Agilent Technologies 6800 manual Timing Diagram of Application

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Upon the receipt of the trigger, the ac source continues to output a 120 Vrms, 60 Hz sinewave for 5 seconds. After the 5-second trigger delay, the rms voltage drops to 0 Vrms at 80° of the cycle and then rises back to 120 Vrms (0.001389 seconds later) at 110° of the cycle.

Variations on this implementation

1.The Pulse width can be increased to simulate full cycle dropouts.

2.The Pulse count can be set to a value >1 and the Pulse period can be programmed to 0.01667 seconds (the period of a 60 Hz sinewave) to create multiple dropouts.

3.The triggered level of the rms voltage can be set higher than the initial setting of 120 Vrms to simulate a voltage surge.

4.The rms voltage slew rate can be programmed in Pulse mode to simulate a gradual brown out (sag) condition versus an abrupt dropout. The Pulse width can be increased to simulate a sag over multiple ac line cycles.

Timing Diagram of Application 1

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Contents Agilent 6800 Series AC Power Source/Analyzer Product NoteTable of Contents IntroductionIntroduction to the Agilent 6800 AC Power Source/Analyzer What is a Step Transient? What is a Pulse Transient?What is a List Transient? Agilent 6800 Series Output TransientsModel 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 Applications Application Transient GenerationAgilent 6800 series features used Advantages/benefits of the Agilent 6800 series solutionApplication Simulating AC Line Sub-Cycle Dropouts Overview of applicationTiming Diagram of Application Page Application Generating MIL-STD-704D Waveforms At 400 HzSet the List points as follows List Timing Diagram for Application Page Application Performing IEC 555-2 Measurements Advantages/benefits of the Agilent 6800 seriesUsing the computer Page Application Performing Inrush Current Measurements Agilent 6800 series setup Page Application Generating User-Defined Waveforms How the 6800 series implements user-defined waveformsTiming Diagram for Application #5 Page Page Agilent 6812A and 6813A features used Advantages/benefits of the Agilent 6812A and 6813A solutionsPage Our Promise