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Collection The Oxford Series in Electrical and Computer Engineering
- Editeur : Oxford University Press Inc
- ISSN : pas d'ISSN
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Affiner la recherche Interroger des sources externesOptical Electronics in Modern Communications / Amnon Yariv
Titre : Optical Electronics in Modern Communications Type de document : texte imprimé Auteurs : Amnon Yariv, Auteur Mention d'édition : 5th ed. Editeur : New york : Oxford University Press Inc Année de publication : 1997 Collection : The Oxford Series in Electrical and Computer Engineering Importance : 744 p. Présentation : couv. ill. en coul. Format : 24 cm. ISBN/ISSN/EAN : 978-0-19-510626-8 Langues : Anglais (eng) Catégories : PHYSIQUE Index. décimale : 05-06 Optique Résumé : Now in its fifth edition, Optical Electronics in Modern Communications reflects the latest developments in the field Yariv helped define. The changes to this edition emulate the continuous ascendance of optical communication to the forefront of communication technology, evidenced also by the change in title from Optical Electronics in previous editions. The text introduces readers to the first principles of phenomena and devices used in the practice of laser physics, including applications based on lasers with emphasis placed on optical fiber communications, and features real-life examples as well as extensive problems. New to this edition are sections on pulse dispersion and narrowing in fibers, high speed modulation of semiconductor lasers, vertical cavity lasers, quantum optics, holographic data storage, fiber gratings, and dfb lasers. A solutions manual is also available for instructors. Known as the authoritative forerunner on optical electronics, this new edition can be used as both a core text in the classroom and as an invaluable reference for practicing engineers. Note de contenu : Contents
1. Electromagnetic Theory
2. The Propagation of Rays and Beams
3. Propagation of Optical Beams in Fibers
4. Optical Resonators
5. Interaction of Radiation and Atomic Systems
6. Theory of Laser Oscillation and its Control in the Continuous and Pulsed Regimes
7. Some Specific Laser Systems
8. Second-Harmonic Generation and Parametric oscillation
9. Electronic Modulation of Laser Beams
10. Noise in Optical Detection and Generation
11. Detection of Optical Radiation
12. Interaction of Light and Sound
13. Propagation of Coupling Modes in Optical Dielectric Waveguides-Periodic Waveguides
14. Holography and Optical Data Storage
15. Semiconductor Lasers-Theory and Applications
16. Advanced Semiconductor Lasers: Quantum Well Lasers, Distributed Feedback Lasers, Vertical Cavity Surface Emitting
Lasers
17. Phase Conjugate Optics - Theory and Applications
18. Two-Beam Coupling and Phase Conjugation in Photorefractive Media
19. Optical Solitons
20. A Classical Treatment of Quantum Optics, Quantum noise, and squeezing
-Appendices A. The Kramers-Kroning relations
B. The Electrooptic Effect in Cubic 43m Crystals
C. Noise in Traveling Wave Lasers Amplifiers
D. Transformation of a coherent.
(source: Nielsen Book Data)Optical Electronics in Modern Communications [texte imprimé] / Amnon Yariv, Auteur . - 5th ed. . - New york : Oxford University Press Inc, 1997 . - 744 p. : couv. ill. en coul. ; 24 cm.. - (The Oxford Series in Electrical and Computer Engineering) .
ISBN : 978-0-19-510626-8
Langues : Anglais (eng)
Catégories : PHYSIQUE Index. décimale : 05-06 Optique Résumé : Now in its fifth edition, Optical Electronics in Modern Communications reflects the latest developments in the field Yariv helped define. The changes to this edition emulate the continuous ascendance of optical communication to the forefront of communication technology, evidenced also by the change in title from Optical Electronics in previous editions. The text introduces readers to the first principles of phenomena and devices used in the practice of laser physics, including applications based on lasers with emphasis placed on optical fiber communications, and features real-life examples as well as extensive problems. New to this edition are sections on pulse dispersion and narrowing in fibers, high speed modulation of semiconductor lasers, vertical cavity lasers, quantum optics, holographic data storage, fiber gratings, and dfb lasers. A solutions manual is also available for instructors. Known as the authoritative forerunner on optical electronics, this new edition can be used as both a core text in the classroom and as an invaluable reference for practicing engineers. Note de contenu : Contents
1. Electromagnetic Theory
2. The Propagation of Rays and Beams
3. Propagation of Optical Beams in Fibers
4. Optical Resonators
5. Interaction of Radiation and Atomic Systems
6. Theory of Laser Oscillation and its Control in the Continuous and Pulsed Regimes
7. Some Specific Laser Systems
8. Second-Harmonic Generation and Parametric oscillation
9. Electronic Modulation of Laser Beams
10. Noise in Optical Detection and Generation
11. Detection of Optical Radiation
12. Interaction of Light and Sound
13. Propagation of Coupling Modes in Optical Dielectric Waveguides-Periodic Waveguides
14. Holography and Optical Data Storage
15. Semiconductor Lasers-Theory and Applications
16. Advanced Semiconductor Lasers: Quantum Well Lasers, Distributed Feedback Lasers, Vertical Cavity Surface Emitting
Lasers
17. Phase Conjugate Optics - Theory and Applications
18. Two-Beam Coupling and Phase Conjugation in Photorefractive Media
19. Optical Solitons
20. A Classical Treatment of Quantum Optics, Quantum noise, and squeezing
-Appendices A. The Kramers-Kroning relations
B. The Electrooptic Effect in Cubic 43m Crystals
C. Noise in Traveling Wave Lasers Amplifiers
D. Transformation of a coherent.
(source: Nielsen Book Data)Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 157 05-06-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 157
Titre : Elements of power electronics Type de document : texte imprimé Auteurs : Phillip T. Krein, Auteur Editeur : New york : Oxford University Press Inc Année de publication : 1998 Collection : The Oxford Series in Electrical and Computer Engineering Importance : 766 p. Présentation : couv. ill. en coul., ill. Format : 25 cm. ISBN/ISSN/EAN : 978-0-19-511701-1 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : Power electronics is an enabling technology for almost all electrical applications. The field is growing rapidly because electrical devices need electronic circuits to process their energy. Elements of Power Electronics, the first undergraduate book to discuss this subject in a conceptual framework, provides comprehensive coverage of power electronics at a level suitable for undergraduate student engineers, students in advanced degree programs, and novices in the field. It aims to establish a fundamental engineering basis for power electronics analysis, design, and implementation, offering broad and in-depth coverage of basic material. The text's unifying framework includes the physical implications of circuit laws, switching circuit analysis, and the basis for converter operation and control. Dc-dc, ac-dc, dc-ac, and ac-ac conversion tasks are examined and principles of resonant converters and discontinuous converters are discussed. Models for real devices and components are developed in depth, including models for real capacitors, inductors, wire connections, and power semiconductors. Magnetic device design is introduced, and thermal management and drivers for power semiconductors are addressed. Control system aspects of converters are discussed, and both small-signal and geometric controls are explored. Many examples show ways to use modern computer tools such as Mathcad, Matlab, and Mathematica to aid in the analysis and design of conversion circuits. Featuring a fundamental approach to power electronics coupled with extensive discussion of design and implementation issues, Elements of Power Electronics serves as an ideal text for courses in power electronics and as a helpful guide for engineers new to the field. Special features of the text include:
DT More than 160 examples, particularly design examples, and 350 chapter problems that support the presented concepts.
DT An extensive World Wide Web site (http://power.ece.uiuc.edu/krein_text) which includes additional problems, laboratory materials, selected solutions for students, computer-based examples, analysis tools for Mathcad, Matlab, and Mathematica, and author contact.
DT A solutions manual which will be made available to registered faculty via both the World Wide Web site (http://power.ece.uiuc.edu/krein_text)and an ftp site (ftp://power.ece.uiuc.edu/krein_text).Note de contenu : Contents:
Part I: Principles
1. Background
2. Organizing and Analyzing Switches
3. Converter Concepts
Part II: Converters and Applications
4. DC-DC Converters
5. Diode-Capacitor Circuits and Rectifiers
6. Inverters
7. AC-AC Conversion
8. Introduction to Resonance in Converters
9. Discontinuous Modes
Part III: Real Components and Their Effects
10. Real Sources and Loads
11. Capacitors and Resistors
12. Concepts of Magnetics for Power Electronics
13. Power Semiconductors in Converters
14. Interfacing with Power Semiconductors
Part IV: Control Aspects
15. Overview of Feedback Control for Converters
16. Approximate Methods for Control Design
17. Geometric Control for Power Converters
Appendixes
A. Some Useful Trigonometric Identities
B. Measurement Systems
C. Computer Analysis Examples
D. Reference Materials
IndexElements of power electronics [texte imprimé] / Phillip T. Krein, Auteur . - New york : Oxford University Press Inc, 1998 . - 766 p. : couv. ill. en coul., ill. ; 25 cm.. - (The Oxford Series in Electrical and Computer Engineering) .
ISBN : 978-0-19-511701-1
Langues : Anglais (eng)
Catégories : ELECTROTECHNIQUE Index. décimale : 10-05 Electronique de puissance et industrielle Résumé : Power electronics is an enabling technology for almost all electrical applications. The field is growing rapidly because electrical devices need electronic circuits to process their energy. Elements of Power Electronics, the first undergraduate book to discuss this subject in a conceptual framework, provides comprehensive coverage of power electronics at a level suitable for undergraduate student engineers, students in advanced degree programs, and novices in the field. It aims to establish a fundamental engineering basis for power electronics analysis, design, and implementation, offering broad and in-depth coverage of basic material. The text's unifying framework includes the physical implications of circuit laws, switching circuit analysis, and the basis for converter operation and control. Dc-dc, ac-dc, dc-ac, and ac-ac conversion tasks are examined and principles of resonant converters and discontinuous converters are discussed. Models for real devices and components are developed in depth, including models for real capacitors, inductors, wire connections, and power semiconductors. Magnetic device design is introduced, and thermal management and drivers for power semiconductors are addressed. Control system aspects of converters are discussed, and both small-signal and geometric controls are explored. Many examples show ways to use modern computer tools such as Mathcad, Matlab, and Mathematica to aid in the analysis and design of conversion circuits. Featuring a fundamental approach to power electronics coupled with extensive discussion of design and implementation issues, Elements of Power Electronics serves as an ideal text for courses in power electronics and as a helpful guide for engineers new to the field. Special features of the text include:
DT More than 160 examples, particularly design examples, and 350 chapter problems that support the presented concepts.
DT An extensive World Wide Web site (http://power.ece.uiuc.edu/krein_text) which includes additional problems, laboratory materials, selected solutions for students, computer-based examples, analysis tools for Mathcad, Matlab, and Mathematica, and author contact.
DT A solutions manual which will be made available to registered faculty via both the World Wide Web site (http://power.ece.uiuc.edu/krein_text)and an ftp site (ftp://power.ece.uiuc.edu/krein_text).Note de contenu : Contents:
Part I: Principles
1. Background
2. Organizing and Analyzing Switches
3. Converter Concepts
Part II: Converters and Applications
4. DC-DC Converters
5. Diode-Capacitor Circuits and Rectifiers
6. Inverters
7. AC-AC Conversion
8. Introduction to Resonance in Converters
9. Discontinuous Modes
Part III: Real Components and Their Effects
10. Real Sources and Loads
11. Capacitors and Resistors
12. Concepts of Magnetics for Power Electronics
13. Power Semiconductors in Converters
14. Interfacing with Power Semiconductors
Part IV: Control Aspects
15. Overview of Feedback Control for Converters
16. Approximate Methods for Control Design
17. Geometric Control for Power Converters
Appendixes
A. Some Useful Trigonometric Identities
B. Measurement Systems
C. Computer Analysis Examples
D. Reference Materials
IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1590 10-05-58 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1590
Titre : Linear Systems and Signals Type de document : texte imprimé Auteurs : B.P. Lathi, Auteur Mention d'édition : 2nd. ed. Editeur : New york : Oxford University Press Inc Année de publication : 2005 Collection : The Oxford Series in Electrical and Computer Engineering Importance : 975 p. Présentation : couv. ill. en coul., ill. Format : 23,9 cm. ISBN/ISSN/EAN : 978-0-19-515833-5 Langues : Anglais (eng) Catégories : AUTOMATISME Index. décimale : 25-02 Théorie et traitement du signal Résumé : This book,
Linear Systems and Signals
, presents a comprehensive treatment of signals and linear systems at an introductorylevel. Like all my other books, it emphasizes physical appreciation of concepts through heuristic reasoning, and the use of metaphors, analogies, and creative explanations. Such an approach is much different from a purely deductive technique thatuses mere mathematical manipulation of symbols. There is a temptation to treat engineering subjects as a branch of appliedmathematics. Such an approach is a perfect match to the public image of engineering as a dry and dull discipline. It ignoresthe physical meaning behind various derivations and deprives a student of intuitive grasp and the enjoyable experience of logical uncovering of the subject matter. Here I have used mathematics not so much to prove axiomatic theory as to supportand enhance physical and intuitive understanding. Wherever possible, theoretical results are interpreted heuristically and areenhanced by carefully chosen examples and analogies.This second edition, which closely follows the organization of the first edition, has been refined by incorporating suggestionsand changes provided by various reviewers. The added topics include Bode plots, use of digital filters in an impulse-invariancemethod of designing analog systems, convergence of infinite series, bandpass systems, group and phase delay, and Fourier applications to communication systems. A significant and sizable addition in the area of MATLAB® (a registered trademark of The Math Works, Inc.) has been provided by Dr. Roger Green of North Dakota State University. Dr. Green discusses his contribution at the conclusion of this preface.Note de contenu : Contents
B: Background
1. Signals and Systems
2. Time-Domain Analysis of Continuous-Time Systems
3. Time-Domain Analysis of Discrete-Time Systems
4. Continuous-Time System Analysis Using the Laplace Transform
5. Discrete-Time System Analysis Using the z -Transform
6. Continuous-Time Signal Analysis: The Fourier Series
7. Continuous-Time Signal Analysis: The Fourier Transform
8. Sampling: The Bridge from Continuous to Discrete
9. Fourier Analysis of Discrete-Time Signals
10. State-Space AnalysisLinear Systems and Signals [texte imprimé] / B.P. Lathi, Auteur . - 2nd. ed. . - New york : Oxford University Press Inc, 2005 . - 975 p. : couv. ill. en coul., ill. ; 23,9 cm.. - (The Oxford Series in Electrical and Computer Engineering) .
ISBN : 978-0-19-515833-5
Langues : Anglais (eng)
Catégories : AUTOMATISME Index. décimale : 25-02 Théorie et traitement du signal Résumé : This book,
Linear Systems and Signals
, presents a comprehensive treatment of signals and linear systems at an introductorylevel. Like all my other books, it emphasizes physical appreciation of concepts through heuristic reasoning, and the use of metaphors, analogies, and creative explanations. Such an approach is much different from a purely deductive technique thatuses mere mathematical manipulation of symbols. There is a temptation to treat engineering subjects as a branch of appliedmathematics. Such an approach is a perfect match to the public image of engineering as a dry and dull discipline. It ignoresthe physical meaning behind various derivations and deprives a student of intuitive grasp and the enjoyable experience of logical uncovering of the subject matter. Here I have used mathematics not so much to prove axiomatic theory as to supportand enhance physical and intuitive understanding. Wherever possible, theoretical results are interpreted heuristically and areenhanced by carefully chosen examples and analogies.This second edition, which closely follows the organization of the first edition, has been refined by incorporating suggestionsand changes provided by various reviewers. The added topics include Bode plots, use of digital filters in an impulse-invariancemethod of designing analog systems, convergence of infinite series, bandpass systems, group and phase delay, and Fourier applications to communication systems. A significant and sizable addition in the area of MATLAB® (a registered trademark of The Math Works, Inc.) has been provided by Dr. Roger Green of North Dakota State University. Dr. Green discusses his contribution at the conclusion of this preface.Note de contenu : Contents
B: Background
1. Signals and Systems
2. Time-Domain Analysis of Continuous-Time Systems
3. Time-Domain Analysis of Discrete-Time Systems
4. Continuous-Time System Analysis Using the Laplace Transform
5. Discrete-Time System Analysis Using the z -Transform
6. Continuous-Time Signal Analysis: The Fourier Series
7. Continuous-Time Signal Analysis: The Fourier Transform
8. Sampling: The Bridge from Continuous to Discrete
9. Fourier Analysis of Discrete-Time Signals
10. State-Space AnalysisExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 36 25-02-01 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 36
Titre : Signals and Systems Type de document : texte imprimé Auteurs : Chi-Tsong Chen, Auteur Mention d'édition : 3rd. ed. Editeur : New york : Oxford University Press Inc Année de publication : 2004 Collection : The Oxford Series in Electrical and Computer Engineering Importance : 424 p. Présentation : couv. ill. en coul., ill. Format : 24,1 cm. ISBN/ISSN/EAN : 978-0-19-515661-4 Langues : Anglais (eng) Catégories : AUTOMATISME Index. décimale : 25-02 Théorie et traitement du signal Résumé : The third edition of Signals and Systems prepares students for real-world engineering applications. It is concise, focused, and practical. The text introduces basic concepts in signals and systems and their associated mathematical and computational tools. It also stresses the most important concepts in signal analysis (frequency spectra) and system analysis (stability and frequency responses) and uses them throughout, including the study of seismometers and accelerometers.
Signals and Systems, 3/e, introduces every term carefully and develops every topic logically. It distinguishes amplitudes and magnitudes, as well as lumped and distributed systems. It presents engineering concepts as early as possible and discusses transform theory only as needed. Also, the text employs transfer functions and state-space equations only in the contexts where they are most efficient. Transfer functions are used exclusively in qualitative analysis and design, and state-space equations are used exclusively in computer computation and op-amp circuit implementation. Thus, the students' time is focused on learning only what can be immediately used.
Including an author commentary on the best way to approach the text, Signals and Systems, 3/e, is ideal for sophomore- and junior-level undergraduate courses in systems and signals. It assumes a background in general physics (including simple circuit analysis), simple matrix operations, and basic calculus.Note de contenu : Table of contents
1. Signals
2. Systems
3. Convolutions, Difference and Differential Equations
4. Frequency Spectra of CT Signals
5. Sampling Theorem and FFT Spectral Computation
6. CT Transfer Function
7. Realization, Characterization, and Identification
8. Model Reduction, Feedback, and Modulation
9. DT Transfer Functions - z-Transform
10. DT State-Space Equations and Realizations
Index.Signals and Systems [texte imprimé] / Chi-Tsong Chen, Auteur . - 3rd. ed. . - New york : Oxford University Press Inc, 2004 . - 424 p. : couv. ill. en coul., ill. ; 24,1 cm.. - (The Oxford Series in Electrical and Computer Engineering) .
ISBN : 978-0-19-515661-4
Langues : Anglais (eng)
Catégories : AUTOMATISME Index. décimale : 25-02 Théorie et traitement du signal Résumé : The third edition of Signals and Systems prepares students for real-world engineering applications. It is concise, focused, and practical. The text introduces basic concepts in signals and systems and their associated mathematical and computational tools. It also stresses the most important concepts in signal analysis (frequency spectra) and system analysis (stability and frequency responses) and uses them throughout, including the study of seismometers and accelerometers.
Signals and Systems, 3/e, introduces every term carefully and develops every topic logically. It distinguishes amplitudes and magnitudes, as well as lumped and distributed systems. It presents engineering concepts as early as possible and discusses transform theory only as needed. Also, the text employs transfer functions and state-space equations only in the contexts where they are most efficient. Transfer functions are used exclusively in qualitative analysis and design, and state-space equations are used exclusively in computer computation and op-amp circuit implementation. Thus, the students' time is focused on learning only what can be immediately used.
Including an author commentary on the best way to approach the text, Signals and Systems, 3/e, is ideal for sophomore- and junior-level undergraduate courses in systems and signals. It assumes a background in general physics (including simple circuit analysis), simple matrix operations, and basic calculus.Note de contenu : Table of contents
1. Signals
2. Systems
3. Convolutions, Difference and Differential Equations
4. Frequency Spectra of CT Signals
5. Sampling Theorem and FFT Spectral Computation
6. CT Transfer Function
7. Realization, Characterization, and Identification
8. Model Reduction, Feedback, and Modulation
9. DT Transfer Functions - z-Transform
10. DT State-Space Equations and Realizations
Index.Réservation
Réserver ce document
Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 35 25-02-02 Livre Bibliothèque de Génie Electrique- USTO Documentaires Sorti jusqu'au 24/02/2026 35
Titre : Design of Feedback Control Systems Type de document : texte imprimé Auteurs : Raymond T. Stefani, Auteur ; Bahram Shahian, Auteur ; Clement J. Savant, Auteur Mention d'édition : 4 th. ed. Editeur : New york : Oxford University Press Inc Année de publication : 2002 Collection : The Oxford Series in Electrical and Computer Engineering Importance : 848 p. Présentation : couv. ill. en coul., ill. Format : 24,1 cm. ISBN/ISSN/EAN : 978-0-19-514249-5 Langues : Anglais (eng) Catégories : AUTOMATISME Index. décimale : 25-04 Théorie des systèmes:systèmes asservis Résumé : Design of Feedback Control Systems is designed for electrical and mechanical engineering students in advanced undergraduate control systems courses. Now in its fourth edition, this tutorial-style textbook has been completely updated to include the use of modern analytical software, especially MATLAB®. It thoroughly discusses classical control theory and state variable control theory, as well as advanced and digital control topics. Each topic is preceded by analytical considerations that provide a well-organized parallel treatment of analysis and design. Design is presented in separate chapters devoted to root locus, frequency domain, and state space viewpoints. Treating the use of computers as a means rather than as an end, this student-friendly book contains new "Computer-Aided Learning" sections that demonstrate how MATLAB® can be used to verify all figures and tables in the text. Clear and accessible, Design of Feedback Control Systems, Fourth Edition, makes complicated methodology comprehensible to a wide spectrum of students.
· Keyed to today's dominant design tool, MATLAB®
· Includes drill problems for gauging knowledge and skills after each topic
· Provides state-of-the-art design examples
· Uses marginal summaries to guide the reader
· Introduces new ideas in the context of previous material, with a guide to the information that follows
· Presents practical examples of the latest advances in control sciencesNote de contenu : Contents
CHAPTER 1 Continuous-Time System Description
1.2 Basic Concepts
1.3 Modeling
1.4 System Dynamics
1.5 Electrical Components
1.9 Aerodynamics
1.10 Thermal Systems
1.11 Hydraulics
1.12 Transfer Function and Stability
1.14 Signal Flow Graphs
1.15 A Positioning Servo
CHAPTER 2 Continuous-Time System Response
2.2 Response of First-Order Systems
2.3 Response of Second-Order System
2.4 Higher-Order System Response
2.5 Stability Testing
CHAPTER 3 Performance Specifications
3.2 Analyzing Tracking Systems
3.5 Performance Indices and Optimal Systems
3.6 System Sensitivity
3.8 An Electric Rail Transportation System
3.9 Phase-Locked Loop for a CB Receiver
3.10 Bionic Eye
CHAPTER 4 Root Locus Analysis
4.2 Pole–Zero Plots
4.3 Root Locus for Feedback Systems
4.4 Root Locus Construction
4.5 More About Root Locus
4.8 A Light-Source Tracking System
4.9 An Artificial Limb
4.10 Control of a Flexible Spacecraft
CHAPTER 5 Root Locus Design
5.2 Shaping a Root Locus
5.3 Adding and Canceling Poles and Zeros
5.6 Cascade Proportional Plus Integral (PI)
5.7 Cascade Lag Compensation
5.8 Cascade Lead Compensation
5.9 Cascade Lag–Lead Compensation
5.10 Rate Feedback Compensation (PD)
5.12 Pole Placement
5.13 An Unstable High-Performance Aircraft
5.14 Control of a Flexible Space Station
CHAPTER 6 Frequency Response Analysis
6.2 Frequency Response
6.3 Bode Plots
6.4 Using Experimental Data
6.6 Gain Margin
6.7 Phase Margin
6.8 Relations Between Closed-Loop and Open-Loop Frequency Response
6.9 Frequency Response of a Flexible Spacecraft
CHAPTER 7 Frequency Response Design
7.2 Relation Between Root Locus, Time Domain, and Frequency Domain
7.3 Compensation Using Bode Plots
7.4 Uncompensated System
7.5 Cascade Proportional Plus Integral (PI) and Cascade Lag Compensations
7.6 Cascade Lead Compensation
7.7 Cascade Lag–Lead Compensation
7.10 An Automobile Driver as a Compensator
CHAPTER 8 State Space Analysis
8.2 State Space Representation
8.3 State Transformations and Diagonalization
8.4 Time Response from State Equations
8.5 Stability
8.6 Controllability and Observability
8.7 Inverted Pendulum Problems
CHAPTER 9 State Space Design
9.2 State Feedback and Pole Placement
9.3 Tracking Problems
9.4 Observer Design
9.5 Reduced-Order Observer Design
9.6 A Magnetic Levitation System
CHAPTER 10 Advanced State Space Methods
10.2 The Linear Quadratic Regulator Problem
10.3 Optimal Observers—the Kalman Filter
10.4 The Linear Quadratic Gaussian (LQG) Problem
10.5 Robustness
10.6 Loop Transfer Recovery (LTR)
10.7 H[sub(∞)]Control
CHAPTER 11 Digital Control
11.2 Computer Processing
11.3 A/D and D/A Conversion
11.4 Discrete-Time Signals
11.5 Sampling
11.6 Reconstruction of Signals from Samples
11.7 Discrete-Time Systems
11.8 State-Variable Descriptions of Discrete-Time Systems
-Appendix
-IndexDesign of Feedback Control Systems [texte imprimé] / Raymond T. Stefani, Auteur ; Bahram Shahian, Auteur ; Clement J. Savant, Auteur . - 4 th. ed. . - New york : Oxford University Press Inc, 2002 . - 848 p. : couv. ill. en coul., ill. ; 24,1 cm.. - (The Oxford Series in Electrical and Computer Engineering) .
ISBN : 978-0-19-514249-5
Langues : Anglais (eng)
Catégories : AUTOMATISME Index. décimale : 25-04 Théorie des systèmes:systèmes asservis Résumé : Design of Feedback Control Systems is designed for electrical and mechanical engineering students in advanced undergraduate control systems courses. Now in its fourth edition, this tutorial-style textbook has been completely updated to include the use of modern analytical software, especially MATLAB®. It thoroughly discusses classical control theory and state variable control theory, as well as advanced and digital control topics. Each topic is preceded by analytical considerations that provide a well-organized parallel treatment of analysis and design. Design is presented in separate chapters devoted to root locus, frequency domain, and state space viewpoints. Treating the use of computers as a means rather than as an end, this student-friendly book contains new "Computer-Aided Learning" sections that demonstrate how MATLAB® can be used to verify all figures and tables in the text. Clear and accessible, Design of Feedback Control Systems, Fourth Edition, makes complicated methodology comprehensible to a wide spectrum of students.
· Keyed to today's dominant design tool, MATLAB®
· Includes drill problems for gauging knowledge and skills after each topic
· Provides state-of-the-art design examples
· Uses marginal summaries to guide the reader
· Introduces new ideas in the context of previous material, with a guide to the information that follows
· Presents practical examples of the latest advances in control sciencesNote de contenu : Contents
CHAPTER 1 Continuous-Time System Description
1.2 Basic Concepts
1.3 Modeling
1.4 System Dynamics
1.5 Electrical Components
1.9 Aerodynamics
1.10 Thermal Systems
1.11 Hydraulics
1.12 Transfer Function and Stability
1.14 Signal Flow Graphs
1.15 A Positioning Servo
CHAPTER 2 Continuous-Time System Response
2.2 Response of First-Order Systems
2.3 Response of Second-Order System
2.4 Higher-Order System Response
2.5 Stability Testing
CHAPTER 3 Performance Specifications
3.2 Analyzing Tracking Systems
3.5 Performance Indices and Optimal Systems
3.6 System Sensitivity
3.8 An Electric Rail Transportation System
3.9 Phase-Locked Loop for a CB Receiver
3.10 Bionic Eye
CHAPTER 4 Root Locus Analysis
4.2 Pole–Zero Plots
4.3 Root Locus for Feedback Systems
4.4 Root Locus Construction
4.5 More About Root Locus
4.8 A Light-Source Tracking System
4.9 An Artificial Limb
4.10 Control of a Flexible Spacecraft
CHAPTER 5 Root Locus Design
5.2 Shaping a Root Locus
5.3 Adding and Canceling Poles and Zeros
5.6 Cascade Proportional Plus Integral (PI)
5.7 Cascade Lag Compensation
5.8 Cascade Lead Compensation
5.9 Cascade Lag–Lead Compensation
5.10 Rate Feedback Compensation (PD)
5.12 Pole Placement
5.13 An Unstable High-Performance Aircraft
5.14 Control of a Flexible Space Station
CHAPTER 6 Frequency Response Analysis
6.2 Frequency Response
6.3 Bode Plots
6.4 Using Experimental Data
6.6 Gain Margin
6.7 Phase Margin
6.8 Relations Between Closed-Loop and Open-Loop Frequency Response
6.9 Frequency Response of a Flexible Spacecraft
CHAPTER 7 Frequency Response Design
7.2 Relation Between Root Locus, Time Domain, and Frequency Domain
7.3 Compensation Using Bode Plots
7.4 Uncompensated System
7.5 Cascade Proportional Plus Integral (PI) and Cascade Lag Compensations
7.6 Cascade Lead Compensation
7.7 Cascade Lag–Lead Compensation
7.10 An Automobile Driver as a Compensator
CHAPTER 8 State Space Analysis
8.2 State Space Representation
8.3 State Transformations and Diagonalization
8.4 Time Response from State Equations
8.5 Stability
8.6 Controllability and Observability
8.7 Inverted Pendulum Problems
CHAPTER 9 State Space Design
9.2 State Feedback and Pole Placement
9.3 Tracking Problems
9.4 Observer Design
9.5 Reduced-Order Observer Design
9.6 A Magnetic Levitation System
CHAPTER 10 Advanced State Space Methods
10.2 The Linear Quadratic Regulator Problem
10.3 Optimal Observers—the Kalman Filter
10.4 The Linear Quadratic Gaussian (LQG) Problem
10.5 Robustness
10.6 Loop Transfer Recovery (LTR)
10.7 H[sub(∞)]Control
CHAPTER 11 Digital Control
11.2 Computer Processing
11.3 A/D and D/A Conversion
11.4 Discrete-Time Signals
11.5 Sampling
11.6 Reconstruction of Signals from Samples
11.7 Discrete-Time Systems
11.8 State-Variable Descriptions of Discrete-Time Systems
-Appendix
-IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 39 25-04-01 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 39
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