Agilent Technologies 6631B Scpi Conformance Information, Compatibility Language, Error Messages

Page 6

System Commands

68

DISPlay

68

DISPlay:MODE

68

DISPlay:TEXT

68

SYSTem:ERRor?

69

SYSTem:LANGuage

69

SYSTem:VERSion?

69

SYSTem:LOCal

70

SYSTem:REMote

70

SYSTem:RWLock

70

*IDN?

70

*OPT?

71

*RCL

71

*RST

71

*SAV

72

*TST?

72

Trigger Commands

73

ABORt

73

INITiate:SEQuence INITiate:NAME

73

INITiate:CONTinuous:SEQuence1 INITiate:CONTinuous:NAME

73

TRIGger

74

TRIGger:SOURce

74

TRIGger:SEQuence2 TRIGger:ACQuire

74

TRIGger:SEQuence2:COUNt:CURRent TRIGger:ACQuire:COUNt:CURRent

75

TRIGger:SEQuence2:COUNt:VOLTage TRIGger:ACQuire:COUNt:VOLTage

75

TRIGger:SEQuence2:HYSTeresis:CURRent TRIGger:ACQuire:HYSTeresis:CURRent

76

TRIGger:SEQuence2:HYSTeresis:VOLTage TRIGger:ACQuire:HYSTeresis:VOLTage

76

TRIGger:SEQuence2:LEVel:CURRent TRIGger:ACQuire:LEVel:CURRent

77

TRIGger:SEQuence2:LEVel:VOLTage TRIGger:ACQuire:LEVel:VOLTage

77

TRIGger:SEQuence2:SLOPe:CURRent TRIGger:ACQuire:SLOPe:CURRent

78

TRIGger:SEQuence2:SLOPe:VOLTage TRIGger:ACQuire:SLOPe:VOLTage

78

TRIGger:SEQuence2:SOURce TRIGger:ACQuire:SOURce

79

TRIGger:SEQuence1:DEFine TRIGger:SEQuence2:DEFine

79

*TRG

79

A - SCPI CONFORMANCE INFORMATION

81

SCPI Version

81

SCPI Confirmed Commands

81

Non-SCPI Commands

81

B - COMPATIBILITY LANGUAGE

83

Introduction

83

C - ERROR MESSAGES

89

Error Number List

89

D - EXAMPLE PROGRAMS

93

Introduction

93

Assigning the GPIB Address in Programs

93

Types of DOS Drivers

93

Error Handling

94

BASIC Controllers

94

Example 1. HP Vectra PC Controller Using Agilent 82335 Interface

94

Example 2. IBM Controller Using National Interface

96

Example 3. Controller Using BASIC

98

INDEX

99

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Contents Programming Guide Safety Guidelines Printing HistoryTable of Contents Language Dictionary Internally Triggered MeasurementsOutput Commands Compatibility Language Error MessagesScpi Conformance Information Example ProgramsAbout this Guide Documentation SummaryExternal References Gpib ReferencesScpi References Supported Applications VXIplug&play Power Products Instrument DriversDownloading and Installing the Driver System RequirementsRS-232 Capabilities of the DC Source Accessing Online HelpGpib Capabilities of the DC Source Gpib AddressRS-232 Flow Control RS-232 Programming ExampleBaud Rate Conventions Used in This Guide RS-232 TroubleshootingIntroduction to Scpi Boldface fontTypes of Scpi Commands Multiple Commands in a MessageTypes of Scpi Messages Including Common CommandsUsing Queries Moving Among SubsystemsHeaders Query IndicatorMessage Unit Message Unit SeparatorSuffixes and Multipliers Scpi Data FormatsNumerical Data Formats Response Data TypesScpi Command Completion Using Device ClearPage Programming the Output Power-on InitializationIntroduction Enabling the OutputMaximum Voltage Output VoltageOutput Current Maximum CurrentScpi Triggering Nomenclature Setting the Voltage or Current Trigger LevelsTriggering Output Changes Output Trigger System ModelInitiating the Output Trigger System Generating TriggersMaking Measurements Voltage and Current MeasurementsDC Measurements RMS Measurements Agilent 66312A, 66332A Only Current RangesInternally Triggered Measurements Measurement Trigger System ModelSequence Form Alias SEQuence2 ACQuire Generating Measurement Triggers Agilent 66312A, 66332A Only BUSTrigger Commands Used to Measure Output Pulses Measuring Output Pulses Agilent 66312A, 66332A Only Current DetectorPulse Measurement Queries Controlling Measurement Samples Varying the Voltage or Current Sampling RateMultiple Measurements Agilent 66312A, 66332A Only Pulse Measurement Example Agilent 66312A, 66332A only Pre-event and Post-event TriggeringOption Base Power-On Conditions Programming the Status RegistersOperation Status Group Questionable Status Group Standard Event Status GroupStatus Byte Register MSS Bit Determining the Cause of a Service InterruptServicing Operation Status and Questionable Status Events RQS BitDiscrete Fault Indicator DFI Inhibit/Fault IndicatorMonitoring Both Phases of a Status Transition Remote Inhibit RIDFI Programming Example Using the Inhibit/Fault Port as a Digital I/OBit Weight PinPage Subsystem Commands Language DictionarySubsystem Commands Syntax DFI ALCSubsystem Commands Syntax Programming Parameters Common CommandsCommon Commands Syntax Output Programming ParametersCALibrateCURRentNEGative Calibration CommandsCALibrateCURRent CALibrateCURRentMEASureLOWRangeCALibrateDATA CALibratePASSwordCommand Syntax CALibrateSAVE Parameters None Examples CALibrateLEVelCALibrateVOLTagePROTection CALibrateSTATeCALibrateVOLTage Query Syntax CALibrateSTATe?MEASureARRayVOLTage? FETChARRayVOLTage? Measurement CommandsMEASureARRayCURRent? FETChARRayCURRent? Query SyntaxMEASureCURRentHIGH? FETChCURRentHIGH? MEASureCURRent? FETChCURRent?MEASureCURRentACDC? FETChCURRentACDC? FETChCURRent? applies to Agilent 66312A, 66332A OnlyMEASureCURRentLOW? FETChCURRentLOW? MEASureCURRentMAXimum? FETChCURRent MAXimum?MEASureCURRentMINimum? FETChCURRentMINimum? MEASureVOLTageHIGH? FETChVOLTageHIGH? MEASureVOLTage? FETChVOLTage?MEASureVOLTageACDC? FETChVOLTageACDC? FETChVOLTage? applies to Agilent 66312A, 66332A OnlyMEASureVOLTageLOW? FETChVOLTageLOW? MEASureVOLTageMAXimum? FETChVOLTageMAXimum?MEASureVOLTageMINimum? FETChVOLTageMINimum? Unit a amperes *RST Value MAX high range SENSeCURRentRANGeSENSeCURRentDETector Returned Parameters NR3SENSeSWEepPOINts SENSeFUNCtionSENSeSWEepOFFSetPOINts SENSeSWEepTINTervalRECTangular SENSeWINDowHANNing Returned Parameters CRDOUTPutDFI Output CommandsOUTPut OUTPutDFISOURceOUTPutPROTectionDELay OUTPutPONSTATeOUTPutPROTectionCLEar OUTPutRIMODE OUTPutRELayOUTPutRELayPOLarity Query Syntax OUTPputRELayPOLarity?SOURceCURRentTRIGger Default SuffixSOURceCURRent SOURceCURRentPROTectionSTATeSOURceVOLTage SOURceDIGitalDATASOURceDIGitalFUNCtion Query Syntax SOURceDIGitalDATA?SOURceVOLTagePROTection SOURceVOLTageALCBANDwidth? SOURceVOLTageALCBWIDth?SOURceVOLTageTRIGger Agilent 66332A, 6631B, 6632B, 6633B and 6634B OnlySTATusOPERation? Status CommandsSTATusPRESet STATusOPERationCONDition?Parameters Preset Value STATusOPERationENABleQuery Syntax STATusOPERationENABle? STATusOPERationNTR STATusOPERationPTRSTATusQUEStionableENABle STATusQUEStionable?STATusQUEStionableCONDition? CLS Command Syntax *CLS Parameters NoneSTATusQUEStionableNTR STATusQUEStionablePTR STATQUESNTR?STATQUESPTR?ESR? Bit Configuration of Standard Event Status Enable RegisterESE OPCPSC on PSCSRE ExampleWAI Bit Configuration of Status Byte RegisterSTB? NR1 register binary valueDISPlayMODE System CommandsDISPlay DISPlayTEXTSYSTemVERSion? SYSTemERRor?SYSTemLANGuage Parameters none Returned Parameters NR2SYSTemRWLock SYSTemLOCalSYSTemREMote IDN?RCL Command Syntax RCL NRf Parameters ExampleOPT? RSTSAV RST SettingsCommand Syntax SAV NRf Parameters Example TST?INITiateSEQuence INITiateNAME Trigger CommandsABORt INITiateCONTinuousSEQuence1 INITiateCONTinuousNAMETRIGgerSEQuence2 TRIGgerACQuire TRIGgerTRIGgerSOURce Abor Currtrig Init *TRG VolttrigParameters RST Value Examples TRIGgerSEQuence2COUNtCURRent TRIGgerACQuireCOUNtCURRentTRIGgerSEQuence2COUNtVOLTage TRIGgerACQuireCOUNtVOLTage TRIGSEQ2COUNCURR 5 TrigacqcouncurrTRIGSEQ2HYSTVOLT TRIGSEQ2LEVCURR TRIGSEQ2HYSTCURR TRIGSEQ2LEVVOLTTRIGSEQ2LEVVOLT TRIGSEQ2HYSTCURR TRIGgerSEQuence2LEVelCURRent TRIGgerACQuireLEVelCURRentTRIGgerSEQuence2LEVelVOLTage TRIGgerACQuireLEVelVOLTage TRIGSEQ2LEVCURR TRIGSEQ2HYSTVOLTTRIGgerSEQuence2SLOPeCURRent TRIGgerACQuireSLOPeCURRent TRIGgerSEQuence2SLOPeVOLTage TRIGgerACQuireSLOPeVOLTageTRIGSEQ2SLOPVOLT TRIGgerSEQuence1DEFine TRIGgerSEQuence2DEFine Parameters None Related CommandsTRIGgerSEQuence2SOURce TRIGgerACQuireSOURce TRGPage Scpi Confirmed Commands Non-SCPI CommandsScpi Version Page Table B-1. COMPatibility Power-on Settings Command Command SettingSimilar Scpi Command Table B-2. COMPatibility Commands CompatibilityERR? FAULT? ID? IOUT? ASTS? CLRCompatibility Command Table B-2. COMPatibility Commands Description Similar ScpiThese commands determine the conditions that will set bits Table B-2. COMPatibility CommandsCompatibility Description Command ErrorNorm Fast INH ERR UNR +CC RQS ERR RDYFAU Page Error Number List Bit Set Error Number Error Code Error TypeTable C-1. Error Numbers Error Number Page Agilent 82335A Driver Assigning the Gpib Address in ProgramsTypes of DOS Drivers National Instruments Gpib DriverError Handling Basic ControllersExample Programs D Example 2. IBM Controller Using National Interface Call IBCLRPS%CODES$=*CLS Example 3. Controller Using Basic Option BaseIndex Index 100101 Scpi102 Manual Updates
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6613C, 66312A, 6631B, 6611C, 6614C specifications

Agilent Technologies, a leader in electronic test and measurement solutions, offers a range of power supplies designed to meet various application needs. Notable models include the 6632B, 6634B, 66332A, 6633B, and 6612C. Each of these units provides unique features and technologies that cater to researchers, engineers, and technicians in the industry.

The Agilent 6632B is a single-output DC power supply that delivers up to 30V and 3A. It is known for its excellent load regulation and low noise, making it ideal for sensitive electronic testing. The model includes built-in voltage and current measurement capabilities, allowing users to monitor output conditions in real time. The 6632B is commonly used in laboratory environments, educational institutions, and manufacturing lines.

Moving to the 6634B, this model offers dual-output capabilities with a maximum output of 30V and 6A. This versatility enables simultaneous powering of two different devices or circuit sections. It also features parallel and series operation options, allowing users to create a custom power supply configuration for specific applications. With a programmable interface, the 6634B simplifies test automation, ensuring efficiency in extensive testing scenarios.

The Agilent 66332A stands out with its precision and high performance. This power supply provides three outputs—two programmable and one fixed—yielding flexible power configurations. Its intuitive user interface allows easy adjustment of voltage and current settings. The device is equipped with extensive protection features to safeguard both the power supply and the connected load against faults. It is an excellent choice for complex testing setups that require reliable power.

The 6633B model offers a high-performance power supply with dual outputs, similar to the 6634B but with enhanced specifications. It can provide up to 40V and 2A per channel, delivering precision for demanding applications. This model is particularly suited for industries focused on high-reliability applications, such as telecommunications and aerospace.

Lastly, the Agilent 6612C is a compact and lightweight power supply providing single-output up to 60V and 2A. This model is designed for simplicity and ease of use, making it an excellent choice for portable applications. The 6612C’s unique characteristics include a compact design and user-friendly controls, which facilitate operation in field settings.

In summary, Agilent Technologies’ power supply models—6632B, 6634B, 66332A, 6633B, and 6612C—offer an array of features that cater to a wide range of testing and research needs, ensuring reliable power delivery in various contexts.
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