Agilent Technologies manual Agilent 6800 Series AC Power Source/Analyzer, Product Note

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Agilent 6800 Series

AC Power Source/Analyzer

Product Note

Using the Agilent Technologies 6800 Series AC Power Source/Analyzers for Generation and Measurement

Applications:

•Simulating AC Line Sub-Cycle Dropouts

•Generating MIL-STD-704D Waveforms

•Performing IEC 555-2 Measurements

•Performing Inrush Current Measurements

•Generating User-Defined Waveforms

•Operating the Agilent 6812A and 6813A at Low Frequencies

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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 What is a Pulse Transient? What is a Step Transient?What is a List Transient? Agilent 6800 Series Output TransientsModel of the Transient System What Can Serve as the Source of the Trigger? What Actions Can be Triggered?How Can Triggers be Generated? Output Transient Trigger Model Measurement Trigger Model What is a FETCh Command? What is a MEASure Command?Agilent 6800 Series Measurements MEASure and FETCh Command Execution Diagram Application Transient Generation ApplicationsAdvantages/benefits of the Agilent 6800 series solution Agilent 6800 series features usedApplication Simulating AC Line Sub-Cycle Dropouts Overview of applicationTiming 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