Fluke 9500B Brochure - ATECorp
E stablished 1981Advanced Test Equipment Rentalswww.atecorp.com 800-404-ATEC (2832)HeaderThe Fluke 9500BOscilloscope CalibratorThe world’s highest performance, fully automated,upgradeable oscilloscope calibration workstationB
9500B CalibratorThe world’s highest performance, fully automated, upgradeable oscilloscope calibration workstation. Full automation provides totally hands-free oscilloscope calibration - even on today’s ultra-highperformance, multi-channel, feature rich instruments. Continuous upgradeability helps you protect your investment in the tools you need to manage everchanging workload demands. Simultaneous output on 5 channels means no more lead changing and no more complicated signalmultiplexers or impedance matching networks. Leveled sinewaves to 6 GHz and edges to 70 ps provide all the performance and flexibility you needto fully calibrate today’s and tomorrow’s high performance oscilloscopes. Fluke’s unique Active Head Technology generates calibration signals right at the oscilloscopeinput – now there is no doubt whether waveform aberrations are down to connecting leads or theoscilloscope itself.Oscilloscope calibration can be complex, timeconsuming and expensive. A significant amountof skilled operator interaction and interpretationis often required to complete the job, and today’smulti-channel instruments frequently mean that agreat deal of lead switching is required. Evenautomated systems require significant manualintervention to complete elements of the mostsimple calibration procedures. Worse still,switching systems or multiplexers used to enablea degree of automation often contribute moreerrors and aberrations than the instrumentbeing calibrated.2To compound the problem, rapid developmentsin oscilloscope technology make it difficult tokeep up with performance trends withoutsubstantial re-investment on a regular basis.The Fluke 9500B Oscilloscope CalibrationWorkstation breaks that paradigm. It means thatthe benefits of hands-free, fully-automated,accurate oscilloscope calibration are readilyavailable to everyone at a price and performancelevel that your needs and budget can support,while ensuring that, through performanceupgrades, future needs will be met when the timedemands it.
AutomationFull automationAutomating oscilloscope calibration is possiblyone of the biggest productivity enhancements thatcan be realised in many calibration labs.Performed manually, this work requires skilledoperators to spend a substantial amount of timeperforming what are essentially repetitive tasks.Semi, or partial automation solutions apparentlyaddress this issue and free skilled technicians toperform more valuable tasks. However, in practice,these partial solutions present their own problems.Over the last decade, the oscilloscope of choicehas migrated from a two-channel instrument to amore complex four-channel device.When calibrating these instruments, it isnecessary to move the calibrating signal fromchannel to channel as the procedure progresses.This can be achieved by physically movingcables, though this requires operatorintervention. In high performance instruments,this may introduce additional measurementuncertainties as cables and connectors arehandled. An alternative is to introduce aswitching matrix to route signals, though this mayresult in problems with signal reflections, poorcontacts and path differences that materiallyimpact calibration uncertainties.Active HeadsThe Fluke 9500B addresses these issues, andprovides true, full automation through the use ofits unique Active Heads. With the 9500B, all thesignals required to fully calibrate the oscilloscopeare generated in detachable heads, remote fromthe calibrator mainframe. The heads areconnected directly to the oscilloscope inputwithout the need for additional cables. All controland switching of waveforms are performed underthe control of the mainframe, yet within the headitself - typically only a matter of millimetersaway from the oscilloscope input and amplifiers.With each 9500B mainframe able to control up tofive heads, all the signals required to calibrate a4-channel oscilloscope with an external triggercan be supplied, controlled and switchedwithout operator intervention or the need forexternal switching.3
AutomationMET/CAL Plus Calibration Management SoftwareThe final link in the chain of full automation issoftware. The 9500B Oscilloscope Calibrator canbe used with Fluke’s powerful IEEE-488 (GPIB)based MET/CAL Plus automated calibrationmanagement software.While allowing you to automate the calibrationprocess, MET/CAL also documents results,manages your calibration inventory, and allowsyou to develop new oscilloscope calibrationprocedures. If you want to use the same system tocalibrate 14 other categories of test equipment(ranging from handheld DMMs to frequencycounters and chart recorders), the software willalso drive Fluke’s 5500A, 5520A and 9100Multi-Product Calibrators.Running under Microsoft Windows andsupporting multi-user networking, the softwareimplements advanced features such as ISO 9000compliant traceability, custom certificate andreport generation, and high-level procedureprogramming.The result is higher workload throughput,better calibration consistency, minimization ofhuman error, and less requirement for operatortraining - in short, higher quality calibration atlower cost.Procedure supportWe know that any automated calibration systemis only as good as the calibration procedures thatcan run on it. That’s why the software we shipwith every 9500B calibrator includescomprehensive libraries of procedures for mostpopular oscilloscopes.Gold Support ProgramTo keep pace with the fast changing oscilloscopemarket, Fluke is continuously writing newcalibration procedures. For a one-off, low-costpayment (less than it would cost you to have threeor four DSO oscilloscope calibration procedureswritten), you can buy into our MET/SUPPORTGold Software Support Program which gives youaccess to every new procedure written by Fluke’ssoftware support team during the next 12 months.On current performance, that’s upwards of 100new oscilloscope calibration procedures peryear. And you won’t have to request updates orwait for delivery; every new procedure we writeis available for download from our web site(www.calibration.fluke.com).In addition to the free procedures library, youwill receive 60 days priority support to get you upand running with MET/SUPPORT Gold.You alsohave the option to buy into our MET/SUPPORTGold program which offers you variousadvantages, including the opportunity todownload new procedures from our web site oreven obtain custom written procedures.If the oscilloscope calibration procedure yourequire is not available and you need it quickly,we can write it for you at very competitiverates as part of our fast-track procedurewriting scheme.4Every one of these procedures has beenwritten by a skilled calibration engineer andchecked against the oscilloscope manufacturer’sspecifications – ensuring you get plug&playconvenience and guaranteed results.
UpgradeabilityProtecting your investmentOver recent years, oscilloscope technology andperformance levels have changed dramatically, atrend set to continue. What was considered to bea cutting edge instrument only a few years agomay now be relegated to the general purposepool. The challenge for those chartered withmaintaining a calibration facility to support theseinstruments is how to keep up with this rapidprogress.The Fluke 9500B offers the perfect solution – fullupgradability. Today you can invest in a 9500oscilloscope cal solution with performance at amodest 600 MHz. As your workload changes, andhigher performance instruments become moreimportant, you can upgrade performance to1.1 GHz, 3.2 GHz and right up to 6 GHz.If you already need to work with higherperformance instruments, you can jump right in atany point.If full automation is not something you need rightaway, begin with just a few Active Heads, or justone. As needs change, add more heads until youhave the degree of automation and the level ofperformance that perfectly match yourorganisation’s daily oscilloscope calibration needs.Only Fluke’s 9500 and 9500B OscilloscopeCalibration Workstations, with their unique ‘ActiveHead Technology ’, can provide the technologyupgrade path to secure your investment incalibration equipment.A range of mainframesAt Fluke, we recognise that we must address thehighest levels of performance to maintain ourundisputed leadership in the field of oscilloscopecalibration. However, we also realise that noteveryone needs this ultimate level ofperformance – not yet at least. To meet the needsof calibration labs who need more mainstreamperformance, Fluke offers a range of 9500Bproducts. These are:9500B/600 600 MHz High-PerformanceOscilloscope Calibration Workstation9500B/1100 1100 MHz High-PerformanceOscilloscope Calibration Workstation9500B/3200 3.2 GHz High-PerformanceOscilloscope Calibration WorkstationFluke appreciates that your needs will almostcertainly change in the future, and thatcompletely replacing a fully operational piece ofequipment simply to improve performance levelsis not your desired approach. Therefore, any ofthe models listed above can be upgraded tohigher performance at any time, an option whichalso applies if you already own one of our existing9500 Series calibrators. We will make every effortto ensure that any future developments will also fitthis upgrade philosophy.Active Head rangeFour different Active Heads further expand upgradeability options of the 9500B family. Their additioncan improve performance, extend frequency range or increase automation possibilities of the 9500BOscilloscope Calibration Workstation.9510 1.1 GHz Active Head with 500 pspulse risetimeCompatible with all 9500B mainframes the 9510will supply leveled sine to 1.1 GHz (or maximumfrequency of the mainframe, whichever is lower).It will output pulse risetimes of 500 ps when usedwith any mainframe.9530 3.2 GHz Active Head with 150 ps and500 ps pulse risetimeCompatible with all 9500B mainframes, the9530 will supply leveled sine to 3.2 GHz (ormaximum frequency of the mainframe,whichever is lower). It will output pulse risetimesselectable between 150 ps and 500 ps whenused in any mainframe.9550 ultra-fast Active Head with 25 pspulse capabilityThe 9550 provides pulses with rise and fall timesof 25 ps that can be used for calibration ofsampling oscilloscopes to 14 GHz.9560 extended 6 GHz bandwidth Active HeadThe 9560 provides the 9500B with the uniqueability to accurately calibrate with leveled sinefunction to 6 GHz, performance unmatched by anyother oscilloscope calibrator. The 9560 will onlygenerate 6 GHz when used with a 9500B/3200mainframe or an upgraded 9500/3200.Contact Fluke if you have an existing 9500mainframe you would like upgraded to thisperformance level.5
PerformanceActive Head Technology Active Heads are lightweight modules measuringonly 14 x 6.5 x 3 cm which connect to the 9500Bmainframe through two cables – a single coaxialcable and a control umbilical. Within the head isall the circuitry needed to supply all the signalsnecessary to calibrate a modern, highperformance oscilloscope. This includes precisiondc levels up to 220 V; calibrated amplitudesquarewaves up to 210 V pk-pk from 10 Hz to 100kHz; leveled sinewaves from 0.1 Hz to 6 GHz(depending on head); and four different styles oftiming marker from 0.2 ns to 50 s. The hybridwithin the head can route even a high frequency,externally generated calibration signal to theActive Head output. The hybrid also containssinewave amplitude sensing circuits, widebandattenuator networks, a pulse generator, an edgegenerator and output signal multiplexing.Key to delivering absolute performance is theproximity of the head’s output circuit to the inputof the oscilloscope’s amplifier. In a conventional,cabled environment, mismatches, unknown orunpredictable cable transmission properties andless than perfect connections all contribute todegradation of the signal between the calibratoroutput and the oscilloscope input.When usingActive Heads, the calibrator output and theoscilloscope input are literally millimeters apart.This short distance comprises matchedimpedance, micro-strip transmission line and highquality BNC or SMA connectors to all buteliminate sources of degradation, distortion anduncertainty of calibration signals. An automaticinternally switched 50Ω termination eliminates theneed for external terminators when connecting tohigh impedance oscilloscope inputs.9560 – for ultimate performanceThe introduction of the latest member of theActive Head family, 9560, once again underlinesour commitment to oscilloscope calibration. Withour continued focus on securing your investment,the 9560 Active Head is the latest product to fulfillthis promise, allowing current users of the 9500 toupgrade their equipment to any 9500B status andtake advantage of more recent product andperformance enhancements. The 9560 is able todeliver 6 GHz leveled sine wave and pulse edgesof only 70 ps.6Unlike other oscilloscope calibrators, you’re notrestricted to fixed amplitude pulses. Active HeadTechnology lets you adjust output amplitudebetween 4.44 mV and 3.1V, allowing you to checkan oscilloscope’s amplifiers right down to theirmost sensitive ranges. Whatever amplitude youchoose, controlled waveshape filtering ensuresthat all high-speed edges have an accuratelydefined harmonic energy distribution.
Complete FunctionalityEnhanced by Active Head Technology and supported by full automation, the complementary pair ofhead and workstation come together to provide unrivalled functionality. This allows the user toconfidently increase throughput, without compromising accuracy or stability.Vertical and horizontal deflection bandwidthFast return-to-ground edges with amplitudesbetween 4.44 mV and 3.1 V and rise/fall times of70 ps, 150 ps or 500 ps check the pulse responseand bandwidth of an oscilloscope’s verticaldeflection/acquisition amplifiers.High level edges up to 210 V pk-pk check thedynamic performance of input attenuators.Leveled sinewaves up to 600 MHz, 1.1 GHz,3.2 GHz or 6 GHz with an amplitude range of4.44 mV to 5.56 V pk-pk into 50Ω (8.88 mV 5.56 V pk-pk into 50Ω when using the 9560 ActiveHead) allow direct calibration of oscilloscopebandwidth. They also calibrate Z-axis andhorizontal deflection bandwidth. Dual Sine outputscalibrate the oscilloscope’s trigger sensitivity andany other functions that normally require theinsertion of a splitter into the connecting cable.Vertical deflection gainDC levels and 10 Hz to 100 kHz squarewaves areadjustable up to 220V with 5-digit amplituderesolution at 0.025% accuracy for dc and 0.05%for squarewaves – more than sufficient tocalibrate the vertical deflection ranges of 12-bitdigitizing and 14-bit interpolating oscilloscopes.The 9500B even checks the oscilloscope’s inputimpedance before applying high voltages inorder to protect 50Ω input terminations.Automatic switching to 50Ω output impedanceprovides the same waveforms at amplitudes up to5.56 V (except 9560 where source impedance iscompensated for by re-scaling the minimumamplitude i.e., 8.88 mV - 5.56 V pk-pk into 50Ω).Timebase accuracyTiming markers cover the calibration oftimebase ranges from 0.2 ns to 50 s per division.A choice of four styles, plus the ability tohighlight every tenth marker by increasing itsamplitude, provides optimum visibility on analogand digital storage oscilloscopes.The square and pulse markers can also be usedto calibrate timebase jitter.Complete with high-stability crystal reference,the 9500B calibrators have timing accuracy of 0.25 ppm – the level required to calibrate thelatest DSOs.Auxiliary calibration functionsThe 9500B Auxiliary Function capabilities calibrate oscilloscope functions often overlooked onother calibrators. DC and squarewave currents up to 100 mA calibrate current probesComposite video signals test TV sync separator functionsLinear ramps calibrate trigger level markers and check DSOs for missing bitsHigh current 5 V to 20 V pulses test 50Ω terminator protectionZero skew accurately aligns pulse edges to evaluate channel delays in multi-channel scopesAUX IN routes external calibration waveforms to an Active Head’s BNC/SMA connectorResistance and capacitance functions directly measure oscilloscope input impedanceShort/open circuit outputs allow testing of oscilloscope input leakage current7
SpecificationsAll Specifications TCal 5ºC, 1yr, 99% where Factory TCal 23ºC (Except frequency accuracies 5yr)Uncertainties are fully inclusive of instrument errors, resolution, stability, regulation and traceability to National Standards.In general, nothing further needs to be added to determine test uncertainty ratio against the equipment under calibration.Voltage Function (Not available via 9550 Active Head)AmplitudeAccuracyDCInto 1MΩDCInto 50ΩSquare WaveInto 1MΩSquare WaveInto 50Ω 1 mV to 200 V 1 mV to 5 V40 µV to 200 V pk-pk40 µV to 5 V pk-pk 1 mV (0.1% 10 µV), 1 mV (1% 10 µV) @ 10 KHz (0.025% 25 µV)RangingVolt/div factors of 1, 2, 5 or 1, 2, 2.5, 4, 5; or continuously variableDeviation 11.2% (Including over and under-range) 100 V pk-pk 150 ns; 100 V pk-pk 200 nsRise/Fall TimeAberrations 2% peak for first 500 nsFrequency10 Hz to 100 kHzDC into 1MΩ available at all heads simultaneously without specification degradationEdge Function (9550 Active Head supports 25 ps Fast Edge only)500 ps Edge Pulse HV Edge Pulse150 ps Fast-Edge 70 ps Fast-Edge 25 ps Fast-Edge(9530 Head Only) (9560 Head Only) (9550 Head Only)Into 50ΩInto 50ΩInto 50ΩInto 50Ω or 1MΩInto 1MΩAmplitude5 mV to 3 V pk-pk1 mV to 200 V pk-pkNB 1 mV to 5 V pk-pkinto 50Ω5 mV to 3 V pk-pk25 mV to 2 V pk-pk425 mV to575 mV pk-pkPolarityRising & FallingReturn to GroundRising & FallingReturn to GroundRising & FallingReturn to GroundRisingRising & FallingRising & FallingReturn to Ground500 ps 100 V pk-pk 150 ns 100 V pk-pk 200 nsNB into 50Ω 100 ns150 ps70 ps25 ps 50 ps to -150 psNA 25 ps 12 ps 3 ps 35 psNA 12 ps 8 ps 1.5 psRise/Fall Time(10%-90%)AccuracyAccuracy(displayed value)Duty Cycle10%50%10%10%10% 2% pk in 8 GHz 1.5% pk in 3 GHz(first 10 ns) 2% pk(first 500 ns) 3% pk in 8 GHz 2% pk in 3 GHz(first 1 ns) 4% pk in 20 GHz 3% pk in 8 GHz 1% pk in 3 GHz(first 700 ps) 5% pk in 20 GHz 3% pk in 10 GHz 1% pk in 3 GHz(first 200 ps)Frequency10 Hz to 2 MHz10 Hz to 100 kHz10 Hz to 2 MHz10 Hz to 1 MHz10 Hz to 1 MHzTrigger toEdge delay25 ns (typical)Trigger toEdge jitter5 ps pk-pkAberrations(Into VSWR 1.2:1)Edge speeds faster than 500 ps are not recommended for 1MΩ input applications. 9560 and 9550 50Ω onlyTiming Marker Function (Not available via 9550 Active Head)StylesSquareSinePulseNarrow TrianglePeriod9.0091 ns to 55 s450.5 ps to 9.009 ns9500/600 (909.1 ns min)9560 (180.19 ps min)900.91 ns to 55 s900.91 ns to 55 sRangingTime/div ranging 1, 2, 5 or 1, 2, 2.5, 4, 5 or continuously variableDeviationRise/fall TimesTiming AccuracyAmplitudeSub-Division 45% (Including over-range)1 ns typ.NA1 ns typ.100 mV to 1 V pk-pkEvery tenth marker can be set to higher amplitude for periods 1 µs for all waveshapesLine frequency timing markers are available in Square waveform. Jitter wrt Line zero crossing 20 µs pk-pkPeriods below 2 ns are not recommended for 1MΩ input applications. 9560 50Ω only82.5% of period 83 µs 0.25 ppm, 83 µs 3 ppm
SpecificationsLeveled Sine Function (Not available via 9550 Active Head)9500B/6009500B/11009500B/3200 & 95309500B/3200 & 9560Frequency Range0.1 Hz to 600 MHz0.1 Hz to 1.1 GHz0.1 Hz to 3.2 GHz0.1 Hz to 6.4 GHzAmplitude (pk-pk)(into 50Ω)0.1 Hz - 550 MHz5 mV to 5 V0.1 Hz - 550 MHz5 mV to 5 V0.1 Hz - 550 MHz5 mV to 5 V0.1 Hz - 550 MHz5 mV to 5 V550 MHz-600 MHz5 mV to 3 V550 MHz-1.1 GHz5 mV to 3 V550 MHz-2.5 GHz5 mV to 3 V550 MHz-2.5 GHz5 mV to 3 V2.5 GHz - 3.2 GHz5 mV to 2 V2.5 GHz - 3.2 GHz5 mV to 2 V3.2 GHz - 6.4 GHz25 mV to 2 VAccuracy 1.5% at single Ref Frequency (50 kHz - 10 MHz)Flatness wrtRef Frequency0.1 Hz - 300 MHz 2.0%0.1 Hz - 300 MHz 2.0%0.1 Hz - 300 MHz 2.0%0.1 Hz - 300 MHz 2.0%Into VSWRof 1.6:1 (1.2:1)300 MHz - 550 MHz 3% ( 2.5%)300 MHz - 550 MHz 3% ( 2.5%)300 MHz - 550 MHz 3% ( 2.5%)300 MHz - 550 MHz 2.5% ( 2.5%)550 MHz - 600 MHz 4% ( 3.5%)550 MHz - 1.1 GHz 4% ( 3.5%)550 MHz - 1.1 GHz 4% ( 3.5%)550 MHz - 3.0 GHz 3.5% ( 3.0%)1.1 GHz - 3.2 GHz 5% ( 4%)3.0 GHz - 6.0 GHz 5.0% ( 4.0%)Harmonic Purity2nd Harmonic -35 dBc, 3rd Harmonic -40 dBc in 12 GHzNon & SubHarm Purit -40 dBc -35 dBcPeriods below 2 ns are not recommended for 1MΩ input applications. 9560 50Ω onlyDual Sine Function (Not available via 9550 Active Head and specification limited to Heads of the same type)Frequency Range9500B/6009500B/11009500B/3200 & 95309500B/3200 & 95600.1 Hz to 600 MHz0.1 Hz to 1.1 GHz0.1 Hz to 3.2 GHz0.1 Hz to 3.2 GHzTime Alignment 25 ps Any Channel to Any ChannelPeriods below 2 ns are not recommended for 1MΩ input applications. 9560 50Ω onlyInput Impedance Functions (Not available via 9550 Active -90Ω90Ω-150Ω50kΩ-800kΩ 0.5% 0.1% 0.5% 0.5%800kΩ-1.2MΩ 1.2MΩ-12MΩ 0.1% 0.5%(Not available via 9550 and 9560 Active Head)CapacitanceMeasurement1 pF to 35 pF35 pF to 95 pFAccuracy 2% 0.25 pF 3% 0.25 pFPulse Width Function (Not available via 9550 Active Head)Pulse WidthAccuracyAdjustmentResolutionRise and Fall TimeAberrationsWidth StabilityPulse Jitter(wrt Trigger)1 n to 100 ns 5% 200 ps1 ns to 4 ns, 50 ps4 ns to 20 ns 250 ps20 ns to 100 ns 1 ns 450 ps 5% pk (typical) 10 ps pk-pk 10 mins/1'C 5 ps pk-pkFrequency1 kHz to 1 MHzAmplitude1V pk-pk into 50Ω9
SpecificationsOther Output Functions (Not available via 9550 Active Head)CurrentDCSquarewaveAmplitude 100 µA to 100 mAAccuracy (0.25% 0.5 µA)Duty Cycle & SymmetryRise Time and AberrationsRequires 9530 or 9510 Head and BNC Current adaptor 100 µA to 100 mA pk-pk50%, symmetrical about ground 150 ns and 2% pkComposite Video OutputAmplitudePattern (Full Raster)Sync PolarityStandardsTrigger Output9560 50Ω only1.0 V pk-pkWhite, Grey or BlackPositive or Negative625-line 50 Hz, 525-line 60 HzComposite Sync or Odd Field StartAuxiliary InputSignal RoutingMaximum InputInsertion Loss (Into 50Ω)Rear SMA input, passive and switched 50Ω path to any Active Head 40 V pk-pk, 400 mA pk-pkto 100 MHz 2.5 dB, to 500 MHz 4 dB, to 1 GHz 6 dBReference FrequencyFrequency RangeLevel (typical)Lock RangeInput (BNC)Output (BNC)1M Hz to 20 MHz in 1 MHz steps90 mV - 1 V pk-pk 50 ppm1 MHz or 10 MHzInto 50Ω 1V pk-pk, Into 1 M 2V pk-pkGeneral SpecificationsOther Output FunctionsEnvironmentalOperatingStorageTemperature5 C to 40 C0 C to 50 CTransit 100hrs-20ºC to 60ºCHumidity(non-condensing) 90% 5 C to 30 C 75% 30 C to 40 C 95% 0 C to 50 COverload PulseAmplitude5 V to 20 V into 50PolarityPositive / NegativeDuration0.2 s to 100 s(subject to pulse energy limits)Designed to and documented toEN61010-1-11993/A21995CE and ETL markedEnergyPower in 50Radiated EmissionsEN55011/22FCC Rules part 15 sub-part J class BZero SkewRadiated ImmunityEN50082-1SafetyTriggerEMC (including options)Conducted EmissionsEN55011 1991 Class BConducted ImmunityEN50082-1HarmonicsShock and VibrationLine VoltageLine FrequencyPower ConsumptionWarm-upEN61000-3-2MIL-T-28800 type III, class 5, style E.Unadjusted Skew 25 ps ch to chAdjusted Skew 5 ps ch to chSkew Temp Coef 0.2 ps/ºCRise and Fall Time450 ps typRelative Jitter 7 ps pk-pkInput Leakage FunctionOpen Circuit OutputLeakage 50 pAShort Circuit OutputOffset 15 µV48 Hz to 63 HzLF Linear RampWaveforms 400 VA20 minutes95xx Active HeadsDimensionsH xW x D133 x 427 x 440 mm5.24 x 16.8 x 17.3 insH xW x D65 x 31 x 140 mm2.56 x 1.22 x 5.51 insWeight12 kg (27 lbs) approx. 0.45 kg (1 lb) approx.10Manual Max Rep Rate 0.3 Hz(Internally Limited)95 V to 132 V rms209 V to 264 V rmsInstallation Cat II9500 Base UnitWarranty Period1.6 J to 50 J0.5 W to 8 W1-year3-year Active PlusCarePlanLinearityRamp Time1 V pk-pk trianglesymmetrical about ground 0.1% deviation over 10 - 90%1 ms, 10 ms, 100 ms or 1 s
Ordering 951095309550600 MHz High-Performance Oscilloscope Calibrator Workstation1100 MHz High-Performance Oscilloscope Calibrator Workstation3.2 GHz High-Performance Oscilloscope Calibrator WorkstationActive Head with 6 GHz and 70 ps pulse capabilityActive Head with 1.1 GHz and 500 ps pulse capabilityActive Head with 3.2 GHz and 150 ps/500 ps pulse capabilityActive Head with 25 ps pulse capabilityAccessories9500-60Soft carrying case9500-65Ruggedised transit case9500-90Rack mounting kit*requires 9500B/3200 or upgraded 9500/3200Multi-level 9500 and 9500B upgradesto suit your requirementsThe primary concept driving the design of the 9500B is to “protect the customers investment throughupgradeability”. This is the message we originally promoted with its predecessor, the 9500, and true toour word, we can now offer many upgrade packages from all 9500 models to all three 9500Bspecifications – 600 MHz, 1.1 GHz and 3.2 GHz.For those users who wish to take advantage of the 9560, but feel that they do not want the new addedfeatures of the 9500B, then we also have an upgrade to suit you.Fluke 9500B base chassis upgrades9500B/600 1100-UGKUpgrade 9500B/600 to 9500B/11009500B/600 3200-UGKUpgrade 9500B/600 to 9500B/32009500B/1100 3200-UGKUpgrade 9500B/1100 to 9500B/32009500 upgrades – increase bandwidth only9500/400 600-UGKUpgrade 9500/400 to 9500/6009500/400 1100-UGKUpgrade 9500/400 to 9500/11009500/400 3200-UGKUpgrade 9500/400 to 9500/3200, firmware compatible with 9560modules, also includes upgrade to 5 channels and simultaneous5 channel output functions.9500/600 1100-UGKUpgrade 9500/600 to 9500/11009500/600 3200-UGKUpgrade 9500/600 to 9500/3200, firmware compatible with 9560modules, also includes upgrade to 5 channels and simultaneous5 channel output functions.9500/1100 3200-UGKUpgrade 9500/1100 to 9500/3200, firmware compatible with 9560modules, also includes upgrade to 5 channels and simultaneous5 channel output functions.9500/3200 3200-UGKUpgrade 9500/3200 to 9500/3200, firmware compatible with 9560modules, also includes upgrade to 5 channels and simultaneous5 channel output functions.9500 upgrades – added mainframe functionality9500/400 9500B/3200-UGK Upgrade 9500/400 to 9500B/3200, include upgrade to 5 channels, 9560capability, narrow pulse and simultaneous 5 channel output functions.9500/600 9500B/3200-UGK Upgrade 9500/600 to 9500B/3200, include upgrade to 5 channels, 9560capability, narrow pulse and simultaneous 5 channel output functions.9500/1100 9500/3200-UGK Upgrade 9500/1100 to 9500B/3200, include upgrade to 5 channels, 9560capability, narrow pulse and simultaneous 5 channel output functions.9500/3200 9500B/3200-UGK Upgrade 9500/3200 to 9500B/3200, include upgrade to 5 channels, 9560capability, narrow pulse and simultaneous 5 channel output functions.11
9500B Oscilloscope CalibratorOther precision instruments in the range5720A Multifunction CalibratorPM 6681R Rubidium Counter/CalibratorThe lowest uncertainties of anymultifunction calibratorThe highest performance timer/counter/analyzer available5520A Multi-Product Calibrator910R GPS-Disciplined Frequency ReferenceHigh performance multi-product calibratorsuitable for calibrating current to 20A andpressure measurement as well as 51 2 and 61 2digit digital multimetersThe first truly traceable, ultra stableGPS-disciplined frequency referencesFluke CorporationPO Box 9090,Everett,WA USA 98206Fluke Europe B.V.PO Box 1186, 5602 BDEindhoven, The NetherlandsFluke Precision Measurement Ltd (UK)Hurricane Way, Norwich, NorfolkNR6 6JB, UKFor more information call:In the U.S.A. (0800) 443-5853 orFax (425) 356-5116In Europe/M-East/Africa (31 40) 2 6758 200 orFax (31 40) 2 6758 222In Canada (0800)-36-FLUKE orFax (905) 890-6866From other countries (425) 356-5500 orFax (425) 356-5116Web access: http://www.fluke.com2001 Fluke Corporation. All rights reserved. Trademarks are the property of their respective owners.Printed in the U.K. 07/2001 1626204 B-ENG-N A, DS255
The Fluke 9500B Oscilloscope Calibration Workstation breaks that paradigm. It means that the benefits of hands-free, fully-automated, accurate oscilloscope calibration are readily available to everyone at a price
FLUKE 86 367 FLUKE 88 423 FLUKE 8062A . FLUKE 8060A . FLUKE 8010A . FLUKE 8012A . FLUKE 8050A . FLUKE 37 FLUKE 45 E SCOPES 329 395 329 359 439 249 579 20 MHz SCOPE 345 Dual Trace 2 Yr Warranty-Parts & Labor SCOPE PROBES 60 MHz, X1 & X10 SPECIAL 700072 18.95 150 MHz, X10 700073 39." Duracell / Eveready 9V Alkaline Battery .
1228556 fluke 1663 / fvf au installation tester fluke 1365408 fluke 64 max ir thermometer 20:1 d:s fluke 1758013 fluke high resolution diagnostic videosc fluke 1758015 8.5mm scope with a 3m probe, dual view c fluke 2524570 c12a soft carrying case fluke 2921230 t5-100
5 Fluke Corporation Tester per batterie Fluke Serie 500 Fluke Italia S.r.l. Viale Lombardia 218 20861 Brugherio (MB) Tel: (39) 02 3600 2000 Fax: (39) 02 3600 2001 E-mail: fluke.it.cs@fluke.com Web: www.fluke.it Fluke (Switzerland) GmbH Industrial Division Hardstrasse 20 CH-8303 Bassersdorf Telefon: 044 580 75 00 Telefax: 044 580 75 01
FLUKE-117/323 EUR 4296034 Fluke Electrician’s Multimeter Combo Kit 435 FLUKE-117/PRV240 4636971 Prüfeinheit, Fluke 117 DMM Kit 437 Multimeter Serie 170 . FLK-TRUTEST-ADV 5265319 Fluke TruTest Software-Lizenzcode – Erweitert 429 FLK-TRUTEST-CD 5265337 Fluke Tru
FLUKE-289/FVF/EUR 3947812 Combinatiekit van Fluke 289 en FlukeView Forms-software 845 FLUKE-289/IMSK 3449156 Serviceset industriële multimeter 720 20 Series Multimeters C25 681114 Soepele draagtas geschikt voor Fluke 25/27/8025A 66 FLUKE-27II/EUR 3947770 Industriële Multimeter (IP67) 586 FLUKE
See your Fluke distributor, or call 1- 800 -87 -FLUKE for a catalog and the name of the distributor nearest you. in the industry. Make the choice that gives you the most choices. Fluke 12 Auto -function Multimeter S95.00 FLUKE 12 FLUKE 77 FLUKE 83 The Fluke
5 Fluke Corporation Série 500 de testeurs de batterie Fluke Fluke France S.A.S. Parc des Nations 383 rue de la belle étoile 95 700 Roissy en France - FRANCE Téléphone: 01 708 00000 Télécopie: 01 708 00001 E-mail: info@fr.fluke.nl Web: www.fluke.fr Fluke Belgium N.V. Kortrijksesteenweg 1095 B9051 Gent Belgium Tel: 32 2402 2100 Fax: 32 .
Vol.10, No.8, 2018 3 Annual Book of ASTM Standards (1986), “Standard Test Method for Static Modulus of Elasticity and Poissons’s Ratio of Concrete in Compression”, ASTM C 469-83, Volume 04.02, 305-309. Table 1. Dimensions of a typical concrete block units used in the construction of the prisms Construction Method a (mm) b
