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Symposium Programme
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Workshops & Tutorials Program
| Workshop
1: |
Future Trends for Automotive EMC
Measurements: The Impact of eMobility
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Time:
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8:50am
- 11:20am, Monday, 21 May 2012 |
| Venue: |
Room
#2
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| Organizer: |
Wolfgang
Winter, EMV, Germany
Janet O'Neil, ETS-Lindgren, USA
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| Abstract: |
This
workshop brings together a number of automotive EMC experts to review
the increasingly complex automotive EMC measurement requirements, both
current and anticipated, for commercial and military vehicles, in a
simple and easy to understand manner.
eMobility
is becoming more common in our daily lives. The concept of energy
efficient, mobile communications is a reality today with the emergence
of hybrid and electric vehicles. In automotive EMC, this means a
greater emphasis on the vehicle’s electrical drive, battery,
power electronics, and communications systems.
This
workshop will explain how eMobility impacts traditional automotive EMC
measurements and prepares manufacturers, design and test engineers to
address these challenges with effective solutions.
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Workshop
Outline: |
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| W-AM-1.1 |
EMC Testing of Electric Vehicle
Power Sources
Wolfgang Winter, EMV, Germany
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| W-AM-1.2 |
Designing for Reliability of
Automotive Electronic Systems
Todd Hubing, Clemson University, USA
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| W-AM-1.3 |
Full Vehicle Testing for CISPR 12
and ISO 11451-2 (and equivalent) Automotive EMC Standards
Vince Rodriguez, ETS-Lindgren, USA
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Wolfgang Winter
(*1957 in Dortmund, Germany) received his Master Degree in Geophysics
1984 and his Ph.D. as Dr. rer. nat. at the Cologne University, Faculty
of Mathematics and Physics 1996. During his research work and
professional career he has been deeply involved in time domain
analysis, atmospheric modeling, optics for ultra fast data transmission
and RF instrumentation. He began his career in 1984 at Rohde &
Schwarz, Germany. In 1994, he was the Managing Director of a software
development centre in the UK for RF Test and Measurement
Instrumentation and later he was the Chairman or President of several
foreign subsidiaries. In January 2007, he was a Director for emv GmbH
in Taufkirchen, focusing on complex EMC projects, antenna measurement
systems and RF applications. Since March 2011, he holds the position as
a Managing Director at emscreen GmbH, a specialized company for
governmental RF shielding applications. He is an invited guest of the
VDE 767.3 "high frequency disturbances" committee and a member of the
editorial board of the Radioengineering Journal of the Czech and Slovak
Technical University and URSI Committees. His technical interests
include EMC projects, EMC receiver technology, antenna measurement
systems, and complex RF applications.
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Janet O’Neil
is a customer relations specialist with ETS-Lindgren. Her
responsibilities include coordination of the company’s
technical contributions to industry conferences worldwide. She has over
20 years experience in the RF Microwave and Electromagnetic
Compatibility (EMC) industries. She is a member of the Board of
Directors of the IEEE Electromagnetic Compatibility (EMC) Society as
well as of the Antenna Measurement Techniques Association (AMTA). She
is also a member of Subcommittee 1 (Techniques and Development) of ANSI
ASC C63®, was chair of the 2007 IEEE International Symposium on
EMC in Honolulu, Hawaii, vice-chair of the 2011 IEEE International
Symposium on EMC in Long Beach, California, and is the Publications
Chair for the IEEE International Microwave Symposium (IMS) 2013 in
Seattle, Washington.
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| Workshop
2: |
SI and EMC Design for High-speed
Differential Channels
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| Time: |
1:20pm
- 3:20pm, Monday, 21 May 2012
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| Venue: |
Room
#3
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| Organizer: |
Tzong-Lin
Wu, National Taiwan University, Taiwan
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Tzong-Lin Wu
received the B.S.E.E. and Ph.D. degrees from National Taiwan University
(NTU), Taipei, Taiwan, in 1991 and 1995, respectively.
From
1995 to 1996, he was a senior Engineer at the Microelectronics
Technology, Inc., Hsinchu, Taiwan. From 1996 to 1998, he joined the
Central Research Institute, Tatung Company, Taipei, Taiwan, where he
was involved with the analysis and measurement of EMC/EMI problems of
high-speed digital systems. From 1998 to 2005, he was with the
Electrical Engineering Department of National Sun Yat-Sen University.
He is currently a professor with the Department of Electrical
Engineering and Graduate Institute of Communication Engineering, NTU,
Taiwan. He was the visiting professor at the Electrical Engineering
Department of University of California at Los Angeles (UCLA) in the
summer of 2008. His research interests include EMC/EMI and signal/power
integrity design for high-speed digital/optical systems.
Dr.
Wu received Wu Ta-You Memorial Award from National Science Council
(NSC) in 2005, Technical Achievement Award from IEEE EMC Society in
2009, Outstanding Research Award from NSC in 2010, and IEEE
Transactions on Advanced Packaging Best Paper Award in 2010. Dr. Wu has
served as the Chair of the Taipei Section, Institute of Electronics,
Information and Communication Engineers (IEICE) from 2007 to 2011, and
the Treasurer of Taipei Section, IEEE from 2007 to 2008. He serves as
the Board of Directors (BoD) of IEEE Taipei Section from 2009 to 2010.
He is elected as a Distinguished Lecturer of IEEE EMC society for the
term of 2008 to 2009. Dr. Wu is the General Co-Chair in 2007, TPC Chair
in 2010 and 2012 for IEEE EDAPS Conference.
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| Abstract: |
The
data bandwidth of high speed differential channels in IC, package and
PCB are exceeding over 10 Gbps data rates to meet system data
bandwidths of mobile and server computers. Signal integrity and EMC
modeling and design for multiple Gbps differential channels are
becoming critical. This workshop will focus on three main topics:
SI/EMI modeling, equalizer design, and common-mode noise mitigation.
The fundamental concept and latest progress in this area will be
addressed.
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Workshop
Outline:
| W2.1 |
A Successive Approach for Simple
Models with Equivalent Sources bearing on both EMI and SI
Liuji R. Koga, Okayama University, Japan
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| W2.2 |
Equalizer Design for High-speed
Differential Channels
Joungho Kim, KAIST, South Korea
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| W2.3 |
Common-mode Noise Mitigation for
High-speed Differential Channels
Tzong-Lin Wu, National Taiwan University, Taiwan
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| Workshop
3: |
Use of the Reverberation Chamber
for Wireless Test and Calibration Applications Modeling
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| Time: |
9:00am
– 11:20am, Monday, 21 May 2012
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| Venue: |
Room
#4
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| Organizer: |
Perry
F. Wilson, USA
Y. Tang, Taiwan
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Perry F. Wilson
(S’78-M’82-SM’93-F’05) received
his Ph.D. in Electrical Engineering from the University of Colorado in
1983. He has been with the Electromagnetics Division at NIST in
Boulder, Colorado since 1999. Dr. Wilson’s research has
focused on the application of electromagnetic theory to problems in
electromagnetic compatibility and metrology. Dr. Wilson is a Fellow of
the IEEE, currently a member of the IEEE EMC Society Board of
Directors, of URSI Commission B, and of the US IEC TC77B TAG, a former
Editor-in-Chief of the IEEE EMC Transactions, and a recipient of the
IEEE EMC Transactions Best Paper Award in 2002 and the Technical
Achievement Award in 2010. |
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Yulung Tang received
his M.S. in Electrical Engineering from California Institute of
Technology in 2004. During his studies in school, he conducted research
work on the MMIC development for radio astronomy application, as well
as mmW point-to-point communication system. He joined TriQuint
Semiconductor in 2005 as design engineer, working on the MMIC
development for wireless communication system. Since 2008, he has been
with ETS-Lindgren and working on RF design of the anechoic chamber and
antenna measurement system. His interest of research is focused on RF
circuit and system design for radio astronomy, electromagnetic wave
measurement and medical applications. |
| Abstract: |
Rooted
in the simplicity of its hardware implementation and the elegance of
its statistical behavior, the reverberation chamber (RC) has been found
to be an effective test environment for a great diversity of
applications. Not only in EMC testing has the reverberation chamber
been widely utilized, but also in various wireless test and calibration
applications. Among the wireless test applications, Multiple Input,
Multiple Output (MIMO) is undoubtedly one of the major applications
that can make good use of RC test methodology due to MIMO’s
nature of multi-reflection coinciding with the RC’s core
concept. Another interesting application arises from the increasing
demand of in-flight wireless access; in such a spacious environment as
an airplane, the concept of frequency-stirred RC is implemented to
evaluate RF propagation in an aircraft cabin. In addition, using RC for
probe calibration and evaluation of antenna efficiency as well as Over
the Air (OTA) wireless measurements are also interesting applications.
This half day workshop will cover the most updated developments in
these applications.
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Workshop Outline:
| W3.1 |
Introduction to Reverberation Chamber Concept and its Application for Probe Calibration and Antenna Efficiency
Dennis Lewis, The Boeing Company, USA
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| W3.2 |
MIMO and Other Wireless Measurements in Reverberation Chambers at NIST
Perry Wilson, National Institute of Standards and Technology, USA
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| W3.3 |
Certification of Wireless Devices on Aircraft: Performance Evaluation Using Discrete Frequency Stir Technique
Kenneth Kirchoff, The Boeing Company, USA
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| W3.4 |
Over-The-Air Measurement with Reverberation Chambers
Yulung Tang, ETS-Lindgren, USA
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