Linear motion is richly present in various industries, from direct electric propulsion in urban and interurban people movers on wheels or on magnetic "cushions" (MAGLEVs) to indoor transport of goods (conveyors, etc.), through plunger solenoids (to open hotel doors and as electromagnetic p...

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1. Verfasser:	Boldea, Ion (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Taylor & Francis 2024
Schlagworte:	bicssc / Automatic control engineering bicssc / Electrical engineering bisacsh / TECHNOLOGY & ENGINEERING / Electronics / General bisacsh / TECHNOLOGY & ENGINEERING / Engineering bisacsh / TECHNOLOGY & ENGINEERING / Industrial Design / General
Zusammenfassung:	Linear motion is richly present in various industries, from direct electric propulsion in urban and interurban people movers on wheels or on magnetic "cushions" (MAGLEVs) to indoor transport of goods (conveyors, etc.), through plunger solenoids (to open hotel doors and as electromagnetic power switches), to compressor drives by linear oscillatory permanent magnet (PM) motors, smart phones integrated microphone and loudspeakers, and controlled vehicles’ suspension, etc. Besides the traditional rotary motor drives with mechanical transmissions, which mean friction limitations (weather dependent) in traction (heavy vehicles), more losses, positioning errors (backlash) in the process, and higher maintenance costs to handle them, linear motion in industry by direct electromagnetic forces is free of friction limitations for traction, free of mechanical transmission, and thus more efficient, with less maintenance cost and fewer positioning errors (backlash). This explains why they are used in so many applications already since the dramatic advancement of power electronics and digital control in the last four decades.Modeling, performance, design, control, and testing of linear electric machines (LEMs) show notable differences with respect to rotary electric motor drives, which warrant a dedicated treatment of these aspects.The Second Edition (First Edition: 2013) concentrates on the above technical aspects of various types of LEMs in close relationship with specific applications via numerical examples of modeling, design, control, and testing, with ample representative results from literature, industry and some of the author’s contributions, such as:- Technical field and circuit modeling of linear induction motors in flat configurations for low and high speeds (with and without dynamic end effects) and in tubular configurations short travel design, control and testing- Linear synchronous motor (LSM) drives in dc-excited, homopolar, reluctance and superconducting excitation configurations for urban and interurban high-speed vehicles propulsion and integrated propulsion and levitation (in MAGLEVs) modeling, design and control with full-scale numerical examples, with emphasis on lower KWh/passenger/Km at high speeds- Flat and tubular linear permanent magnet (PM) synchronous motors (L-PMSMs), mainly destined to industrial indoor transport for automation at high efficiency in clean rooms- Linear "flux-modulation" motors— new breed, suitable for very low-speed applications due to higher thrust density- Plunger solenoids in various applications including new valve PM actuators with millisecond response time - Linear resonant PM oscillatory motors design,
Beschreibung:	1. Fields, Forces, and Materials for LEMs. 2. Classifications and Applications of LEMs. 3. Linear Induction Motors: Topologies, Fields, Forces, and Powers Including Edge, End, and Skin Effects. 4. Linear Induction Motors: Circuit Theories, Transients, and Control. 5. Design of Flat and Tubular Low-Speed LIMs. 6. Transportation (Medium- and High-Speed) SLIM Design. 7. DC-Excited Linear Synchronous Motors (DCE-LSM) Steady State, Design, Transients, and Control. 8. Superconducting Magnet Linear Synchronous Motors. 9. Homopolar Linear Synchronous Motors (H-LSM): Modeling, Design, and Control. 10. Linear Reluctance Synchronous Motors:Modeling, Performance Design, and Control. 11. Linear Switched Reluctance Motors (L-SRM): Modeling, Design, and Control. 12. Flat Linear Permanent Magnet Synchronous Motors. 13. Tubular Linear Permanent Magnet Synchronous Motors. 14. Multi-Pole Coil Three-or Two-Phase Linear PM Reluctance Motors. 15. Flux – Modulation Linear PM Motors and Magnetic Screws. 16. Plunger Solenoids and Their Control. 17. Linear Single- Phase PM Brushless Motors. 18. Resonant Linear Oscillatory Single-Phase PM Motors/Generators. 19. Multiaxis Linear PM Motor Drives. 20. Attraction Force (Electromagnetic) Levitation Systems. 21. Repulsive Force Levitation Systems. 22. Active Guideway MAGLEVs. 23. Passive Guideway MAGLEVs.
Beschreibung:	736 Seiten 453 gr
ISBN:	9781032131061