Abstract:
This paper presents a generalized excitation control design that ensures not only a desired damping of the critical electro-mechanical modes of oscillation but also the z...Show MoreMetadata
Abstract:
This paper presents a generalized excitation control design that ensures not only a desired damping of the critical electro-mechanical modes of oscillation but also the zeroing of the terminal voltage error independent of terminal voltage excursions. The excitation system consists of a compensation transfer function utilizing the machine speed or terminal frequency and/or electrical power. A comparison of the proposed design with a conventional excitation system control indicated its effectiveness in enhancing small scale as well as large scale system stability.
Published in: IEEE Transactions on Power Apparatus and Systems ( Volume: PAS-103, Issue: 5, May 1984)
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- IEEE Keywords
- Index Terms
- Power System ,
- Control Design ,
- Electric Power ,
- Excitation System ,
- Terminal Voltage ,
- Voltage Error ,
- Critical Mode ,
- Control Parameters ,
- Transient Response ,
- Design Procedure ,
- Asymptotically Stable ,
- System Matrix ,
- External Load ,
- Composite System ,
- Control Objective ,
- Voltage Regulation ,
- Voltage Variation ,
- Systematic Procedure ,
- External System ,
- Synchronous Motor ,
- Local Feedback ,
- Reduced-order Model ,
- Feedback Gain Matrix ,
- Speed Regulation ,
- Subsystem Dynamics ,
- Mechanical Power ,
- Powerful Machine ,
- Feedback Loop
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Power System ,
- Control Design ,
- Electric Power ,
- Excitation System ,
- Terminal Voltage ,
- Voltage Error ,
- Critical Mode ,
- Control Parameters ,
- Transient Response ,
- Design Procedure ,
- Asymptotically Stable ,
- System Matrix ,
- External Load ,
- Composite System ,
- Control Objective ,
- Voltage Regulation ,
- Voltage Variation ,
- Systematic Procedure ,
- External System ,
- Synchronous Motor ,
- Local Feedback ,
- Reduced-order Model ,
- Feedback Gain Matrix ,
- Speed Regulation ,
- Subsystem Dynamics ,
- Mechanical Power ,
- Powerful Machine ,
- Feedback Loop
