High-frequency magnetic components /

A unique text on the theory and design fundaments of inductors and transformers, updated with more coverage on the optimization of magnetic devices and many new design examples The first edition is popular among a very broad audience of readers in different areas of engineering and science. This boo...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Kazimierczuk, Marian K.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Chichester, West Sussex : Wiley Blackwell, [2014]
Edición:Second edition.
Temas:
Electromagnetic devices.
Magnetic devices.
Resonance.
Dispositifs électromagnétiques.
Dispositifs magnétiques.
Résonance.
resonance (acoustics concept)
Electromagnetic devices
Magnetic devices
Resonance
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright; Contents; Preface; About the Author; List of Symbols; Chapter 1 Fundamentals of Magnetic Devices; 1.1 Introduction; 1.2 Fields; 1.3 Magnetic Relationships; 1.3.1 Magnetomotive Force; 1.3.2 Magnetic Field Intensity; 1.3.3 Magnetic Flux; 1.3.4 Magnetic Flux Density; 1.3.5 Magnetic Flux Linkage; 1.4 Magnetic Circuits; 1.4.1 Reluctance; 1.4.2 Magnetic KVL; 1.4.3 Magnetic Flux Continuity; 1.5 Magnetic Laws; 1.5.1 Amp's Law; 1.5.2 Faraday's Law; 1.5.3 Lenz's Law; 1.5.4 Volt-Second Balance; 1.5.5 Ohm's Law; 1.5.6 Biot-Savart's Law; 1.5.7 Maxwell's Equations.
  • 1.5.8 Maxwell's Equations for Good Conductors1.5.9 Poynting's Vector; 1.5.10 Joule's Law; 1.6 Eddy Currents; 1.7 Core Saturation; 1.7.1 Core Saturation for Sinusoidal Inductor Voltage; 1.7.2 Core Saturation for Square-Wave Inductor Voltage; 1.7.3 Core Saturation for Rectangular Wave Inductor Voltage; 1.8 Inductance; 1.8.1 Definitions of Inductance; 1.8.2 Inductance of Solenoid; 1.8.3 Inductance of Inductor with Toroidal Core; 1.8.4 Inductance of Inductor with Torus Core; 1.8.5 Inductance of Inductor with Pot Core; 1.8.6 Inductance Factor; 1.9 Air Gap in Magnetic Core; 1.9.1 Inductance.
  • 1.9.2 Magnetic Field in Air Gap1.10 Fringing Flux; 1.10.1 Fringing Flux Factor; 1.10.2 Effect of Fringing Flux on Inductance for Round Air Gap; 1.10.3 Effect of Fringing Flux on Inductance for Rectangular Air Gap; 1.10.4 Method of Effective Air Gap Cross-Sectional Area; 1.10.5 Method of Effective Length of Air Gap; 1.10.6 Patridge's Fringing Factor; 1.10.7 Distribution of Fringing Magnetic Field; 1.11 Inductance of Strip Transmission Line; 1.12 Inductance of Coaxial Cable; 1.13 Inductance of Two-Wire Transmission Line; 1.14 Magnetic Energy and Magnetic Energy Density.
  • 1.14.1 Magnetic Energy Density1.14.2 Magnetic Energy Stored in Inductors with Ungapped Core; 1.14.3 Magnetic Energy Stored in Inductors with Gapped Core; 1.15 Self-Resonant Frequency; 1.16 Quality Factor of Inductors; 1.17 Classification of Power Losses in Magnetic Components; 1.18 Noninductive Coils; 1.19 Summary; 1.20 References; 1.21 Review Questions; 1.22 Problems; Chapter 2 Magnetic Cores; 2.1 Introduction; 2.2 Properties of Magnetic Materials; 2.3 Magnetic Dipoles; 2.4 Magnetic Domains; 2.5 Curie Temperature; 2.6 Magnetic Susceptibility and Permeability.
  • 2.7 Linear, Isotropic, and Homogeneous Magnetic Materials2.8 Magnetic Materials; 2.8.1 Ferromagnetic Materials; 2.8.2 Antiferromagnetic Materials; 2.8.3 Ferrimagnetic Materials; 2.8.4 Diamagnetic Materials; 2.8.5 Paramagnetic Materials; 2.9 Hysteresis; 2.10 Low-Frequency Core Permeability; 2.11 Core Geometries; 2.11.1 Toroidal Cores; 2.11.2 CC and UU Cores; 2.11.3 Pot Cores; 2.11.4 PQ and RM Cores; 2.11.5 EE and EDT Cores; 2.11.6 Planar Cores; 2.12 Ferromagnetic Core Materials; 2.12.1 Iron Cores; 2.12.2 Ferrosilicon Cores; 2.12.3 Amorphous Alloy Cores; 2.12.4 Nickel-Iron and Cobalt-Iron Cores.

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