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Author:   R. Krishnan
Publisher:   Pearson Education (US)
Imprint:   Pearson
Edition:   United States ed
Dimensions:   Width: 18.50cm , Height: 2.90cm , Length: 24.20cm
Weight:   1.120kg
ISBN:  

9780130910141

ISBN 10:   0130910147
Pages:   656
Publication Date:   15 March 2001
Audience:   College/higher education ,  Tertiary & Higher Education
Format:   Paperback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

(NOTE: Most chapters begin with an Introduction and conclude with either Suggested Readings or References, Discussion Questions and Exercise Problems.) 1. Introduction. Power Devices. Motor Drive. Scope of the Book. 2. Modeling of DC Machines. Theory of Operation. Induced Emf. Equivalent Circuit & Electromagnetic Torque. Electromechanical Modeling. State Space Modeling. Block Diagram & Transfer Functions. Field Excitation. Measurement of Motor Constants. Flow Chart for Computation. 3. Phase Controlled DC Motor Drives. Principles of Dc Motor Drives. Phase Controlled Converters. Steady State Analysis of the Three Phase Converter Controlled Dc Motor Drive. Two Quadrant Three Phase Converter Controlled Dc Motor Drive. Transfer Functions of the Subsystems. Design of Controllers. Two Quadrant Dc Motor Drive with Field Weakening. Four Quadrant Dc Motor Drive. Converter Selection and Characteristics. Simulation of the One-Quadrant Dc Motor Drive. Harmonics & Associated Problems. Sixth Harmonic Torque. Application Considerations. Applications. Parameter Sensitivity. Research Status. 4. Chopper Controlled DC Motor Drives. Principle of Operation of the Chopper. Four Quadrant Chopper Circuit. Chopper for Inversion. Chopper with other Power Devices. Model of the Chopper. Input to the Chopper. Other Chopper Circuits. Steady State Analysis of Chopper Controlled Dc Motor Drive. Rating of the Devices Pulsating Torques. Closed Loop Operation. Dynamic Simulation of the Speed Controlled Dc Motor Drive. Application. 5. Polyphase Induction Machines. Construction and Principle of Operation. Induction Motor Equivalent Circuit. Steady State Performance Equations of the Induction Motor. Steady State Performance. Measurements of Motor Parameters. Dynamic Modeling of Induction Machines. Dynamics Simulation. Small-Signal Equations of the Induction Machine. Evaluation of Control Characteristics. Space Phasor Model. Control Principle of the Induction Motor. 6. Phase Controlled Induction Motor Drives. Stator Voltage Control. Slip Energy Recovery Scheme. 7. Frequency Controlled Induction Motor Drives. Static Frequency Changers. Voltage Source Inverter. Voltage Source Inverter Driven Induction Motor. Current Source Induction Motor Drives. Applications. 8. Vector Controlled Induction Motor-Drives. Principle of Vector Control. Direct Vector Control. Derivation of Indirect Vector Control Scheme. Indirect Vector Control Scheme. An Implementation of Indirect Vector Control Scheme. Tuning of the Vector Controller. Flowchart of Dynamic Computation. Dynamic Simulation Results. Parameter Sensitivity of the Indirect Vector Controlled Induction Motor Drive. Parameter Sensitivity Compensation. Flux Weakening Operation. Speed Controlled Design of an Indirect Vector Controlled Induction Motor Drive. Performance and Applications. Research Status. 9. Permanent Magnet Synchronous and Brushless DC Motor Drives. Vector Control of PM Synchronous Motor (PMSM). Control Strategies. Flux Weakening Operation. Speed Controller Design. Sensorless Control. Parameter Sensitivity. PM Brushless DC Motor (PMDBCM).

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