Individual Channel Design for Synchronous Generators
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Carlos Ernesto Ugalde Loo
In this paper a novel control strategy for a real synchronous generator is presented. It is based on linear, diagonal, low order, minimum-phase, fixed, and stable controllers. The controller was obtained via individual channel design (ICD), a framework that allows analysis and synthesis of multivariable control systems by means of classical techniques based on the Bode and Nyquist plots. The generator is part of a one machine – infinite bus system. A linearised model around an operating point in a rotating coordinate frame is used. The theoretical principles behind this control strategy are summarised for completeness. The results using this novel control strategy are obtained throughout simulations in MATLAB®.
©2011 Walter de Gruyter GmbH & Co. KG, Berlin/Boston
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- An ANN-Based High Impedance Fault Detection Scheme: Design and Implementation
- DSP Based Neural Network Controlled Parallel Hybrid Active Power Filter
- Power System Stability Computer Simulation Using a Differential-Algebraic Equation Solver
- Individual Channel Design for Synchronous Generators
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Articles in the same Issue
- Article
- An ANN-Based High Impedance Fault Detection Scheme: Design and Implementation
- DSP Based Neural Network Controlled Parallel Hybrid Active Power Filter
- Power System Stability Computer Simulation Using a Differential-Algebraic Equation Solver
- Individual Channel Design for Synchronous Generators
- Methods for Characterizing Flicker and its Applications
