Agilent Technologies 6811B, 6834B OUTPutPONSTATe, OUTPutPROTectionCLEar, OUTPutPROTectionDELay

Page 58

3 - Language Dictionary

OUTPut:PON:STATe

This command selects the power-on state of the ac source. The following states can be selected:

RST

RCL0

Sets the power-on state to *RST. Refer to the *RST command as described later in this chapter for more information.

Sets the power-on state to *RCL 0. Refer to the *RCL command as described later in this chapter for more information.

Command Syntax

OUTPut:PON:STATe <state>

Parameters

RST RCL0

Examples

OUTP:PON:STAT RST

Query Syntax

OUTPut:PON:STATe?

Returned Parameters

<CRD>

Related Commands

*RST *RCL

OUTPut:PROTection:CLEar

This command clears the latch that disables the output when an overvoltage (OV), overcurrent (OC), overtemperature (OT), remote inhibit (RI), or power rail fault condition is detected. All conditions that generated the fault must be removed before the latch can be cleared. The output is then restored to the state it was in before the fault condition occurred.

Command Syntax

OUTPut:PROTection:CLEar

Parameters

None

Examples

OUTP:PROT:CLE

Related Commands

OUTP:PROT:DEL *SAV *RCL

OUTPut:PROTection:DELay

This command sets the delay time between the programming of an output change that produces a CL or UNREG status condition and the recording of that condition by the Questionable Status Condition register. The delay prevents momentary changes in status that can occur during programming from being registered as events by the status subsystem. In most cases these temporary conditions are not considered an event, and to record them as such would be a nuisance.

Command Syntax OUTPut:PROTection:DELay <NRf+> Parameters 0 to 100 MAXimum MINimum

Unit S seconds) *RST Value 100 milliseconds

Examples OUTP:PROT:DEL 75E-1

Query Syntax OUTPut:PROTection:DELay?

Returned Parameters <NR3>

Related Commands OUTP:PROT:CLE *SAV *RCL

58

Image 58
Contents Programming Guide Safety Summary Printing HistoryTable of Contents Language Dictionary System ConsiderationsMeasurement Subsystem Frequency Source Subsystem Function Source Subsystem Voltage Programming Examples 121Scpi Conformance Information Scpi Command TreeError Messages Elgar Model 9012 CompatibilityIndex IEC Mode Command Summary167 181Documentation Summary About this GuideEarlier AC Source Models Information about this Current modelScpi References Agilent VXIplug&play Power Products Instrument DriversExternal References Gpib ReferencesAccessing Online Help Downloading and Installing the DriverSystem Requirements Page Gpib Address Gpib Capabilities of the AC SourceRS-232 Capabilities of the AC Source RS-232 Data FormatRS-232 Troubleshooting RS-232 Programming ExampleConventions Used in This Guide Types of Scpi CommandsIntroduction to Scpi Types of Scpi MessagesRoot Level Scpi Command TreeActive Header Path Effect of Optional Headers Moving Among SubsystemsCoupled Commands Including Common CommandsUsing Queries Structure of a Scpi MessageCombining Message Units HeadersRoot Specifier Query IndicatorMessage Unit Separator Message TerminatorSuffixes and Multipliers Scpi Data FormatsNumerical Data Formats Character DataTypes of DOS Drivers System ConsiderationsAssigning the Gpib Address in Programs Agilent 82335A DriverError Handling Agilent Basic ControllersPage Language Dictionary IntroductionSubsystem Commands SubsystemCALibrateCURRentAC Calibration Subsystem CommandsSubsystem Syntax CalcurracCALibrateIMPedance CALibrateCURRentMEASureCALibrateDATA CALibrateLEVelCALibratePWMRAMP CALibratePASSwordCALibratePWMFREQuency CALibrateSAVECALibrateVOLTageDC CALibrateSTATeCALibrateVOLTageAC Calstat 1,6812 Calstat OFFCALibrateVOLTagePROTection CALibrateVOLTageOFFSetCALibrateVOLTageRTIMe DISPlayMODE Display Subsystem CommandsDISPlay DISPlayTEXTINSTrumentCOUPle Instrument SubsystemInstcoup ALL INSTrumentNSELect INSTrumentSELect Measurement Subsystem Arrays MEASureARRayCURRent? FETChARRayCURRent?MEASureARRayCURRentHARMonic? FETChARRayCURRentHARMonic? MEASureARRayCURRentNEUTral? FETChARRayCURRentNEUTral? MEASureARRayVOLTage? FETChARRayVOLTage? MEASureARRayVOLTageHARMonic? FETChARRayVOLTageHARMonic? Measurement Subsystem Current MEASureCURRent? FETChCURRent?MEASureCURRentAC? FETChCURRentAC? MEASureCURRentACDC? FETChCURRentACDC?MEASureCURRentHARMonic? FETChCURRentHARMonic? MEASureCURRentCREStfactor? FETChCURRentCREStfactor?Parameters Examples MEASureCURRentHARMonicTHD? FETChCURRentHARMonicTHD? MEASureCURRentHARMonicPHASe? FETChCURRentHARMonicPHASe?MEASureCURRentNEUTral? FETChCURRentNEUTral? MEASureCURRentNEUTralACDC? FETChCURRentNEUTralACDC? MEASureCURRentNEUTralAC? FETChCURRentNEUTralAC?MEASureCURRentNEUTralHARMonic? FETChCURRentNEUTralHARMonic? MEASCURRNEUTHARMPHAS? Measurement Subsystem Frequency MEASureFREQuency? FETChFREQuency?MEASurePOWer? FETChPOWer? Measurement Subsystem PowerMEASurePOWerAC? FETChPOWerAC? MEASurePOWerACREACtive? FETChPOWerACREACtive? MEASurePOWerACAPParent? FETChPOWerACAPParent?MEASurePOWerACPFACtor? FETChPOWerACPFACtor? MEASurePOWerACTOTal? FETChPOWerACTOTal? MEASureVOLTage? FETChVOLTage? Measurement Subsystem VoltageMEASureVOLTageAC? FETChVOLTageAC? MEASureVOLTageACDC? FETChVOLTageACDC? MEASureVOLTageHARMonic? FETChVOLTageHARMonic?MEASureVOLTageHARMonicPHASe? FETChVOLTageHARMonicPHASe? MEASureVOLTageHARMonicTHD? FETChVOLTageHARMonicTHD?Output Subsystem Command SyntaxOUTPut OUTPutDFISOURce OUTPutCOUPlingOUTPutDFI Outpcoup DCOUTPutIMPedanceREACtive OUTPutIMPedanceOUTPutIMPedanceREAL OutpimprealOUTPutPROTectionCLEar OUTPutPROTectionDELayOUTPutPONSTATe Outpponstat RSTOUTPutTTLTrgSOURce OUTPutRIMODEOUTPutTTLTrg OutpttltSense Subsystem SENSeCURRentACDCRANGeSENSeWINDow SENSeSWEepOFFSetPOINtsSENSeSWEepTINTerval Senswind KbesSource Subsystem Current CURRentCURRentPEAKMODE CURRentPEAKCurrpeakmode FIX CURRentPEAKTRIGgered CURRentPROTectionSTATeFREQuency Source Subsystem FrequencyFREQuencyMODE FREQuencySLEWMODE FREQuencySLEWFREQencySLEWTRIGgered FREQuencyTRIGgered Source Subsystem Function FUNCtionFuncmode FIX FUNCtionMODEFUNCtionTRIGgered Query Syntax SOURceFUNCtionSHAPeMODE?Funccsin Funccsin 10 THD FUNCtionCSINusoidQuery Syntax SOURceFUNCtionSHAPeCSINusoid? Source Subsystem List ListLISTCURRent Related Commands ListcurrLISTCOUNt LISTCURRentPOINts?LISTDWELlPOINts? Related Commands ListdwelLISTDWELl LISTFREQuencyLISTFREQuencySLEW LISTPHASeLISTFREQuencyPOINts? LISTFREQuencySLEWPOINts?Related Commands Listshap LISTPHASePOINts?Related Commands Listphas LISTSHAPeLISTTTLTrgPOINts? ListstepLISTTTLTrg Liststep OnceLISTVOLTageSLEW LISTVOLTageLISTVOLTagePOINts? Query Syntax SOURceLISTVOLTageLEVelPOINTs?LISTVOLTageOFFSetPOINts? LISTVOLTageSLEWPOINts?LISTVOLTageOFFSet LISTVOLTSLEWPOIN?LISTVOLTageOFFSetSLEWPOINts? LISTVOLTageOFFSetSLEWQuery Syntax SOURceLISTVOLTageOFFSetSLEWPOINTs? PHASe Source Subsystem PhaseSubsystem Syntax PHASeMODE PHASeTRIGgeredPULSeCOUNt Source Subsystem PulsePULSeDCYCle PULSeHOLD Pulshold DcycPULSePERiod PULSeWIDThSource Subsystem Voltage VOLTageTRIGgered VOLTageVolt VOLTageMODE VOLTageOFFSetVoltoffsmode FIX VOLTageOFFSetMODEVOLTageOFFSetTRIGgered Query Syntax SOURceVOLTageOFFSetMODE?Voltoffsslewmode Step VOLTageOFFSetSLEWVOLTageOFFSetSLEWMODE Query Syntax SOURceVOLTageOFFSetSLEWMODE?VOLTagePROTectionSTATe VOLTageOFFSetSLEWTRIGgeredVOLTagePROTection VoltprotstatVOLTageSENSeDETector VOLTageALCDETector Agilent 6814B, 6834B, 6843A Only Phase SelectableVOLTageRANGe RTIMeVOLTageSLEW VOLTageSENSeSOURce VOLTageALCSOURceINTernal EXTernal Voltslewmode Step VOLTageSLEWMODEVOLTageSLEWTRIGgered Query Syntax SOURceVOLTageSLEWMODE?STATusPRESet Status SubsystemSTATusOPERation? Bit Configuration of Operation Status RegistersSTATusOPERationENABle STATusOPERationCONDition?STATusOPERationNTRansition STATusOPERationPTRansition StatoperntrSTATusQUEStionableCONDition? Bit Configuration of Questionable Status RegistersSTATusQUEStionable? STATQUESEVEN?NR1 register value Related Commands STATusQUEStionableENABleQuery Syntax STATusQUEStionableENABle? STATusQUEStionableNTRansition STATusQUEStionablePTRansitionAgilent 6834B Only Phase Selectable STATusQUEStionableINSTrumentISUMmary?STATQUESINSTISUMCOND? STATusQUEStionableINSTrumentISUMmaryENABleSTATusQUEStionableINSTrumentISUMmaryCONDition? StatquesinstisumenabStatquesinstisumntr 101SYSTemCONFigure System CommandsSystconf Norm SYSTemVERSion? SYSTemCONFigureNOUTputsSYSTemERRor? SystconfnoutSYSTemREMote SYSTemLANGuageSYSTemLOCal SYSTemRWLockTRACe Command Syntax Parameters Examples Query SyntaxTrace Subsystem DataTRACeDEFine DATADEFine Command Syntax Parameters Examples Related CommandsTRACeCATalog? DATACATalog? TRACeDELete DATADELeteTrigger Subsystem 107Abor ABORtINITiateSEQuence INITiateNAME INITSEQ1 Initname ACQTRIGger TRIGgerDELayINITiateCONTinuousSEQuence INITiateCONTinuousNAME 109TRIGgerSEQuence2SOURce TRIGgerSYNChronizeSOURce IMMediate PHASeTRIGgerSOURce Gpib device, *TRG, or GET Group Execute TriggerTRIGgerSEQuence3 TRIGgerACQuire TRIGgerSEQuence2PHASe TRIGgerSYNCHronizePHASeCommand Syntax Parameters RST Value Examples Query Syntax 111TRIGgerSEQuence3SOURce TRIGgerACQuireSOURce 112Common Commands Syntax Common Commands113 CLS Bit Configuration of Standard Event Status Enable RegisterCommand Syntax *CLS Parameters None ESEOPC ESR?IDN? Field InformationPSC OPT?RCL RST SRE Command Syntax SAV NRf Parameters ExampleSAV NR1 register binary valueTRG Bit Configuration of Status Byte RegisterSTB? TST?WAI Enabling the Output Power-on InitializationProgramming the Output OUTPut onVoltage Ranges Agilent 6814B/6834B/6843A only AC Voltage and FrequencyMaximum Voltage 122Voltage and Frequency Slew Rates Waveform ShapesUser-Defined Waveform Individual Phases Agilent 6834B onlyClipped Waveform 124Current Limit Selecting a PhaseProgramming the Output Phase 125Peak Current Limit Agilent 6811B/6812B/6813B only DC Output Agilent 6811B/6812B/6813B only126 VOLTageRANGe CURRent VOLTageLEVel, VOLTageOFFSet, and FUNCtionSHAPeVOLTageOFFSet 300VOLTage 127VOLTageRANGe CURRent 10VOLTageRANGe Programming Output Transients128 Transient System Model Model of Transient System 129Step Example Step and Pulse Transients130 Step List Transients131 LISTCOUNt Triggering Output ChangesScpi Triggering Nomenclature Sequence Form AliasOutput Trigger System Model Model of Output Triggers 133ABORt *RST *RCL Initiating the Output Trigger SystemSelecting the Output Trigger Source TRIGgerSEQuence1SOURce BUS TRIGgerTRANsientSOURce BUSSynchronizing Output Changes to a Reference Phase Angle Specifying a Trigger Delay135 Single Triggers Generating Output TriggersSpecifying a Dwell Time for Each List Point Continuous TriggersVoltage and Current Measurements Making Measurements137 Harmonic Measurements Power MeasurementsSimultaneous Output Phase Measurements Agilent 6834B only 138Returning Voltage and Current Data From the Data Buffer Triggering MeasurementsMeasurement Trigger System Model INITiateIMMediateSEQuence3 or INITiateIMMediateNAME ACQuire Initiating the Measurement Trigger SystemSelecting the Measurement Trigger Source 140Pre-event and Post-event Triggering Generating Measurement TriggersVarying the Voltage and Current Sampling Rate 141Programming the Status Registers Power-On ConditionsOperation Status Group Standard Event Status Group Bit SignalStatus Byte and Service Request Enable Registers 143Ac Source Status Model 144 Questionable Instrument Isummary Status Group Questionable Status Group145 Standard Event Status Group Command ActionPON Power On Bit 146Status Byte Register ExamplesTrigger In BNC Programming the Trigger In and Trigger Out BNC ConnectorsMonitoring Both Phases of a Status Transition Servicing Questionable Status EventsTrigger Out BNC Remote Inhibit and Discrete Fault Indicator149 Remote Inhibit RI Scpi Command CompletionDiscrete Fault Indicator DFI 150Command Syntax 151Scpi Command Tree 152Scpi Command Tree a 153Page Scpi Confirmed Commands 155Non Scpi Commands 156Error # Error Number List157 158 159 Page Syntax Compatibility Elgar Model 9012 Plug-in Programmer CompatibilityMain Board W1 Jumper Option Emulation 161Status Model Power-on StateCommand Description ByteSystem Keys ProtectionFront Panel Operation Function KeysTrigger Control key functions E9012 Language Command SummaryEntry Keys Device Clear Volts n Curl n Freq n RNG 0 Rngf 0 1Drop n 165Page Using the SENSeCURRentACDCRANGe command 167Command Syntax 168CALCulateSMOothing CALCulateINTegralTIME169 Dc limit Dt tlimit Dt limit CALCulateLIMitUPPerVss delta Dmax limit 170FORMat 171FORMatBORDer 172MEASureARRayCURRentHARMonic? MEASureARRayVOLTageFLUCtuationsALL? 174Point Pst array 175MEASureARRayVOLTageFLUCtuationsFLICker? 176MEASureARRayVOLTageFLUCtuationsPST? 177SENSeCURRentPREFerence 178Slew Operation MEASureARRayCURRent 179Page Index 181Index 182183 184 Scpi List Step185 QUEStionable INSTrument ISUMmary?Agilent Sales and Support Offices Manual Updates
Related manuals
Manual 91 pages 25.18 Kb Manual 20 pages 27.01 Kb Manual 3 pages 27.44 Kb Manual 79 pages 6.57 Kb

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.