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Agilent 81180AArbitrary Waveform Generator
Data Sheet 1.0
Set up complex real-world signals with up to 4.2-GSa/s arbitrary waveforms and 12-bit vertical resolution
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81180A at a glance• 10-MS/s to 4.2-GSa/s sample clock control, 2 GHz IQ modulation bandwidth and 12 bit vertical resolution
• 1 or 2 channel, coupled or uncoupled
• Two 2-channel systems can be synchronized to form a 4-channel system
• Interchannel skew control from -3 ns to +3 ns with 10-ps resolution
• Three software-selectable amplifiers optimized for •I/Qapplicationswith1GHz,differentialDC-coupledoutput •MaximumbandwidthandflatnessfordirectRFapplicationswithACoutputbandwidth to > 1.5 GHz •Timedomainapplicationswithlowovershootandjitter
• 16 M points or 64 M points per channel
• 8-bit external input for dynamic control of segments and sequences
• Advancedsequencingscenariosdefinestepping,loopingandconditionaljumpsofwaveformsorwaveformsequences for best memory usage
• Smart trigger allows trigger hold-off and programmable pulse width
• Trigger input is programmed to wait for waveform end or abort waveform and restart
• Two markers for each channel have controlled marker positions, widths and levels
• MarkersdonotreduceDACbits
• Internalflashmemorystoressettingsandwaveforms
• RemotecontrolthroughLAN,USBandGPIB
• Waveforms and instrument settings can be uploaded from disk-on-key
• Integration in
•MATLAB®
•NILabVIEW •AgilentSignalStudio1
•AgilentBenchLinkWaveformBuilderPro2
1. Integration in Signal Studio pulse builder and multitone is planned. 2. Available by end of 2010
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Figure 2. Front panel
Figure 3. Back panel
Function generator for fast setup
Differential output channel 2
Trigger in and out
Differential output
channel 1
The 81180A arbitrary waveform generator offers convenient features that make your test easier
Back panelInternal and external clock
8-bit external segment Select input
Synchronization cable to form a 4-channel instrument
Event In, Ref In Remote control through LAN, USB andGPIB
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Overcome your test challenges with the 81180A arbitrary waveform generator
Electronicdevicescontinuetogrowincreasinglycomplex,and the demand for higher performance never ends. In addition, you are under pressure to reduce test times and tighten specifications.
The complexity of modern wireless systems skyrockets when you use techniques like digital modulation that compress wireless data to use bandwidth more efficiently. Test accuracy and repeatability are critical. In radar applications, a higher range helps you detect targets further out, and increased accuracy helps you better track targets.Rangeisproportionaltothelengthofapulse,soparameters like pulse length and pulse repetition frequency influence the radar range and range resolution. You need to be able to verify the performance of your radar system.
Commercialoff-the-shelfwaveformpackagesareseldomavailable for devices under test used in aerospace and defense applications, so testing system performance is challenging.TotestyourDUTstotheirlimits,youneedflexible stimulus generating capability for any signal you can imagine.
Figure 4. Spurious performance of 81180A
Newhigh-bandwidth,high-resolutionarbitrary waveform generator helps you test with confidenceThe Agilent 81180A arbitrary waveform generator provides 4.2 GSa/s, 2 GHz IQ modulation bandwidth and 12-bit vertical resolution for applications where waveform resolution is an issue.
Data-centric warfare requires real-time data and video communication. Satellite designers are pushed to use bandwidth greater than 1 GHz bandwidth.
In addition, these bandwidths need to be available at highercarrierfrequenciesupto44GHz.Newemergingstandards like wireless HD or WiGig call for up conversion up to 60 GHz.
These setups require a reliable and precise modulation source. Any signal distortion gets multiplied by each of thetestinstruments,makingitdifficulttopinpointaDUTfailure. When the foundation for your signals is more precise, your test results are more meaningful. You want to testyourDUT,notthesource.
To meet these challenges,you need new test tools.
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In this setup, the 81180A is used as a 2-GHz IQ modulation source.TheAgilentE8267DperformancesignalgeneratorOption 016 is needed for the 2 GHz IQ modulation input. Youcanusemarkersinconjunctionwiththepulsemodulation to suppress the signal in the pulse pauses. The
Generate versatile waveforms
An arbitrary waveform generator is ideal for generating multiple waveform formats, so you can achieve interoperability between terrestrial and space-based communication devices.
In addition to the flexibility of an arbitrary waveform generator, the 81180A gives you unprecedented flexibility with respect to channels. The instrument is available in 1- or 2-channel versions. The 2-channel version can
Figure 5. 2 GHz IQ modulation
Figure 6. 1.5 GHz direct RF carrier frequency
ModulationBWupto2GHzRFupto44GHz
RFupto1.5GHzModulationBW= 1.5 GHz-carrier frequency
markers don’t reduce the number of bits, so using markers improves waveform resolution instead of reducing it.
Youcanusethe81180AforgeneratingdirectRFsignalsupto 1.5 GHz with a good signal waveform resolution.
run either in uncoupled mode so both channels work independently or in coupled mode, either phase coherent or with a defined delay between them. You can couple two 2-channel instruments to form a 4-channel instrument to simulate multiple emitter or receivers, such as multiple aircraft,whereeachcouldbedesignatedasatarget.Bysynchronizing the channels, you simplify your test setup and align the frequency and phase of the signals.
I/Q data via LAN,USB or GPIB
81180A E8267D,Opt. 016
RF/IF out
Marker Out Pulse mod. input
Differential I/Q signals
I/Q data via LAN,USB or GPIB
81180ARF/IF out
Usemodelsof81180A
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Choosethebestamplifiertooptimizeyoursignalcharacteristics
Optimized for for direct
RF/IF applications
-5 dBm to +5 dBmsingle-ended output;
AC coupled;flatness: ±1 dB
up to 1 GHz
Bandwidth (MHz)
1600
1400
1200
1000
800
600
400
200
0
Optimized forpurest signal in I/Q
applicationswith a vector PSG
Up to 500 mVppdifferential output;
DC coupled;harmonic distortions1
less than -56 dBcSFDR less than -64 dBc
Time domainDC amp
Maximum bandwidth
RF amp Direct DACIQ applications
Optimized for time domain applications
Up to 2 Vpp amplitude, ± 1.5 V offset differential
output; DC coupled;600 ps transition times
1 GHz per channel = 2 GHz I/Q modulation BW
Time domain measurements
Low jitter
Maximum bandwidth
1.5 GHz
Time domain measurements
Low jitter
81180A AWG with 3 optional amplifiers
Optimized for different signal characteristics
Different applications call for different signal characteristics. You can choose from three different amplifiers with different characteristics. You can switch between the amplifiers using your software application, the programming interface or the instrument’s front panel.
Figure 7.
Figure 8.
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Increase your signal play time with advanced sequencingThe closer your test signals are to the real-world situation, the better your test results will be. A key requirement is long signal play time, which means you need a big memory. The 81180A offers the choice between two
Loop 1 time Loop 5,200 times Loop 1 time Loop 3,567 times
Loop 317 times
Loop 1 time Loop 45 times Loop 1 time Loop 33 times
Loop 5 times
81180A advanced sequencing is a sequence of sequences. A sequence contains individually looped waveform segments - up to 16,000 segments can be
combined in a sequence - up to 1,000 sequences possible
In advanced sequencing scenarios you can define steps, loopsandconditionaljumpsofwaveformsorwaveformsequences. You can set up to 1 advanced sequences per channel.Eachsequencecontainsupto16,000differentsegments.Upto1,000sequencesarepossible.
With this powerful sequencer, you can easily set up communication between ground stations and airborne devices. After an initiation sequence, the signal can contain separate transmission sequences followed by different messages.
In some applications it is important to change quickly between different waveforms to minimize reconfiguration time. The sequencer allows you to download different test setups into memory. It is possible to directly access the memory via a 8-bit and 9-pin external input, which acceptsTTLsignals.Youcanselectupto256segmentsor sequences via this dynamic segment/sequence control input. It can act as a dynamic switch between the sequences and segments as well.
Figure 9. Agilent 81180A sequence example
Figure 10. Agilent 81180A sequence/segment control Input
memorysizes:16MSaand64MSa.Forthebestmemoryusage, a sequencer helps you create versatile, unique signals.
Agilent 81180A sequence example:
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Createcomplexsignalsinavarietyof software environments
Figure 11.
YoucanchoosebetweentoolslikeMATLABsoftware, NILabVIEWandVisualStudiowithIVIorAgilentwaveformcreationtoolslikeAgilentBenchLinkWaveformBuilderPro,SignalStudio(planned)andAgilentwidebandwaveform creator.
WiththeoptionalBenchLinkWaveformBuilderProyoucan simply create custom, user-defined waveforms and importotherwaveformsfromMATLABandoscilloscopesmeasurements.
You can easily set up simple waveforms like sine waves, pulses,orrampsfromthefrontpanelofthe81180A.Complexmodulation or arbitrary waveforms require waveform creation tools to create realistic signals.
Agilent BenchLinkWaveform Builder Pro
Agilent Signal StudoPulse Builder and Multitone
N7652B Agilent Wideband Waveform Creator
Matlab LabVIEW Visual Studio plusIVI Foundation
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Figure 12. Multi-tone signal on spectrum analyzer. 20 tones spanning ± 25 MHz around 300 MHz, Fs = 4.2GS/s, IMD: -68 dB
Figure 13. Radar pulse with 2 GHz bandwidth. Radarpulsewith2 GHz bandwidth
MATLABsciptexamplesareavailableonwww.agilent.com/find/81180_demoandwillgiveyouajumpstarttogeneratemulti-tone signals, pulsed radar signals and multi-carrier modulated waveforms using the 81180 – standalone or in conjunctionwithaVectorPSG.
Analysis of radar pulse on scope withVSAsoftware
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ElectricalSpecifications
Instrument configurationCharacteristics Description81180A 4.2-GSa/sarbitrarywaveformgeneratorwiththreeoutputpaths,DC-coupleddirectDAC
outputwith1GHzbandwidth,DC-coupled2-Vamplifierwith>600MHzanalogbandwidthor,AC-coupled5dBmamplifierwith1.5GHzanalogbandwidth
81180A-116 Single-channel instrument with 16,000,000 waveform points81180A-216 Dual-channel instrument with 16,000,000 waveform points81180A-264 Dual-channel instrument with 64,000,000 waveform points 81180A-F4G Reconstructionfilter81180A-1CN Rackmountingkitassembly81180A-SYN Synchronization cable to synchronize two dual-channel 81180As to form a four-channel
4.2-GSa/s arbitrary waveform generator system
Interchanneloffsetcontrol(Coursetuning–dual-channelversionsonly)Characteristics DescriptionInitial skew < 200 ps from 1 GSa/s to 4.2 GSa/s; < 1 ns from 100 MSa/s to 1 GSa/s; < 10 ns below
100 MSa/sControlRange 0ton–128points;0to80pointswithexternalsegmentcontrol(n=segmentlength)Resolution 8 pointsAccuracy Same as sample clock accuracy
Interchannelskewcontrol(Finetuning–dual-channelversionsonly)Characteristics DescriptionInitial skew < 200 ps from 1 GSa/s to 4.2 GSa/s; < 1 ns from 100 MSa/s to 1 GSa/s; < 10 ns below
100 MSa/sControlRange -3 ns to +3 nsResolution 10 psAccuracy ±(10%ofsetting+20ps)
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Waveform typeCharacteristics DescriptionStandard A waveform is selected from a built-in library. The standard waveform parameters are
programmable.Arbitrary Arbitrary waveform coordinates are downloaded and stored in memory segments. The
arbitrary waveform parameters are programmable.Sequenced Arbitrary waveforms are downloaded and stored in memory segments. The segments
arearrangedinasequencetablethatstep,loop,jumpandnestonsegmentsinauser-definedconfiguration.Conditionaljumpandnestpendinganeventsignal.
Advanced sequences Same functionality as described for sequenced waveforms except sequences are arranged in the sequence table.
Modulated A modulated waveform is calculated from a built-in library of modulation schemes.Pulse A pulse waveform is calculated and downloaded to the arbitrary waveform memory.
RunmodeCharacteristics DescriptionContinuous Self armed Aselectedoutputfunctionshapeisoutputcontinuously.Nostartcommandsare
required to generate waveforms. Armed Nostartcommandsarerequiredtogeneratewaveforms.Triggered A trigger signal activates a single-shot or counted burst of output waveforms and then
the instrument waits for the next trigger signal.Normalmode The first trigger signal activates the output; consecutive triggers are ignored for the
duration of the output waveform. Override mode The first trigger signal activates the output; consecutive triggers restart the output
waveform whether the current waveform has been completed or not.Gated A waveform is output when a gate signal is asserted. The waveform is repeated until
thegatesignalisde-asserted.Lastperiodisalwayscompleted.
Standard waveformsCharacteristics DescriptionGeneral Waveforms are computed and generated every time a standard waveform is selected. Standard waveform library Built-in,autocomputedwaveforms:sine,triangle,square,ramp,pulse,sink,
exponentialrise,exponentialdecay,Gaussian,noiseandDC.Standard waveform control Thestandardwaveformparameterscanbeadjustedtospecificrequirements.The
waveform is recomputed with each parameter change.
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Standard waveforms frequency controlCharacteristics DescriptionRange 10 kHz to 250 MHzResolution 8 digitsAccuracy Internal reference ≤1ppmfrom19ºCto29ºC;1ppm/ºCbelow19ºCorabove29ºC;≤1ppm/yearagingrateExternalreference Sameasaccuracyandstabilityoftheexternalreference.Referenceisappliedtothe
reference input.
Arbitrary waveformsCharacteristics DescriptionGeneral Arbitrary waveforms are created on a remote computer and downloaded to the
arbitrary waveform memory through one of the available remote interfaces. The frequency of the waveform is calculated from its programmed sample clock value and the number of waveform points that were used for creating the waveform.
Waveform length 320to16,000,000points(320to64,000,000withOption(264),inmultiplesof32pointsNumberofwaveforms 1 to 16,000Dynamic waveform control Softwarecommandorrear-panelsegmentcontrolinput(D-sub,8-bitlines)Waveformjumptiming Coherentorasynchronous,selectableDACresolution 12 bits
Sequenced waveformsCharacteristics DescriptionGeneral Segmentsaregroupedinasequencetablethatlinks,loopsandjumpstonextinuser-
defined scenarios. Sequence steps are advanced on trigger events or remote commands. Eachchannelhasitsownsequencescenario.
Sequence scenario 1 to 1,000 unique scenarios, programmed in sequence tablesSequence table length 1 to 16k stepsStep advance control Auto,once(x“N”)andsteppedLoopcounter Segment loops 1 to 1,000,000 cycles, each segment Sequence loops 1to1,000,000(appliesto“Once”sequenceadvancemodeonly)Accuracy 10 ps
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Arbitrary/sequenced waveforms sample clock controlCharacteristics DescriptionRange 10 MSa/s to 4.2 GSa/s, common or separate for each channelResolution 8 digitsAccuracy Internal reference ≤1ppmfrom19ºCto29ºC;1ppm/ºCbelow19ºCorabove29ºC;1ppm/yearagingrateExternalreference Sameasaccuracyandstabilityoftheexternalreference.Referenceisappliedtothe
reference input or sample clock input.
Advanced sequencingCharacteristics DescriptionGeneral Enablesthegroupingofsequencesintoscenariosinawaythatissimilartohow
segmentsaregroupedinasequencetable.Eachchannelhasitsownadvancesequencing generator.
ASequence scenario 1 scenario, programmed in advanced sequence tableDynamic advance sequence control
Softwarecommandorrearpanelsequencecontrolinput(D-sub,8-bitlines)
ASequence table length 1 to 1k stepsStep advance control Auto, once and steppedOnce loop counter 1 to 1,000,000 cycles, each sequence
Analog outputsCharacteristics DescriptionGeneral DC-coupledamplifiedordirectDACorAC-coupledamplifiedoutput,selectableConnectortype SMAOn/off control Output is turned on or off for each channel independently
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DC-analogoutputsDescription
Characteristics Amplified output DirectDACoutputType of output Single-ended ¹ or differential Single-ended ¹ or differentialImpedance 50 Ω, typical 50 Ω, typicalAmplitude control Specified into 50 Ω, levels double into high
impedanceSpecified into 50 Ω, levels double into high impedance
Range,single-ended 50mVp-pto2Vp-p 50mVp-pto500mVp-pRange,differential 100mVp-pto4Vp-p 100mVp-pto1Vp-pResolution 3 digits 3 digitsAccuracy,offset=0V ±(3%+5mV) ±(3%+5mV)Offset control Commonmode,specifiedinto50Ω,levels
double into high impedanceCommonmode,specifiedinto50Ω,levelsdouble into high impedance
Range -1.5Vto+1.5V -1.5Vto+1.5VResolution 3 digits 3 digits Accuracy ±(5%+5mV) ±(5%+5mV)Rise/falltime(10%to90%) 600 ps, typical 350 ps, typicalBandwidth 600MHz,typical(calculated 1GHz,typical(calculated)Overshoot 5%,typical 15%,typicalHarmonic distortion ² -49dBc,1Vp-p -56dBc,0.5Vp-pNonharmonicdistortion² -69dBC,1Vpp,DCto600MHz -64dBc,0.5Vp-p,DCto1GHzSCLK/2spur³ 1Vp-p 0.5Vp-pamplitude 200 MHz -42dBc -63dBc 500 MHz -40dBc -63dBc 800 MHz -36dBc -63dBcSCLK/2-foutspur³ 1Vp-p 0.5Vp-p 200 MHz -45dBc -67dBc 500 MHz -42dBc -67dBc 800 MHz -37dBc -55dBcPhaseNoise² -90dBc/Hz,1Vp-p,10kHzoffset -90dBc/Hz,1Vp-p,10kHzoffset
1. The unused output must be terminated with 50 Ω to ground2. Offset = 0 V, SCLK = 4.2 GSa/s, 32 points sine waveform (131.25 MHz output frequency), typical values3. Offset = 0 V, SCLK = 4.2GSa/s, arbitrary sine waveforms, typical values4. Measured with low pass filter option 81180A-F4G
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RF,AC-coupledanalogoutputCharacteristics DescriptionType of output Single-ended ¹Impedance 50 Ω ¹, typicalAmplitude control Specified into 50 Ω, levels double into high impedanceRange -5dBmto5dBmResolution 3 digits Accuracy ±(3%+0.5dBm)Bandwidth 1.5 GHz, typicalFlatness ±1dB4MHzto1GHz,±2dBto1.5GHz,typicalHarmonic distortion ² -50dBcNonharmonicdistortion² -58dBc,DCto1.5GHzSCLK/2spur³ 200 MHz -68dBc 500 MHz -68dBc 800 MHz -68dBcSCLK/2-foutspur³ 200 MHz -68dBc 500 MHz -68dBc 800 MHz -60dBcPhasenoise² -90dBc/Hz,10kHzoffset
1. The unused output can be left open2. SCLK = 4.2 GSa/s, 32 points sine waveform (131.25 MHz output frequency), typical values3. SCLK = 4.2GSa/s, arbitrary sine waveforms, typical values4. Measured with low pass filter option 81180A-F4G
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Marker outputsCharacteristics DescriptionConnectortype SMBNumberofmarkers Two markers per channelType of output Differential(+)and(-)outputsImpedance 50 Ω, typicalLevelcontrol Specified into 50 Ω, levels double into high impedanceVoltagewindow 0Vto1.25V,single-ended;0Vto2.5V,differentialLowlevel 0Vto0.8V,single-ended;0Vto1.6V,differential High level 0.5Vto1.25V,single-ended;1Vto2.5V,differentialResolution 10mV Accuracy 10%ofsettingWidth control 0SCLKperiodstosegmentlengthPositioncontrol 0 to segment length in 4 point incrementsMarker resolution 4SCLKperiods(programmedaspartoftheoutputwaveform)Initialdelay1) 3.5 ns, +1 sample clock period, typicalInitial skew between marker 1 and marker 2
< 100 ps, typical
Variabledelaycontrol Separate for each markerRange 0 to 3 nsResolution 10 psAccuracy ±(10%ofsetting+20ps)Rise/falltime 1.0 ns, typical
SYNCoutputCharacteristics DescriptionConnectortype SMAType of output Single endedSource Channel1orchannel2Waveform Pulse(32pointswidth),WCOM(waveformdurationpulse)Impedance 50 Ω, typicalAmplitude 1.2V,typical;doublesintohighimpedanceVariablepositioncontrolRange 0 to segment lengthResolution 32 pointsRise/falltime 2 ns, typicalVariablewidthcontrolRange 32 points to segment lengthResolution 32 points
¹) Analog output to marker output
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Trigger inputCharacteristics DescriptionConnectortype SMADrive Channel1,channel2,orbothInput impedance 10 kΩ, typicalPolarity Positive,negative,orboth,selectableDamage level ±20VdcFrequencyrange 0 to 15 MHzTrigger level controlRange -5Vto5VResolution 12bit(2.5mV) Accuracy ±(5%ofsetting+2.5mV) Sensitivity 200mVp-pPulsewidth,minimum 10 nsSystem delay 200 sample clock periods + 50 ns, typicalTrigger delay Separate for each channelRange 0 to 8,000,000 sample clock periodsResolution 8 points Accuracy Same as sample clock accuracySmart trigger Detects a unique pulse width rangeConditionedtrigger < pulse width, > pulse width, <> pulse widthPulsewidthrange 50 ns to 2 sResolution 2 ns Accuracy ±(5%ofsetting+20ns)Trigger holdoff Ignores triggers for a holdoff duration Holdoff range 100 ns to 2 sResolution 2 ns Accuracy ±(5%ofsetting+20ns)Triggerjitter 8 sampling periods
Internal trigger generatorCharacteristics DescriptionSource CommonorseparateforeachchannelMode Timer(waveformstarttowaveformstart);delayed(waveformstoptowaveformstart)TimerRange 100 ns to 2 sResolution 3 digits Accuracy 100 ppmDelayedRange 152 to 8,000,000 sample clock periodsResolution Integer numbers, divisible by 8
4. Trigger input to analog output
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EventinputCharacteristics DescriptionGeneral Usedforbranchinginoroutfromasequenceloop.Alsousedforenablingordisablingthe
output in armed mode.Connectortype RearpanelBNCInput impedance 10 kΩ, typicalPolarity Positive,negativeoreither,selectableDamage level ±20VdcFrequencyrange 0 to 15 MHzTrigger level controlRange -5Vto5VResolution 12bit(2.5mV) Accuracy ±(5%ofsetting+2.5mV) Sensitivity 200mVp-pPulsewidth,minimum 10 ns
Sequence/segment control inputCharacteristics DescriptionConnectortype D-sub, 8-bit linesNumberofinputconnectors 1-ch instrument: 8-bit bus + valid line
2-chinstrument:(8-bitbus+validline)perchannelSwitching rate 20 ns + waveform duration minimumInput impedance 10 kΩ, typicalInput level TTL
ExternalreferenceclockinputCharacteristics DescriptionConnectortype RearpanelBNCInput frequency 10 MHz to 100 MHz, programmableInput impedance 50 Ω, typicalInput voltage swing -5dBmto5dBmDamage level 10dBm
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ExternalsampleclockinputCharacteristics DescriptionGeneral Externalsignalisfedtoafrequencysplitter.Samefrequencyisappliedtobothchannels.Connectortype Rear-panelSMAInput impedance 50 Ω, typicalInput voltage swing 0dBmto10dBmInput frequency range 2.0 GHz to 4.2 GHzClockdivider 1/1, 1/2, 1/4, … 1/ 256, separate for each channelDamage level 15dBm
Two-instrument synchronizationCharacteristics DescriptionGeneral Two instruments are synchronized via dedicated synchronization cable.
Master instrument controls waveform generation of slave instrument.Initial skew between instruments
20ns+0to16SCLKperiods
Offset control 8SCLKperiodsincrementsClocksource Master sample clock generatorTrigger source Master trigger input
DisplayCharacteristics DescriptionType TFTLCD,back-litSize 4“Resolution 320 x 240 pixels
PeripheraldevicesCharacteristics DescriptionUSBport 1xfront,USBhost,standardA;1xrear,USBdevice,standardBLANport 1000/100/10BASE-TGPIBport IEEE488.2standardinterface,24pinSegment control port 2 x D-sub, 9 pin
Mechanical,EnvironmentalandMaintenanceSpecifications
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PowersupplyCharacteristics DescriptionSource voltage and frequencyRatingrange 100VACto240VACFrequencyrange 50 Hz to 60 HzPowerconsumption 100VA
MechanicalCharacteristics DescriptionDimensions With feet 315x102x395mm(WxHxD) Without feet 315x88x395mm(WxHxD)Weight Without package 4.5 kg Shipping weight 6 kg
EnvironmentalCharacteristics DescriptionOperating temperature 0ºCto40ºCStorage temperature -40ºCto70ºCHumidity 85%RH,noncondensing
CertificationsandcompliancesCharacteristics DescriptionSafety IEC61010-1EMC IEC61326-1:2006
MaintenanceCharacteristics DescriptionGeneral PeriodicrecalibrationisrequiredtomaintainaccuracyofoutputcharacteristicsRecalibrationperiod 2 years
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©AgilentTechnologies,Inc.2010PrintedinUSA,September28,20105990-5697EN
Related literature / Pub. No. Bestmemoryusageforreal-worldsignals–UnderstandingSequenceRunandSequenceAdvanceModes5990-5965EN