Piezoelectric transformer integration possibility in high power density applications [Elektronische Ressource] / Do Manh Cuong

Piezoelectric transformer integration possibility in high power density applications [Elektronische Ressource] / Do Manh Cuong

-

English
146 Pages
Read
Download
Downloading requires you to have access to the YouScribe library
Learn all about the services we offer

Description

Manh Cuong DoPiezoelectric Transformer Integration Possibility in High Power Density ApplicationsISBN 978-3-940046-85-7TUDpress TUDpressUUmschlag.indd 1mschlag.indd 1 06.06.2008 10:14:0706.06.2008 10:14:07TUDpress Manh Cuong Do Piezoelectric Transformer Integration Possibility in High Power Density ApplicationsDo Manh CuongPiezoelectric Transformer Integration Possibility in High Power Density ApplicationsTUDpressDo Manh CuongPiezoelectric Transformer Integration Possibility in High Power Density Applications TUDpress2008Bibliografi sche Information der Deutschen BibliothekDie Deutsche Bibliothek verzeichnet diese Publikation in der Deutschen Nationalbib-liografi e; detaillierte bibliografi sche Daten sind im Internet unter http://dnb.ddb.de abrufbar.Bibliographic information published by Die Deutsche BibliothekDie Deutsche Bibliothek lists this publication in the Deutsche Nationalbibliografi e; detailed bibliographic data is available in the Internet at http://dnb.ddb.deZugl.: Dresden, Techn. Univ., Diss., 2008ISBN 978-3-940046-85-7© TUDpress Verlag der Wissenschaften GmbHBergstr. 70 | D-01069 DresdenTel.: 0351/47 96 97 20 | Fax: 0351/47 96 08 19http://www.tudpress.deAlle Rechte vorbehalten. All rights reserved.Gesetzt vom Autor.Druck und Bindung: Sächsisches Digitaldruck Zentrum GmbH.Made in Germany.¨TECHNISCHE UNIVERSITAT DRESDENPiezoelectricTransformerIntegrationPossibilityinHighPowerDensityApplicationsM. Sc.

Subjects

Informations

Published by
Published 01 January 2008
Reads 25
Language English
Document size 5 MB
Report a problem
Umschlag.indd1
ISBN 9783940046857
TUDpress
Manh Cuong Do
Piezoelectric Transformer Integration Possibility in High Power Density Applications
Piezoelectric Transformer Integration Possibility in High Power Density Applications
Manh Cuong Do
press TUD
TUDpress
06.06.200810:14:07
Do Manh Cuong Piezoelectric Transformer Integration Possibility in High Power Density Applications
TUDpress
Do Manh Cuong
Piezoelectric Transformer Integration Possibility in High Power Density Applications
TUDpress 2008
Bibliografische Information der Deutschen Bibliothek Die Deutsche Bibliothek verzeichnet diese Publikation in der Deutschen Nationalbib liografie; detaillierte bibliografische Daten sind im Internet unter http://dnb.ddb.de abrufbar.
Bibliographic information published by Die Deutsche Bibliothek
Die Deutsche Bibliothek lists this publication in the Deutsche Nationalbibliografie;
detailed bibliographic data is available in the Internet at http://dnb.ddb.de
Zugl.: Dresden, Techn. Univ., Diss., 2008
ISBN 9783940046857
© TUDpress Verlag der Wissenschaften GmbH Bergstr. 70 | D01069 Dresden Tel.: 0351/47 96 97 20 | Fax: 0351/47 96 08 19 http://www.tudpress.de
Alle Rechte vorbehalten. All rights reserved.
Gesetzt vom Autor.
Druck und Bindung: Sächsisches Digitaldruck Zentrum GmbH.
Made in Germany.
TECHNISCHEUNIVERSITÄTDRESDEN
Piezoelectric Transformer Integration Possibility in High Power Density Applications
M. Sc.Do Manh Cuong
von der Fakultät Elektrotechnik und Informationstechnik der TECHNISCHENUNIVERSITÄTDRESDEN
zur Erlangung des akademischen Grades eines
Vorsitzender: Gutachter 1: Gutachter 2: Gutachter 3:
Doktoringenieurs (Dr.Ing.)
genehmigte Dissertation
Tag der Einreichung: Tag der Verteidigung:
Prof. Dr.Ing. habil. Schreiber Prof. Dr.Ing. habil. Güldner Prof. Dr.Ing. habil. Ng.Ph.Quang Prof. Dr.Ing. Hoffmann
22.12.2007 02.06.2008
ii
For my Parents
iv
Acknowledgements
The research work is a part of project”Lokale Innovative Energiesysteme  Local In novative Energy Systems  LIES”supported by the Deutsche Forschungsgemeinschaft  German Research Foundation at the Dresden University of Technology (TU Dresden).
First of all, I would like to express my sincerest appreciation and gratitude to my academic supervisor, Prof. Dr.Ing. habil. Henry Güldner, for his invaluable guidance, encouragement, and continued support during the course of this research work.
I would like to express my thanks to Prof. Dr.Ing. habil. Nguyen Phung Quang from Hanoi University of Technology for his suggestions and incessantly encouragement, and I want to express my gratitude to Prof. DrIng. Hoffmann from HelmutSchmidt Universität Hamburg for his supports and evaluations
I would like to thank Dr.Ing. Thomas Hanisch for his guidance on the beginning days of the work and his encouragement, opinions during carrying out this research. My thanks also go to Dr.Ing. Bernhard Siessegger from OSRAM Company for his supports and discussions during the time when I was at OSRAM for testing the ignition circuit. I am grateful to Dr. Igor Kartashev from EPCOS Company for his instructions and information about piezoelectric material.
I also wish to send my thanks to Mr. Yuan Mingbo from Konghong Company  China, Mr. Clement Chou from ELECERAM TECHNOLOGY Company for supplying the sample for my experiments and applications. Thanks also go to Dr. Vázquez Carazo Alfredo from FACE Company for his support.
My special thanks to all staffs and colleges especially Dr.Ing.habil Witte, Dr.Ing. Frank Benecke, DiplIng. Sven Wendt at Chair of Power Electronic, Faculty of Electrical Engineering and Informatics, Dresden University of Technology for their help in the past years.
vi
From the view point of language, this dissertation was read through and corrected by Mr. David Walker  Director of Training Center of Yokogawa Australia. I would like to express my thanks to him for his helps and supports.
Finally, I would like to send my deepest gratitude to my parents and my family for their love, support, incessantly encouragement and waiting hours from my distant home country  Vietnam.
M. Sc. Manh Cuong Do st Dresden, 05 , June, 2008