Agilent Technologies 6813B, 6834B, 6814B, 6843A, 6811B, 6812B manual 159

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Error Messages - C

Current selftest error, output 2

Current selftest error, output 3

Fan voltage failure

Digital I/O selftest error

Device-Dependent Errors 100 through 32767 (sets Standard Event Status Register bit #3)

Outgrd not responding

Front panel not responding

Ingrd receiver framing error

Ingrd uart overrun status

Ingrd received bad token

Ingrd receiver buffer overrun

Ingrd input buffer overrun

Outgrd output buffer overrun

RS-232 receiver framing error

RS-232 receiver parity error

RS-232 receiver overrun error

Ingrd inbuf count sync error

Front panel uart overrun

Front panel uart framing

Front panel uart parity

Front panel buffer overrun

Front panel timeout

CAL switch prevents calibration

CAL password is incorrect

CAL not enabled

Computed readback cal constants are incorrect

Computed programming cal constants are incorrect

Incorrect sequence of calibration commands

Systems in mode:list have different list lengths

Requested voltage and waveform exceeds peak voltage capability Requested voltage and waveform exceeds transformer volt-second rating Command only applies to RS-232 interface

Trigger received before requested number of pre-trigger readings

Requested RMS current too high for voltage range

Waveform data not defined

VOLT, VOLT:SLEW, and FUNC:SHAP modes incompatible

Measurement overrange

Output buffer overrun

Command cannot be given with present SYST:CONF setting

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Contents Programming Guide Printing History Safety SummaryTable of Contents System Considerations Language DictionaryMeasurement Subsystem Frequency Source Subsystem Function Source Subsystem Voltage 121 Programming ExamplesElgar Model 9012 Compatibility Scpi Command TreeError Messages Scpi Conformance Information181 IEC Mode Command Summary167 IndexInformation about this Current model About this GuideEarlier AC Source Models Documentation SummaryGpib References Agilent VXIplug&play Power Products Instrument DriversExternal References Scpi ReferencesDownloading and Installing the Driver Accessing Online HelpSystem Requirements Page RS-232 Data Format Gpib Capabilities of the AC SourceRS-232 Capabilities of the AC Source Gpib AddressRS-232 Programming Example RS-232 TroubleshootingTypes of Scpi Messages Types of Scpi CommandsIntroduction to Scpi Conventions Used in This GuideScpi Command Tree Root LevelActive Header Path Moving Among Subsystems Effect of Optional HeadersStructure of a Scpi Message Including Common CommandsUsing Queries Coupled CommandsHeaders Combining Message UnitsMessage Terminator Query IndicatorMessage Unit Separator Root SpecifierCharacter Data Scpi Data FormatsNumerical Data Formats Suffixes and MultipliersAgilent 82335A Driver System ConsiderationsAssigning the Gpib Address in Programs Types of DOS DriversAgilent Basic Controllers Error HandlingPage Introduction Language DictionarySubsystem Subsystem CommandsCalcurrac Calibration Subsystem CommandsSubsystem Syntax CALibrateCURRentACCALibrateLEVel CALibrateCURRentMEASureCALibrateDATA CALibrateIMPedanceCALibrateSAVE CALibratePASSwordCALibratePWMFREQuency CALibratePWMRAMPCalstat 1,6812 Calstat OFF CALibrateSTATeCALibrateVOLTageAC CALibrateVOLTageDCCALibrateVOLTageOFFSet CALibrateVOLTagePROTectionCALibrateVOLTageRTIMe DISPlayTEXT Display Subsystem CommandsDISPlay DISPlayMODEInstrument Subsystem INSTrumentCOUPleInstcoup ALL INSTrumentNSELect INSTrumentSELect MEASureARRayCURRent? FETChARRayCURRent? Measurement Subsystem ArraysMEASureARRayCURRentHARMonic? FETChARRayCURRentHARMonic? MEASureARRayCURRentNEUTral? FETChARRayCURRentNEUTral? MEASureARRayVOLTage? FETChARRayVOLTage? MEASureARRayVOLTageHARMonic? FETChARRayVOLTageHARMonic? MEASureCURRent? FETChCURRent? Measurement Subsystem CurrentMEASureCURRentACDC? FETChCURRentACDC? MEASureCURRentAC? FETChCURRentAC?MEASureCURRentCREStfactor? FETChCURRentCREStfactor? MEASureCURRentHARMonic? FETChCURRentHARMonic?Parameters Examples MEASureCURRentHARMonicPHASe? FETChCURRentHARMonicPHASe? MEASureCURRentHARMonicTHD? FETChCURRentHARMonicTHD?MEASureCURRentNEUTral? FETChCURRentNEUTral? MEASureCURRentNEUTralAC? FETChCURRentNEUTralAC? MEASureCURRentNEUTralACDC? FETChCURRentNEUTralACDC?MEASureCURRentNEUTralHARMonic? FETChCURRentNEUTralHARMonic? MEASCURRNEUTHARMPHAS? MEASureFREQuency? FETChFREQuency? Measurement Subsystem FrequencyMeasurement Subsystem Power MEASurePOWer? FETChPOWer?MEASurePOWerAC? FETChPOWerAC? MEASurePOWerACAPParent? FETChPOWerACAPParent? MEASurePOWerACREACtive? FETChPOWerACREACtive?MEASurePOWerACPFACtor? FETChPOWerACPFACtor? MEASurePOWerACTOTal? FETChPOWerACTOTal? Measurement Subsystem Voltage MEASureVOLTage? FETChVOLTage?MEASureVOLTageAC? FETChVOLTageAC? MEASureVOLTageHARMonic? FETChVOLTageHARMonic? MEASureVOLTageACDC? FETChVOLTageACDC?MEASureVOLTageHARMonicTHD? FETChVOLTageHARMonicTHD? MEASureVOLTageHARMonicPHASe? FETChVOLTageHARMonicPHASe?Command Syntax Output SubsystemOUTPut Outpcoup DC OUTPutCOUPlingOUTPutDFI OUTPutDFISOURceOutpimpreal OUTPutIMPedanceOUTPutIMPedanceREAL OUTPutIMPedanceREACtiveOutpponstat RST OUTPutPROTectionDELayOUTPutPONSTATe OUTPutPROTectionCLEarOutpttlt OUTPutRIMODEOUTPutTTLTrg OUTPutTTLTrgSOURceSENSeCURRentACDCRANGe Sense SubsystemSenswind Kbes SENSeSWEepOFFSetPOINtsSENSeSWEepTINTerval SENSeWINDowCURRent Source Subsystem CurrentCURRentPEAK CURRentPEAKMODECurrpeakmode FIX CURRentPROTectionSTATe CURRentPEAKTRIGgeredSource Subsystem Frequency FREQuencyFREQuencyMODE FREQuencySLEW FREQuencySLEWMODEFREQencySLEWTRIGgered FREQuencyTRIGgered FUNCtion Source Subsystem FunctionQuery Syntax SOURceFUNCtionSHAPeMODE? FUNCtionMODEFUNCtionTRIGgered Funcmode FIXFUNCtionCSINusoid Funccsin Funccsin 10 THDQuery Syntax SOURceFUNCtionSHAPeCSINusoid? List Source Subsystem ListLISTCURRentPOINts? Related Commands ListcurrLISTCOUNt LISTCURRentLISTFREQuency Related Commands ListdwelLISTDWELl LISTDWELlPOINts?LISTFREQuencySLEWPOINts? LISTPHASeLISTFREQuencyPOINts? LISTFREQuencySLEWLISTSHAPe LISTPHASePOINts?Related Commands Listphas Related Commands ListshapListstep Once ListstepLISTTTLTrg LISTTTLTrgPOINts?Query Syntax SOURceLISTVOLTageLEVelPOINTs? LISTVOLTageLISTVOLTagePOINts? LISTVOLTageSLEWLISTVOLTSLEWPOIN? LISTVOLTageSLEWPOINts?LISTVOLTageOFFSet LISTVOLTageOFFSetPOINts?LISTVOLTageOFFSetSLEW LISTVOLTageOFFSetSLEWPOINts?Query Syntax SOURceLISTVOLTageOFFSetSLEWPOINTs? Source Subsystem Phase PHASeSubsystem Syntax PHASeTRIGgered PHASeMODESource Subsystem Pulse PULSeCOUNtPULSeDCYCle Pulshold Dcyc PULSeHOLDPULSeWIDTh PULSePERiodSource Subsystem Voltage VOLTage VOLTageTRIGgeredVolt VOLTageOFFSet VOLTageMODEQuery Syntax SOURceVOLTageOFFSetMODE? VOLTageOFFSetMODEVOLTageOFFSetTRIGgered Voltoffsmode FIXQuery Syntax SOURceVOLTageOFFSetSLEWMODE? VOLTageOFFSetSLEWVOLTageOFFSetSLEWMODE Voltoffsslewmode StepVoltprotstat VOLTageOFFSetSLEWTRIGgeredVOLTagePROTection VOLTagePROTectionSTATeRTIMe Agilent 6814B, 6834B, 6843A Only Phase SelectableVOLTageRANGe VOLTageSENSeDETector VOLTageALCDETectorVOLTageSENSeSOURce VOLTageALCSOURce VOLTageSLEWINTernal EXTernal Query Syntax SOURceVOLTageSLEWMODE? VOLTageSLEWMODEVOLTageSLEWTRIGgered Voltslewmode StepStatus Subsystem STATusPRESetSTATusOPERationCONDition? Bit Configuration of Operation Status RegistersSTATusOPERationENABle STATusOPERation?Statoperntr STATusOPERationNTRansition STATusOPERationPTRansitionSTATQUESEVEN? Bit Configuration of Questionable Status RegistersSTATusQUEStionable? STATusQUEStionableCONDition?STATusQUEStionableNTRansition STATusQUEStionablePTRansition STATusQUEStionableENABleQuery Syntax STATusQUEStionableENABle? NR1 register value Related CommandsSTATusQUEStionableINSTrumentISUMmary? Agilent 6834B Only Phase SelectableStatquesinstisumenab STATusQUEStionableINSTrumentISUMmaryENABleSTATusQUEStionableINSTrumentISUMmaryCONDition? STATQUESINSTISUMCOND?101 StatquesinstisumntrSystem Commands SYSTemCONFigureSystconf Norm Systconfnout SYSTemCONFigureNOUTputsSYSTemERRor? SYSTemVERSion?SYSTemRWLock SYSTemLANGuageSYSTemLOCal SYSTemREMoteData Command Syntax Parameters Examples Query SyntaxTrace Subsystem TRACeTRACeDELete DATADELete Command Syntax Parameters Examples Related CommandsTRACeCATalog? DATACATalog? TRACeDEFine DATADEFine107 Trigger SubsystemINITSEQ1 Initname ACQ ABORtINITiateSEQuence INITiateNAME Abor109 TRIGgerDELayINITiateCONTinuousSEQuence INITiateCONTinuousNAME TRIGgerGpib device, *TRG, or GET Group Execute Trigger IMMediate PHASeTRIGgerSOURce TRIGgerSEQuence2SOURce TRIGgerSYNChronizeSOURce111 TRIGgerSEQuence2PHASe TRIGgerSYNCHronizePHASeCommand Syntax Parameters RST Value Examples Query Syntax TRIGgerSEQuence3 TRIGgerACQuire112 TRIGgerSEQuence3SOURce TRIGgerACQuireSOURceCommon Commands Common Commands Syntax113 ESE Bit Configuration of Standard Event Status Enable RegisterCommand Syntax *CLS Parameters None CLSField Information ESR?IDN? OPCOPT? PSCRCL RST NR1 register binary value Command Syntax SAV NRf Parameters ExampleSAV SRETST? Bit Configuration of Status Byte RegisterSTB? TRGWAI OUTPut on Power-on InitializationProgramming the Output Enabling the Output122 AC Voltage and FrequencyMaximum Voltage Voltage Ranges Agilent 6814B/6834B/6843A onlyWaveform Shapes Voltage and Frequency Slew Rates124 Individual Phases Agilent 6834B onlyClipped Waveform User-Defined Waveform125 Selecting a PhaseProgramming the Output Phase Current LimitDC Output Agilent 6811B/6812B/6813B only Peak Current Limit Agilent 6811B/6812B/6813B only126 127 VOLTageLEVel, VOLTageOFFSet, and FUNCtionSHAPeVOLTageOFFSet 300VOLTage VOLTageRANGe CURRentProgramming Output Transients VOLTageRANGe CURRent 10VOLTageRANGe128 Model of Transient System 129 Transient System ModelStep and Pulse Transients Step Example130 List Transients Step131 Sequence Form Alias Triggering Output ChangesScpi Triggering Nomenclature LISTCOUNtModel of Output Triggers 133 Output Trigger System ModelTRIGgerSEQuence1SOURce BUS TRIGgerTRANsientSOURce BUS Initiating the Output Trigger SystemSelecting the Output Trigger Source ABORt *RST *RCLSpecifying a Trigger Delay Synchronizing Output Changes to a Reference Phase Angle135 Continuous Triggers Generating Output TriggersSpecifying a Dwell Time for Each List Point Single TriggersMaking Measurements Voltage and Current Measurements137 138 Power MeasurementsSimultaneous Output Phase Measurements Agilent 6834B only Harmonic MeasurementsTriggering Measurements Returning Voltage and Current Data From the Data BufferMeasurement Trigger System Model 140 Initiating the Measurement Trigger SystemSelecting the Measurement Trigger Source INITiateIMMediateSEQuence3 or INITiateIMMediateNAME ACQuire141 Generating Measurement TriggersVarying the Voltage and Current Sampling Rate Pre-event and Post-event TriggeringPower-On Conditions Programming the Status RegistersOperation Status Group 143 Bit SignalStatus Byte and Service Request Enable Registers Standard Event Status GroupAc Source Status Model 144 Questionable Status Group Questionable Instrument Isummary Status Group145 146 Command ActionPON Power On Bit Standard Event Status GroupExamples Status Byte RegisterServicing Questionable Status Events Programming the Trigger In and Trigger Out BNC ConnectorsMonitoring Both Phases of a Status Transition Trigger In BNCRemote Inhibit and Discrete Fault Indicator Trigger Out BNC149 150 Scpi Command CompletionDiscrete Fault Indicator DFI Remote Inhibit RI151 Command Syntax152 Scpi Command Tree153 Scpi Command Tree aPage 155 Scpi Confirmed Commands156 Non Scpi CommandsError Number List Error #157 158 159 Page 161 Elgar Model 9012 Plug-in Programmer CompatibilityMain Board W1 Jumper Option Emulation Syntax CompatibilityByte Power-on StateCommand Description Status ModelFunction Keys ProtectionFront Panel Operation System KeysDevice Clear Volts n Curl n Freq n RNG 0 Rngf 0 1 E9012 Language Command SummaryEntry Keys Trigger Control key functions165 Drop nPage 167 Using the SENSeCURRentACDCRANGe command168 Command SyntaxCALCulateINTegralTIME CALCulateSMOothing169 170 CALCulateLIMitUPPerVss delta Dmax limit Dc limit Dt tlimit Dt limit171 FORMat172 FORMatBORDerMEASureARRayCURRentHARMonic? 174 MEASureARRayVOLTageFLUCtuationsALL?175 Point Pst array176 MEASureARRayVOLTageFLUCtuationsFLICker?177 MEASureARRayVOLTageFLUCtuationsPST?178 SENSeCURRentPREFerence179 Slew Operation MEASureARRayCURRentPage 181 Index182 Index183 Scpi List Step 184QUEStionable INSTrument ISUMmary? 185Agilent Sales and Support Offices Manual Updates
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6812B, 6811B, 6813B, 6834B, 6843A specifications

Agilent Technologies, a leader in electronic test and measurement equipment, offers a range of powerful signal sources including the 6843A, 6834B, 6814B, 6813B, and 6811B models. These instruments are designed to support various applications in research, development, and manufacturing, providing precise signal generation capabilities.

The Agilent 6843A is a versatile signal generator known for its exceptional frequency range and modulation capabilities. It supports an extensive bandwidth, making it ideal for applications that require high-frequency signal generation. With its superior phase noise performance, the 6843A is an excellent choice for radar, wireless communications, and electronic warfare applications. The instrument features an intuitive user interface, allowing engineers to set parameters quickly and efficiently.

Next, the Agilent 6834B offers exceptional performance characteristics, including high output power and low distortion. This signal generator is particularly noted for its ability to produce complex modulation formats, making it suitable for testing advanced wireless communication systems. With a reliable and stable output, the 6834B ensures accurate and repeatable measurements, which is vital for thorough testing processes.

The 6814B model stands out for its dual-channel capabilities, allowing users to generate simultaneous signals for testing multiple components or systems. This feature significantly enhances testing efficiency and flexibility for engineers. With built-in arbitrary waveform functionality, users can create custom waveforms, making the 6814B suitable for a wide range of applications including device characterization and signal processing research.

For those seeking a more compact solution, the Agilent 6813B provides essential signal generation features without compromising on performance. It is designed for a variety of applications across telecommunications and consumer electronics, featuring a straightforward interface and robust performance metrics.

Lastly, the 6811B is an entry-level yet capable model that supports a broad spectrum of testing needs. Perfect for educational and laboratory environments, it provides essential functionalities required for effective signal generation and analysis.

Overall, Agilent Technologies' 6843A, 6834B, 6814B, 6813B, and 6811B signal generators offer an array of features and technologies that cater to various application needs. Their precision, reliability, and user-oriented designs position them as invaluable assets in any testing environment, ensuring engineers can carry out their work with confidence and accuracy.