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Agilent Technologies 35670-90066 manual Backdating

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With the information provided in this chapter, this manual can be corrected so that it applies to any earlier version or configuration of the instrument.

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Agilent Technologies 35670-90066 manual Backdating

Contents

Print Date: March Agilent 35670A Service GuideAgilent Part Number Printed in Malaysia The Agilent 35670A at a Glance Front Panel Agilent 35670A Front Panel The Agilent 35670A at a Glance Rear Panel Plot/Print menu Agilent 35670A Rear PanelPlot/Print menus BEFORE APPLYING POWER Saftey SummaryGENERAL ENVIRONMENTAL CONDITIONSDO NOT REMOVE THE INSTRUMENT COVER FUSESDO NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE Safety Symbols Warning, risk of electric shockAlternating current Both direct and alternating currentAccessories Supplied AccessoriesAvailable Accessories Agilent 35670AIn This Book Table of Contents 1Specifications3Verifying Specifications 2Preparing the Analyzer for UseTo set up the anti-aliasfilter test To set up the input coupling testTo set up the harmonic distortion test To set up the tach function test4Troubleshooting the Analyzer 5Adjusting the Analyzer 6Replacing Assemblies7Replaceable Parts Assembly Covers and Brackets Front Panel PartsOrdering Information Assemblies Cables Instrument Covers and Handles8Circuit Descriptions A98 Power Supply A99 Motherboard A100 Disk DriveOption UK4 Microphone Adapter and Power Supply Overall Instrument Description A1 Input A2 Input11Backdating 12Quick Reference Index 9Voltages and Signals10Internal Test Descriptions Specifications Specifications AbbreviationsFrequency FrequencyAgilent 35670A Single Channel Amplitude Single Channel AmplitudeSpecifications FFT Dynamic Range Window Parameters Single Channel PhaseInput Noise Cross Channel Phase Cross Channel AmplitudeSpecifications Agilent 35670AInput Agilent 35670A Time DomainTrigger Tachometer Source Output Agilent 35670ADigital Interfaces General Specifications Order Tracking — Option 1D0 Max Order⋅ Max RPMSwept Sine Measurements —Option1D2 Arbitrary Waveform Source—Option1D4n = 1, 3 or Real Time Octave Analysis — Option 1D1f i+1 Recommended Test Equipment Critical SpecificationsRecommended Test Equipment InstrumentSuggested Assembly for Series Resistor Schematic and Parts List for Notch Filter Critical Specifications Additional Recommended Test EquipmentInstrument Recommended ModelPreparing the Analyzer for Use Preparing the Analyzer for Use DC Power RequirementsAC Power Requirements Preparing the Analyzer for Use DC Power Cable and Grounding RequirementsAC Power Cable and Grounding Requirements subject the operator to lethal voltages Preparing the Analyzer for UseTo do the incoming inspection •Set the analyzer’s power switch to on To install the analyzer other excessive moistureTo connect the analyzer to a dc power source •Turn on the dc power source To change the fuses To connect the analyzer to a serial device To connect the analyzer to a parallel devicePart Number Cable DescriptionTo connect the analyzer to an GPIB device EXT MON ON OFF To connect the analyzer to an external monitor•Set the analyzer’s power switch to on l To connect the optional keyboard •Set the power switch to off OTechnologies keyboards To connect the microphone adapter Standard 2 channel Agilent 35670AOptional 4 channel Agilent 35670ATo clean the screen To store the analyzer•Set the power switch to off O •Remove the power cordTo transport the analyzer If the analyzer will not power up Check that the cable connections are not loose Verifying Specifications Verifying Specifications OverviewFeatures of the Program Test DurationCalibration Cycle Recommended Test EquipmentMeasurement Uncertainty Operation Verification and Performance TestsProgram Controlled Test Equipment Operation Verification Tests Performance TestsPerformance Test Specifications and Performance TestsSpecification To load the program •‘’To run the program in semiautomated mode’’•‘’To run the program without a printer’’ •‘’To run the program in manual mode’’To run the program in semiautomated mode • Press the following keys to start the test •Press the following keys to start the test To run the program without a printer•Press the following keys in the selected test record To run the program in manual mode To set up the self test Verifying SpecificationsPerformance Test and Operation Verification Agilent 35670ATo set up the dc offset test 1 2 ch1 4 ch Verifying SpecificationsTo set up the noise test Verifying SpecificationsTo set up the noise test 1 2 ch1 4 ch To set up the spurious signals test1 2 ch 1 4 ch To set up the amplitude accuracy test1 2 ch 1 4 ch To set up the flatness test1 2 ch 1 4 ch To set up the amplitude linearity test1 2 ch 1 4 ch To set up the A-weightfilter test1 2 ch 1 4 ch To set up the channel match test1 2 ch To set up the frequency accuracy test Verifying SpecificationsTo set up the frequency accuracy test 1 2 ch1 4 ch To set up the anti-aliasfilter test1 2 ch 1 4 ch To set up the input coupling test1 2 ch 1 4 ch To set up the harmonic distortion test1 2 ch 2 ch 2A 2 ch4 ch Verifying SpecificationsVerifying Specifications To set up the harmonic distortion test4 ch Agilent 35670A1 4 ch To set up the intermodulation distortion test1 2 ch 1A 2 ch 1A 4 chVerifying Specifications To set up the intermodulation distortion test1 2 ch To set up the cross talk test2 2 ch 3 2 ch 2 4 chTo set up the cross talk test 1 4 ch3 4 ch 4 4 chVerifying Specifications To set up the cross talk testAgilent 35670A 5 4 chTo set up the cross talk test 1 4 ch To set up the single channel phase accuracy test1 2 ch 1 4 ch To set up the external trigger test1 2 ch Verifying Specifications To set up the external trigger test1A 2 ch 1A 4 ch1 4 ch To set up the tach function test1 2 ch Verifying Specifications To set up the tach function test1A 2 ch 1A 4 chTo set up the input resistance test Verifying SpecificationsTo set up the input resistance test 1 4 chVerifying Specifications To set up the input resistance test2 4 ch 3 4 ch2 2 ch To set up the ICP supply test1 2 ch 4 2 ch Verifying SpecificationsTo set up the ICP supply test 3 2 ch6 4 ch To set up the ICP supply test3 4 ch 4 4 ch7 4 ch 8 4 chVerifying Specifications To set up the ICP supply test1 4 ch To set up the source amplitude accuracy test1 2 ch 2 2 ch To set up the source output resistance test1 2 ch Verifying Specifications To set up the source output resistance test3 2 ch 1 4 ch1 4 ch To set up the source dc offset test1 2 ch To set up the source flatness test Verifying SpecificationsTo set up the source flatness test 1 2 ch1 4 ch To set up the source distortion test1 2 ch ITM_35670A Main Menu Descriptions Start Testing Menu Descriptions Test Configuration Menu Descriptions Equipment Configuration Menu Descriptions Title Page Menu Descriptions Measurement Uncertainty Using Recommended TestUsing Other Test Equipment Performance TestMeasurement Uncertainty Verifying SpecificationsAgilent 35670A Using Other Test Equipment EquipmentMeasurement MeasurementPerformance Test Record - Two Channel Test Instruments UsedSelf Test DC OffsetNoise Verifying SpecificationsSpurious Signals Verifying SpecificationsAgilent Test Date:___/___/___Verifying Specifications Performance Test Record - Two ChannelTest Date:___/___/___ 4 ofVerifying Specifications Agilent 35670ATest Date:___/___/___ 5 ofSpurious Signals continued Amplitude AccuracyFlatness Verifying SpecificationsAmplitude Linearity Agilent 35670ATest Date:___/___/___ 7 ofA-WeightFilter Channel MatchVerifying Specifications Test Date:___/___/___Frequency Accuracy Anti-AliasFilterInput Coupling Agilent 35670AHarmonic Distortion Verifying SpecificationsTest Date:___/___/___ 10 ofIntermodulation Distortion Cross TalkAgilent 35670A Test Date:___/___/___Single Ch Phase Accuracy External TriggerTach Function option D01 only Verifying SpecificationsInput Resistance ICP SupplySource Amplitude Accuracy Source Output ResistanceSource DC Offset Source FlatnessSource Distortion Verifying SpecificationsPerformance Test Record - Four Channel Test Instruments UsedVerifying Specifications Self TestDC Offset NoiseSpurious Signals Spurious Signals continuedVerifying Specifications Agilent 35670AFour Ch, 1600 Hz Start, Ch Verifying SpecificationsPerformance Test Record - Four Channel Four Ch, 14400 Hz Start, Ch Verifying SpecificationsAgilent 35670A Spurious Signals continued Verifying SpecificationsPerformance Test Record - Four Channel Four Ch, 20800 Hz Start, ChVerifying Specifications Amplitude AccuracyAgilent 35670A Test Date:___/___/___Amplitude Accuracy continued Verifying Specifications FlatnessAgilent 35670A −11 dBVrms, 51.2 kHz, One Ch, ChVerifying Specifications Amplitude LinearityPerformance Test Record - Four Channel Test Date:___/___/___A-WeightFilter Verifying SpecificationsAgilent 35670A MeasurementVerifying Specifications Channel MatchPerformance Test Record - Four Channel Two Ch, 2/1, 7 dBV FS MagPerformance Test Record - Four Channel Verifying SpecificationsAgilent 35670A Verifying Specifications Frequency AccuracyAnti-AliasFilter Input CouplingVerifying Specifications Harmonic DistortionAgilent 35670A Test Date:___/___/___Verifying Specifications Intermodulation DistortionPerformance Test Record - Four Channel Test Date:___/___/___Single Ch Phase Accuracy Verifying SpecificationsCross Talk Agilent 35670AVerifying Specifications External TriggerTach Function option D01 only Input ResistanceVerifying Specifications Source Amplitude AccuracySource Output Resistance Agilent 35670AVerifying Specifications Source DC OffsetSource Flatness Source DistortionOperation Verification Test Record - Two Channel Test Instruments UsedVerifying Specifications Self TestDC Offset NoiseSpurious Signals Verifying SpecificationsAgilent 35670A Operation Verification Test Record - Two ChannelVerifying Specifications Test Date:___/___/___4 of Operation Verification Test Record - Two ChannelSpurious Signals continued Verifying SpecificationsAgilent 35670A Test Date:___/___/___Verifying Specifications Amplitude AccuracyOperation Verification Test Record - Two Channel Test Date:___/___/___A Weight Filter Verifying SpecificationsFlatness Amplitude LinearityVerifying Specifications Channel MatchAgilent 35670A Operation Verification Test Record - Two ChannelSingle Ch Phase Accuracy Verifying SpecificationsFrequency Accuracy Tach Function option D01 onlyVerifying Specifications ICP SupplySource Amplitude Accuracy Source FlatnessOperation Verification Test Record - Four Channel Test Instruments UsedVerifying Specifications Self TestDC Offset NoiseSpurious Signals Agilent 35670ATest Date:___/___/___ 3 ofVerifying Specifications Test Date:___/___/___4 of Operation Verification Test Record - Four ChannelVerifying Specifications Agilent 35670ATest Date:___/___/___ 5 ofSpurious Signals continued Verifying SpecificationsTest Date:___/___/___ 6 ofVerifying Specifications Amplitude AccuracyAgilent 35670A Test Date:___/___/___Verifying Specifications Amplitude Accuracy continuedTest Date:___/___/___ 8 ofFlatness Agilent 35670ATest Date:___/___/___ 9 ofVerifying Specifications Amplitude LinearityTest Date:___/___/___ 10 ofA Weight Filter Verifying SpecificationsAgilent 35670A Test Date:___/___/___Verifying Specifications Channel MatchAgilent 35670A Test Date:___/___/___Verifying Specifications Frequency AccuracyAgilent 35670A Test Date:___/___/___Single Ch Phase Accuracy Verifying SpecificationsTach Function option D01 only ICP SupplySource Amplitude Accuracy Source FlatnessSource Distortion Agilent 35670APage Troubleshooting the Analyzer Troubleshooting the Analyzer Safety ConsiderationsTroubleshooting Hints Equipment RequiredTroubleshooting Test How to troubleshoot the analyzerSymptom To perform initial verification Symptom Probable Faulty AssemblyPage Signal Name Probable Faulty Assembly1 MΩ 10:1 probe Test LocationTroubleshooting the Analyzer Agilent 35670AA7 Component Locator, Circuit Side To perform initial verificationStep 7. Check signals required for power up Signal NameProbable Faulty Assembly Signal NameTo troubleshoot the power supply •Set the power switch to off O •Remove the A7 CPU assembly •Disconnect the fan cable from A99 P90 To troubleshoot power-upfailures • Set the power switch to on lpower-uptest result to the following table Step• Set the power switch to off O Power-onLEDs BinaryHexa ~Time LEDsTo troubleshoot CPU, memory, and buses failures G• Set the power switch to off O Probable Faulty AssemblyBinary HexadecimalA7 Component Locator, Circuit Side 4-20• Set the power switch to off O To troubleshoot display failures Page Vertical and horizontal scanning is occurring SymptomProbable Faulty Assembly To troubleshoot IIC bus failures LEDs, and the display • Set the power switch to on l• Attach a logic probe to A7 P7 pin 2 SCL G• Attach the logic probe to A7 P7 pin 1 SDA •Set the power switch to off O To troubleshoot fast bus failures Agilent 35670A Troubleshooting the AnalyzerTo troubleshoot fast bus failures • Set the power switch to on l To perform self testsusing a BNC cable displayed ‘’To troubleshoot self-testlockup failures.’’4-40 ‘’To troubleshoot intermittent failures.’’ following tableFailing Self Test Probable Faulty Assembly AdjustmentTroubleshooting Test Probable Faulty Assembly AdjustmentTroubleshooting Test Failing Self TestSelf-TestTroubleshooting Guide continued Probable Faulty AssemblyAdjustment Troubleshooting TestProbable Faulty AssemblyFailure Next TestTo troubleshoot self-testlockup failures G• Set the power switch to on lG• Press the following keys Page To troubleshoot intermittent failures •Set the power switch to on l•Press the following keys To troubleshoot performance test failures Troubleshooting the Analyzer Probable Faulty AssemblyAdjustment Troubleshooting TestTroubleshooting the Analyzer Failing Performance Test Troubleshooting GuideSpurious signals To troubleshoot performance test failuresTo troubleshoot source and calibrator failures assembly is probably faultyStep 2. Check the dc offset • Connect the voltmeter to A5 TP3• Press the following keys G• Set the power switch to off O •Set the power switch to on lTroubleshooting the Analyzer Step 4. Check the calibrator outputTroubleshooting the Analyzer System UtilityInput Source•Press the following keys To troubleshoot input and ADC failures Probable FaultyAssembly System UtilityTroubleshooting the Analyzer To troubleshoot input and ADC failuresPage G• Set the power switch to on l G• Set the power switch to off O To troubleshoot distortion failures To troubleshoot disk drive failures The read/write To troubleshoot auto-rangefailures •Set the power switch to on l•Press the following keys •Press the following keys•Press the following keys To troubleshoot DIN connector failures •Set the frequency synthesizer as follows To troubleshoot trigger failuresG• Set the power switch to on l CHANNEL 3 option AY6 only CHANNEL 4 option AY6 onlymS S The analyzer should now triggerG• Set the power switch to off O •If the signal at A5 TP 204 is toggling, the A6 Digital assembly is probably faulty G• Set the power switch to off O To troubleshoot memory battery failures Agilent 35670A Troubleshooting the AnalyzerTo troubleshoot memory battery failures G• Set the power switch to on l To troubleshoot tachometer failures • Press the following keys Page Adjusting the Analyzer Adjusting the Analyzer AdjustmentAssembly ComponentSafety Considerations Adjusting the AnalyzerEquipment Required potentially dangerous voltagesGPIB Code Remote OperationAdjustment •Set the power switch to on To adjust the frequency reference•Set the power switch to off O To adjust the source Adjusting the AnalyzerTo adjust the source Equipment Required: MultimeterTo adjust the ADC gain, offset and reference •Set the oscilloscope as follows •Set the power switch to off O•Set the power switch to on •Press the following keys To adjust the input dc offset Equipment Required: NoneG• Set the power switch to on G• Set the power switch to on To adjust common mode rejection Equipment Required: BNC-to-BNCCable•Set the power switch to off O •Set the power switch to off O •Press the the following keys To adjust filter flatness To adjust filter flatnessAdjusting the Analyzer G• Set the power switch to on G• Set the power switch to on •Press the following keys To adjust the display voltage Agilent 35670A Adjusting the AnalyzerTo adjust the display voltage Replacing Assemblies Replacing Assemblies Replacing Assemblies What to do before replacing the CPU assemblyAgilent 35670A What to do after replacing an assembly Assembly Replaced Required AdjustmentRequired Performance Test A7 CPUTo remove cover 2 Slide the cover straight upReplacing Assemblies To remove coverTo remove rear panel To remove front panel 2 Remove assembly retainer bracket1 Remove cover see ‘’To remove cover’’ Replacing AssembliesTo remove front panel Agilent 35670AReplacing Assemblies To remove disk drive 1 Remove cover see ‘’To remove cover’’2 Disconnect the disk drive cable 4 Slide the disk drive back and lift upTo remove CPU To remove NVRAM 1 Remove A7 CPU assembly see ‘’To remove CPU’’Replacing Assemblies To remove NVRAMTo remove memory To remove memoryTo remove power supply 6 Lift the A98 Power Supply assembly straight To remove power supplyAgilent 35670A Replacing AssembliesTo remove motherboard 3 Remove assembly retainer bracket4 Unplug all assemblies from the A99 MotherboardTo remove motherboard To remove dc-dcconverter To remove dc-dcconverterReplacing Assemblies Replaceable Parts Non-ListedParts Replaceable PartsOrdering Information Direct Mail Order System Code NumbersMfr No Mfr NameAssemblies AssembliesReplaceable Parts Agilent 35670A Agilent PartDescription NumberCables CablesReplaceable Parts Replaceable Parts Instrument Covers and HandlesAgilent 35670A Replaceable Parts Assembly Covers and BracketsAssembly Covers and Brackets Front Panel Parts Agilent 35670ARear Panel Parts Rear Panel PartsReplaceable Parts Chassis Parts Chassis PartsAgilent 35670A Screws, Washers, and Nuts Miscellaneous PartsReplaceable Parts Screws, Washers, and NutsOption UK4 Parts Agilent 35670AParts PartsOption UK4 Parts Replaceable PartsAgilent 35670A Circuit Descriptions Circuit Descriptions Overall Instrument DescriptionOverall Block Diagram Overall Instrument Description Two Channel Overall Block DiagramCircuit Descriptions Four Channel Overall Block Diagram Agilent 35670ACircuit Descriptions Overall Instrument DescriptionA1 Input DC Offset DAC Agilent 35670AA1 Input A1 Input Block Diagram: Channel A1 InputCircuit Descriptions Agilent 35670AA1 Input Block Diagram: Channel 1 continued Agilent 35670ACircuit Descriptions A1 InputAgilent 35670A A1 Input Block Diagram: ChannelA1 Input A1 Input Block Diagram: Channel 2 continued Agilent 35670ACircuit Descriptions A1 InputA2 Input A2 InputCircuit Descriptions DC Offset DAC Agilent 35670AA2 Input Agilent 35670A A2 Input Block Diagram: Channel 1 or ChannelA2 Input A2 Input Agilent 35670ACircuit Descriptions A2 Input Block Diagram: Channel 3 or Channel A2 InputCircuit Descriptions Agilent 35670AA2 Input Agilent 35670ACircuit Descriptions A5 Analog Channel Switch 1st Pass Circuit ADC ControllerChannel 1 Track & Hold Channel 2 Track & Hold Channel 3 Track & Hold Channel 4 Track & HoldA5 Analog Block Diagram: ADC and Trigger Agilent 35670ACircuit Descriptions A5 Analog±6.2 Voltage Reference Circuit Descriptions Agilent 35670AA5 Analog A6 Digital • ADC timing and synchronization signalsTrigger Local OscillatorA6 Digital Block Diagram Agilent 35670ACircuit Descriptions A6 DigitalCircuit Descriptions Agilent 35670AA6 Digital FIFO ControllerA7 CPU A7 CPU Block Diagram Circuit DescriptionsA7 CPU Agilent 35670AA7 CPU Block Diagram: Interface •A1 or A2 Input •A5 Analog •SCL serial clock •SDA serial data A8 Memory Local/GpibSystem Utility Plot/PrintROM Address Agilent 35670AA8 Memory nonvolatile RAM A9 NVRAMA9 NVRAM Block Diagram A10 Rear Panel A10 Rear Panel Block Diagram Circuit DescriptionsA10 Rear Panel Agilent 35670AA11 Keyboard Controller A11 Keyboard Controller Block DiagramA12 BNC A12 BNCCircuit Descriptions A13 Primary Keypad A14 Secondary KeypadA15 Primary Keypad A22 BNCA98 Power Supply A90 FanA99 Motherboard A100 Disk DriveA101 Display A102 DC-DCConverterOption UK4 Microphone Adapter and Power Supply Circuit Descriptions Option UK4 Microphone Adapter and Power SupplyAgilent 35670A Page Voltages and Signals Section Title Voltages and SignalsDescribes signals routed Assembly Locations and Connections Assembly LocationsVoltages and Signals Assembly Locations and ConnectionsVoltages and Signals Assembly Locations and ConnectionsAssembly Connections for Two Channel Analyzer Agilent 35670AAssembly Connections for Four Channel Analyzer Voltages and SignalsAssembly Locations and Connections Agilent 35670APower Supply Voltage Distribution Power Supply Voltage DistributionVoltages and Signals A1 Input A2 InputA7 J3 Pins A8 P1 Pins•This assembly uses the signal ⇔This signal is bidirectionalSignal Name Agilent 35670AA8 Memory PA10BD16 —31 SIZE0 — SIZE1 Agilent 35670AA8 Memory A8 P2 A9 NVRAMPins Signal Name BASnSignal Name A10 Rear PanelGPIB Serial Port Signal NameAgilent 35670A A10 Rear PanelParallel Port Signal NameDIN Keyboard Source OutputTachometer Input External Trigger InputA11 Keyboard Controller Signal NameA11 Keyboard Controller assembly Agilent 35670AThe A12 BNC assembly is only used in two channel analyzers. The A12 BNC assembly routes the signals connected to the Channel 1 BNC connector and Channel 2 BNC connector to the A1 Input assembly. The A12 BNC assembly also routes the source signal from the A5 Analog assembly to the Source BNC connector. The signal connected to Channel 1 should be between 0.19531 Hz to 102.4 kHz in single channel mode and between 0.097656 Hz to 51.2 kHz in two channel mode. The signal connected to Channel 2 should be between 0.097656 to 51.2 kHz. For both channels, the signal’s amplitude range must be between +27 dBVrms and –51dBVrms for full scale measurements. The source output signal can be random noise, burst random noise, periodic chirp, burst chirp, pink noise, or fixed sine. The amplitude range of the source output is ±5 Vpk A12 BNCA11 Location Signal NameA13 Primary Keypad HRNGBn HRNGCnHRNGDn OVLDAnA14 Secondary Keypad COL0 - COL2A22 BNC Voltages and SignalsA22 BNC Signal Name Assembly Using SignalMotherboard Connector Connector Pin NumberAgilent 35670A A99 MotherboardAgilent 35670A Voltages and Signals Assembly Using VoltageA99 Motherboard VoltageAgilent 35670A A10MHZVoltages and Signals Agilent 35670AA99 Motherboard EXTRGINAgilent 35670A FSELAnVoltages and Signals Agilent 35670AA99 Motherboard LPFCLKAgilent 35670A SRCCLOCKVoltages and Signals A100 Disk DriveA100 Disk Drive A7 P3DISKINn Agilent 35670AA100 Disk Drive HSYNCELn Signal NameA101 Display Pins A102 DC-DCConverterA7 P2 A102Page Internal Test Descriptions Power-onTest Description Internal Test DescriptionsLow-levelSubtests High-levelSubtests10-3 Power-onTest MessagesBinary to Hexadecimal Internal Test Descriptions Power-onTest DescriptionPower-onTest Messages Calibration Routine Description 10-5Calibration Routine Description DC-OffsetTables and Frequency Correction CurvesInternal Test Descriptions Calibration Error Messages Viewing the Calibration Correction CurvesInst Mode InputDisp Format System UtilityFault Log Messages 10-10 Self-TestDescriptionsSELF TEST FUNCTIONL TESTS ALL Agilent 35670A Functional Tests All Self-TestGroupSelf Tests that Perform a Measurement Individual Self-TestDescriptions DISTORTN INPUT TRIGGER OFFSET SERIAL PORT Self Test Self-TestMenu Map and GPIB CommandsGPIB Command SELF TEST GPIB CommandSelf Test Page Backdating Backdating Quick Reference Quick Reference Quick Reference Assembly LocationsAgilent 35670A Agilent 35670A Assembly Connections for Two Channel AnalyzerQuick Reference Quick Reference Assembly Connections for Four Channel AnalyzerAgilent 35670A Agilent 35670A Two Channel Overall Block DiagramQuick Reference Quick Reference Four Channel Overall Block DiagramAgilent 35670A Agilent 35670A A1 Input Block Diagram: ChannelQuick Reference Quick Reference A1 Input Block Diagram: Channel 1 continuedAgilent 35670A Agilent 35670A A1 Input Block Diagram: ChannelQuick Reference Quick Reference A1 Input Block Diagram: Channel 2 continuedAgilent 35670A Agilent 35670A A2 Input Block Diagram: Channel 1 or ChannelQuick Reference Agilent 35670A Quick ReferenceAgilent 35670A A2 Input Block Diagram: Channel 2 or ChannelQuick Reference Agilent 35670A Quick ReferenceAgilent 35670A A5 Analog Block Diagram: ADC and TriggerQuick Reference Agilent 35670A Quick ReferenceAgilent 35670A A6 Digital Block DiagramQuick Reference Quick Reference A7 CPU Block DiagramAgilent 35670A Agilent 35670A A7 CPU Block Diagram: InterfaceQuick Reference Quick Reference Reset LogicAgilent 35670A Agilent 35670A A8 Memory Block DiagramQuick Reference Quick Reference A9 NVRAM Block DiagramAgilent 35670A Agilent 35670A A10 Rear Panel Block DiagramQuick Reference Quick Reference A11 Keyboard Controller Block DiagramAgilent 35670A Agilent 35670A A98 Power Supply Block DiagramQuick Reference Index batterybattery backed memory troubleshootingCPU assembly frequency adjustmenttroubleshooting front panelsignals 8-29, initial verification troubleshootinginput assembly common mode adjustmentmemory assembly signal descriptionstroubleshooting troubleshooting battery9-23 10-173-13 10-12hints using self tests voltages power supply distributionwashers, part numbers 7-12If you are thinking about And you want toThen read Guide to Agilent 35670A DocumentationNeed Assistance? July 1994: Previous edition About this editionOctober 2000: Rebranded for Agilent Technologies