Balıkesir Üniversitesi
Kütüphane ve Dokümantasyon Daire Başkanlığı

Control design techniques in power electronics devices / (Kayıt no. 19139)

MARC ayrıntıları
000 -LEADER
fixed length control field 10631cam a2200433 i 4500
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 060502s2006 enka b 001 0 eng d
010 ## - LIBRARY OF CONGRESS CONTROL NUMBER
LC control number 2006926892
015 ## - NATIONAL BIBLIOGRAPHY NUMBER
National bibliography number GBA639274
Source bnb
016 7# - NATIONAL BIBLIOGRAPHIC AGENCY CONTROL NUMBER
Record control number 013443220
Source Uk
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 1846284589
Qualifying information (hardback)
International Standard Book Number 1846284597
Qualifying information ebook
024 3# - OTHER STANDARD IDENTIFIER
Terms of availability 9781846284588
-- (hardback)
Terms of availability 9781846284595 (ebook)
040 ## - CATALOGING SOURCE
Original cataloging agency BAUN
Language of cataloging eng
Transcribing agency BAUN
Description conventions rda
042 ## - AUTHENTICATION CODE
Authentication code lccopycat
049 ## - LOCAL HOLDINGS (OCLC)
Holding library BAUN_MERKEZ
050 00 - LIBRARY OF CONGRESS CALL NUMBER
Classification number TJ225
Item number .S457 2006
082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER
Edition number 22
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name Sira Ramírez, Hebertt J.
9 (RLIN) 32
245 10 - TITLE STATEMENT
Title Control design techniques in power electronics devices /
Statement of responsibility, etc Hebertt Sira-Ramírez and Ramón Silva-Ortigoza.
264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE
Place of production, publication, distribution, manufacture London :
Name of producer, publisher, distributor, manufacturer Springer,
Date of production, publication, distribution, manufacture, or copyright notice c2006.
300 ## - PHYSICAL DESCRIPTION
Extent xvii, 423 pages :
Other physical details illustrations ;
Dimensions 24 cm.
336 ## - CONTENT TYPE
Source rdacontent
337 ## - MEDIA TYPE
Source rdamedia
338 ## - CARRIER TYPE
Source rdacarrier
490 1# - SERIES STATEMENT
Series statement Power systems
504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc Includes bibliographical references (pages [415]-419) and index.
505 00 - FORMATTED CONTENTS NOTE
Title 1 Introduction
-- Part I Modelling
-- 2 Modelling of DC-to-DC Power Converters
-- 2.1 Introduction
-- 2.2 The Buck Converter
-- 2.2.1 Model of the Converter
-- 2.2.2 Normalization
-- 2.2.3 Equilibrium Point and Static Transfer Function
-- 2.2.4 A Buck Converter Prototype
-- 2.3 The Boost Converter
-- 2.3.1 Model of the Converter
-- 2.3.2 Normalization
-- 2.3.3 Equilibrium Point and Static Transfer Function
-- 2.3.4 Alternative Model of the Boost Converter
-- 2.3.5 A Boost Converter Prototype
-- 2.4 The Buck-Boost Converter
-- 2.4.1 Model of the Converter
-- 2.4.2 Normalization
-- 2.4.3 Equilibrium Point and Static Transfer Function
-- 2.4.4 A Buck-Boost Converter Prototype
-- 2.5 The Non-inverting Buck-Boost Converter
-- 2.5.1 Model of the Converter
-- 2.5.2 Normalization
-- 2.5.3 Equilibrium Point and Static Transfer Function
-- 2.6 The Cúk Converter
-- 2.6.1 Model of the Converter
-- 2.6.2 Normalization
-- 2.6.3 Equilibrium Point and Static Transfer Function
-- 2.7 The Sepic Converter
-- 2.7.1 Model of the Converter
-- 2.7.2 Normalization
-- 2.7.3 Equilibrium Point and Static Transfer Function
-- 2.8 The Zeta Converter
-- 2.8.1 Model of the Converter
-- 2.8.2 Normalization
-- 2.8.3 Equilibrium Point and Static Transfer Function
-- 2.9 The Quadratic Buck Converter
-- 2.9.1 Model of the Converter
-- 2.9.2 Normalized Model
-- 2.9.3 Equilibrium Point
-- 2.9.4 Static Transfer Function
-- 2.10 The Boost-Boost Converter
-- 2.10.1 Model of the Boost-Boost Converter
-- 2.10.2 Average Normalized Model
-- 2.10.3 Equilibrium Point and Static Transfer Function
-- 2.10.4 Alternative Model of the Boost-Boost Converter
-- 2.10.5 A Boost-Boost Converter Experimental Prototype
-- 2.11 The Double Buck-Boost Converter
-- 2.11.1 Model of the Double Buck-Boost Converter
-- 2.11.2 Average Normalized Model
-- 2.11.3 Equilibrium Point and Static Transfer Function
-- 2.12 Power Converter Models with Non-ideal Components
-- 2.13 A General Mathematical Model for Power Electronics Devices
-- 2.13.1 Some Illustrative Examples of the General Model
-- Part II Controller Design Methods
-- 3 Sliding Mode Control
-- 3.1 Introduction
-- 3.2 Variable Structure Systems
-- 3.2.1 Control of Single Switch Regulated Systems
-- 3.2.2 Sliding Surfaces
-- 3.2.3 Notation
-- 3.2.4 Equivalent Control and the Ideal Sliding Dynamics
-- 3.2.5 Accessibility of the Sliding Surface
-- 3.2.6 Invariance Conditions for Matched Perturbations
-- 3.3 Control of the Boost Converter
-- 3.3.1 Direct Control
-- 3.3.2 Indirect Control
-- 3.3.3 Simulations
-- 3.3.4 Experimental Implementation
-- 3.4 Control of the Buck-Boost Converter
-- 3.4.1 Direct Control
-- 3.4.2 Indirect Control
-- 3.4.3 Simulations
-- 3.5 Control of the Cúk Converter
-- 3.5.1 Direct Control
-- 3.5.2 Indirect Control
-- 3.5.3 Simulations
-- 3.6 Control of the Zeta Converter
-- 3.6.1 Direct Control
-- 3.6.2 Indirect Control
-- 3.6.3 Simulations
-- 3.7 Control of the Quadratic Buck Converter
-- 3.7.1 Direct Control
-- 3.7.2 Indirect Control
-- 3.7.3 Simulations
-- 3.8 Multi-variable Case
-- 3.8.1 Sliding Surfaces
-- 3.8.2 Equivalent Control and Ideal Sliding Dynamics
-- 3.8.3 Invariance with Respect to Matched Perturbations
-- 3.8.4 Accessibility of the Sliding Surface
-- 3.9 Control of the Boost-Boost Converter
-- 3.9.1 Direct Control
-- 3.9.2 Indirect Control
-- 3.9.3 Simulations
-- 3.9.4 Experimental Sliding Mode Control Implementation
-- 3.10 Control of the Double Buck-Boost Converter
-- 3.10.1 Direct Control
-- 3.10.2 Indirect Control
-- 3.10.3 Simulations
-- 3.11 Σ – Δ Modulation
-- 3.11.1 Σ – Δ-Modulators
-- 3.11.2 Average Feedbacks and Σ – Δ-Modulation
-- 3.11.3 A Hardware Realization of a Σ – Δ-Modulator
-- 4 Approximate Linearization in the Control of Power Electronics Devices
-- 4.1 Introduction
-- 4.2 Linear Feedback Control
-- 4.2.1 Pole Placement by Full State Feedback
-- 4.2.2 Pole Placement Based on Observer Design
-- 4.2.3 Reduced Order Observers
-- 4.2.4 Flatness
-- 4.2.5 Generalized Proportional Integral Controllers
-- 4.2.6 Passivity Based Control
-- 4.2.7 A Hamiltonian Systems Viewpoint
-- 4.3 The Buck Converter
-- 4.3.1 Generalities about the Average Normalized Model
-- 4.3.2 Controller Design by Pole Placement
-- 4.3.3 Proportional-Derivative Control via State Feedback
-- 4.3.4 Trajectory Tracking
-- 4.3.5 Fliess' Generalized Canonical Forms
-- 4.3.6 State Feedback Control via Observer Design
-- 4.3.7 GPI Controller Design
-- 4.3.8 Passivity Based Control
-- 4.3.9 The Hamiltonian Systems Viewpoint
-- 4.3.10 Implementation of the Linear Passivity Based Control for the Buck Converter
-- 4.4 The Boost Converter
-- 4.4.1 Generalities about the Average Normalized Model
-- 4.4.2 Control via State Feedback
-- 4.4.3 Proportional-Derivative State Feedback Control
-- 4.4.4 Trajectory Tracking
-- 4.4.5 Fliess' Generalized Canonical Form
-- 4.4.6 State Feedback Control via Observer Design
-- 4.4.7 GPI Controller Design
-- 4.4.8 Passivity Based Control
-- 4.4.9 The Hamiltonian Systems Viewpoint
-- 4.5 The Buck-Boost Converter
-- 4.5.1 Generalities about the Model
-- 4.5.2 State Feedback Controller Design
-- 4.5.3 Dynamic Proportional-Derivative State Feedback Control
-- 4.5.4 Trajectory Tracking
-- 4.5.5 Fliess' Generalized Canonical Forms
-- 4.5.6 Control via Observer Design
-- 4.5.7 GPI Controller Design
-- 4.5.8 Passivity Based Control
-- 4.5.9 The Hamiltonian Systems Viewpoint
-- 4.5.10 Experimental Passivity based Control of the Buck-Boost Converter
-- 4.6 The Cúk Converter
-- 4.6.1 Generalities about the Model
-- 4.6.2 The Hamiltonian System Approach
-- 4.7 The Zeta Converter
-- 4.7.1 Generalities about the Model
-- 4.7.2 The Hamiltonian System Approach
-- 4.8 The Quadratic Buck Converter
-- 4.8.1 Generalities about the Model
-- 4.8.2 State Feedback Controller Design
-- 4.8.3 The Hamiltonian System Approach
-- 4.9 The Boost-Boost Converter
-- 4.9.1 Generalities about the Model
-- 4.9.2 The Hamiltonian System Approach
-- 5 Nonlinear Methods in the Control of Power Electronics Devices
-- 5.1 Introduction
-- 5.2 Feedback Linearization
-- 5.2.1 Isidori's Canonical Form
-- 5.2.2 Input-Output Feedback Linearization
-- 5.2.3 State Feedback Linearization
-- 5.2.4 The Boost Converter
-- 5.2.5 The Buck-Boost Converter
-- 5.2.6 The Cúk Converter
-- 5.2.7 The Sepic Converter
-- 5.2.8 The Zeta Converter
-- 5.2.9 The Quadratic Buck Converter
-- 5.3 Passivity Based Control
-- 5.3.1 The Boost Converter
-- 5.3.2 The Buck-Boost Converter
-- 5.3.3 The Cúk Converter
-- 5.3.4 The Sepic Converter
-- 5.3.5 The Zeta Converter
-- 5.3.6 The Quadratic Buck Converter
-- 5.4 Exact Error Dynamics Passive Output Feedback Control
-- 5.4.1 A General Result
-- 5.4.2 The Boost Converter
-- 5.4.3 Experimental Implementation
-- 5.4.4 The Buck-Boost Converter
-- 5.4.5 The Cúk Converter
-- 5.4.6 The Sepic Converter
-- 5.4.7 The Zeta Converter
-- 5.4.8 The Quadratic Buck Converter
-- 5.4.9 The Boost-Boost Converter
-- 5.4.10 The Double Buck-Boost Converter
-- 5.5 Error Dynamics Passive Output Feedback
-- 5.5.1 The Boost Converter
-- 5.5.2 Experimental Results
-- 5.6 Control via Fliess' Generalized Canonical Form
-- 5.6.1 The Boost Converter
-- 5.6.2 The Buck-Boost Converter
-- 5.6.3 The Quadratic Buck Converter
-- 5.7 Nonlinear Observers for Power Converters
-- 5.7.1 Full Order Observers
-- 5.7.2 The Boost Converter
-- 5.7.3 The Buck-Boost Converter
-- 5.8 Reduced Order Observers
-- 5.8.1 The Boost Converter
-- 5.8.2 The Buck-Boost Converter
-- 5.9 GPI Sliding Mode Control
-- 5.9.1 The Buck Converter
-- 5.9.2 The Boost Converter
-- 5.9.3 The Buck-Boost Converter
-- Part III Applications
-- 6 DC-to-AC Power Conversion
-- 6.1 Introduction
-- 6.2 Nominal Trajectories in DC-to-AC Power Conversion
-- 6.2.1 The Buck Converter
-- 6.2.2 Two-Sided Σ – Δ Modulation
-- 6.2.3 The Boost Converter
-- 6.2.4 The Buck-Boost Converter
-- 6.3 An Approximate Linearization Approach
-- 6.3.1 The Boost Converter
-- 6.3.2 The Buck-Boost Converter
-- 6.4 A Flatness Based Approach
-- 6.4.1 The Double Bridge Buck Converter
-- 6.4.2 The Boost Converter
-- 6.4.3 The Buck-Boost Converter
-- 6.5 A Sliding Mode Control Approach
-- 6.5.1 The Boost Converter
-- 6.5.2 A Feasible Indirect Input Current Tracking Approach
-- 6.6 Exact Tracking.
Title Error Dynamics Passive Output Feedback Control
-- 6.6.1 The Double Bridge Buck Converter
-- 6.6.2 The Boost Converter
-- 6.6.3 The Buck-Boost Converter
-- 7 AC Rectifiers
-- 7.1 Introduction
-- 7.2 Boost Unit Power Factor Rectifier
-- 7.2.1 Model of the Monophasic Boost Rectifier
-- 7.2.2 The Control Objectives
-- 7.2.3 Steady State Considerations
-- 7.2.4 Exact Open Loop Tracking Error Dynamics and Controller Design
-- 7.2.5 Simulations
-- 7.2.6 The Use of the Differential Flatness Property in the Passive Controller Design
-- 7.2.7 Simulations
-- 7.3 Three Phase Boost Rectifier
-- 7.3.1 The Three Phase Boost Rectifier Average Model
-- 7.3.2 A Static Passivity Based Controller
-- 7.3.3 Trajectory Planning
-- 7.3.4 Switched Implementation of the Average Design
-- 7.3.5 Simulations
-- 7.4 A Unit Power Factor Rectifier-DC Motor System
-- 7.4.1 The Combined Rectifier-DC Motor Model
-- 7.4.2 The Exact Tracking Error Dynamics Passive Output Feedback Controller
-- 7.4.3 Trajectory Generation
-- 7.4.4 Simulations
-- 7.5 A Three Phase Rectifier-DC Motor System
-- 7.5.1 The Combined Three Phase Rectifier DC Motor Model
-- 7.5.2 The Exact Tracking Error Dynamics Passive Output Feedback Controller
-- 7.5.3 Trajectory Generation
-- 7.5.4 Simulations
-- References
-- Index
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Electronic control.
Topical term or geographic name as entry element Electronic controllers
General subdivision Design and construction.
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name Silva-Ortigoza, Ramón.
830 #0 - SERIES ADDED ENTRY--UNIFORM TITLE
9 (RLIN) 108464
Uniform title Power systems.
856 41 - ELECTRONIC LOCATION AND ACCESS
Materials specified Table of contents only
Uniform Resource Identifier http://www.loc.gov/catdir/enhancements/fy0824/2006926892-t.html
Materials specified Contributor biographical information
Uniform Resource Identifier http://www.loc.gov/catdir/enhancements/fy0824/2006926892-b.html
Materials specified Publisher description
Uniform Resource Identifier http://www.loc.gov/catdir/enhancements/fy0824/2006926892-d.html
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Source of classification or shelving scheme Library of Congress Classification
Koha item type Kitap
Mevcut
Withdrawn status Lost status Source of classification or shelving scheme Damaged status Not for loan Collection code Home library Current library Shelving location Date acquired Source of acquisition Cost, normal purchase price Inventory number Total Checkouts Total Renewals Full call number Barcode Date last seen Date checked out Price effective from Koha item type
    Library of Congress Classification     Non-fiction Mehmet Akif Ersoy Merkez Kütüphanesi Mehmet Akif Ersoy Merkez Kütüphanesi Genel Koleksiyon 16/12/2008 Satın Alma 140.72 255.07.02.01.06- 1 1 TJ225 .S457 2006 024568 18/06/2021 16/02/2021 11/01/2015 Kitap
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