Agilent Technologies manual Introduction to the Agilent 6800 AC Power Source/Analyzer

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Introduction to the Agilent 6800 AC Power Source/Analyzer

The 6800 series ac power source/analyzers are members of the Agilent Technologies “One-Box” Solution power products family. These products offer an integrated solution for ac power testing applications.

The 6800 series combines the functionality of the following instruments in one box:

power amplifier

arbitrary waveform generator

power analyzer

harmonic analyzer

waveform digitizer

The power amplifier and arbitrary waveform generator capabilities produce waveforms with programmable amplitude, frequency, and wave- shape. Each model has pre-programmed sine, square, and clipped sine waveshapes. For added flexibility, twelve user-defined waveforms can be created and stored in non-volatile memory.

Waveforms can be programmed using the 6800 series transient generation system to simulate sophisticated and repeatable ac line disturbances or output sequences.

The power analyzer and harmonic analyzer capa- bilities provide high precision measurements including:

rms, dc, ac+dc voltage and current

peak voltage and current

real, apparent, and reactive power

harmonic analysis of voltage and current wave- forms providing amplitude and phase up to the 50th harmonic

total harmonic distortion

triggered acquisition of digitized voltage and current

The 6800 series can be used in bench or ATE appli- cations. The fully featured front panel and built-in GPIB and RS-232 interfaces allow you to program waveforms, measure parameters, and monitor the status of the ac power source/analyzer.

Each model features a SCPI (Standard Commands for Programmable Instruments) command set. This industry standard command set simplifies test sys- tem development by offering command set common- ality between all types of instrumentation. Instru- ments performing the same function use the same self-documenting SCPI instructions. For example, the same commands are used to program a wave- shape on the 6800 series ac power source/analyzers as on a function generator. Because you spend less time learning device commands, you can get your application up and running faster.

The following sections of this product note explain how to optimize your usage of the features of the 6800 series products. At the end of this product note there are practical examples that show how these features can be applied.

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Contents Product Note Agilent 6800 Series AC Power Source/AnalyzerIntroduction Table of ContentsIntroduction to the Agilent 6800 AC Power Source/Analyzer Agilent 6800 Series Output Transients What is a Step Transient?What is a Pulse Transient? What is a List Transient?Model of the Transient System What Actions Can be Triggered? What Can Serve as the Source of the Trigger?How Can Triggers be Generated? Output Transient Trigger Model Measurement Trigger Model What is a MEASure Command? What is a FETCh Command?Agilent 6800 Series Measurements MEASure and FETCh Command Execution Diagram Application Transient Generation ApplicationsOverview of application Agilent 6800 series features usedAdvantages/benefits of the Agilent 6800 series solution Application Simulating AC Line Sub-Cycle DropoutsTiming Diagram of Application Page At 400 Hz Application Generating MIL-STD-704D WaveformsSet the List points as follows List Timing Diagram for Application Page Advantages/benefits of the Agilent 6800 series Application Performing IEC 555-2 MeasurementsUsing the computer Page Application Performing Inrush Current Measurements Agilent 6800 series setup Page How the 6800 series implements user-defined waveforms Application Generating User-Defined WaveformsTiming Diagram for Application #5 Page Page Advantages/benefits of the Agilent 6812A and 6813A solutions Agilent 6812A and 6813A features usedPage Our Promise
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