Autore |
To Cho W. S.
|
Pubbl/distr/stampa |
Chichester, West Sussex, United Kingdom : , : Wiley : , : Asme Press, , 2016
|
Descrizione fisica |
1 online resource (392 p.)
|
Disciplina |
621.8
|
Collana |
Wiley-ASME Press Series
|
Soggetto topico |
Machinery, Dynamics of
Control theory
|
Soggetto genere / forma |
Electronic books.
|
ISBN |
1-118-93490-3
|
Formato |
Materiale a stampa |
Livello bibliografico |
Monografia |
Lingua di pubblicazione |
eng
|
Nota di contenuto |
Title Page; Table of Contents; Series Preface; Preface; Acknowledgments; 1 Introduction; 1.1 Important Difference between Static and Dynamic Responses; 1.2 Classification of Dynamic Systems; 1.3 Applications of Control Theory; 1.4 Organization of Presentation; References; 2 Review of Laplace Transforms; 2.1 Definition; 2.2 First and Second Shifting Theorems; 2.3 Dirac Delta Function (Unit Impulse Function); 2.4 Laplace Transforms of Derivatives and Integrals; 2.5 Convolution Theorem; 2.6 Initial and Final Value Theorems; 2.7 Laplace Transforms of Periodic Functions
2.8 Partial Fraction Method2.9 Questions and Solutions; 2.10 Applications of MATLAB; Exercise Questions; References; 3 Dynamic Behaviors of Hydraulic and Pneumatic Systems; 3.1 Basic Elements of Liquid and Gas Systems; 3.2 Hydraulic Tank Systems; 3.3 Nonlinear Hydraulic Tank and Linear Transfer Function; 3.4 Pneumatically Actuated Valves; 3.5 Questions and Solutions; Appendix 3A: Transfer Function of Two Interacting Hydraulic Tanks; Exercise Questions; 4 Dynamic Behaviors of Oscillatory Systems; 4.1 Elements of Oscillatory Systems; 4.2 Free Vibration of Single Degree-of-Freedom Systems
4.3 Single Degree-of-Freedom Systems under Harmonic Forces4.4 Single Degree-of-Freedom Systems under Non-Harmonic Forces; 4.5 Vibration Analysis of Multi-Degrees-of-Freedom Systems; 4.6 Vibration of Continuous Systems; 4.7 Questions and Solutions; Appendix 4A: Proof of Equation (4.19b); Exercise Questions; References; 5 Formulation and Dynamic Behavior of Thermal Systems; 5.1 Elements of Thermal Systems; 5.2 Thermal Systems; 5.3 Questions and Solutions; Exercise Questions; 6 Formulation and Dynamic Behavior of Electrical Systems; 6.1 Basic Electrical Elements
6.2 Fundamentals of Electrical Circuits6.3 Simple Electrical Circuits and Networks; 6.4 Electromechanical Systems; 6.5 Questions and Solutions; Exercise Questions; References; 7 Dynamic Characteristics of Transducers; 7.1 Basic Theory of the Tachometer; 7.2 Principles and Applications of Oscillatory Motion Transducers; 7.3 Principles and Applications of Microphones; 7.4 Principles and Applications of the Piezoelectric Hydrophone; 7.5 Questions and Solutions; Appendix 7A: Proof of Approximated Current Solution; Exercise Questions; References; 8 Fundamentals of Control Systems
8.1 Classification of Control Systems8.2 Representation of Control Systems; 8.3 Transfer Functions; 8.4 Closed-Loop Control Systems; 8.5 Block Diagram Reduction; 8.6 Questions and Solutions; Exercise Questions; References; 9 Analysis and Performance of Control Systems; 9.1 Response in the Time Domain; 9.2 Transient Responses as Functions of Closed-Loop Poles; 9.3 Control System Design Based on Transient Responses; 9.4 Control Types; 9.5 Steady-State Errors; 9.6 Performance Indices and Sensitivity Functions; 9.7 Questions and Solutions; Exercise Questions
10 Stability Analysis of Control Systems
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Record Nr. | UNINA-9910466304203321 |