Three-Phase Diode Bridge Rectifier With Low Harmonics [electronic resource] : Current Injection Methods / by Predrag Pejovic.

By: Pejovic, Predrag [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextLanguage: English Series: Power Electronics and Power Systems: Publisher: Boston, MA : Springer US, 2007Description: VIII, 318 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780387329369Subject(s): Engineering | Electronics | Systems engineering | Electric engineering | Engineering | Energy Technology | Electronics and Microelectronics, Instrumentation | Circuits and SystemsAdditional physical formats: Printed edition:: No titleDDC classification: 621.042 LOC classification: TK1001-1841Online resources: Click here to access online
Contents:
Three-Phase Diode Bridge Rectifier -- Principles of Current Injection -- Current Injection Devices -- The Optimal Third-Harmonic Current Injection -- Current Injection Networks for the Third-Harmonic Current Injection -- The Optimal Current Injection -- Current Injection Networks for the Optimal Current Injection -- Operation of the Rectifier in the Discontinuous Conduction Mode -- Recovery of the Current Injection Network Power Applying a Current-Loaded Resistance Emulator -- Recovery of the Current Injection Network Power Applying a Voltage-Loaded Resistance Emulator -- Current Injection Applying a Switching Current Injection Device -- Rectifiers that Apply Square-Wave Current Injection -- Conclusions.
In: Springer eBooksSummary: In this book, principles of the current injection are discussed first. This discussion is followed by an analysis of various magnetic current injection devices. The third harmonic current injection is discussed next, and several current injection networks are analyzed. The optimal current injection is the topic that follows, and the requirements imposed to the current injection network in order to provide the optimal current injection are derived. Several current injection networks that provide the optimal current injection are proposed, and some parasitic effects are discussed. Recovery of the power taken by the current injection networks is analyzed, and two types of passive resistance emulators are analyzed in detail, the current-loaded resistance emulator, and the voltage-loaded resistance emulator. Avoiding the inductor of the current injection network results in mutipulse operation of the current injection based rectifiers with passive resistance emulators, which is discussed next. In a separate chapter, a different current injection device based on three bi-directional semiconductor switches is presented, and previously derived results are generalized for this special type of current injection device. At last, the results are generalized to three-phase full-bridge thyristor rectifiers. Essentially, the book presents digested results of numerous research papers published in the last fifteen years in the area of current injection based rectifiers. The book may be of interest for the people involved in design of low-harmonic three-phase rectifiers, and the people involved in research in this area.
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Three-Phase Diode Bridge Rectifier -- Principles of Current Injection -- Current Injection Devices -- The Optimal Third-Harmonic Current Injection -- Current Injection Networks for the Third-Harmonic Current Injection -- The Optimal Current Injection -- Current Injection Networks for the Optimal Current Injection -- Operation of the Rectifier in the Discontinuous Conduction Mode -- Recovery of the Current Injection Network Power Applying a Current-Loaded Resistance Emulator -- Recovery of the Current Injection Network Power Applying a Voltage-Loaded Resistance Emulator -- Current Injection Applying a Switching Current Injection Device -- Rectifiers that Apply Square-Wave Current Injection -- Conclusions.

In this book, principles of the current injection are discussed first. This discussion is followed by an analysis of various magnetic current injection devices. The third harmonic current injection is discussed next, and several current injection networks are analyzed. The optimal current injection is the topic that follows, and the requirements imposed to the current injection network in order to provide the optimal current injection are derived. Several current injection networks that provide the optimal current injection are proposed, and some parasitic effects are discussed. Recovery of the power taken by the current injection networks is analyzed, and two types of passive resistance emulators are analyzed in detail, the current-loaded resistance emulator, and the voltage-loaded resistance emulator. Avoiding the inductor of the current injection network results in mutipulse operation of the current injection based rectifiers with passive resistance emulators, which is discussed next. In a separate chapter, a different current injection device based on three bi-directional semiconductor switches is presented, and previously derived results are generalized for this special type of current injection device. At last, the results are generalized to three-phase full-bridge thyristor rectifiers. Essentially, the book presents digested results of numerous research papers published in the last fifteen years in the area of current injection based rectifiers. The book may be of interest for the people involved in design of low-harmonic three-phase rectifiers, and the people involved in research in this area.

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