Excitation Control
International Series of Monographs on Electronics and Instrumentation
Published on 16. May 2014
110 pages
978-1-4831-8512-5 (ISBN)
Description
Excitation Control is a translation from the Russian and deals with the principles of control related to the use of excitation as a controlling or regulating effect. This book discusses the research made on different ways to control various objects through automatic regulation, and the laws or principles behind any of these developments. The text focuses on the controls associated with the principle of excitation (invariance) regulation, as well as, the relevant methods and procedures of measurement, transmission or conversion of information in control and regulation systems. The book describes the principal types of automatic control systems and measuring devices that operate on excitation. The author also explains the elements of the theory of automatic control systems that operate on excitation such as the conditions of absolute invariance and the realizability of these conditions. The book then presents examples of calculations concerning combined tracing systems and automatic control systems. This book can prove useful for mathematicians, students, and professor advanced mathematics or physics. Engineers or technicians interested in automatic control and regulation will find this book valuable.
More details
Content
IntroductionForeword to the English EditionChapter I. Introduction 1. General Ideas 2. A Short Historical SurveyChapter II. Principal Types of Automatic Control Systems and Measuring Devices Operating on Excitation 3. Compounding in Electric Machines 4. Automatic Control Systems Operating with an Open Cycle 5. Parametric Stabilization Systems 6. Measuring Bridge Systems 7. Combined Tracing Systems 8. Combined Control of Aircraft Engines 9. Autonomous Control 10. Measuring Systems with Open and Closed Circuits 11. Systems for the Compensation of Forced Movements of Measuring Systems and Automatic Control Systems Using the K(D) Representation 12. Self-Adjusting Systems for the Control of Continuous Cold-Rolling Mills Using Compensating Connections Operating on Excitation 13. Self-Adjusting Automatic Control Systems with Modeling Of Objects Based on the Principle of Invariance 14. Simulating and Computing Devices Working on the Principle of the Combined System 15. Excitation Methods for the Correction of Automatic Control Systems by Means of Discrete FiltersChapter III. Elements of the Theory of Automatic Control Systems Operating on Excitation 16. Conditions of Absolute Invariance in Linear Automatic Control Systems Operating on Excitation 17. Criteria for the Realizability of Invariance Conditions 18. Invariance with Accuracy up to e for Combined Systems of Automatic Control and Tracing 19. Synthesis of the Open Loop of a Combined System of Automatic Regulation and Control 20. Limiting Transition from Invariance up to an Accuracy e to Absolute Invariance in the Analysis and Synthesis of a Combined System 21. The Effect of Invariance in Non-Linear Combined Automatic Control Systems with Sinusoidal Excitation 22. The Use of the Logarithmic Amplitude Characteristic in the Analysis of Combined Tracing SystemsChapter IV. Examples of Calculations in Respect of Combined Tracing Systems and Automatic Control Systems 23. General Remarks 24. Determination of the Correcting Circuit of a Combined Tracing System From the Condition of Complete Invariance 25. Calculations for a Combined Tracing System Using the Frequency Logarithmic Amplitude Characteristic 26. Determination of Excitation Correction According to the Fixed Errors in Position, Velocity, and Dynamic Response Due to Acceleration in a Combined Tracing System (CTS) 27. The Use of Electronic Simulators for the Selection of Excitation Circuits in Combined Automatic Control SystemsReferencesIndexOther Titles Published in the Series on Electronics and Instrumentation
