AgilentN6700模块化电源系统系列

众所周知，智能穿戴产品的续航功耗是非常低的，基本上都是uA级别的电流功耗，所以在产品研发设计中都会使用低功耗测试仪器来进行辅助测试和算法调试，已达到功耗最优，续航最佳的状态。

智能硬件大公司的实验室基本上都会配有Keysight N6705直流电源分析仪来进行低功耗的测试评估，由于其昂贵程度，有一些中小型的公司则会使用性价也比较高的测试仪器进行测试评估，比如Egteks mPower1203仪器。

所以，今天我们针对同一款智能穿戴产品的功耗评估数据，来比较一下Egteks mPower1203仪器和KEYSIGHT N6705仪器的测试数据差异如何。

简单介绍两种仪器：Egteks mPower1203设备是一款集便携式直流供电、高精度电流测试、动态电流波形显示分析以及高性价比为一体的直流分析电源，配合自带的软件工具，可实现待测产品/电路的动态功耗测试评估及分析，同时小尺寸的身材具有非常好的便携优势。

Keysight N6705直流电源分析仪是低功耗评估设备中知名度最高的一款测试设备。

当然其价格也是前者的几十倍，它具有非常丰富的功能，将多达4个先进电源与数字万用表、示波器、任意波形发生器和数据记录仪功能融为一体，可以显著提高为被测器件提供和测量直流电压和电流的效率。

动态低功耗测试评估：使用KEYSIGHT N6705仪器测试一款智能穿戴设备的电流波形，同时使用Egteks mPower1203的电源功能和电流表功能下的Auto模式和Precision模式分别进行相同测试操作。

1.如下图所示，获得两种仪器测试结果，得出穿戴设备的两种状态下的动态功耗（状态1：IDLE；状态2：SLEEP）。

2.将Egteks mPower1203测试值与N6705仪器测试值进行对比，查看两者的测试差异。

测试现场图：测试数据对比：IDLE SLEEP 图示KEYSIGHT93.71uA 57.424uA 4-1/4-2N6705 Test1KEYSIGHT94.68uA 57.694uA 4-3/4-4N6705 Test2KEYSIGHT91.706uA 57.141uA 4-5/4-6N6705 Test3Egteks mPower120395.145uA 58.896uA 4-7/4-8电源功能/AutoEgteks mPower120395.054uA 59.074uA 4-9/4-10电源功能/PrecisionEgteks mPower120394.933uA 60.578uA 4-11/4-12电流表功能/AutoEgteks mPower120394.625uA55.650uA 4-13/4-14电流表功能/Precision从数据对比中可以看出:1.KEYSIGHT N6705仪器的3次测试数据中，由于测量的是动态电流，所以相互之间也会存在一些差异。

Agilent Technologies5000, 6000 and 7000 Series Infi niiVision Oscilloscope Probes and AccessoriesSelection Guide Data SheetTable of ContentsProbe Compatibility Table ......................................................................2Passive Probes .........................................................................................3High-voltage Passive Probes .................................................................4Active Differential Probes ......................................................................5Active Single-ended Probes ...................................................................8Mixed Signal Oscilloscope Logic Probes ...........................................11Current Probes .......................................................................................13Wedge Probe Adapters .........................................................................15PC Connectivity ......................................................................................16 Agilent IntuiLink Software ................................................................16Miscellaneous Accessories .................................................................17 Testmobile ...........................................................................................17 Carrying Cases ....................................................................................17 Rackmount Kit .....................................................................................17Warranty Information (Remove All Doubt) .........................Back cover Contact Agilent.........................................................................Back coverProbe Compatibility TableFor ordering information when replacing your probe or probe accessory: Refer directly to the page number listed in the table of contents for your probe model.To assist you in selecting the proper probe for your application: Use our probe compatibility table below to find the probes that are recommended for use with your 5000, 6000, and 7000 Series InfiniiVision oscilloscope.The 1130A probe amplifi er supports both single- and differential-ended measurements. Higher bandwidth Infi niiMax probe model 1131A, 1132A, and 1134A are also supported by 5000, 6000, and 7000 Series 300 MHz - 1 GHz models.The 1157A and 1158A are also supported by all 5000, 6000, and 7000 Series 300 MHz - 1 GHz models.Recommended for MSO6000A, and MSO7000A, MSOs only.These Infi niium active probes are not supported by 5000, 6000, and 7000 Series – 1152A, 1153A, 1154A, 1155A, 1159A, 1168A, and 1169A.1.2.3.4.5 5Passive probes page 3N2863A 10:1 300 MHz (included in 5000 Series 100/300 MHz)RecommendedCompatibleCompatibleCompatible10070C 1:1 20 MHzRecommended Recommended Recommended Recommended 10073C 10:1 500 MHz(included in 6000 Series 300 MHz - 1 GHz and 5000 Series 500 MHz)CompatibleRecommendedCompatibleRecommended10074C 10:1 150 MHz(included in 6000 Series 100 MHz)Recommended Compatible Recommended Compatible High-voltagepassive probes page 410076A 4 kV Recommended Recommended Recommended Recommended N2771A 30 kV Recommended Recommended Recommended Recommended Active differential probes page 51130A 1.5 GHz 1Compatible Recommended Incompatible Recommended N2772A 20 MHz (use with N2773A)Recommended Recommended Recommended Recommended 1141A 200 MHz (use with 1142A)Compatible Recommended Compatible Recommended Activesingle-ended probes page 81156A 1.5 GHz 2Compatible Recommended Incompatible Recommended 1144A 800 MHz (use with 1142A)IncompatibleRecommended Incompatible Recommended 1145A 750 MHz 2-ch (use with 1142A)Incompatible Recommended Incompatible Recommended Mixed signal oscilloscope logic probes 3 page 1101650-61607 16-channel Incompatible Incompatible Recommended Recommended 54620-68701 2x8-channel (included in MSO6000A)IncompatibleIncompatibleRecommendedRecommendedCurrent probes page 131146A 100 kHzRecommended Recommended Recommended Recommended N2780A 2 MHz (use with N2779A)Recommended Recommended Recommended Recommended N2781A 10 MHz (use with N2779A)Recommended Recommended Recommended Recommended N2782A 50 MHz (use with N2779A)Recommended Recommended Recommended Recommended N2783A 100 MHz (use with N2779A)Recommended Recommended Recommended Recommended 1147A 50 MHzRecommendedRecommendedIncompatibleRecommendedDesigned for optimal performance with your Agilent 5000, 6000, and 7000 Series scope 1:1 and 10:1 attenuation 20 MHz to 500 MHzRugged, high-quality probes at a reasonable priceAgilent 10070-family passive probes are-a great choice if you’re looking for high quality at a very reasonable price. These general-purpose probes are designed specifically to give you optimal performance with your 5000, 6000 and 7000 Series oscilloscopes. Ruggedized for general-purposemeasurements, they feature a durable cable and a solid stainless steel probe body encased with a hard, fracture-resistant plastic. They’re designed and tested to ensure the probes operate in the toughest of conditions The N2863A low-cost passive probe provides a 10:1 attenuation and features a high input resistance of 10 MΩ.•••Passive Probes10074C passive probeHigh-voltage Passive Probes10076A passive probeN2771A high-voltage probe10076A derating curveHigh-frequeny Active Differential ProbeAgilent 1130A Infi niiMax High-performance Active Probe System1.5 GHz InfiniiMax probe system InfiniiMax probe amplifier supports both differential- and single-ended measurements for a more cost-effective solution Unrivaled InfiniiMax probing accessories support browsing, solder-in, and socketed use models at the maximum performance available Compatible with 5000, 6000 and 7000 Series oscilloscopes (except for 6000 series 100 MHz models)The 1.5-GHz 1130A InfiniiMax probe amplifier is a perfect complement to the 6000 Series 1-GHz models. Its 1.5-GHz bandwidth, extremely low input capacitance (0.32-pF), high common mode rejection and thepatented resistor probe tip technology provide ultra low loading of the DUT and superior signal fidelity.Agilent’s innovative InfiniiMax 1130A differential probe is the easiest-to-use, and highest performance probing system available for high-speed digital design, and represent a new industry standard for accuracy, flexibility and reliability. Designers can achieve 1-GHz system bandwidth in conjunction with 1-GHz 6000 and 7000 Series oscilloscopes even when manually browsing with the probe or making hands-off measurements. Optional solder-in probe heads and solder-in sockets as well as browser configuration provide full bandwidth at the probe tip.••••Agilent 1130A Infi niiMax probe offers you the highest performance available for measuring differential and single-ended signals.High-frequeny Active Differential Probe (continued)Agilent 1130A Infi niiMax High-Performance Active Probe SystemFor more comprehensive information about 1130A Infi niiMax probe amplifi er and its accessories, refer to the Agilent Infi niium Osclloscope Probes, Accessories, and Options data sheet with Agilent literature number 5968-7141EN.Active Differential ProbesDerating of each input for the N2772AN2772 20 MHz differential probeHigh-frequency Active Single-ended ProbeAgilent 1156A High-bandwidth Active Single-ended Voltage1.5 GHz probe bandwidth; < 233 ps rise/fall time 100 kΩ, 0.8 pF non-resonant input impedance Small size for easier probing Compatible with 5000, 6000 and 7000 Series (except for 6000 Series 100 MHz models)The Agilent 1156A is a 1.5-GHz active probe for use withAgilent InfiniiVision or Infiniium oscilloscopes. Its high bandwidth (1.5-GHz), low input capacitance (<-0.8-pF) and high input resistance (100 kΩ) input minimizes ultra low loading of the DUT, making it ideal for the companion for the 5000, 6000 or 7000 Series oscilloscopes. When used with the 5000, 6000 or 7000 Series, the 1156A offers you a full bandwidth of the scope to the probe tip, giving you the accurate insight into your hi-speed device.Incorporating the most advanced mechanical and electrical design technologies, the 1156A provide smaller, lighter and more rugged probe tip that enable direct and easy access to fine pitch ICs and components. With the 1156A probe, a damping resistor is placed as close as possible to the point being probed, which keeps the input impedance from resonating low, and it also allows a flat frequency resonance across the entire bandwidth of the probe. The 1156A is designed to withstand 40-V peak AC input and > –5-kV of ESD, so it will function reliably in adverse condition.••••For more comprehensive information about 1156A active probe, refer to the Agilent 1156/57/58A ActiveProbes Product Overview with Agilent literature number 5988-3361EN.Agilent 1156A active probe with accessoriesActive Single-ended ProbesUp to 800-MHz bandwidth 10:1 attenuationCompatible with 5000, 6000, and 7000 Series 300-MHz - 1-GHz oscilloscopesAgilent 1144A active probeThe 1144A features 800-MHzbandwidth, 1-MΩ input resistance, 2-pF input capacitance, 10:1attenuation and ±40-Vdc + peak ac maximum input voltage. An FET at the input allows a high input resistance and low input capacitance which minimizes the loading of the circuit under test. The output impedance of the probe is 50-Ω which allows the probe cable to be extended with a 50-Ω coaxial cable. To use this probe with 5000, 6000 or 7000 Series oscilloscope, the 1142A power supply is required. The 01144-61604 adapter can be used with the power supply to provide power for two channels of active probing.•••1144A active probeSpecifi cations for 1144A active probeBandwidth ≥ 800 MHz Risetime (calculated)≤ 440 psAttenuation ratio10:1, ±2% (when connected to an instrument input of 50 ohm, ±0.5%)Input resistance 1 MΩ, ±5%Maximum input voltage ±40 V (dc + peak ac)Inputcapacitance* 2 pF (typical)Input dynamic range*0 to ±7.0 VMaximumnumber of probes supported by 5000/6000/7000 Series 4Powerrequirementsdc ±12 V to ±15 V ±5%(at approximately 75 mA each supply)Weight Net Probe body Shipping Approximately 180 g (6.5 oz)35 g (~1.25 oz)Approximately 0.8 kg (1.75 lb)Temperature Operating Non-operating 0 to 55 °C (32 to 131 °F)–40 to +70 °C (–40 to +158 °F)Humidity OperatingNon-operatingUp to 95% relative humidity (non-condensing) at 40 °C (104 °F)Up to 90% relative humidity at 65 °C (149 °F)Altitude Operating Non-operatingUp to 4,600 meters (15,000 ft)Up to 15,300 meters (50,000 ft)Active Single-ended Probes (continued)Agilent 1145A 2-channel active probeThe two-channel 1145A low-mass active probe has a probe tip that weighs less than 1-gram making it ideal for attaching to find pitch ICs and probing surface mount components. The probe combines high bandwidth (750-MHz), low input capacitance (2-pF) and high input resistance (1-MΩ). A versatile set of accessories are provided and when used in conjunction with the Wedge adapter, the 1145A provides a hands-free solution for probing 0.5-mm and 0.65-mm IC packages. To use this probe with 5000, 6000 or 7000 Series or oscilloscope, the 1142A power supply is required.1145A active probeSpecifi cations for 1145A active probeBandwidth 750 MHz Risetime (calculated)470 ps Attenuation ratio 10:1, ±3%Input resistance 1 MΩ, ±2%Maximum input voltage ±40 Vdc + peak ac Inputcapacitance* 2 pF (typical)Input dynamic range*0 to ±6.0 VMaximumnumber of probes supported by 5000/6000/7000 Series2Mixed Signal Oscilloscope Logic Probes01650-61607 logic probe54620-68701 logic probeMixed Signal Oscilloscope Logic Probes (continued)The 6000 and 7000 Series MSO digital channels were architected to be compatible with a wide variety of probing accessories developed over 20 years for logic analyzers. There’s a good chance that the logic analyzer accessories you already own work with your MSO. With the addition of an optional 40-pin cable, 01650-61607, the MSO accepts numerous logic analyzer accessories:E5346A 34-channel Mictor connector probe E5385A 34-channel Samtec connector E5383A 16-channel flying lead set 01650-63203 16-channeltermination adaptor (also available as a bundle of both the termination adapter and the 40-pin cable with PN 10085-68701) E5404A 34-channel soft touch pro connectorless probe E5394A 34-channel soft touch connectorless probe E5396A 16-channel soft touch connectorless probe Any other accessory that connects to a logic analyzer via a 40-pin cable••••••••For logic accessories of greater channel width than MSO digital channels (> 16 channels), there are two use models.Route up to sixteen signals to the probe and don’t use the additional probe channels. Route up to 32 signals to the probe and measure ½ of them at a time. Simply plug the 40-pin cable to the other side of the probe to see the other ½ of the signals.••E5346A 34-channel Mictor connectorprobeE5385A 34-channel Samtec connectorprobeE5396A 16-channel soft touchconnectorless probeCurrent ProbesUp to 100 MHz bandwidth and 500 Arms current Hybrid technology to measure ac and dc Compatible with any 1 MΩ scope inputAccurate currentmeasurements without breaking the circuitCompatible with any scope or voltage measuring instruments with BNC input, the 1146A and N2780A Series current probes offer accurate and reliable solutions for measuring dc and ac currents. The probes use a hybrid technology that includes a Hall effect sensor, which senses the dc current and a current transformer, which senses the ac current, making it unnecessary to make an electrical connection to the circuit.1146A 100 kHz current probeThe 1146A ac/dc current probe provides accurate display and measurement of currents from100 mA to 100 Arms, dc to 100-kHz, without breaking into the circuit. A battery level indicator and overload indicator help ensure proper readings. It connects directly to the scope through a 2 m coaxial cable with an insulated BNC.•••N2780A Series current probes with N2779A power supply1147A 50-MHz current probe with AutoProbe interfaceThe 1147A is a wide bandwidth, dc to 50-MHz current probe. The probe offers flat frequency response across the entire dc to 50-MHzbandwidth, low noise (< –2.5-mArms) and low circuit insertion loss. The 1147A probe is compatible with the AutoProbe interface, which completely configures the oscilloscope for the probe when used with the 5000/7000 Series and 300-MHz - 1-GHz 6000 Series scope. Probe power is provided by the scope, so there is no need for an external power supply.N2780A/81A/82A/83A 2-MHz/10-MHz/50-MHz/100-MHz current probeThe N2780A Series current probes are high bandwidth, active current probes, featuring flat bandwidth, low noise (< –2.5-mArms) and low circuit insertion loss. In conjunction with the power supply (model N2779A), this probe can be used with anyoscilloscope having a high-impedance BNC input. The companion power supply N2779A (3x 12 Vdc output) lets you connect three N2779As to asingle power supply.1146A 100 kHz current probe1147A 50-MHz current probe with AutoProbe interfaceCurrent Probes (continued)For more information about the N2780A Series current probes, refer to the Agilent N2780A Series current probe data sheet, Agilent literature number 5989-6432EN.Characteristics marked with asterisks are specifi ed performance. Others are typical characteristics.*Wedge Probe AdaptersEasy connection to surface mount ICs Safe, with no chance of shorting Mechanically non-invasive contact 3-, 8-, and 16-signal versions Supports 0.5 mm and 0.65-mm TQFP and PQFP packagesProblem-free probingThe Agilent Wedge Probe Adapter eliminates many of the frustrations associated with probing surface mount components. If you’ve ever accidentally shorted IC pins together, experienced electrical and/ormechanical problems with soldering small wires onto leads, or gotten frustrated juggling multiple probes while you’re trying to operate your scope, the Wedge was designed with you in mind.Make the inaccessible accessibleWhen you use the Wedge, you don’t have to worry about shorting IC pins together on a delicate component – or worse yet on an irreplaceable prototype. The Wedge is easy to insert and it stays put. There’s no need to solder small wires onto leads. The Wedge is mechanically non-invasive, so you won’t damage the legs of the IC. Instead, you’ll have easy access to hard-to-reach components.Electrical reliabilityThe Wedge makes two contact points with each leg of the IC. This redundant physical connection increases the electrical reliability of the connection. And the Wedge’s low capacitance and inductance provides superior performance to many other alternatives.•••••PC ConnectivityGet scope data into your PC with Agilent IntuiLink without programmingIdeal for documentation and archivingWorks in familiar Microsoft ® Excel and Word environments Leverage the power of Excel for data analysis and advanced graphing ActiveX controls provided for more flexible scope programming Compatible with 5000, 6000 and 7000 Series To simplify the task of transferring images and waveform data to your PC, Agilent IntuiLink software is offered free for all 5000, 6000 and 7000 Series scopes. IntuiLink Toolbar provides easy access to the scope data and images from within your standard PC applications. You work in a familiar environment at all times, using PC applications such as Microsoft Excel or Word to analyze, interpret, display, print, and document the data you get from the scope. The IntuiLink toolbar makes it easy, providing a simple way to download data and screenshots into a spreadsheet or document. You can also save the scope settings and retrieve them later to reproduce difficult setups like glitch capture and complex triggering.•••••Simple transfer of images and data with IntuiLink ToolbarMinimum operating system requirements:Windows ® 95/98, or Me Windows NT ® 4.0 (with Service Pack 4 or greater, obtain at )Windows 2000Windows XPMinimum MS Offi ce application requirements:Microsoft Office 2000 (Word or Excel) or Microsoft Office XP Microsoft Office 2003IntuiLink Data Capture software for transferring megabytes of data to PCThe IntuiLink Data Capture is astandalone software for downloading waveform data and screen image from 5000, 6000 or 7000 Oscilloscopes to the PC via USB,•••••••N2760A Soft carrying case for the 5000 Series N2916B Rackmount Kit for 5000/6000 SeriesN2917B Hard carrying case for the 5000 and 6000 SeriesProbe positionersEasy-to-manipulate probe arms for hands-free browsing One- or two-articulated arms with stable high-mass base Quick and stable XY positioning Weight stabilization technique in probe holder keeps constant pressure at the probing point Compatible with most scope probes Applications: Hands-free browsing for electronic components on PC board The N2784A and N2785A probe positioners provide quick and stable X-Y positioning for PC boards and devices that require hands-free probing.Unlike other probe positioners that require multiple adjustments to lock the probe holder into position, the N2784A and N2785A need only the “lift and drop” motion to put the probe in place. The weight stabilization technique used inthese probe holders keeps constant pressure at the probing point so the probe tip stays in position even when the target board is bumped. The N2784A and N2785A arecompatible with most Agilent scope probes including InfiniiMax single-ended or differential probe. They are also compatible with various probes manufactured by other vendors. The N2784A comes with a single positioning arm while the N2785A comes with two positioning arms.••••••Ordering information N2784A 1-arm probe positioner 1N2785A2-arm probe positioner1Includes 3x magnifying glass, arm strap, cable tie, probe rest and manual.N2784A one-arm probe positionerN2785A Two-arm probe positionerAgilent Technologies OscilloscopesMultiple form factors from 20 MHz to >90 GHz | Industry leading specs | Powerful applications© Agilent Technologies, Inc. 2008Printed in USA, November 13, 20085968-8153ENMicrosoft, Windows and Windows NT are U.S. registered trademarks of Microsoft Corporation.Product specifi cations and descriptions in this document subject to change without notice.。

•Control ECal directly from the PNA or ENA •300 kHz to 26.5 GHz module •10 MHz to 67 GHz module •Nine connector types available•Ideal calibration technique for manufacturing •Mixed-connectors available(Type-N 50 ohm, 3.5 mm and 7-16)Agilent Electronic Calibration (ECal) Modules for Vector Network AnalyzersN4690 Series, 2-port Microwave ECal 85090 Series, 2-port RF ECal N4430 Series, 4-port ECalTechnical Overview198125. ENA series consists of E5070/1.6. ENA-L series consists of E5061/2.7.N3381/2/3 have been discontinued.8. PNA-L series consists of N5230.ECal and Agilent Network Analyzer ConfigurationsPNA and ENA SeriesECal modules are controlled directly from the PNA and ENA Series network analyzers. No external PC is required. Simply connect the ECal module to the USB port on the network analyz-er. You can control your calibra-tion from the front panel keys of the PNA Series or automatically by your user program.Calibration configuration using the PNA series3Perform adapter removal calibrations fasterSome analyzers, such as later versions of the 8753 and 8720, offer adapter removal calibration for non-insertable and mixed connector measurement capabil-ity. Since this method requires two full two-port calibrations, it is often time consuming and prone to operator errors. Using ECal to perform the two-port calibrations addresses both of these concerns by reducing the calibration time and the number of connections, simplifying the overall adapter removal process.Perform a User-characterization Normally, when you perform a calibration with an ECal module, the error terms for a calibration are computed using the factory characterization (data) stored in the module. User-characteriza-tion allows you to change the characterization of the module in two ways:• Change the connector configuration: allows you to add an adapter or fixture to the test port of the module and embed the effects into the characterization of the module. The result of the new characterization extends the reference plane from one or more of the module’s test ports to those on the adapter (or fixture).• Modify the state settings: allows you to specify the number of data points (1601 maximum) or other stimulus settings the module uses to perform a cali-bration.When you perform a user-charac-terization, the factory characteri-zation data remains stored in the module’s memory. At calibration, you can select the factory characterization or any of the user-defined characterizations stored in the module. The module can store up to five user-defined characterizations (in addition to the factory characterization data). User-characterization is available with PNA and ENA Series Network Analyzers.41. If the maximum input power is exceeded when calibrating, compression may occur.2. When using the PNA-X, the power level can be increased after calibration with minimal impact on measurement accuracy.3. When mated with male connectors with a 0.77 mm (0.030 in) to 0.86 mm (0.034 in) pin diameter51. When applied power exceeds +9 dBm, calibration results will be degraded from the performance indicated in the table.2. When applied power exceeds –5 dBm, calibration results will be degraded from the performance indicated in the table.3. 3.5 mm modules have precision slotless connectors that guarantee the best calibration accuracy is transferred to your system.61.When applied power exceeds +9 dBm, calibration results will be degraded from the performance indicated in the table.2. When applied power exceeds –5 dBm, calibration results will be degraded from the performance indicated in the table.73. Performance from 9 kHz to 300 kHz is valid only for the E5071C ENA network analyzer with firmware version A.09.10 or higher.4. 9 to 13.5 GHz range not vaild for the N4431A81. When applied power exceeds –7 dBm, calibration results will be degraded from the performance indicated in this table.2. Values based on using the PNA Network Analyzer N5230A Option 240 or 245910Ordering informationSelect an ECal module based on the connector type required and the frequency range of your vector network analyzer (refer to table below).OptionsOption Description00F Replace f-m connectors on ECal module(s) with f-f connectors 00M Replace f-m connectors on ECal module(s) with m-m connectors00A Adds male-to-male and female-to-female adapters (also adds a 5/16” 90 N-cm (8 in-lb) torque wrench to 3.5 mm modules)1A7ISO 17025 compliant calibration A6J ANSI Z540 compliant calibrationUK6Commercial calibration certificate with measured data M0F f-m connectors on ECal module(s)010Four female, 3.5 mm connectors 020Four female, Type-N 50 ohm connectorsECal modules and available options2-portConnector Frequency range ECal module Available options Type model number Type-F300 kHz to 3 GHz85099C 00A, 00F, 00M, UK6, M0FType-N 300 kHz to 9 GHz 85092C00A, 00F, 00M, UK6, 1A7, A6J, M0F,50 ohms mixed-connectorsType-N 300 kHz to 18 GHz N4690B00A, 00F, 00M, UK6, 1A7, A6J, M0F 50 ohmsType-N 300 kHz to 3 GHz 85096C 00A, 00F, 00M, UK6, M0F75 ohms3.5 mm 300 kHz to 9 GHz85093C00A, 00F, 00M, UK6, 1A7, A6J, M0F mixed connectors3.5 mm 300 kHz to 26.5 GHz N4691B 00A, 00F, 00M, UK6, 1A7, A6J, M0F 7 mm 300 kHz to 9 GHz 85091C UK6, 1A7, A6J 7 mm 300 kHz to 18 GHz N4696BUK6, 1A7, A6J7-16 300 kHz to 7.5 GHz 85098C 00A, 00F, 00M, UK6, M0F, mixed-connectors 2.92 mm 10 MHz to 40 GHz N4692A 00A,00F, 00M, UK6, 1A7, A6J, M0F 2.4 mm 10 MHz to 50 GHz N4693A 00A,00F, 00M, UK6, 1A7, A6J, M0F 1.85 mm10 MHz to 67 GHzN4694A00A,00F, 00M, UK6, 1A7, A6J, M0F4-portConnector Frequency range ECal module Available options Type model number 3.5 mm or 9 kHz to 13.5 GHz N4431B010, 020, UK6, 1A7, A6J, mixed-connectorsType-N 50 ohms Type-N 300 kHz to 18 GHz N4432A 020, mixed-connectors 50 ohms 3.5 mm300 kHz to 20 GHzN4433A010Notes:1. Order the 85097B interface module if you will be using ECal with your 8719, 8720, 8722 or 8753. (Please reference the ECal and network analyzer/firmware compatibility table on page 3.) The 85097B con-sists of an interface module and a power supply.2.When using the N469x ECal prod-ucts with the 8720 or 8753 network analyzer families, an adapter cable (8121-1047) is needed. This adapter cable is orderable as an option with the 85097B.1.Performance from 9 kHz to 300 KHz is valid only for the E5071C ENA network analyzer with firmware version A.09.10 or higher.1111.Limits ECal module high frequency to 7.5 GHz.Remove all doubtOur repair and calibration services will get your equipment back to you, performing like new, when prom-ised. You will get full value out of your Agilent equipment through-out its lifetime. Your equipment will be serviced by Agilent-trained technicians using the latest factory calibration procedures, automated repair diagnostics and genuine parts. You will always have the utmost confidence in your measurements. For information regarding self maintenance of this product, please contact your Agilent office.Agilent offers a wide range of ad-ditional expert test and measure-ment services for your equipment, including initial start-up assistance, onsite education and training, as well as design, system integration, and project management.For more information on repair and calibration services, go to:/find/removealldoubt/find/emailupdatesGet the latest information on theproducts and applications you select./find/agilentdirectQuickly choose and use your testequipment solutions with confidence./find/openAgilent Open simplifies the process of connecting and programming test systems to help engineers design, validate and manufacture electronic products. Agilent offers open connectivity for a broad range of system-ready instruments, open industry software, PC-standard I/O and global support, which are combined to more easily integrate test system development.For more information on Agilent Technol-ogies’ products, applications or services, please contact your local Agilent office. The complete list is available at:/find/contactus Americas Canada(877) 894-4414Latin America 305 269 7500United States (800) 829-4444Asia Pacific Australia 1 800 629 485China800 810 0189Hong Kong 800 938 693India 1 800 112 929Japan 0120 (421) 345Korea 080 769 0800Malaysia 1 800 888 848Singapore 180****8100Taiwan 0800 047 866Thailand1 800 226 008Europe & Middle East Austria 01 36027 71571Belgium 32 (0) 2 404 93 40 Denmark 45 70 13 15 15Finland 358 (0) 10 855 2100France 0825 010 700**0.125 €/minuteGermany ************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 55Switzerland 0800 80 53 53United Kingdom 44 (0) 118 9276201Other European Countries:/find/contactusRevised: October 6, 2008© Agilent Technologies, Inc. 2002-2009Printed in USA, February 3, 20095963-3743EWindows ®and Windows NT ®are U.S. registered trademarks of Microsoft Corp.Product specifications and descriptions in this document subject to change without notice.Web ResourcesVisit our Web sites, for additional product information and literature.Electronic calibration (ECal):/find/ecalPNASeries network analyzers:/find/pnaTest and measurement accessories:/find/accessories。

23···分段存储器DSO/MSO 离线分析电源管理 硬件加速的串行解码I 2C 、SPI CAN/LIN ··矢量信号分析内核辅助FPGA 调试安全环境RS-232/UARTFlexRay ·····4您的设计中有模拟、数字和串行信号…示波器是否也应该能够处理这些信号呢？MegaZoom III 技术。

MegaZoom III 深存储器可捕获长时间内不重复的信号，并保持高采样率，可快速放大您关注的区域。

采样率和存储器深度联系紧密。

示波器的深存储器可在长时间内保持高采样率。

快速发现偶发错误。

硬件加速解码增加了捕获到疑难事件的概率。

在间歇性故障遭到客户抱怨或关系到产品质量之前，安捷伦示波器可帮助您捕获到这些问题。

混合信号触发器。

可同时触发任意组合的模拟和数字信号。

一台仪器中包含精确的模拟测量和准确的数字内容，且它们之间有时间关联。

数字通道的应用。

使用Altera 或XilinxFPGA 进行设计？使用FPGA 动态探头进行快速的内部FPGA 测量。

使用I2C 、SPI 或RS-232？使用4通道型号的模拟或数字信号来采集和解码这些串行总线。

InfiniiVision 7000系列示波器通道可更快地确定疑难问题。

创新的高分辨率显示。

InfiniiVision 7000系列示波器具有XGA显示和256级的亮度，可精确表述您正在测试的信号的模拟特征。

配备有业内最快速的更新速率，可达100000波形/秒，您可捕获关键的信号细节，察看偶发事件，而这些在传统的示波器上可能被漏掉。

模拟信号：高达1 GHz 带宽和4 GSa/s采样率数字信号：具有混合信号触发的16位定时通道捕获模拟或数字的混合信号。

比较数字信号的多个周期和较慢的模拟信号。

具有高达2 GSa/s 深存储器的16位高速定时通道。

使用定时通道来评测控制信号关系。

产品耗电测试从未如此简单安捷伦直流分析仪N6705B在低功耗分析中的应用孙川系统仪器市场开发 电话：10-64397274 电子信箱：chuan_sun@Page 1新平台：N6700 模块化电源系统 Award Winning Flagship Family Since 2004N6700 Low-Profile MPS Mainframe Intro: Jan 2004N6700 DC Power Modules (26 models)N6705 DC Power Analyzer Mainframe Intro: May 2007"The small size and modularity of the N6700 are just what we need.“-Defense contractor developing radio systems“After you start using it, you can’t work without it anymore.”-Wireless platform/semiconductor developer May 2010“Makes a perfect power measurement system for FB-DIMM modules”-Major semiconductor device manufacturer新平台：N6700 模块化电源系统 Award Winning Flagship Family Since 2004Page 3安捷伦独特的解决方案N6705A 直流分析仪单台仪器中整合多种测试仪器的功能， 为研发工程师大幅度提 高工作效率• 1 至 4 路高性能电源输出 • 数字电压表和电流表 • 带功率输出的任意波形发生器 • 示波器 • 数据采集 • 所有的测量和功能都能通过前面板实 现短时间内快速详细的掌握在各种情况下DUT的工作情况 而不需要写一行代码!议程1. N6705B简介和回顾 2. N6781/82A源表模块在低功耗分析 中的应用 3. N6781/82A作为电子负载在电源芯 片测试中的应用 4. 安捷伦太阳能测试方案Page 5N6705B的典型应用：仿真供电中断、故障现象1. 供电系统内部电源的切换过程• • • •2.地面供电 切换至内部供电 运行过程中，内部供电电源之间的切换，如多个直流发电机之间的切换 特殊情况：内部电源 切换至 备份电源，如卫星进入阴影区域，或者航 天器主发电机产生故障 由电源切换所造成的供电中断时间应小于50ms短路造成电压跌落和供电中断，造成短路的原因： • 绝缘损坏，连线故障，战斗损伤等 • 短路保护主要由熔断器来实现短路现象3.抛负载现象• •• 其他干扰现象负载突变(如电池与发电机的连接脱落)会导致输出 电压产生巨大波动WWFO Decision可能造成供电中断、故障的原因 #1供电电源之间的切换供电电源间的切换导致电压波动甚至中断，这种电源波动会对机载设备 产生影响，导致电子产品非正常关机，死机或进入错误工作状态电池供电切换至发电机供电时，典型的电压跌落、摆动波形模拟常见情况下保险丝熔断时，对周围电路供电的影响可能造成供电中断、故障的原因 #2短路为防止短路造成的电源系统故障，熔断保险丝或断路器被应用于每条供电 线路中，以防止过大电流的出现。

E6000C Mini-OTDRTechnical Data SheetSpecifications describe the instrument´s warranted performance, measured with typical PC-type connectors. Uncertainties due to the refractive index of fiber are not considered.The following section contains both Specifications and Characteristics:• Specifications describe the instrument´s warranted performance.•Characteristics and typical data provide information about the non-warranted instrument performance.ISO 9001The Agilent Technologies E6000C Mini-OTDR is produced to the ISO 9001 international quality system standard as part of Agilent´s commitment to continually increasing customersatisfaction through improved quality control.1981CharacteristicsHorizontal Parameters• Start-km: 0 km to 400 km• Span: 0.1 km to 400 km• Readout resolution: 0.1 m• Minimum sample spacing: 4 cm • Refractive index: 1.00000 to 2.00000• Length unit: km, ft, or miles• Measurement points: up to 64000 Vertical Parameters• Vertical scale: 0.1 to 10.0 dB/Div • Read-out resolution: 0.001 dB• Reflectance range: –14 dB to –60 dB • Backscatter coefficient: 10 to 70 dB at 1 µsPulsewidthYou can select any of the following pulsewidths:• 10 ns, 30 ns, 100 ns, 300 ns, 1 µs, 3 µs, and 10 µs (all modules). You can alsoselect 5 ns for E6003C, 5A, 9Amodules, and 20 µs for E6003B,E6003C, E6008B, and E6013A.With the E6005A module, you can select a pulsewidth from 5 ns to 100 ns at 850 nm, and from 5 ns to 10 µs at 1300 nm.With the E6009A module, you can select a pulsewidth from 5 ns to 100 ns at 850 nm, and from 5 ns to 1 µs at 1300 nm.Storage• 3.5” floppy disk drive: for high density720/1440 kByte floppy disks. MS-DOSformat compatible. Reduced operatingtemperature of 5°C to 45°C, with 35%to 80% humidity at 40°C.• Memory Card: PCMCIA Type II.440 MB with up to 13000 traces(typical with 64000 data points).• Internal memory: SRAM up to 2 MB.Up to 300 traces(typical) with 4000data pointsOTDR Trace Formats• Trace format: compliant to thefollowing Bellcore/Telcordia OTDRtrace formats:− GR 196, Revision 1.0− GR 196, Revision 1.1− SR-4731 Revision 2.0.• Trace Information: 5 comment labelsof up to 15 alphanumeric characters,and 5 comment fields of up to 41alphanumeric characters are providedfor each trace.• Real-time clock and dateScan Trace• Type of events: reflective and non-reflective.• Maximum number of events: 100.• Threshold for non-reflectiveevents: 0.0 to 5.0 dB, selectablein 0.01 dB steps.• Threshold for reflective events:–14.0 to –65.0 dB,selectable in 0.1 dB steps.• Threshold for fiber breaks:0.1 to 10 dB, selectable in 0.1 dBsteps.• Fiber End Threshold: 0.1 to 20 dB,selectable in 0.1 dB steps.Display• Color or monochrome VGA-LCD:18.3 cm (7.2”)• Display points: 640 x 480 Points• Measurement update rate:two measurements per second inrefresh modeInterfaces• RS232C:Maximum transmission rate:115200 bpsTransmission time at 115200 bps fortrace data: 4000 points at approx.1 second; 64000 points at approx.4 seconds.• Centronics: Standard parallel port(SPP).• Keyboard: PS2 (Min-DIN). For EnglishStandard, PS2, or AT keyboard.General• Automatic setup analysis• Instrument settings: storage andrecall of user-selectable instrumentsettings.• Laser safety class: All OTDR lasersources specified by this data sheetare classified as Class 1M accordingto IEC 60825–1 (2001).The Visual Fault Finder Sub-ModuleE6007A complies with Class 2 according toIEC 60825–1 (2001).All laser sources comply with 21 CFR1040.10 except for deviations pursuant toLaser Notice No. 50, dated 2001-July-26• Recommended module recalibrationperiod: 2 years. (OTDR Modules andPower Meter only)• Dimensions: 194 mm H, 290 mm W,75 mm D (7.7” x 11.4” x 3.0”).• Weight: net < 2.9 kg (6.4 lbs), typical,including battery pack and OTDRmodule.2Built-in Applications• Automatic Multi Fiber Test• Pass/Fail Test• Fiber Break Locator• Power Meter / Loss Test mode 1• Visual Fault Finder mode 1• Optical Return Loss• End to End Loss• Easy OTDR• OTDR Training• OTDR Assistant1 The E6013A 1310/1550/1625 nm Mini-OTDR module does not have a slot available for E6006A Power Meter Sub-module or theE6007A Visual Fault Finder Environmental• Operating Temperature: 0°C to 50°C • Storage Temperature: –40°C to +60°C • Humidity: 95% R.H from 0°C to 40°C Power• AC: 100 – 240 Vrms ± 10% 50–60 Hz • DC: 16 – 24 V• External Battery: NiMHtypically 8 hours continuousoperation (minimum 4 hours) withOption #006. Charging time < 3 hours,non-operating• Low battery indicator• Battery charge status34Module Specifications / CharacteristicsSpecifications: Optical performanceMeasured at 22°C ± 3°C. Guaranteed specifications unless otherwise noted. Bold values are typical specificationsModuleE600E60033AE6003E6003B BCentral Wavelength 13101310 nm nm ± 25 nm/155015501550 nm nm ± 25 nm1310 nm ± 25 nm/1550 nm 1550 nm ± 25 nmApplicable Fiber single modesingle modePulsewidth 10 ns 100 ns 1 µs 10 µs 10 ns 100 ns 1 µs 10 µs 20 µs Dynamic Range 1[dB ]19/1724/2230/2935/3419/1724/2230/2938/3740/39Event Deadzone23 3 m m3 3 m m Attenuation Deadzone 310/12m 10/12 m ModuleE6003E6003C CE6004ACentral Wavelength 1310 nm ± 25 nm/1550 nm 1550 nm ± 25 nm1310 nm ± 25 nm/1550 nm 1550 nm ± 25 nmApplicable Fiber single-modesingle-modePulsewidth 10 ns 100 ns 1 µs 10 µs 20 µs 10 ns 100 ns 1 µs 10 µs Dynamic Range 1[dB ]21/2027/2533/3240/3943/4113/1318/1823/2330/30Event Deadzone21.5 1.5 m m 3m 3 m Attenuation Deadzone 38/1/100 m 10/12 m ModuleE6008BE6012ACentral Wavelength 1310 nm ± 25 nm/1550 nm 1550 nm ± 5 nm1550 nm ± 25 nm/1625 nm 1625 nm ± 20 nmApplicable Fiber single-modesingle-modePulsewidth 10 ns 100 ns 1 µs 10 µs 20 µs 10 ns 100 ns 1 µs 10 µs 20 µs Dynamic Range 1[dB ]24/2229/2735/3442/4145/4322/1827/2434/3041/404043/ -Event Deadzone23 m 3 m Attenuation Deadzone 310/12 m 12/14 m ModuleE6005AE6009ACentral Wavelength 850 nm ± 30 nm/1300 nm 1300 nm ± 30 nm850nm ± 30 nm/1300 nm 1300 nm ± 30 nmApplicable Fiber multimode 62.5 µmmultimode 62.5 µmPulsewidth 10 ns 100 ns 1 µs 10 µs 10 ns 100 ns 1 µs Dynamic Range 4[dB ]19/1726/22- /28- /3412/1218/18- /23Event Deadzone53 m 3 m Attenuation Deadzone 610 m10 mModuleE6013ACentral Wavelength 1310 nm ± 25 nm/1550 nm 1550 nm ± 25 nm/1625 nm 1625 nm ± 20 nmApplicable Fiber single-modePulsewidth 10 ns 100 ns 1 µs 10 µs 20 µs Dynamic Range 1[dB ]18/17/1723/22/2229/28/2836/35/3539/38/37Event Deadzone23 m Attenuation Deadzone310/12/14 mThe guaranteed values aboveare tested specifications.Agilent OTDR modules have the pulsewidths listed in “Pulsewidth“ on page 2.5Notes:1 Measured with a standard single-mode fiber at SNR=1 noise level and with 3minutes averaging time. Optimize mode:dynamic2 Reflectance ≤ –35 dB at 10 nspulsewidth, and with span ≤ 1000 m at 4 cm sample spacing, optimize resolution.E6003C at 5 ns pulsewidth (< –40 dB); with FW Rev. 6.41 and higher3 Typical Specification at Reflectance ≤ –50 dB at 30 ns pulsewidth, and with span ≤4 km (typical value).4 Measured with a standard 62.5 µm guided index multimode fiber at SNR=1noise level and with 3 minutes averaging time, optimize dynamic.5 Reflectance ≤ –35 dB at 5 ns pulsewidth,and with span ≤ 4 km, optimize resolution.6 Reflectance ≤ –35 dB at 10 ns pulsewidth, and with span ≤ 4 km.Module CharacteristicsDistance AccuracyA• Offset Error: ± 1 m • Scale Error: ± 10–4•Sampling Error: ± 0.5sampling spacingLoss/Reflectance AccuracyB• Backscatter Measurements:± 0.05 dB (1 dB step), typical •Reflectance Measurements C:± 2.0 dB, typicalAcoustic Noise Emission < 40 dBA, not continuous.Data are results from type tests per ISO 7779 (EN 27779).Notes:A Total distance accuracy = ± (offset error+ scale error *distance+ sampling error).B SNR ≥ 15 dB and with 1 µs, averaging time max. 3 minutes.C –20 dB to –60 dB, 100 nsSource ModeE600E60033A , , E6003E6003E6003B B , E6003, E6003C C ,E6004A, E6008BE6005A, E6009A E6012A, E6013A built-in CW dual laser sourcebuilt-in CW dual laser source built-in CW dual/triplelaser source CW output power –3 dBm–20 dBm (850 nm)–13 dBm (1300 nm)–3 dBm (E6012A)–8 dBm / –7 dBm / –6 dBm 1310 / 1550 / 1625 nmCW stability(15 min., T=const.)after a 10 minute warm-up with CW on ±0.1 dB ±0.15 dB±0.1 dB / ±0.15 dBOptical OutputUser-exchangeable Connector Interfaces Source Mode Modulation270 Hz, 1 kHz and 2 kHz squarewave, CodeAgilent E6006A Power Meter Submodule 2 CharacteristicsSensor element: InGaAsWavelength range: 800 – 1650 nm Calibrated wavelengths: 850 nm,1300 nm, 1310 nm, 1550 nm, 1625 nm (special wavelengths upon request). Power range: +10 to –70 dBmMax. input power (damage level):+13 dBm / 20 mWDisplay Resolution: 0.01 dBDisplay Units: dBm, dB, mW, µW, nW, pWDisplay Contents• Calibrated λ in nm• Modulation frequency in Hz• Reference value in dBDisplay Updates per second: 3Optical input: User-exchangeable Connector InterfaceApplicable fiber type: 9/125 µm,50/125 µm, 62.5/125 µm2 E6006A Power Meter Submodule not available for E6013A 1310/1550/1625 nm Mini-OTDR module SpecificationsUncertainty at reference conditions:± 3%Power level: –20 dBmContinuous Wave (CW)Wavelength: 1300 nm ± 3 nm,1310 nm ± 3 nm, 1550 nm ± 3 nmFiber type: 50/125 µm graded index,Agilent/HMS-10 connectorSpectral bandwidth: up to 10 nmAmbient temperature: +18°C to + 28°CAt day of calibration (add 0.3% for agingof over one year; add 0.6% for aging ofover two years).Total uncertainty: ± 5% ± 0.5 nW(1310, 1550 nm)Power level: +0 to –50 dBmContinuous Wave (CW)Wavelength: 850 nm ± 3 nm,1300 nm ± 3 nm, 1310 nm ± 3 nm,1550 nm ± 3 nm,Fiber type: SM to 50 µm graded index(add 2% to total uncertainty for fiber62.5 µm).Straight and angled connectorsAmbient temperature: +10°C to +40°CWithin 2 years after calibrationSupplementary PerformanceCharacteristics• Automatic Zeroing Circuitry• Automatic Ranging• Modulation frequency recognition(270 Hz, 1 kHz, 2 kHz) is available atpower level between+10 and –45dBm (peak amplitude).• Dual Wavelength measurement isavailable at power levels between+10 and –45 dBm (peak amplitude).• Wavelength encoding recognition(350 Hz, 550 Hz) is available at powerlevels between +10 and –45 dBm(peak amplitude).• Reference value is presettable from+30 to –80 dBm• Each calibrated wavelength has itsown reference memory.• The actual display content can betransferred to reference memory(DISP→REF).• Hold Data functionalityGeneral SpecificationsDimensions: ca. 120 mm H x 40 mm Wx 25 mm D (4.7” x 1.6” x 1.0”)Weight: <130 g.Operating Temperature: 0°C to +50 °CStorage Temperature: –40°C to +60°CHumidity: 95% R.H. from 0°C to 40°Cnon cond.Recommended Recalibration Period:2 years6Agilent E6007A VisualFault Finder Submodule 3CharacteristicsSource type: Laser diodeCenter Wavelength: 635 nm ± 10 nm(visible red light)Output power level (CW)• 0 dBm maximum• into 9 µm fiber (typ.): –3 dBmDetection range: up to 5 kmOptical output: User-exchangeableConnector InterfaceSupplementary PerformanceCharacteristics• Continuous Wave and BlinkMode (1 Hz for better visibility).• Single-mode and multimodefibers applicable.General Specifications:Dimensions: ca. 120 mm H x40 mm W x 25 mm D (4.7” x 1.6” x 1.0”)Weight: < 100 gOperating Temperature: 0°C to 40°CStorage Temperature: –40°C to +60°CHumidity: 95% R.H. from 0°C to 40°Cnon cond.3 E6007A Visual Fault Finder Sub-module notavailable for E6013A 1310/1550/1625 nmMini-OTDR module7AccessoriesThe Agilent Technologies E6000C is a high performance time domain reflectometer. It is available in various configurations for the best possible match to the most common applications.Instrument and OptionsAgilent Product Opt DescriptionE6000C003006AB0AB1AB2AB8AB9ABDABEABFABJABXABZACBAKBAKE Mini-OTDR MainframeColor screen VGA LCDB/W Screen VGA-LCDTraditional Chinese user interface Korean user interfaceSimplified Chinese user interface Turkish user interfacePortuguese user interfaceGerman user interfaceSpanish user interfaceFrench user interfaceJapanese user interfaceFinnish user interfaceItalian user interfaceRussian (Cyrillic) user interface Czech user interfaceRomanian user interface8ModulesAgilent Product Opt Description E6003AE6003BE6003C E6004AE6005A E6006A E6007A E6008BE6009A E6012AE6013A 0210220210220210220210220210210220210210220210221310/1550 nm standard performance single-mode modulewith straight connector interfacewith angled connector interface1310/1550 nm high performance single-mode modulewith straight connector interfacewith angled connector interface1310/1550 nm very high performance single-mode modulewith straight connector interfacewith angled connector interface1310/1550 nm economy single-mode modulewith straight connector interfacewith angled connector interface850/1300 nm high performance multimode moduleOptical Power MeterVisual Fault Finder1310/1550 nm ultra high performance single-mode modulewith straight connector interfacewith angled connector interface850/1300 nm economy multimode module1550/1625 nm ultra high performance single-mode modulewith straight connector interfacewith angled connector interface1310/1550/1625 nm very high performance single-mode modulewith straight connector interfacewith angled connector interface9Warranty, Service & Calibration PlanFor all Agilent Mini-OTDRs, the following support options are available.• R1280A – Return to Agilent Warranty and Service Plan. Available for 36 months (3 years) or 60 months (5 years).• R1282A – Return to Agilent Calibration Plan. Available for 36 months (3 years) or 60 months (5 years).All modules come with a commercial calibration certificate.Accessories suppliedThe following accessories are supplied with your Mini-OTDR Mainframe:• Soft carrying case• OTDR Trace Viewer PC Software• AC/DC adapter• Support CD• Power cord• RS232 cable• NiMH battery pack• Shoulder Strap• User´s GuideThe following accessories are supplied with your Mini-OTDR modules:• Each single mode OTDR Module ordered with Option 021 is provided with 81000FI (FC/PC) and 81000 KI (SC) connector interface • Each single mode OTDR Module ordered with Option 022 is provided with 81000NI (FC/APC) and 81000 KI (SC) connector interface• E6005A and E6009A multi mode OTDR Modules are provided with 81000 KI (SC) and 81000 VI (ST) connector interface Additional AccessoriesThe following accessories are also available. To order these products, please contact your Agilent Technologies representative. Product DescriptionE6080AE6081AE6082AN3980AE6092A 24542UE6000-13601Spare NiMH battery packMini-KeyboardHard transit case192 MB CompactFlash TM card with PCMCIA adapterOTDR Toolkit III Plus trace analysis & acceptance test documentation software RS232 cable, 9-pin to 9-pinOTDR Support CD10Connector InterfacesIf you want your Mini-OTDR supplied with an angled connector, please order option #022. (Option #022 is only available for single-mode modules). Straight connector interfaces must be ordered with option #021.Optical ConnectorsAgilent Model No.Description81000SI 81000HI 81000NI 81000FI 81000KI 81000VI 81000LI DIN connector interfaceE2000 connector interface FC/APC connector interface FC/PC connector interface SC connector interfaceST connector interfaceLC connector interfaceProduct Documentation Agilent Part Number TitleN3900-90AJ1 E6000-91031 E6000-91017 E4310-91016Cleaning Procedures for Lightwave Test and Measurement Equipment pocket guide Mini-OTDR User´s Guide (also available in other languages)OTDR Pocket Guide (also available in other languages)OTDRs Programming Guide11Safety InformationAll laser sources specified by this data sheet are classified as class 1M or class 2according to IEC 60825–1 (2001).All laser sources comply with FDA 21 CFR 1040.10 except for deviations pursuant to Laser Notice No. 50, dated 2001-July-26.All laser sources bear the laser warninglabelThe class 1M laser sources (all OTDR testengines) bear the laser labelThe class 2 laser source (E6007A) bearsthe laser labelAll modules also bear the CE conformitymarkingYou must return instruments with malfunctioning laser modules to an Agilent Technologies Service Center for repair and calibration, or have the repair and calibration performed on-site by Agilent Technologies personnel.Agilent Technologies Test and Measurement Support,Services, and Assistance Agilent Technologies aims to maximize the value you receive, while minimizing your risk and problems. We strive to ensure that you get the test and measurement capabilities you paid for and obtain the support you need. Our extensive support resources and services can help you choose the right Agilent products for your applications and apply them successfully. Every instrument and system we sell has a global warranty.Support is available for at least five years beyond the production life of the product.Two concepts underlie Agilent's overall support policy: "Our Promise" and "Your Advantage."Our Promise Our Promise means your Agilent test and measurement equipment will meet its advertised performance and functionality.When you are choosing new equipment,we will help you with product information,including realistic performance specifications and practical recommendations from experienced test engineers. When you use Agilent equipment, we can verify that it works properly, help with product operation, and provide basic measurement assistance for the use of specified capabilities, at no extra cost upon request. Many self-help tools are available.Your Advantage Your Advantage means that Agilent offers a wide range of additional expert test and measurement services, which you can purchase according to your unique technical and business needs. Solve problems efficiently and gain a competitive edge by contracting with us for calibration, extra-cost upgrades, out-of-warranty repairs, and on-site education and training, as well as design, system integration, project management, and other professional engineering services.Experienced Agilent engineers and technicians worldwide can help you maximize your productivity, optimize the return on investment of your Agilent instruments and systems, and obtain dependable measurement accuracy forthe life of those products.By internet, phone, or fax, get assistance with all your test &measurement needs Online assistance:/comms/otdr Phone or Fax United States:(tel)180****4844Canada:(tel)187****4414(fax) (905) 206 4120Europe:(tel) (31 20) 547 2323(fax) (31 20) 547 2390Japan:(tel) (81) 426 56 7832(fax) (81) 426 56 7840Brasil (tel) (11) 4197 3600(fax) (11) 4197 3800Latin America:(tel) (305) 269 7500(fax) (305) 269 7599Australia:(tel) 1 800 629 485(fax) (61 3) 9210 5947New Zealand:(tel) 0 800 738 378(fax) 64 4 495 8950Asia Pacific:(tel) (852) 3197 7777(fax) (852) 2506 9284Product specifications and descriptions in this document subject to change without notice.Copyright © 2004 Agilent Technologies Printed in Germany. May 04, 20045988-2302EN。

Agilent 6100 系列四极杆 LC/MS 系统快速入门指南从哪里获得更多信息1配置图4化学工作站视图6基本操作20操作提示27故障排除提示29本手册适用于 OpenLAB CDS 化学工作站版本软件（C.01.03 版及更高版本，直到被替代）和 Agilent 6100 系列 LC/MS 仪器。

从哪里获得更多信息联机帮助使用联机帮助可深入了解超越本快速入门指南所述范围的信息。

联机帮助可通过下列方式显示：• 单击工具栏上的帮助按钮。

• 从帮助菜单选择帮助主题。

• 在大多数对话框中单击帮助按钮可以显示特定任务的帮助。

用户指南除了本快速入门指南以外，系统还附带下列指南，这些指南也是 PDF格式，可在安装盘上找到。

• Agilent 6100 系列四极杆 LC/MS 系统入门指南• Agilent 6100 系列四极杆 LC/MS 系统概念指南• Agilent 6100 系列四极杆 LC/MS 系统安装指南• Agilent 6100 系列四极杆 LC/MS 系统维护指南C.01.03 的新增功能• 支持 32 位和 64 位 Windows 7（Service Pack 1）。

• 在 G6120B 上支持快速扫描。

• 在 G6120B 上支持快速极性切换（需要硬件升级）。

• 在 G6130B 上支持使用安捷伦喷射流技术的 ESI（需要硬件升级）。

C.01.02 的新增功能• 支持 32 位和 64 位 Windows 7。

• 在 OpenLAB CDS 化学工作站版本上支持 6100 系列 LC/MS。

B.04.03 的新增功能• 支持 32 位 Windows 7。

B.04.02 SP1 的新增功能• 支持新的 G6120B、G6130B 和 G6150B 单四极杆 LC/MS 系统。

• 在 6150 型号上支持安捷伦喷射流技术。

• 支持 32 位 Microsoft Windows XP Professional（Service Pack 3）。

M e a s u r e M Volume 4, number 2When you test new designs, it is important to plan for unexpected situations –especially hazardous situations that can cause damage to the prototype, the test equipment or the person running the test. When you determine the requirements for a new test system, you anticipate what could go wrong and design a robust test that can withstand the surprises that might come up during the test and characteriza-tion of a new design. Many of today’s power products include features such as remote sensing and remote inhibit capabil-ity that make handling and reporting the unexpected situations faster and easier–helping you to minimize the risk and damage when things go wrong.Improve Power supply Performance and safety using remote sensing and remote Inhibitremote sensingPower supplies use voltage monitoring circuitry to measure the voltage at the sense terminals and a control loop to regulate the voltage at the output terminals. In the default configuration, the sense terminals are usually connected directly to the output terminals. Monitoring the voltage at the output terminals rather than at the device under test (DUT) does not compensate for the voltage drop caused by the lead resistance. The voltage at the DUT is degraded with longer leads, higher wire gauge, relays and connectors.Using remote sensing, you can improve regulation of the voltage at the DUT. With remote sensing, you can connect the sense terminals of the power supply’s voltage monitoring circuitry directly to the DUT (see Figure 1). This allows the powerat the DUT, rather than at its own output terminals. The power supply adjusts the voltage as necessary to keep the voltage at the DUT constant, thereby compensating for the voltage drop caused by the resistance of load leads, relays, or connectors.To implement remote sensing, disconnect the local sense leads from the output terminals. Some models may have a switch to select between remote and local sensing. Connect the sense lead terminals to the sense points on the DUT using twisted two-wire shielded cable. Connect one end of the shield to ground and leave the other end unconnected.remote inhibitMany power supplies also provide a dis-crete fault indicator (DFI) that can be used to signal an operator or other components in the system when the power supply detects the fault you define. For example, to generate a DFI signal from a power supply when the DUT draws excessivecurrent, you can program the current limit to the maximum current you expect to use. Once the over-current protection mode is enabled, you can then program the power supply to generate a DFI signal when it hits its current limit and enters constant-current mode. If the current at the DUT reaches the limit, the DFI output will go low, informing the operator of the over-current condition.a series of useful tips to help you get the mostout of your power supplyagilent Power Products selection GuideOur new product guide helps you match agilent power products to your test and measurement challengesSince DC power supplies are used in such a wide variety of applications, Agilent offers more than 200 products designed to meet all your test requirements. Our newselection guide will help you evaluateand select the right Agilent product for your specific test need.Yours Free! Find these helpful tools and more at /find/power_product_tipsHelpful toolsfor power product userssummaryRemote sensing regulates the output voltage of the power supply at the DUT and offers a simple way to monitor the input voltage to the DUT. Using remote inhibit along with the discrete fault indicator allows the power supply to shut down in response to a defined operating condition and can signal the operator and the system that a fault has been detected. Using power supplies that include these features, such as Agilent’s N6700 and N6705A mainframes, canimprove the performance of your test system and add additional protection for your DUT, your equipment, and your operators.M e n t t i pWhen using multiple power supplies, you can daisy-chain the DFi and ri signals. this way, if one of the sup-plies detects a fault, all supplies in the system are disabled. You also can use DFi and ri signals with multiple output supplies using timing delay to produce a sequenced shut-down of the outputs when a fault event is detected.For more information on Agilent T echnologies’products, applications or services, please contact yourlocal Agilent office. The complete list is available at:/find/contactusFor more information on these and otheragilent power products please visit/find/power agilent DC Power suppliesOver 200 models from 2 W to 6.6 kWAgilent N6705ADC power analyzerProduct specifications and descriptions in this document subject to change without notice.© Agilent T echnologies, Inc. 2008Printed in USA, November 1, 20085989-8851EN。

Agilent 6000 系列 LC/MS安全指南安全2仪器上的标志2通用仪器安全5人身伤害安全6常规化学品安全9化学废弃物安全10生物危险品安全11符合性和标准12安全与规范认证12电磁兼容性13环境条件14声音发射声明14本指南包含有关 Agilent 6000 系列 LC/MS 的安全性、符合性和标准的信息。

当处理溶剂和化学品或未装配的部件时，请始终穿戴适当的防护用品，包括护目用具、实验室工作服和手套。

安全仪器上的标志安全仪器上的标志电气标志下表描述了可在 LC/MS 仪器上显示的电气标志。

表 1电气标志标志说明表示受保护的接地端。

断路器。

交流电流保险丝安全仪器上的标志安全标志下表描述了可在 LC/MS 仪器上显示的安全标志。

每个标志单独出现，或与用于解释相关危险的文本一起出现。

这些安全标志还可能出现在危险、警告或小心提示的旁边。

表 2安全标志标志说明或对于标有此标志的仪器，用户应参阅说明手册，以免对操作员造成伤害并防止损坏仪器。

表示危险电压。

如果较热表面可触及并且用户不应在加热后接触该表面，则仪器上会标有此标志。

设备放电 (ESD) 危害。

爆炸危险。

安全仪器上的标志在有氢气或者任何其他易燃气体或烟雾存在时，不要操作仪器。

在这类环境中操作任何电子仪器会造成一定的安全隐患。

不要将该电气／电子产品丢弃在家庭垃圾中。

在更换保险丝之前，需从电源插座断开电源插头。

两条带电电路。

在进行维护之前，断开两根电源线。

生物风险表 2安全标志（续）标志说明安全通用仪器安全通用仪器安全人身伤害危险：仅按照用户说明中指定的方式使用 LC/MS 仪器。

如果不按照Agilent Technologies 指定的方式使用系统，可能会导致人身伤害或仪器损坏。

移动或抬起系统人身伤害危险：LC/MS 仪器很重。

至少需由两个人抬起 6100 系列 LC/MS 仪器。

至少需由四个人抬起 6200、6400 和 6500 系列 LC/MS 仪器。