An Augmented Phase-Leg Configuration with Shoot-through Immunity

CHF 97.60
Auf Lager
SKU
KUL144DB95K
Stock 1 Verfügbar
Free Shipping Kostenloser Versand
Geliefert zwischen Mi., 29.10.2025 und Do., 30.10.2025

Details

This book presents a new inverter phase-leg configuration that is inherently immune to shoot- through failures, eliminating one of the most serious failure modes in the conventional phase-leg configuration. The augmented phase-leg configuration (APLC) requires a single command signal and a simplified gate drive configuration to control the phase leg operation. The APLC also provides a significant advantage of eliminating the need for introducing dead-time intervals in the control of standard inverter phase legs. Very low levels of both harmonic distortion and nonlinearity are demonstrated using this new phase-leg configuration, making it attractive for many motor drive applications including low-frequency sensorless vector control, flux estimation, and open- loop voltage control. An alternative APLC topology is presented using a synchronous rectifier MOSFET that offers reduced losses by decreasing the forward conduction drop of the series diode. The results of this book provide valuable techniques and tools for developing new integrated power electronic modules that are highly integrated, intelligent, and robust.

Autorentext

Shihong Park, Ph.D. : Studied Electrical and Computer Engineering at the Uinveristy of Wisconsin - Madison. Professor at Dankook University, Korea.

Cart 30 Tage Rückgaberecht
Cart Garantie

Weitere Informationen

  • Allgemeine Informationen
    • GTIN 09783838338705
    • Genre Elektrotechnik
    • Sprache Englisch
    • Anzahl Seiten 248
    • Größe H220mm x B150mm x T15mm
    • Jahr 2010
    • EAN 9783838338705
    • Format Kartonierter Einband
    • ISBN 3838338707
    • Veröffentlichung 15.01.2010
    • Titel An Augmented Phase-Leg Configuration with Shoot-through Immunity
    • Autor Shihong Park
    • Untertitel Valuable Techniques and Tools for Developing New Integrated Power Electronic Modules
    • Gewicht 387g
    • Herausgeber LAP LAMBERT Academic Publishing

Bewertungen

Schreiben Sie eine Bewertung
Nur registrierte Benutzer können Bewertungen schreiben. Bitte loggen Sie sich ein oder erstellen Sie ein Konto.