Ac Motor Control And Electrical Vehicle Applications - Nam Kwang Hee | Libro Crc Press 10/2018 - HOEPLI.it


home libri books ebook dvd e film top ten sconti 0 Carrello


Torna Indietro

nam kwang hee - ac motor control and electrical vehicle applications

AC Motor Control and Electrical Vehicle Applications




Disponibilità: Momentaneamente non ordinabile

Attenzione: causa emergenza sanitaria sono possibili ritardi nelle spedizioni e nelle consegne.


PREZZO
149,98 €
NICEPRICE
142,48 €
SCONTO
5%



Questo prodotto usufruisce delle SPEDIZIONI GRATIS
selezionando l'opzione Corriere Veloce in fase di ordine.


Pagabile anche con App18 Bonus Cultura e Carta Docenti


Facebook Twitter Aggiungi commento


Spese Gratis

Dettagli

Genere:Libro
Lingua: Inglese
Editore:

CRC Press

Pubblicazione: 10/2018
Edizione: Edizione nuova, 2° edizione





Note Editore

AC Motor Control and Electrical Vehicle Applications provides a guide to the control of AC motors with a focus on its application to electric vehicles (EV). It describes the rotating magnetic flux, based on which dynamic equations are derived. The text not only deals with the induction motor, but covers the permanent magnet synchronous motors (PMSM). Additionally, the control issues are discussed by taking into account the limitations of voltage and current. The latest edition includes more experimental data and expands upon the topics of inverter, pulse width modulation methods, loss minimizing control, and vehicle dynamics. Various EV motor design issues are also reviewed, while comparing typical types of PMSMs. Features Considers complete dynamic modeling of induction and PMSM in the rotating frame. Provides various field-oriented controls, while covering advanced topics in PMSM high speed control, loss minimizing control, and sensorless control. Covers inverter, sensors, vehicle dynamics, driving cycles, etc., not just motor control itself. Offers a comparison between BLDC, surface PMSM, and interior PMSM. Discusses how the motor produces torque and is controlled based on consistent mathematical treatments.




Sommario

1 Preliminaries for Motor Control 1.1 Basics of Electromagnetics 1.2 Basics of DC Machines 1.3 Dynamical System Control 2 Rotating Magnetic Field 2.1 Magneto Motive Force and Inductance 2.2 Rotating Field 2.3 Change of Coordinates 2.4 PI Controller in the Synchronous Frame 3 Induction Motor Basics 3.1 IM Construction 3.2 IM Operation Principle 3.3 Leakage Inductances 3.4 Circle Diagram 3.5 Current Displacement 3.6 IM Speed Control 4 Dynamic Modeling of Induction Motors 4.1 Voltage Equation 4.2 IM Dynamic Models 4.3 Power and Torque Equations 5 Induction Motor Control 5.1 Rotor Field Orientated Scheme 5.2 Stator Field Oriented Scheme 5.3 Field Weakening Control 5.4 IM Sensorless Control 5.5 Problems 6 Permanent Magnet AC Motors 6.1 PMSM and BLDCM 6.2 PMSM Dynamic Modeling 6.3 PMSM Torque Equations 6.4 PMSM Block Diagram and Control 7 PMSM Control Methods 7.1 Machine Sizing 7.2 Current Voltage and Speed Limits 7.3 Extending Constant Power Speed Range 7.4 Current Control Methods 8 Magnetism and Motor Losses 8.1 Soft and Hard Ferromagnetism 8.2 Permanent Magnet 8.3 Motor Losses 8.4 Loss Minimizing Control for IPMSMs 9 Sensorless Control of PMSMs 9.1 IPMSM Dynamics in a Misaligned Frame 9.2 Back-EMF Based Angle Estimation 9.3 Sensorless Control by Signal Injection 10 Pulse Width Modulation and Inverter 10.1 Switching Function and Six Step Operation 10.2 PWM Methods 10.3 Common Mode Current and Countermeasures 10.4 Dead Time and Compensation 10.5 Speed/Position and Current Sensors 11 Basics of Motor Design 11.1 Winding Methods 11.2 MMF with Slot Openings 11.3 Fractional Slot Machines 11.4 Demagnetization Analysis 11.5 Torque Analysis 11.6 Reluctance Motors 11.7 Motor Types Depending on PM Arrangements 12 EV Motor Design and Control 12.1 Requirements of EV Motor 12.2 PMSM Design for EVs 12.3 PMSM Design for EV based on FEA 12.4 Finite Element Analysis 12.5 PMSM Fabrication 12.6 PMSM Control in Practice 13 Vehicle Dynamics 13.1 Longitudinal Vehicle Dynamics 13.2 Acceleration Performance and Vehicle Power 13.3 Driving Cycle 14 Hybrid Electric Vehicles 14.1 HEV Basics 14.2 HEV Power Train Configurations 14.3 Series Drive Train 14.4 Parallel Drive Train 14.5 Series/Parallel Drive Train




Autore

Dr. Kwang Hee Nam received his B.S. degree in chemical technology and his M.S. degree in control and instrumentation from Seoul National University in 1980 and 1982, respectively. He also earned an M.A. degree in mathematics and a Ph.D. degree in electrical engineering from the University of Texas at Austin in 1986. Since 1987, he has been at POSTECH, where he is now a Professor of electrical engineering. From 1987 to 1992, he participated in the Pohang Light Source (PLS) project as a beam dynamics group leader. He performed electron beam dynamic simulation studies, and designed the magnet lattice for the PLS storage ring. He also served as the director of POSTECH Information Research Laboratories from 1998 to 1999. He is the author of over 150 publications in motor drives and power converters and received a best paper award from the Korean Institute of Electrical Engineers in 1992 and a best transaction paper award from the Industrial Electronics Society of IEEE in 2000. Dr. Nam has worked on numerous industrial projects for major Korean industries, such as POSCO, Hyundai Motor Company, LG Electronics, and Hyundai Mobis. He served as a president of Korean Institute of Power Electronics in 2016. Presently, his research areas include sensorless control, EV propulsion systems, motor design, and EV chargers.







Altre Informazioni

ISBN:

9781138712492

Condizione: Nuovo
Dimensioni: 10 x 7 in Ø 2.61 lb
Formato: Copertina rigida
Illustration Notes:47 tables, 31 halftones and 427 line drawings
Pagine Arabe: 556
Pagine Romane: xviii






Utilizziamo i cookie di profilazione, anche di terze parti, per migliorare la navigazione, per fornire servizi e proporti pubblicità in linea con le tue preferenze. Se vuoi saperne di più o negare il consenso a tutti o ad alcuni cookie clicca qui. Chiudendo questo banner o proseguendo nella navigazione acconsenti all’uso dei cookie.

X