This state-of-the-art handbook covers most progressive and oscillatory linear electric machines (LEMs), drives, and MAGLEVS. It discusses basic and advanced modeling, steady state, transients, control, design, and testing of linear machines and drives with numerous case studies related to representative applications. Readers get ready-to-use knowledge of the analysis, design, control, testing, and ordering of linear electric machines, drives, and Maglevs to suit best various applications from people movers to industrial transport and linear oscillatory machines (loudspeakers, plunger…mehr
This state-of-the-art handbook covers most progressive and oscillatory linear electric machines (LEMs), drives, and MAGLEVS. It discusses basic and advanced modeling, steady state, transients, control, design, and testing of linear machines and drives with numerous case studies related to representative applications. Readers get ready-to-use knowledge of the analysis, design, control, testing, and ordering of linear electric machines, drives, and Maglevs to suit best various applications from people movers to industrial transport and linear oscillatory machines (loudspeakers, plunger solenoids, compressor drive, linear generators, or automotive active dampers and electromagnetic valve actuators for ICEs).
Fields Forces and Materials for LEMs. Classifications and Applications of LEMs. Linear Induction Motors: Topologies Fields Forces and Powers Including Edge End and Skin Effects. Linear Induction Motors: Circuit Theories Transients and Control. Design of Flat and Tubular Low-Speed LIMs. Transportation (Medium- and High-Speed) SLIM Design. DC-Excited Linear Synchronous Motors (DCE-LSM): Steady State Design Transients and Control. Superconducting Magnet Linear Synchronous Motors. Homopolar Linear Synchronous Motors (H-LSM): Modeling Design and Control. Linear Reluctance Synchronous Motors: Modeling Performance Design and Control. Linear Switched Reluctance Motors (L-SRM): Modeling Design and Control. Flat Linear Permanent Magnet Synchronous Motors. Tubular Linear Permanent Magnet Synchronous Motors. Multi-Pole Coil Three- or Two-Phase Linear PM Reluctance Motors. Plunger Solenoids and Their Control. Linear DC PM Brushless Motors. Resonant Linear Oscillatory Single-Phase PM Motors/Generators. Multiaxis Linear PM Motor Drives. Attraction Force (Electromagnetic) Levitation Systems. Repulsive Force Levitation Systems. Active Guideway MAGLEVs. Passive Guideway MAGLEVs.
Fields Forces and Materials for LEMs. Classifications and Applications of LEMs. Linear Induction Motors: Topologies Fields Forces and Powers Including Edge End and Skin Effects. Linear Induction Motors: Circuit Theories Transients and Control. Design of Flat and Tubular Low-Speed LIMs. Transportation (Medium- and High-Speed) SLIM Design. DC-Excited Linear Synchronous Motors (DCE-LSM): Steady State Design Transients and Control. Superconducting Magnet Linear Synchronous Motors. Homopolar Linear Synchronous Motors (H-LSM): Modeling Design and Control. Linear Reluctance Synchronous Motors: Modeling Performance Design and Control. Linear Switched Reluctance Motors (L-SRM): Modeling Design and Control. Flat Linear Permanent Magnet Synchronous Motors. Tubular Linear Permanent Magnet Synchronous Motors. Multi-Pole Coil Three- or Two-Phase Linear PM Reluctance Motors. Plunger Solenoids and Their Control. Linear DC PM Brushless Motors. Resonant Linear Oscillatory Single-Phase PM Motors/Generators. Multiaxis Linear PM Motor Drives. Attraction Force (Electromagnetic) Levitation Systems. Repulsive Force Levitation Systems. Active Guideway MAGLEVs. Passive Guideway MAGLEVs.
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