Agilent Technologies 5951-2827 Triggering a preset level, Triggering a transient pulse, Toggling

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Figure 2-6 shows the waveform that would result for this toggled transient operation example. Operation is similar to that described for continuous and pulse operation, except that each time a trigger is received the input alternates between the main and transient current levels.

Figure 2-6. Toggled Transient Operation

Triggered Operation

The Electronic Load has various triggering modes to allow synchronization with other test equipment or events. As described previously, triggering can be used for the following applications:

Triggering a preset level

Transfers all pending preset levels to the actual level. For the presently active mode, the

 

new level appears at the input. For the modes which are not presently active, the preset

 

levels will not take effect at the input until the applicable mode becomes active.

Triggering a transient pulse

Generates a transient pulse of programmable width when pulsed transient operation is in

 

effect.

Toggling

Changes the input between the main level and the transient level when toggled transient

 

operation is in effect.

Three triggering methods are available over the GPIB: the GET function, the *TRG common HPSL command, and the TRIG subsystem HPSL command (refer to Programming Reference Guide). The HPSL TRIG subsystem allows you to select the TRIG command as the trigger source. There is also a TRIGGER connector on the rear panel for external trigger inputs. Triggering cannot be done via the front panel.

*TRG and the TRIG command are both synchronous with other commands; that is, the load is not triggered until pending operations are completed. GET and external triggers are all asynchronous; that is, the loads are triggered as soon as the trigger signal is received.

The rear-panel TRIGGER connector also provides a trigger output signal. This signal is generated synchronously with the trigger signal sent by the load. The trigger output signal can be used to trigger an external device such as an oscilloscope, DVM, or another Electronic Load.

The Electronic Load has a status reporting capability to keep track of trigger operations. Refer to ’Status Reporting’ in the Agilent Electronic Loads Programming Reference Guide.

Slew Rate And Minimum Transition Time

Slew rate is defined as the change in current or voltage over time. A programmable slew rate allows a controlled transition from one load setting to another to minimize induced voltage drops on inductive power wiring, or to control induced transients on a test device (such as would occur during power supply transient response testing).

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Contents Operating Manual Agilent Part No Microfiche Part No Updated AprilCertification Safety Summary Manufacturer’s Declaration Safety SummarySymbol Description HerstellerbescheinigungPrinting History Table of Contents Local Operation Remote OperationCalibration Considerations for Operating in Constant Resistance Mode General Information What’s In This ManualReader Path OptionsSpecifications Safety Requirements6060B 6063B Regulation Constant Resistance Mode RangesModes Continuous Mode Pulsed ModeCurrent Readback Supplemental Characteristics 6060B 6063B ResolutionTemperature Coefficient Bandwidth Maximum Readback CapabilityRate # High Range Step Low Range Step Transition Time Supplemental CharacteristicsMaximum VA Peak Inrush Current 2.5 a typical Current Slew RateResistance Slew Rate OvershootModel 6063B Range Transient Current Level Width 6060B 6063B 10%With unit on With unit offPage Operation Overview IntroductionFront Panel Description Remote ProgrammingModes of Operation Local/Remote ControlProgrammable Features Constant Current CC ModeSoftware Current Limit Triggered Current LevelConstant Resistance CR Mode Slew RateImmediate Resistance Level Constant Voltage CV Mode Triggered Resistance LevelTransient Resistance Level Transient Operation Immediate Voltage LevelTriggered Voltage Level Transient Voltage LevelPulsed Transient Operation Hpsl Command DescriptionSelects the external trigger input source Selects the external trigger inputSelects pulsed transient operation Sets pulse width to 1 millisecondSlew Rate And Minimum Transition Time Triggering a preset levelTriggering a transient pulse TogglingRisetime Transition Limitation Input Current, Voltage, and Power MeasurementTransition Times and Slew Rates Short On/OffStatus Reporting Saving and Recalling SettingsReading Remote Programming Errors Input On/OffOvercurrent Protection FeaturesResetting Latched Protection OvervoltageReverse Voltage Control ConnectorOverpower OvertemperatureFault Monitor OutputsExternal Programming Input Port On/Off Inspection Location and Cooling Turn-On CheckoutCheck Line Voltage Line Voltage Fuse Agilent Part No Voltage Select SwitchesTurn-On/Selftest Connect The Power CordGpib Errors Input Errors Display Description ErrorPower Test Gpib ConnectorController Connection AWG Rear Panel Connectors and SwitchesWire Size Strip back Gpib AddressInput Binding Post Control Connector Common Pins 3+S and -S IM and VMSense Switch Trigger ConnectorApplication Connections Maximum Wire Lengths to Limit Voltage Drops Parallel ConnectionsZero-Volt Loading Connections 11. Local Sensing 13. Parallel Operation Page Local Operation Front Panel Controls and Indicators DescriptionControls and Indicators Description Function Keys Local Control Overview Using The Function Keys ∙ Short onTurning the Input On/Off Recommended Programming Sequence Key Display Setting the Mode of OperationSetting CC Values CC Programming Ranges FunctionExamples Setting CR Values Examples Setting CV Values Function Key Display Range of Values Continuous Pulse Train Programming RangesShorting The Input Using The System KeysDisplaying Error Codes Setting The Electronic Load’s Gpib AddressChanging Wake-up Settings Factory Default Settings Function 6060B 6063BRecalling the Factory Default Values Enter Enter/Output StatementsGpib Address OutputOutput 705 MEASCURR? Sending a Remote CommandRemote Programming Commands Getting Data BackSlew Rates ModesRanges Transient levelsRemote Programming Flowchart Sheet Remote Programming Flowchart Sheet CC Mode Example CV Mode ExampleCR Mode Example Pulsed Transient Operation Example Continuous Transient Operation ExampleConstant Current CC Hpsl Command Short FormOutput 705TRAN on Output 705INPUT on Remote Programming Ranges FunctionTransient Operation Constant Resistance CR6060B Constant Voltage CVPage Equipment Required for Calibration Equipment Characteristics Recommended ModelExample Programs Equipment RequiredCalibration Commands Example Program Calibration FlowchartsCalibration Information 6060B 6063B Supply Shunt Values SettingsCalibration Flowchart Calibration Flowchart Calibration Flowchart END if Program ListingPause WaitPrint Voltage Calibration Pause SubendElse Line ExplanationPage Considerations For Operating In Constant Resistance Mode Considerations For Operating In Constant Resistance ModeConsiderations For Operating In Constant Resistance Mode Index IndexIndex 24, 25, 26 Index Agilent Sales and Support Office Agilent Sales and Support OfficesManual Updates