Agilent Technologies 5964-8134 MEASureTVOLtABSolute? FETChTVOLtABSolute?, Parameters Examples

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MEASure:TVOLt:ABSolute?

FETCh:TVOLt:ABSolute?

Returns the time at which the absolute value of the measured voltage first exceeds level, with the following qualifications: The behavior of the signal before start_ time is ignored, and the absolute value of the voltage must remain above level for at least the specified min_ pulse_ width.

Both start_ time and the return value are with respect to the start of the measurement buffer. If no point on the waveform satisfies the specified conditions, the return value is 9.91000E+37.

Query Syntax

Parameters

Examples

Returned Parameters Related Commands

MEASure:[SCALar]:TVOLt:ABSolute? <level>, <start_time>, <min_pulse_width> FETCh:[SCALar]:TVOLt:ABSolute? <level>, <start_time>, <min_pulse_width>

0 to 1E6 (for level)

0 to 1E6 (for start time in seconds)

0 to 1E6 (for minimum pulse width in seconds) MEAS:TVOL:ABS? 50, 0, 0.001 FETC:TVOL:ABS? 100, 0.005, 0

<NR3>

MEAS:TVOL?

MEASure:VOLTage:RANKed?

FETCh:VOLTage:RANKed?

Scans through the buffer of 4096 instantaneous voltage measurements, and returns the voltage value that corresponds to the percentile rank given. Specifying a percentile of 0 returns the lowest value in the buffer. A percentile of 100 returns the highest value in the buffer. A percentile of 50 returns the median value of the buffer. Stated another way, if you specify a percentile of 60, 60 percent of the voltage readings in the buffer are less that the returned value, and 40 percent of the readings in the buffer are greater than the returned value.

If the voltage waveform consists of rectangular pulses that have narrow overshoots, using percentiles of approximately 5 and 95 (depending on the width of the pulses and the width of the overshoots) is a good way to determine the voltages at the flat portions of the pulses.

Query Syntax

MEASure:[SCALar]:VOLTage:RANKed? <percentile>

 

FETCh:[SCALar]:VOLTage:RANKed? <percentile>

Parameters

0 to 100

Examples

MEAS:VOLT:RANK? 50

Returned Parameters

<NR3>

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Contents Addendum Contents Agilent Option 022 Description Agilent Dual Power Analyzer DescriptionFront Panel Menus Additions Scpi Programming Commands AdditionsRear Panel Connections InstallationPower Analyzer input. Connector plug is removable Turn the unit off before connecting any wiresMeasurement Cable Connections External Shunt Line and Load Connections To set the output frequency modulation Check the External Current Shunt SettingSetting the Output Frequency Modulation Front Panel ProgrammingUse the Input menu for selecting the frequency source Using the Front Panel Display with the Power Analyzer InputMaking Power Analyzer Input Measurements To select the measurement sourceMEASureTVOLt? FETChTVOLt? Additional Measurement CommandsParameters Examples MEASureTVOLtABSolute? FETChTVOLtABSolute?MEASureVOLTageRANKed? FETChVOLTageRANKed? Query Syntax Parameters ExamplesSENSeFREQuencySOURce Additional Sense CommandsSENSeNSELect RST Value Unit Additional Frequency Modulation CommandsFMDEViation FMFREQuencyCALibrateCURRentEXTernal Additional Calibration CommandsCommand Syntax Parameters Examples CALibrateVOLTageEXTernalBehavior Differences of Existing Scpi Commands UPS Transfer Time Measurement Programming ExamplePrograms Agilent AC Source AC Source GUI Using the Power Analyzer Input with the GUIMaking a Measurement Making a Voltage Phase Difference Measurement Modulating the Output Frequency Performing a Transfer Time TestTable A-1. Performance Specifications Power Analyzer Input SpecificationsTable A-2. Supplemental Characteristics Table B-1. Equipment Required Verification and Calibration for Option 020/022Equipment Required Test Set up Verification ProcedurePower Analyzer Current Measurement Accuracy Power Analyzer Voltage Measurement AccuracySummary of Front Panel Calibration Menu Calibration ProcedureEnable Calibration Mode Display Command FunctionCAL Save

5964-8134 specifications

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