Agilent Technologies 66111A, D, 66311B, 66309B manual 187, Subsystem commands syntax, 96 suffixes

Page 187

data format, 72 device clear, 74 header path, 70 message structure, 71 message types, 71 message unit, 71 multiple commands, 70 non-conformance, 74 program message, 71 references, 65 response message, 71 subsystem commands, 69, 95 triggering nomenclature, 77, 84

SCPI commands at a glance, 20

selecting measurement trigger source, 85 selftest errors, 47

sense commands, 104 SENS CURR DET, 111 SENS CURR RANG, 111 SENS FUNC, 112 SENS PROT STAT, 112 SENS SWE OFFS POIN, 112 SENS SWE POIN, 112 SENS SWE TINT, 113 SENS WIND, 113

sense open, 36

servicing operation status, 92

servicing questionable status events, 92 setting output trigger system, 77 setting voltage/current, 57, 58 shorting switch, 42

single triggers, 78, 86 source commands, 114

[SOUR] CURR, 117

[SOUR] CURR LIM HIGH?, 141

[SOUR] CURR LIM LOW?, 141

[SOUR] CURR PROT STAT, 118

[SOUR] CURR PROT TRIP?, 142

[SOUR] CURR TRIG, 118

[SOUR] CURR2, 117

[SOUR] CURR2 TRIG, 118

[SOUR] DIG DATA, 119

[SOUR] DIG FUNC, 119

[SOUR] VOLT, 119

[SOUR] VOLT LIM HIGH?, 142

[SOUR] VOLT LIM LOW?, 142 [SOUR] VOLT PROT, 120

[SOUR] VOLT PROT STAT, 120

[SOUR] VOLT PROT TRIP?, 142

[SOUR] VOLT TRIG, 121

[SOUR] VOLT2, 120

[SOUR] VOLT2 TRIG, 121 specifications, 143

SRD, 73

stability with remote sensing, 35 standard event status group, 91 status bit configurations, 90 status byte register, 91

status commands, 121 STAT OPER COND?, 122 STAT OPER ENAB, 122 STAT OPER NTR, 123 STAT OPER PTR, 123

Index

STAT OPER?, 122

STAT PRES, 121

STAT QUES COND?, 124 STAT QUES ENAB, 124 STAT QUES NTR, 124 STAT QUES PTR, 124 STAT QUES?, 123

status model, 89

subsystem commands syntax, 96 suffixes, 73

support rails, 31 system commands, 125

SYST ERR?, 125 SYST LANG, 125, 177 SYST VERS?, 125

system errors, 161 system keys, 51

Address, 51 Error, 51 Interface, 51 Local, 51 RCL, 51 Save, 51 Shift, 51

—T—

transient response, 143 trigger commands, 126

TRIG, 127 TRIG ACQ, 128

TRIG ACQ COUN CURR, 128 TRIG ACQ COUN DVM, 128 TRIG ACQ COUN VOLT, 129 TRIG ACQ HYST CURR, 129 TRIG ACQ HYST DVM, 130 TRIG ACQ HYST VOLT, 130 TRIG ACQ LEV CURR, 131 TRIG ACQ LEV DVM, 131 TRIG ACQ LEV VOLT, 132 TRIG ACQ SLOP CURR, 132 TRIG ACQ SLOP DVM, 133 TRIG ACQ SLOP VOLT, 133 TRIG ACQ SOUR, 134 TRIG SEQ1 DEF, 134

TRIG SEQ2, 128

TRIG SEQ2 COUN CURR, 128 TRIG SEQ2 COUN DVM, 128 TRIG SEQ2 COUN VOLT, 129 TRIG SEQ2 DEF, 134

TRIG SEQ2 HYST CURR, 129 TRIG SEQ2 HYST DVM, 130 TRIG SEQ2 HYST VOLT, 130 TRIG SEQ2 LEV CURR, 131 TRIG SEQ2 LEV DVM, 131 TRIG SEQ2 LEV VOLT, 132 TRIG SEQ2 SLOP CURR, 132 TRIG SEQ2 SLOP DVM, 133 TRIG SEQ2 SLOP VOLT, 133 TRIG SEQ2 SOUR, 134 TRIG SOUR, 127

trigger offset, 88

triggering output changes, 77

187

Page 186 Page 188
Image 187
Page 186 Page 188
Contents USER’S Guide Certification Warranty InformationGeneral Safety SummarySafety Symbols EMC DeclarationDeclaration of Conformity Printing History Acoustic Noise InformationTable of Contents DVM Connections Checkout Procedure Case of TroubleVXIplug&play Power Products Instrument Drivers Types of Scpi CommandsTriggering Output Changes Types of Scpi MessagesScpi Data Formats Introduction Programming the OutputMeasurement Commands 104 Inhibit/Fault IndicatorCalibration Commands 100 Display Commands 103Trigger Commands 126 Output Commands 114Status Commands 121 System Commands 125Performing the Calibration Procedure 154 Common CommandsAdditional Commands Specifications 143 Supplemental Characteristics 144Introduction 177 Error Number List 161Introduction 165 BasicFront Panel At a Glance Quick ReferenceUse the front panel Address key to configure the interface Instrument ConfigurationRear Panel At a Glance Use the Function keys and Entry keys to enter a new value Front Panel Number EntryImmediate Action Keys Front Panel AnnunciatorsFront Panel Menus At a Glance ABORt CALibrate Scpi Programming Commands At a GlanceInstalling the VXIplug&play instrument driver Using the front panelUsing the programming interface Programming the unit using Scpi COMPatibility commandsDescription Safety ConsiderationsOptions and Accessories OptionAgilent 66309D Description and Model DifferencesAgilent Agilent 66309BFront Panel Controls Common CapabilitiesRemote Programming Dc Source Output 1 Characteristic Output 1 CharacteristicOutput 2 Characteristic Output 2 CharacteristicOption 521 Description Agilent 66309B/D only Option 521 Factory SettingsOption 521 Relay Modes Page Check the Phone Connections Installation and Operation ChecklistCheck the Operating Settings and Conditions Additional Agilent 66311/66309 Operating Settings ChecksDamage Packaging Material CleaningInspection LocationRack Mounting Connect the Power CordInput Connections Bench OperationCurrent Ratings Turn the unit off before connecting any wiresOutput Connections OutputRemote Sense Connections Remote Sense ConnectionsRemote Sense Connections with External Relays Maintaining Stability while Remote Sensing Load Regulation and Voltage Drop in the Remote Sense LeadsOpen Sense Lead Protection Message Description Local SensingOutput Compensation OVP Considerations DVM ConnectionsMeasuring Circuits Not Powered by the Main Output Measuring Circuits that are Not Powered by the Main OutputMeasuring Circuits Floating with Respect to the Main Output 10. FLT/INH Examples External Protection ConnectionsGpib Interface FLT/INH DIGital I/O ConnectorDigital I/O Connections Computer ConnectionsPin Input/Output Description RS-232 InterfacePress Protect Checkout ProcedureProcedure Display Explanation Press Output On/OffProcedure Display Explanation Enter Number 12, Enter Press Output On/Off Selftest Error MessagesCase of Trouble Press Shift, ChannelLine Fuse Runtime Error MessagesPower-On Selftest Errors Runtime Error MessagesFront Panel Description IntroductionFront Panel Operation System Keys Display Command FunctionOFF Immediate Action Keys Function KeysScrolling Keysq Display Measurement Metering KeysOver Current Output Control KeysEntry Keys Entry KeysSelecting the DVM on Agilent 66311D/66309D units Using the Front Panel DisplayExamples of Front Panel Programming Selecting an output on Agilent 66309B/D unitsTypecap High Set the output voltageSet the output current limit Set the output compensationKeypad, press Enter Number, 7, Enter Enable the outputSet the output 2 voltage Set the output 2 current limitOvercurrent Querying and Clearing Output Protection and ErrorsDisable Overvoltage Protection as follows Query and Clear Errors as followsUse the Meter menu for making front panel measurements Making Basic Front Panel MeasurementsMaking Enhanced Front Panel Measurements Default Front Panel Measurement ParametersCurrdet Acdc Making DVM Measurements Agilent 66311D/66309D onlyUse the Meter menu for making DVM measurements Currrang AutoSet the Gpib address as follows Setting the Gpib Address and Programming LanguageTo configure the Ridfi mode of the port, proceed as follows To configure the Digio mode of the port, proceed as followsStoring and Recalling Instrument States Gpib References External ReferencesScpi References System Requirements VXIplug&play Power Products Instrument DriversDownloading and Installing the Driver Supported ApplicationsGpib Address Accessing Online HelpGpib Capabilities of the DC Source RS-232 Capabilities of the DC SourceRS-232 Flow Control Introduction to ScpiBaud Rate Conventions Used in This Guide Types of Scpi CommandsBoldface font Including Common Commands Multiple Commands in a MessageMoving Among Subsystems Headers Using QueriesTypes of Scpi Messages Message UnitScpi Data Formats Class Suffix Unit Unit with Multiplier Scpi Command CompletionSuffixes and Multipliers Response Data TypesScpi Conformance Information Using Device ClearScpi Conformed Commands Non-SCPI CommandsProgramming the Output Power-on InitializationEnabling the Output Output Current Output VoltageOutput Trigger Model Setting the Voltage or Current Transient LevelsTriggering Output Changes Scpi Triggering NomenclatureSingle Trigger Enabling the Output Trigger SystemSelecting the Output Trigger Source Generating TriggersAverage Measurements Making Basic MeasurementsControlling Measurement Samples Window Functions Making Enhanced MeasurementsRMS Measurements Current Ranges and Measurement DetectorMinimum and Maximum Measurements Pulse MeasurementsHigh/Low Measurements Returning All Measurement Data From the Data Buffer Making DVM MeasurementsMeasurement Trigger Model Triggered MeasurementsSequence Form Alias SEQuence2 ACQuire INTernal Enabling the Measurement Trigger SystemSelecting the Measurement Trigger Source Selecting the Sensing FunctionSingle Triggers Generating Measurement TriggersTrigacqcouncurr number or Trigacqcounvolt number Pre-trigger and Post-trigger Data Acquisition Programming the Status RegistersDC Source Status Model Power-On ConditionsOperation Status Group Bit Configurations of Status RegistersStatus Byte Register PON Power On BitQuestionable Status Group Standard Event Status GroupRQS Bit Determining the Cause of a Service InterruptServicing Operation Status and Questionable Status Events MSS BitMonitoring Both Phases of a Status Transition Inhibit/Fault IndicatorRemote Inhibit RI Pin Discrete Fault Indicator DFIUsing the Inhibit/Fault Port as a Digital I/O Bit WeightSubsystem Commands Subsystem Commands Syntax Language Dictionary Language Dictionary Programming Parameters Common CommandsCALibrateCURRentMEASureLOWRange Calibration CommandsCALibrateCURRent CALibrateCURRent2CALibrateDVM CALibratePASSwordCALibrateDATA CALibrateDATECALibrateVOLTage2 CALibrateSAVECALibrateSTATe CALibrateVOLTageDISPlayMODE Display CommandsDISPlay DISPlayCHANnelFORMat Measurement Commands104 Query Syntax FORMatBORDerMEASureARRayCURRent? FETChARRayCURRent? MEASureARRayVOLTage? FETChARRayVOLTage?NR3 MEASureCURRent? FETChCURRent?MEASureCURRent2? MEASureCURRentACDC? FETChCURRentACDC?107 MEASureCURRentHIGH? FETChCURRentHIGH?MEASureCURRentLOW? FETChCURRentLOW? MEASureCURRentMAXimum? FETChCURRent MAXimum?MEASureVOLTage? FETChVOLTage? MEASureCURRentMINimum? FETChCURRentMINimum?MEASureDVM? FETChDVM? MEASureDVMACDC? FETChDVMACDC?109 MEASureVOLTage2MEASureVOLTageACDC? FETChVOLTageACDC? MEASureVOLTageHIGH? FETChVOLTageHIGH?110 MEASureVOLTageLOW? FETChVOLTageLOW?MEASureVOLTageMAXimum? FETChVOLTageMAXimum? MEASureVOLTageMINimum? FETChVOLTageMINimum?111 SENSeCURRentDETectorSENSeCURRentRANGe Query Syntax SENSeCURRentDETector?SENSeSWEepPOINts SENSeFUNCtionSENSePROTectionSTATe SENSeSWEepOFFSetPOINtsQuery Syntax SENSeWINDowTYPE? SENSeSWEepTINTervalSENSeWINDow Query Syntax SENSeSWEepTINTerval?OUTPut1 2RELayMODE Output CommandsINSTrumentCOUPleOUTPutSTATe OUTPut1115 OUTPutDFIOUTPutDFISOURce OUTPutPONSTATeOUTPutTYPE OUTPutPROTectionDELayOUTPutPROTectionCLEar OUTPutRIMODESOURceCURRent2 SOURceCURRent117 SOURceCURRent2TRIGger Command Syntax Parameters RST Value ExamplesSOURceCURRentPROTectionSTATe SOURceCURRentTRIGger119 SOURceDIGitalDATASOURceDIGitalFUNCtion SOURceVOLTage120 SOURceVOLTage2SOURceVOLTagePROTection SOURceVOLTagePROTectionSTATeSOURceVOLTage2TRIGger Status CommandsSTATusPRESet SOURceVOLTageTRIGgerSTATusOPERationCONDition? STATusOPERationENABleBit Configuration of Operation Status Registers STATusOPERation?STATusQUEStionable? Parameters Preset ValueBit Configuration of Questionable Status Registers STATusOPERationNTR STATusOPERationPTR124 STATusQUEStionableENABleSTATusQUEStionableCONDition? STATusQUEStionableNTR STATusQUEStionablePTRSYSTemVERSion? System CommandsSYSTemERRor? SYSTemLANGuageINITiateSEQuence INITiateNAME Trigger CommandsRelated Commands ABORtTRIGgerSOURce TRIGger127 128 TRIGgerSEQuence2 TRIGgerACQuireTRIGgerSEQuence2COUNtCURRent TRIGgerACQuireCOUNtCURRent TRIGgerSEQuence2COUNtDVM TRIGgerACQuireCOUNtDVMUnit TRIGgerSEQuence2COUNtVOLTage TRIGgerACQuireCOUNtVOLTage129 130 TRIGgerSEQuence2HYSTeresisDVM TRIGgerACQuireHYSTeresisDVMTRIGgerSEQuence2LEVelDVM TRIGgerACQuireLEVelDVM TRIGgerSEQuence2LEVelCURRent TRIGgerACQuireLEVelCURRent131 132 TRIGgerSEQuence2LEVelVOLTage TRIGgerACQuireLEVelVOLTageTRIGgerSEQuence2SLOPeCURRent TRIGgerACQuireSLOPeCURRent Returned ParametersTRIGgerSEQuence2SLOPeVOLTage TRIGgerACQuireSLOPeVOLTage TRIGgerSEQuence2SLOPeDVM TRIGgerACQuireSLOPeDVM133 TRIGgerSEQuence1DEFine TRIGgerSEQuence2DEFine TRIGgerSEQuence2SOURce TRIGgerACQuireSOURce134 135 Common CommandsCommand Syntax *CLS Parameters None Bit Configuration of Standard Event Status Enable RegisterExample Field Information136 137 Query Syntax *OPT? Returned Parameters AardRCL NRf Parameters ExampleExample *SAV Related Commands *RCL *RST 138 Command Syntax *SAV NRfRST Settings 139 Power-on ValueBit Configuration of Status Byte Register Query Syntax *STB?Query Syntax TST? Returned Parameters NR1 TRGAdditional Commands VOLTagePROTectionTRIPped? CURRentPROTectionTRIPped?VOLTageLIMitHIGH? VOLTageLIMitLOW?Table A-1. Performance Specifications Specifications143 Agilent 66309B/D Supplemental CharacteristicsTable A-2. Supplemental Characteristics 144145 146 Table A-4. Agilent 66309B/D Option 521 CharacteristicsTable B-1. Equipment Required Test SetupEquipment Required 147Turn-On Checkout Performing the Verification Tests148 Steps 6-10 apply to Agilent 66309B/D output 2 only Voltage Programming and Measurement AccuracyCurrent Programming and Measurement Accuracy Output terminals on both outputs 1Current Sink Measurement Steps 7-11 apply to Agilent 66309B/D output 2 only150 151 DVM Measurement Accuracy152 DVM Voltage Measurement Agilent 66309D only 153Front Panel Calibration Menu Performing the Calibration Procedure154 Voltage Programming and Measurement Calibration Front Panel Calibration ProcedureCheck the Language Setting Enable Calibration Mode156 Steps 11-16 apply to Agilent 66309B/D output 2 onlyOvervoltage Protection Calibration Current Programming and High-Range Measurement Calibration157 Steps 27-32 apply to Agilent 66309B/D output 2 onlyCalcurrmeas AC 158 Restore the Language SettingDVM Calibration applies to Agilent 66311D, 66309D only Saving the Calibration ConstantsCalibration Over the Gpib Calibration Error MessagesChanging the Calibration Password Table B-3. Gpib Calibration Error MessagesPage Table C-1. Error Numbers Error Number List161 162 Error Messages163 Error Messages CPage National Instruments Gpib Driver Assigning the Gpib Address in Programs165 Example 1. National Instruments Interface Example Error Handling166 Example Programs D 167168 Example 2. Controller Using Basic169 Example 3. Current Pulse Measurement Using Basic170 171 172 DFI Programming Example Example 5. DFI Example Using Basic173 Page Close the Unit Configure the Power TransformerInstall the Correct Line Fuse Open the Unit176 Figure E-1, Power Transformer AC Input ConnectionsTable F-1. COMPatibility Power-on Settings Command Setting177 178 Compatibility CommandSimilar Scpi Command Table F-2. COMPatibility Commands179 180 ErrorNumberError String Description/Explanation/Examples Table F-3. COMPatibility Errors181 Table F-5. Bit Configuration of Serial Poll RegisterPage 183 Index184 Index185 186 OVERTEMPERATURE, 47 OVERVOLTAGE, 47 OVLD, 47, 60, 61187 Subsystem commands syntax, 96 suffixesType CAP 188Japan United States Latin AmericaCanada Australia/New Zealand Europe Asia PacificManual Updates
Related manuals
Manual 8 pages 56.17 Kb

66111A, 66309B, 66311B, D specifications

Agilent Technologies D,c,83440b is an advanced electronic measurement solution designed for engineers and scientists who require precise and reliable performance in their testing environments. This modular test system offers a comprehensive suite of features that cater to a wide range of applications, from high-frequency testing to complex signal analysis.

One of the main features of the D,c,83440b is its impressive frequency range, allowing users to conduct tests across a wide spectrum of signals. The system is capable of handling frequencies up to 26.5 GHz, making it ideal for RF and microwave applications. This broad range ensures that users can work with a variety of devices, including communication systems, radar, and satellite technology.

In addition to its frequency capabilities, Agilent Technologies has engineered the D,c,83440b with exceptional dynamic range and low noise figures. This ensures that even the smallest signals can be accurately measured, allowing for greater precision in testing. The full spectrum analysis feature enables users to capture transient events and analyze them in real-time, which is crucial for troubleshooting and performance evaluations.

The D,c,83440b is built on a modular platform, allowing users to customize their systems according to specific testing needs. This modularity not only enhances flexibility but also simplifies maintenance and upgrades. Users can easily swap out different modules without the need for extensive system reconfiguration, which can significantly reduce downtime in testing environments.

Another standout characteristic of the D,c,83440b is its user-friendly interface. With a large, high-resolution display and intuitive controls, engineers can quickly navigate through settings and data, streamlining the testing process. This ease of use is complemented by powerful software solutions that can automate test sequences, aiding in efficiency and accuracy.

The integration of advanced digital signal processing technologies further enhances the capabilities of the D,c,83440b. These technologies enable more sophisticated measurements and improved signal integrity, which is essential for modern communication systems.

In summary, the Agilent Technologies D,c,83440b is a multifaceted electronic measurement solution that boasts a wide frequency range, excellent dynamic range, modular design, and user-friendly interface. This combination of features makes it suitable for various applications, ensuring that engineers and scientists have the tools they need to succeed in their testing and measurement endeavors.
Top Page Image Contents