拟 制： 熊宠魏2008-09-01 图 号OKRW2.702.485SS 1 概述DTSD341/DSSD331（配置号为ME2(SN)）三相电子式多功能电能表是一款符合DL/T 614《多功能电能表》标准的0.2S 级和0.5S 级三相电子式多功能电能表。

其主要特点为计量信号为数字流输入、高速的数据处理能力、电源采用双路外接电源供电。

适用于采用IEC61850-9-1/2标准协议的电能计量体系。

DTSD341/DSSD331（配置号为ME2(SN)）三相电子式多功能电能表的研发与生产符合以下标准： GB/T 15543《电能质量 三相电压允许不平衡度》 GB/T 17882《2级和3级静止式交流无功电能表》GB/T 17883《0.2S 级和0.5S 级静止式交流有功电能表》 DL/T 614 《多功能电能表》DL/T 645 《多功能电能表通信规约》（威胜公司对此协议有扩展） IEC61850-9-2 《数字化变电站通信规约》 1.1 工作原理DSSD331/DTSD341（配置号为ME2(SN)）三相电子式多功能电能表是一款遵循IEC61850-9-2LE （数字化变电站内通信规约）协议的全新的数字接口式多功能电能表，采用当今世界流行的高档电能表设计方案：数字信号处理器与中央微处理器相结合的构架，将数字信号处理器的高速数据吞吐能力与中央微处理器 复杂的管理能力完美结合。

通过协议处理芯片获取合并单元的数据协议包，传送至数字信号处理单元完成对电参量测量，电能累计以及电能的计算等任务，后与中央微处理器进行数据交换，由中央微处理器最终完成表计的显示，数据统计，储存，人机交互，数据交换等复杂的管理功能。

其整表硬件原理框图如图1所示。

图 1 原理框图1.2 面板说明电表面板说明详见图2图2 面板布置图1.4 技术参数1.4.1 基本技术参数1.4.2 日历时钟参数注：内部电池仅用于内部时钟1.4.3 脉冲输出参数脉冲常数：（出厂默认值）*脉冲常数可根据用户要求调整！电气参数：1.4.4 其他参数2术语2.1 需量周期（Demand interval）测量平均功率的连续相等的时间间隔。

PRIMERGY BX900 System Unit System configurator and order-information guideContentsInstructionsConfiguration diagram Configurator I 1BX900 System UnitsII 2BX900 Server BladesIII 3BX900 Storage BladesIV 4Connection Blade OverviewV 5Connection Blades EthernetVI 6Connection Blades Fibre ChannelVII 7Connection Blade InfiniBandVIII 8Connection Blade SASChange reportPRIMERGY ServerJune 2012InstructionsThis document contains basic product and configuration information that will enable you to configure your system viaSystem-Architect.Only the tool "System-Arcitect" will ensure a fast and proper configuration of your PRIMERGY server or your complete PRIMERGY Rack system.Please pay attention to the naming conventions: BX900 S1System unit 1st generationYou can configure your individual PRIMERGY server in order to adjust your specific requirements.The System configurator is divided into several chapters that are identical to the current price list and PC-/ System-Architect.Please follow the lines. If there is a junction, you can choose which way or component you would like to take. Go throughthe configurator by following the lines from the top to the bottom.In one chapter you can only select as many components (here 3x) as the arrow indicates.3xPlease note that there are information symbols which indicate necessary information.For further information see:/products/standard_servers/index.html(internet)https:///com/order-supply/configurators/primergy_config/Pages/Currentconfigurators.aspx(extranet)Prices and availability see price list and PC-/ System-ArchitectSubject to change and errors exceptedFujitsu Technology Solutions x86 PRIMERGY Server 2 of 16Configuration diagram BX900 S1 System Unit S l o t 1S l o t 2s S l o t 3S l o t4Sl o t 17s S l o t 5S l o t 6S l o t 7s Sl ot8S l o t 9S l o t 10s S l o t 11S l o t 12S l o t 18s S l o t 13S l o t 14S l o t 15s Sl ot16Slots with the suffix "s" also support Storage BladesIncluded in basic unit PSU slots may also be equipped with Rear Fan Modules(see next page for details on power and cooling)OptionExtension slots front sideFujitsu Technology Solutions x86 PRIMERGY Server 3 of 16System configurator and order-information guidePRIMERGY BX900 System Unit Status: 2012-05-29 2Section II BX900 Power OverviewConfiguration OverviewA BX900 chassis has 6 slots for power supplies (PSUs) or Fan Units (RFNs). Limiting factors for mounting bladesare available power from PSUs but also cooling which is assured by PSUs or RFNs. As a result there are mountingrules to be followed for servers if less than 6 units (PSUs or RFNs) are used in a BX900 chassis.Also available PSU power has to be considered.Power table BX900E.g. 3+1 means there are 3 base PSUs and 1 redundant unit given.2nd column shows the number of additional Rear Fan Units (RFNs). They are needed to provide coolingto additional server blade slots.Finally there are further columns showing the different server blades. Here is shown their maximum countwhich can be operated with the PSU / RFN configuration given on the left.Not all configurations may make sense, recommended ones are highlighted green.Shown here is a configuration with one kind of server blade, only, no mixed configuration.!Example: A BX900 with 3 standard PSUs at 230VAC and one RFN can support a maximumof 10 BX920 servers.Connection Blades:Above tables are calculated with the assumption that 6 Connection Blades (50W each) are mountedRemark:Basically mixed configurations of blades are possible. Because of the manyfold of possible combinationsextra calculations are required to show configuration limits.Fujitsu Technology Solutions x86 PRIMERGY Server 6 of 16Fujitsu Technology Solutions x86 PRIMERGY Server7 of 16Fujitsu Technology Solutions x86 PRIMERGY Server8 of 16System configurator and order-information guide R PRIMERGY BX900 System Unit Status: 2012-05-29Section IV Connection Blade OverviewEach PRIMERGY BX900 Server Blade comes with onboard Ethernet LAN channelsand special connectors for the optional mezzanine cards.Example BX920 S2: 4 x 1GbE onboard and 2 x Mezzanine slotsDual Server Blade ConnectivityQuad Server Blade ConnectivityR1Fujitsu Technology Solutions x86 PRIMERGY Server9 of 16System configurator and order-information guidePRIMERGY BX900 System Unit Status: 2012-05-29Mezzanine Cards released for BX9xx Server Blades System onboard Mezzanine Mezzanie Card OptionsLAN ports Slots Eth 1Gb 4 Port FC 8Gb 2 Port IB 40Gb 2 Port Eth 10Gb 2 Port SAS HBA Mezz SAS RAID MezzS26361-F3331-E1S26361-F3874-E1S26361-F3992-E2S26361-F3997-E1S26361-F4480-E1S26361-F4481-E1BX920 S1 4x 1GbE 2x x x xBX920 S2 4x 1GbE 2x x x x x x BX922 S2 4x 1GbE 2x x x x x x BX924 S2 2x 10GbE 2x x x x x x BX960 S1 4x 10GbE 4x x xR1Connection Blades released for BX900 S1 System Unit :Order number Connection Blade Type installable in CB Slot S26361-K1366-V100S26361-K1304-V200S26361-K1305-V14S26361-K1305-V126S26361-K1305-V26S26361-K1363-V18S26361-K1365-V18S26361-K1336-V200S26361-K1391-V300PY CB SAS Switch 6Gb 18/6There is no Connection Blade included in the System Unit.SS26361-K1304-V100 1/2 3/4 5/6 7/83/4 5/63/4 5/63/4 5/6PY CB Eth Switch/IBP 1Gb 36/12 1/2 3/4 5/6 7/8PY FC SW 8G 18/8 26 Perform (Brocade)PY CB Eth Switch/IBP 1Gb 36/8+2 PY CB Eth Switch/IBP 1Gb 18/6518x 6Gb SAS 3/4 5/6 7/818x 40Gb IB 18x 40Gb IB (QSFP)3/4 5/618x 4 / 8Gb FC 18x 10Gb Eth (SFP+)6x 6Gb SAS (SFF8088)8x 8Gb FC (SFP+)PY FC SW 8G 18/8 26 Port (Brocade)PY CB IB Switch 40Gb 18/18PY CB Eth Pass Thru 10Gb 18/18 1/2 3/4 5/6 7/818x 10Gb Eth 18x 8Gb FC (SFP+)18x 8Gb FC S26361-K1304-V101 1/2 3/4 5/6PY FC Switch 8Gb 18/8 14 Port (Brocade)18x 8Gb FC 18x 10Gb Eth PY CB FC Pass Thru 8G 18/18 1/2 3/4 5/6 7/818x 8Gb FC 8x 8Gb FC (SFP+)8x 8Gb FC (SFP+)18x 1Gb Eth PY CB Eth Switch/IBP 10Gb 18/836x 1Gb Eth 2x 10Gb Eth (SFP+)8x 10Gb Eth (SFP+)(external)4x 1Gb Eth (SFP)8x 1Gb Eth (RJ45)8x 1Gb Eth (RJ45)Downlink ports 6x 1Gb Eth (RJ45)36x 1Gb Eth Uplink ports(internal)Fujitsu Technology Solutions x86 PRIMERGY Server 10 of 16Section V a Connection Blades Ethernet 10GbS26361-K1304-V200S26361-K1304-V303*)PY CB Eth Switch/IBP 10Gb 18/8*)L2+ Switch or IBP for separate delivery, without blade chassis18x downlink / 8x uplink 10GbE6x external:8x SFP+ / SFPPort LEDs: link, activity.Switch LEDs: power, statusmax. 6x per System UnitS26361-F2749-E1Service for Blade installation the below listed copper cables (active twinax) are also releasedin the System Unit.S26361-F3989-L102SFP+ active Twinax Cable 2mHereby the BX900 S1 will S26361-F3989-L105SFP+ active Twinax Cable 5mbe delivered completely S26361-F3989-L110SFP+ active Twinax Cable 10mconfigured and testedwith the Blade integrated.1x per Switch BladeS26361-F3986-E3S26361-F3986-E4S26361-F3986-E2S26361-F3986-E1SFP+ Module MMF 10GbE LC SFP+ Module SMF 10GbE LC SFP Module 1000Base-SX SFP Module 1000Base-T 8x SR SFP+ module for 10 Gbit LR SFP+ module for 10 Gbit SFP module for 1 Gbit SFP module for 1 Gbit max. 300m with OM3 fiber max. 10km with 9µm fiber max. 550m with OM3 fiber max. 100m850 nm laser1310 nm laser850 nm laserEthernet FO cabling Ethernet FO cabling Ethernet FO cabling Ethernet CU cabling (RJ45) max. 8x per switch max. 8x per switch max. 8x per switch max. 8x per switchSection V b Connection Blades Ethernet Pass Thru 10GbS26361-K1365-V18S26361-K1365-V318*)PY CB Eth Pass Thru 10Gb 18/18*)Ethernet Pass Thru for separate delivery, without blade chassis18x downlink / 18x uplink6xexternal:18x SFP+ / SFPPort LEDs: link, activity.Switch LEDs: power, statusmax. 6x per System UnitS26361-F2749-E1Service for Blade installation the below listed copper cables (active twinax) are also releasedin the System Unit.S26361-F3989-L102SFP+ active Twinax Cable 2mHereby the BX900 S1 will S26361-F3989-L105SFP+ active Twinax Cable 5mbe delivered completely S26361-F3989-L110SFP+ active Twinax Cable 10mconfigured and testedwith the Blade integrated.only the below listed SFP+ modules will be supported1x per Switch Blade by the connection blade.S26361-F3986-E3S26361-F3986-E2S26361-F3986-E1SFP+ Module MMF 10GbE LC SFP Module 1000Base-SX SFP Module 1000Base-TSFP+ module for 10 Gbit SFP module for 1 Gbit SFP module for 1 Gbit18x max. 300m with OM3 fiber max. 550m with OM3 fiber max. 100m850 nm laser850 nm laserEthernet FO cabling Ethernet FO cabling Ethernet CU cabling (RJ45)max. 18x per Pass Thru Blade max. 18x per Pass Thru Blade max. 18x per Pass Thru BladeSection VI Connection Blades Fibre ChannelS26361-K1305-V14S26361-K1305-V26S26361-K1305-V126S26361-K1305-V314*)S26361-K1305-V326*)S26361-K1305-V327*)PY CB FC Switch 8Gb 18/8 14PY CB FC Switch 8Gb 18/8 26PY CB FC SW 8G 18/8 26 PerformBrocade 5450Brocade 5450Brocade 5450with 14 port licence with 26 port licence with Performance Bundle18x downlink + 8 uplink18x downlink + 8 uplink18x downlink + 8 uplinkFull Fabric license Full Fabric licenseAdv. Zoning, Adv. Web Tools Adv. Zoning, Adv. Web Tools Performance Bundle4 x 8Gb/s SFP+ included 4 x 8Gb/s SFP+ included 4 x 8Gb/s SFP+ includedexternal: 8x connectors for external: 8x connectors for external: 8x connectors for8Gb SFP+ or 4Gb SFP modules8Gb SFP+ or 4Gb SFP modules8Gb SFP+ or 4Gb SFP modulesmax. 4x per System Unit max. 4x per System Unit max. 4x per System Unitmax. 4xS26361-F2749-E1*)Service for Blade installation for separate delivery, without blade chassisin the System Unit.Hereby the BX900 S1 willbe delivered completelyconfigured and testedwith the Blade integrated.1x per Switch BladeS26361-F3873-E104S26361-F3873-E109S26361-F3873-E204S26361-F3873-E208SFP+ Module SR 4Gb FC LC SFP+ Module SR 8Gb FC LC SFP+ Module LR 4Gb FC LC SFP+ Module LR 8Gb FC LC max. 4x4Gb/s SFP Multi Mode (MMF)8Gb/s SFP+ Multi Mode (MMF)4Gb/s SFP Multi Mode (SMF)8Gb/s SFP+ Multi Mode (SMF) max. 380m with OM3 fiber max. 150m with OM3 fiber max. 4km with OS1 fiber max. 10km with OS1 fiber850 nm laser850 nm laser1310 nm laser1310 nm laserFibre Optic cabling required Fibre Optic cabling required Fibre Optic cabling required Fibre Optic cabling requiredmax. 4x per switch max. 4x per switch max. 4x per switch max. 4x per switchThe Brocade 5450 with the 14 port license can by upgraded by the12 port upgarde license S26361-F3873-L12.only the above listes SFPs will be supported by the switchesother SFPs will not be switched on by the switch FOSS26361-K1363-V18S26361-K1363-V318*)PY CB FC Pass Thru 8G 18/18*)PRIMERGY FC Pass Thru for separate delivery, without blade chassis18x downlink + 18 uplinkno SFP Modules includedexternal: 18x connectors for8Gb SFP+ or 4Gb SFP modulesmax. 4x per System Unitmax. 4xS26361-F2749-E1Service for Blade installationin the System Unit.Hereby the BX900 S1 willbe delivered completelyconfigured and testedwith the Blade integrated.1x per Pass Thru BladeS26361-F3873-E104S26361-F3873-E108max. 18x FC 4Gb/s SFP Multi Mode (MMF)FC 8Gb/s SFP+ Multi Mode (MMF)requires LC connector cable requires LC connector cablemax. 18x per Pass Thru Blade max. 18x per Pass Thru Bladeonly the above listed SFPs will be supported by the Pass Thruother SFPs will not be switched onFC Connection Blades can only be used in fabric 2 (CB 3/4) and 3 (CB 5/6) of the System Unit.System configurator and order-information guidePRIMERGY BX900 System Unit Status: 2012-05-29 Change Report。

是德科技使用Keysight B2900A 系列SMU执行快速f T-I c测量技术概述Keysight B2901/02/11/12A 精密型电源/测量单元Keysight B2901A 精密型SMU，1 通道，100 fA 分辨率，210 V，3A 直流/10.5 A 脉冲Keysight B2902A 精密型SMU，2 通道，100 fA 分辨率，210 V，3A 直流/10.5 A 脉冲Keysight B2911A 精密型SMU，1 通道，10 fA 分辨率，210 V，3A 直流/10.5 A 脉冲Keysight B2912A 精密型SMU，2 通道，10 fA 分辨率，210 V，3A 直流/10.5 A 脉冲引言截止频率(f T) 是一个获知双极晶体管工作频率范围的重要参数。

要想测量f T，必须使用直流偏置将晶体管置于正确的工作点，同时使用网络分析仪测量其频率特性。

Keysight B2901/02/11/12A 精密电源/测量单元作为结构紧凑、经济高效的台式电源/测量单元(SMU)，能够以非常合理的价格提供精密电源和测量功能。

此外，B2900A 系列SMU 支持增强型触发功能，能够使偏置扫描步骤与网络分析仪的频率扫描保持同步。

这些功能使您能够非常快速、高效地进行测量和参数绘制，例如f T-I c。

基于以上原因，B2900A 系列SMU 是与网络分析仪结合使用的理想偏置源，以便对晶体管直流和射频特征进行测量。

该技术概述详述了B2900A 系列SMU 的关键特性，并展示该系列如何帮助确定双极晶体管的f T-I c特征。

系统配置图 1 显示使用 B2902A 或 B2912A 双通道 SMU 与网络分析仪 (例如 Keysight ENA 或 PNA 系列) 执行f T-I c测量的系统配置。

通过偏置T 型接头(内置于网络分析仪或外部) 将双极晶体管连接到网络分析仪的射频端口和B2900A 系列SMU 的直流输出端子。

Keysight TechnologiesUsing Source/Measure Unit as an Ammeter B2900A Precision Source/Measure UnitDemo GuideIntroductionThe Keysight B2900A Series Precision Source/Measure Unit (SMU) is a compact and cost-effective bench-top SMU with the capability to output and measure both voltage and current. The B2900A Series SMU enables you to make a wide range of current versus voltage (IV) measurements more accurately and quickly than ever before. Inaddition, the B2900A Series SMU comes with an intuitive graphical user interface (GUI) and free PC-based application software that make it easy for you to begin making productive measurements immediately.This demonstration guide shows how easily you can use the Keysight B2900A Series SMU as an ammeter.Required Instrument and AccessoriesAll of the accessories required to perform the demos described in this demonstration guide are provided in a demo kit that is included with Keysight B2902A/12A demo units. The kitincludes items such as a banana cable, a 1.1 kΩ resistor, etc.Keysight B2902A/12APrecision Source/Measure Unit11059A Kelvin Probe Set1.1 kΩ ResistorU8201A Combo Test Lead KitFigure 1. Connection diagram and basic conditionConceptFigure 1 illustrates the connection diagram used in the demo to use the Keysight B2900A Series SMU as an ammeter. Since the current polarity of the SMU is opposite to an ammeter, the Low Force terminal of the channel has to be connected to the current output port of the device under test (DUT).In this demo, a 1.1 kΩ resistor combined with a power supply is used as a DUT, a current source circuit. The channel 2 of the B2902A/12A is used as a power supply. However, you can also use your own power supply for it.Setup1. Connect the yellow banana plug of the 11059A to the Ch 1 Low Force Terminal.2. Connect the red banana plug of the 11059A to the Ch1 High Force Terminal.3. Clip the end of the 1.1 kΩ resistor with the black gold-plated tweezers of the 11059A.4. Connect the black banana cable of the U8201A to the Ch2 Low Force Terminal.5. Connect the red banana cable of the U8201A to the Ch2 High Force Terminal.6. Clip the other end of the 1.1 kΩ resistor with the red alligator clip of the U8201A7. Connect the red gold-plated tweezers of the 11059A to the black alligator clip of the U8201A.LAB1: Use Source/Measure Unit as an AmmeterObjectiveThis demo illustrates the current mea-surement function as an ammeter by sourcing 0 V voltage and measuring the current from the resistor biased by a power supply using a Source/Measure Unit.Procedure1. Configure the low terminal state to FLOATING2. Measure current using the SMU (Channel 1) as an ammeter3. Enable the DUT, the current soure circuit4. Confirm measured current5. (Optional) Configuring the measurement speed6. (Optional) Configuring the measurement range operationDemonstrationIn the default setting, the low terminal of the channels in the Keysight B2900A Series SMU is grounded internally. However, the low terminal can be disconnected from the ground and kept floating. Configur -ing the low terminal state to FLOATING, which enables you to connect the low terminal to any potential up to ±250 V, and measuring current with sourcing 0 V from the channel, which makes it possible to use the channel as an ammeter.1. Configure the low terminal state to FLOATING1) If you aren’t on the top of the Function menu, press repeatedly to return to the top level.2) Press , , and then press to open the Output Connection dialogue.3) Press and select to specify the channel which the Low terminal state is configured for.In the middle level of the Function menu(1) Press Config (2) Press Source (3) Press Connection4) Press and select , and then press to configure the Low terminal state to FLOATING .If the low terminal state of the channel is set to FLOATING, you can see the status indicator on the GUI as below, although no indicator can be seen on being set to GROUNDED.2. Measure current using the SMU (Channel 1) as a ammeter2-1. Change View mode to Ch1 Single View 1) Press repeatedly until the Channel 1 Single View is displayed2-2. Configure the condition to source and measure1) Press to edit the Source function , and then select to set the Source function to Voltage source.GROUNDEDFLOATING2) Press to edit the Source value , and then enter 0 V to set the Source value to 0 V .3) Press to edit the Limit value , and then enter 100 mA to set the Limit value to 100 mA for example.4) Press to configure the Measurement parameter , and then select to set the Measurement parameter to Current .5) Rotate and press to edit the Voltage source range operation . Then Select to set the Voltage source range operation to FIXED .6) Rotate and press to edit the Voltage source range , and then select to set it to 200 mV .2-3. Perform the measurement1) Press for the channel 1 to switch on its output terminal.2) Press to perform a measurement repeatedly. Now you can see the measurement result on the GUI of the B2902/12A as below.3. Enable the DUT, the current source circuitYou can also use your own power supply instead of the channel 2 of the B2902A/12A3-1. Change View mode to Ch2 Single View.1) Press repeatedly until the Channel 2 Single View is displayed.3-2. Configure the condition of the power supply (Channel 2)1) Press to edit the Source function , and then select to set the Source function to Voltage source.2) Press to edit the Source value , and then enter 1.1 V to set the Source value to 1.1 V for example.3) Press to edit the Limit value , and then enter 100 mA to set the Limit value to 100 mA for example.4) Press for the channel 2 to switch on its output terminal and enable the DUT.4. Confirm measured current4-1. Change View mode to Ch1 Single View.1) Press repeatedly until Channel 1 Single View is displayed.You can see about 1 mA as measured value, since 1 V is sourced to a 1.1 kΩ resistor. If you press for the channel 2 to switch it off, you can see only the offset current because the DUT, the current source circuit is disabled.Theoretically speaking, the measured current should be 1 mA since 1.1 V is sourced to a 1.1 kΩ resistor. However, it may be varied because the resistor has some error onits value actually.Power Supply enabled Power Supply disabled5. (Optional) Configuring the measurement speedIn the default setting, the instrument selects the appropriate measurement speed and range automatically to get the fine accuracy. However, you can also specify these parameters on the GUI of the B2900A Series SMU to meet a variety of the requirement to the measurement conditions.For example, let’s try to change the measurement speed to NORMAL to make a mea-surement more carefully. If you select NORMAL, the aperture time is set to 1 PLC. Here, PLC stands for power line cycle and the specified number of power line cycles is used per a measurement.1) Press to edit the Measurement speed, and then select to set theMeasurement speed to NORMAL. (If you can’t see in Assist keys, pressto change the keys shown in Assist keys.)6. (Optional) Configuring the measurement range operationThe parameters which configure the measurement range operation can be displayed in the Range Sub-panel in the Channel 1 Single View. In the default setting, the B2900A Series SMU performs the current measurement using a 1 μA current minimum measure-ment range with AUTO range operation. With AUTO range operation, the B2900A Series SMU selects the proper range for the measurement with the specified minimum mea-surement range so that you don’t need to take care about it. To know how to change the measurement range setting, try to configure to use the 10 μA current minimum mea-surement range with AUTO range operation.1) Rotate and press to edit the Current minimum measurement range and thenselect to set it to 10 μA.If you’d like to fix the measurement range, you can select FIXED range operation as below.2) Rotate and press to edit the Current measurement range operation. ThenSelect to set the Current measurement range operation to FIXED.ConclusionThe Keysight B2900A Series Precision Source/Measure Unit (SMU) is a compact and cost-effective bench-top SMU with the capability to output and measure both voltage and current. Although it has the capability to make a wide range of current versus voltage (IV) measurements as its intrinsic function, the B2900A Series SMU can be used as an ammeter easily.B2900 Precision Instrument FamilyThe B2900 family contains products that perform both precision sourcing andprecision measurement. /find/b2900amyKeysight/find/mykeysightA personalized view into the information most relevant to you.Keysight Infoline/find/InfolineKeysight’s insight to best in class information management. Free access toyour Keysight equipment company reports and e-library.KEYSIGHTSERVICESKeysight Services/find/serviceOur deep offering in design, test, and measurement services deploys anindustry-leading array of people, processes, and tools. The result? We helpyou implement new technologies and engineer improved processes thatlower costs.Three-Year Warranty/find/ThreeYearWarrantyKeysight’s committed to superior product quality and lower total costof ownership. Keysight is the only test and measurement company withthree-year warranty standard on all instruments, worldwide. And, we providea one-year warranty on many accessories, calibration devices, systems andcustom products.Keysight Assurance Plans/find/AssurancePlansUp to ten years of protection and no budgetary surprises to ensure yourinstruments are operating to specification, so you can rely on accuratemeasurements.Keysight Channel Partners/find/channelpartnersGet the best of both worlds: Keysight’s measurement expertise and productbreadth, combined with channel partner convenience.For more information on KeysightTechnologies’ products, applications orservices, please contact your local Keysightoffice. 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We are unlocking the future of technology.From Hewlett-Packard to Agilent to KeysightThis information is subject to change without notice.© Keysight Technologies, 2016Published in USA, August 17, 20165992-1710EN11 | Keysight | Using Source/Measure Unit as an Ammeter – Demo Guide/find/b2900a。

Agilent U1240 Series Handheld Digital MultimetersHelping You Check and Fix More Installation and Maintenance BugsData SheetThe Agilent U1240 Series handheld digital multimeters enable you to check more with wider measurement ranges. They feature true RMS readings on their 10,000-count displays. The adjustable backlighting allows you to complete your jobs even in subdued lighting conditions, or to simply prolong battery life. Your maintenance tasks are greatly simplified due to the built-in switch counter, harmonic ratio, dual and differential temperature capabilities, with just a press of the button. The meters have a high safety rating with CAT III 1000 V and CAT IV 600 V protection and are certified to CE and CSA standards. On top of that, the U1240 Series comes with a certificate of calibration and test report – at no extra cost.The latest multimeters in this series, the U1241B and U1242B, now come in vivid orange cases, offering the capabilities and functions you need.Key featuresCheck more, fix more • 10,000-count display • 0.09% basic DCV accuracy • True RMS AC measurement • Basic functions — ACV, DCV, ACI, DCI, resistance, frequency, diode, continuity tests • Advanced functions — Capacitance, temperature, MINMAX recording Ease of use• Adjustable backlighting — two intensity levels • Manual data logging (U1242B only)• Built-in switch counter,harmonic ratio (U1242B only), dual/differential temperature capabilities (U1242B only)Built to last• Overmold body casing • CAT III 1000 V andCAT IV 600 V safety protection • Certified to CE and CSA standards • Operating temperature:–10 to 55 °CAmbient temperatureT1–T2 Differential Temperature (U1242B only)Functions and ranges at a glanceDC specificationsVoltage11000.0 mV0.1 mV–0.09% + 510.000 V0.001 V–0.09% + 2 100.00 V0.01 V–1000.0 V0.1 V–0.15% + 5Current 1000.0 µA0.1 µA< 0.06 V (50 Ω)0.1% + 3 10000 µA 1 µA< 0.55 V (50 Ω)0.1% + 3 100.00 mA0.01 mA< 0.18 V (0.5 Ω)0.2% + 3 440.0 mA20.1 mA< 0.8 V (0.5 Ω)0.5% + 3 10.000 A30.001 A< 0.4 V (0.01 Ω)0.6% + 5Resistance41000.0 Ω50.1 Ω0.5 mA0.3% + 3 10.000 kΩ50.001 kΩ50 µA100.00 kΩ0.01 kΩ 4.91 µA1000.0 kΩ0.1 kΩ447 nA10.000 MΩ0.001 MΩ112 nA0.8% + 3 100.00 MΩ60.01 MΩ112 nA 1.5% + 3Diode test7 1 V0.001 V approximately 0.5 mA0.3% + 21. Input impedance: 10 MΩ (nominal).2. Current can be measured up to 440 mA continuously. An additional 0.2% needs to be added to the specified accuracy if the signal measured is in therange of 440 mA to 1100 mA for 30 seconds maximum. After measuring a current of > 440 mA, leave the meter to cool down for twice the measur-ing time used before applying a low current measurement.3. Current can be measured up to 10 A continuously with a maximum operating temperature of 50 °C. An additional 0.3% needs to be added to thespecified accuracy if the signal measured is in the range of 10 A to 19.999 A for 15 seconds maximum. After measuring a current of > 10 A, leave the meter to cool down for 60 seconds before applying a low current measurement.4. The maximum open voltage is < 2.8 V. For instant continuity, the built-in buzzer sounds when resistance is < 10.0 Ω.5. The accuracy of 1 kΩ and 10 kΩ is specified after Null function, which is used to substrate the test lead resistance and the thermal effect.6. For the range of 100 MΩ, the R.H. is specified for < 60%. The temperature coefficient will be 0.15 times of specified accuracy as > 50 MΩ.7. Overload protection: 1000 V RMS for circuits < 0.3 A short circuit current. The built-in buzzer sounds when reading is approximately below 50 mV andaudible single tone for normal forward biased diode or semiconductor junction as 0.3 V ≤ Reading ≤ 0.8 V.AC specificationsAC voltage8, 12 True RMS 1000.0 mV0.1 mV–1% + 52% + 5–10.000 V0.001 V–1% + 52% + 5 100.00 V0.01 V–1000.0 V0.1 V––AC current9, 12 True RMS 1000.0 µA0.1 µA< 0.06 V (50 Ω)1% + 5 1.5% + 5–10000 µA 1 µA< 0.55 V (50 Ω)100.00 mA0.01 mA< 0.18 V (0.5 Ω)440.0 mA100.1 mA< 0.8 V (0.5 Ω)10.000 A110.001 A< 0.4 V (0.01 Ω)8. Input impedance: 10 MΩ (nominal) in parallel with < 100 pF, with overload protection of 1000 V RMS9. Crest factor ≤ 3. For non-sinusoidal waveforms with crest factor up to 3, add 2% reading + 2% full scale typical.10. Current can be measured from 50 mA to 440 mA continuously. An additional 0.2% needs to be added to the specified accuracy if the signalmeasured is in the range of 440 mA to 1100 mA for 30 seconds maximum. After measuring a current of > 440 mA, leave the meter to cool down for twice the measuring time used before application of low current measurement.11. Current can be measured from 0.5 A up to 10 A continuously with a maximum operating temperature of 50 °C. An additional 0.3% needs to be addedto the specified accuracy if the signal measured is in the range of 10 A to 19.999 A for 15 seconds maximum. After measuring a current of >10 A, leave the meter to cool down for 60 seconds before applying a low current measurement.12. AC voltage and AC current specifications are AC coupled. True RMS measurement is valid from 5 % of range to 100 % of range. Temperature specificationsThermocouple type Range Resolution Accuracy ± (% of reading + offset error)K (for U1241B and U1242B)–40 to 1000 ºC/–48 to 1832 ºF0.1 °C /0.1 °F1% + 1 ºC/1% + 1.8 °FJ (for U1242B only)–40 to 1000 ºC/–48 to 1832 ºF0.1 ºC/0.1 ºF1% + 1 ºC/1% + 1.8 °FCapacitance specificationsRange Resolution Accuracy ± (% of reading + counts of least significant digit) 1000.0 nF0.1 nF1.2% + 410.000 µF0.001 µF100.00 µF0.01 µF1000.0 µF0.1 µF2% + 410.000 mF0.001 mFHarmonic ratio specificationsRange Frequency Voltage0.0% to 99.9%40 to 500 Hz100 mVAC to 1000 VACSwitch counter definition3Low level Normally close Lo< 370 ohms Intermittent 4Close to open Number of switch count Low to high transition High level Normally open Hi> 430 ohms Intermittent 5Open to closeNumber of switch countHigh to low transition1. Detects intermittent Opens or Closes lasting for at least 250 μsec.2. Test current of 0.5 mA with maximum open circuit voltage of 2.8 V is used.3. Maximum count reading: 199.99 M (display “OL” when achieving 2 x 108 and thereafter).4. Count only low to high transition for initial switch condition of Low.5.Count only high to low transition for initial switch condition of High.Frequency specifications RangeResolutionAccuracy Minimum input frequency100.00 Hz 0.01 Hz 0.03%+3 1 Hz1000.0 Hz 0.1 Hz 10.000 kHz 0.001 kHz 100.00 kHz 0.01 kHz 1000.0 kHz 10.1 kHz1. Effective frequency measurement of up to 200 kHz; refer to frequency sensitivity table below for details.Frequency sensitivity during voltage measurement1000.0 mV 0.3 V 0.6 V 10.000 V 0.5 V 1.8 V100.00 V 5 V 10 V (< 100 kHz)1000.0 V50 V100 V (< 100 kHz)Frequency sensitivity during current measurement1000.0 µA 100 µA 10000 µA 500 µA 100.00 mA 10 mA 440.00 mA 50 mA 10.000 A1 AMeasuring rateACV7DCV (V or mV)7Ω14Diode14Capacitance 4 (< 100 µF)DCA (μA, mA, A)7ACA (μA, mA, A)7Temperature7 (single)Frequency 1 (> 10 Hz)General SpecificationsDisplay Dual display (secondary display is intended for temperature function display only)consists of 4-digit liquid crystal display (LCD) with maximum reading of 11,000 counts.Automatic polarity indication.Power consumption0.22 VA maximumBattery type and life Four single standard 1.5 V AAA batteries (Alkaline or Zinc Chloride type); 300 hourstypicalOperating environment• Full accuracy at –10 to 55 °C; and to 80% RH for temperatures up to 30 °C, decreasinglinearly to 50% RH at 55 °C• 0 – 2000 meters per IEC 61010-1 2nd Edition CAT III, 1000 V / CAT IV, 600 V IEC61010-1 2nd EditionStorage compliance–20 to 70 °CSafety compliance• IEC 61010-1:2001 / EN61010-1:2001• Canada: CSA C22.2 No. 61010-1:2004Measurement category CAT III 1000 V / CAT IV 600 V Overvoltage Protection, Pollution Degree 2EMC compliance• CISPR 11:1990/EN55011:1990• Canada: ICES-001:2004• Australia/New Zealand: AS/NZS CISPR11:2004Common Mode Rejection Ratio (CMRR)> 90 dB at DC, 50/60 Hz ± 0.1% (1 kΩ unbalanced)Normal Mode Rejection Ration (NMRR)> 60 dB at 50/60 Hz ± 0.1%Crest factor< 3.0Temperature coefficient0.1 × (specified accuracy) / °C (from –10 to 18 °C or 28 to 55 °C)Shock and vibration Tested to IEC/EN 60068-2Dimensions (H x W x D)193.8 mm x 92.2 mm x 58.0 mmWeight• 450 g with batteries• 400 g without batteriesWarranty• Three years for main unit• Three months for standard shipped accessoriesOrdering Information• Four 1.5 V AAA alkaline batteries• Certificate of Calibration (CoC)• Test probe leads (4-mm tips)• Quick Start Guide• Free test data (Option UK6)Measuring accessories (non-temperature)U1161A Extended testlead kit Includes two test leads (red and black), two test probes, medium-sized alligator clips and 4-mm banana plugs.• Test leads: CAT III 1000 V, CAT IV 600 V, 15 A• Test probes: CAT lll 1000 V, CAT lV 600 V, 15 A• Medium-sized alligator clips: CAT III 1000 V, CAT IV 600 V, 15 A • 4-mm banana plugs: CAT II 600 V, 10 AU1162AAlligator clips • One pair of insulated alligator clips (red and black).Recommended for use with Agilent standard test leads.• Rated CAT III 1000 V, CAT IV 600 V, 15 AU1163ASMT grabbers • One pair of SMT grabbers (red and black). Recommended for use with Agilent standard test leads.• Rated CAT II 300 V, 3 AU1164A Fine-tip testprobes • One pair of fine-tip test probes (red and black). Recommended for use with Agilent standard test leads.• Rated CAT II 300 V, 3 AU1168A Standard testlead kit Includes two test leads (red and black), 19-mm and 4-mm test probes, alligator clips, fine-tip test probes, SMT grabbers and mini grabber (black).• Test leads: CAT III 1000 V, CAT IV 600 V, 15 A• Test probes (19-mm tip): CAT II 1000 V, 15 A• Test probes (4-mm tip): CAT III 1000 V, CAT IV 600 V, 15 A (highly recommended for CAT IV environment)• Alligator clips: CAT III 1000 V, CAT IV 600 V, 15 A• Fine-tip test probes: CAT II 300 V, 3 A• SMT grabber: CAT II 300 V, 3 A• Mini grabber: CAT II 300 V, 3 AU1169ATest probe leads Includes two test leads (red and black), and a pair each of 19-mm and 4-mm test probes.• Test leads: CAT III 1000 V, CAT IV 600 V, 15 A• Test probes (19-mm tip): CAT II 1000 V, 15 A• Test probes (4-mm tip): CAT III 1000 V, CAT IV 600 V, 15 A (highly recommended for CAT IV environment)U1583BAC current clamp • Dual range: 40 A and 400 A• Rated CAT III 600 V• BNC-to-banana-plug adapter provided for use with DMMsU1241B U1242BMagnetic hangingkitU1179A IR Connectivity Bracke Connect with U1177A IR-to-Bluetooth adapter or U1173A IR-USB cableOrdering Information/find/handhelddmmLAN eXtensions for Instruments puts the power of Ethernet and the Web inside your test systems. Agilent is a founding member of the LXI consortium.Agilent Channel Partners/find/channelpartners Get the best of both worlds: Agilent’s measurement expertise and product breadth, combined with channel partner convenience.For more information on AgilentTechnologies’ products, applications or services, please contact your local Agilent office. The complete list is available at:/find/contactus Americas Canada (877) 894 4414 Brazil (11) 4197 3600Mexico 01800 5064 800 United States (800) 829 4444Asia Pacifi c Australia 1 800 629 485China 800 810 0189Hong Kong 800 938 693India 1 800 112 929Japan 0120 (421) 345Korea 080 769 0800Malaysia 1 800 888 848Singapore 180****8100Taiwan 0800 047 866Other AP Countries (65) 375 8100Europe & Middle East Belgium 32 (0) 2 404 93 40 Denmark 45 45 80 12 15Finland 358 (0) 10 855 2100France 0825 010 700**0.125 €/minute Germany 49 (0) 7031 464 6333 Ireland 1890 924 204Israel 972-3-9288-504/544Italy 39 02 92 60 8484Netherlands 31 (0) 20 547 2111Spain 34 (91) 631 3300Sweden 0200-88 22 55United Kingdom 44 (0) 118 927 6201For other unlisted countries: /find/contactus(BP-3-1-13)Product specifications and descriptions in this document subject to change without notice.© Agilent Technologies, Inc. 2013Published in USA, July 11, 20135989-7040EN/qualityAdvancedTCA ® Extensions forInstrumentation and Test (AXIe) is an open standard that extends theAdvancedTCA for general purpose and semiconductor test. Agilent is a founding member of the AXIe consortium.PCI eXtensions for Instrumentation (PXI) modular instrumentation delivers a rugged, PC-based high-performance measurement and automation system.Quality Management SystemQuality Management Sys ISO 9001:2008DEKRA Certified /find/myagilentA personalized view into the information most relevant to you.myAgilent my Agilent/find/AdvantageServices Accurate measurements throughout the life of your instruments.Agilent Advantage ServicesThree-Year Warranty/find/ThreeYearWarranty Agilent’s combination of product reliability and three-year warranty coverage is another way we help you achieve your business goals: increased confidence in uptime, reduced cost of ownership and greater convenience.。