Electrical machines : fundamentals of electromechanical energy conversion / Jacek F. Gieras

Von:

Gieras, Jacek F, 1947- [VerfasserIn]

Resource type: Ressourcentyp: Buch (Online)Buch (Online)Sprache: Englisch Verlag: Boca Raton : CRC Press, 2017Beschreibung: 1 Online-RessourceISBN:

9781498708845

Schlagwörter:

Electromechanical devices

Andere physische Formen: 9781498708838 | 9781315321073. | 9781498708852. | 9781315371429. | 9781498708869. | Erscheint auch als: Electrical machines. Druck-Ausgabe Boca Raton : CRC Press, Taylor & Francis Group, 2017. xv, 434 pagesDDC-Klassifikation:

621.31042

RVK: RVK: ZN 8200LOC-Klassifikation:

TK146

Online-Ressourcen:

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Zusammenfassung: 1.7. Basic Coordinates and Parameters of Systems1.7.1. Capacitive Element; 1.7.2. Inductive Element; 1.7.3. Resistive Element; 1.7.4. Mass in Translatory Motion; 1.7.5. Elastic Element in Translatory Motion; 1.7.6. Dissipative Element in Translatory Motion; 1.7.7. Concentrated-Parameter Elements in Rotary Motion; 1.8. Energy and Coenergy; 1.8.1. Energy and Coenergy of a Nonlinear Inductive Element; 1.8.2. Energy and Coenergy of a Nonlinear Capacitive Element; 1.8.3. Energy and Coenergy of Mechanical Systems; 1.9. Force and Torque Balance Equations; Summary; Problems; 2. TransformersZusammenfassung: 2.1 Single-Phase Transformer2.1.1. Principle of Operation and Construction; 2.1.2. Ideal Single-Phase Transformer; 2.1.3. Real Transformer; 2.1.4. Open-Circuit Test; 2.1.5. Short-Circuit Test; 2.1.6. Voltage Regulation (Secondary Voltage Change); 2.1.7. Efficiency; 2.2. Three-Phase Transformes; 2.2.1. Principle of Operation and Construction; 2.2.2. Name Plate; 2.2.3. Voltage Ratio of Three-Phase Transformers; 2.2.4. Parallel Operation; 2.3. Autotransformer; 2.4. Scott Transformer; Summary; Problems; 3. Switched-Reluctance Machines; 3.1. What is a Switched Reluctance Machine?Zusammenfassung: 3.2. Construction3.3. Aligned and Unaligned Positions; 3.4. Electromagnetic Torque; 3.5. Electromagnetic Torque Derived from Coenergy; 3.6. Power Electronics Converters for SRMs; 3.6.1. Current Hysteresis Control; 3.6.2. Voltage PWM Control; 3.6.3. Asymmetric Bridge Converter with Freewheeling and Regeneration Capability; 3.6.4. (m+1) Converter; 3.7. Advantages and Disadvantages; 3.8. Applications of SRMs; 3.9. Steady-State Performance Characteristics; 3.10. Design Recommendation; Summary; Problems; 4. DC Machines; 4.1. Function and Objective; 4.2. Prinicple of OperationZusammenfassung: 4.3. Construction of DC Brush Machine4.4. Armature Winding; 4.5. Fundamental Equations; 4.5.1. Terminal Voltage; 4.5.2. Armature Winding EMF; 4.5.3. Magnetic Flux; 4.5.4. MMF of the Field Winding; 4.5.5. Electromagnetic Power; 4.5.6. Electromagnetic (Developed) Torque; 4.5.7. Rotor and Commutator Linear Speed; 4.5.8. Input Power, Output Power and Efficiency; 4.5.9. Losses; 4.5.10. Armature Line Current Density; 4.6. Armature Reaction; 4.7. Classification of DC Machines According to Armature and Field Winding Connections; 4.8. DC Generators; 4.8.1. Separately-Excited GeneratorZusammenfassung: Cover; Title Page; Copyright Page; Contents; Preface; 1. Introduction to Electromechanical Energy Conversion; 1.1. What is Electromechanical Energy Conversion?; 1.1.1. Block Diagrams of Electromechanical Energy Conversion Devices; 1.1.2. Left-Hand and Right-Hand Rule; 1.1.3. Energy Flow in an Electromechanical Energy Conversion Device; 1.2. Analogies Between Electric and Magnetic Circuits; 1.3. Losses in Ferromagnetic Cores; 1.4. Inductor; 1.4.1. Ideal Inductor; 1.4.2. Practical Inductor; 1.5. Two Magnetically Coupled Electric Circuits; 1.6. Doubly-Excited Rotary DevicePPN: PPN: 1030165874Package identifier: Produktsigel: ZDB-4-NLEBK

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