2013 Asia-Pacific International Symposium and Exhibition on Electromagnetic Compatibility APEMC HANDBOOK MELBOURNE CRICKET GROUND Melbourne, Australia 20 – 23 May 2013 www.apemc2013.org Antenna Measurement Systems EMC Software & Test Systems RF Field Monitoring Systems RF & Microwave Amplifiers Microwave Absorbers Anechoic Chambers Shielded Enclosures An ESCO Technologies Company ENJOY MELBOURNE’S LANEWAY COFFEE CONTENTS WELCOME FROM THE SYMPOSIUM CHAIRMAN 4 SYMPOSIUM ORGANISING COMMITTEES 5 TECHNICAL PROGRAM AT A GLANCE 7 KEYNOTE SPEAKERS 8 SPONSORS AND HOSTS 10 EXHIBITION 12 EXHIBITION FLOOR PLAN 13 VENUE 14 GETTING TO THE MELBOURNE CRICKET GROUND 15 GENERAL INFORMATION 16 SYMPOSIUM ACCOMMODATION 18 SOCIAL PROGRAM 19 TECHNICAL PROGRAM 21 MONDAY 20 MAY 2013 21 TUESDAY 21 MAY 2013 22 WEDNESDAY 22 MAY 2013 24 THURSDAY 23 MAY 2013 26 WORKSHOPS AND TUTORIALS 29 OVERVIEW 29 WORKSHOPS 30 TUTORIALS 40 Symposium Organisers 119 Buckhurst Street South Melbourne VIC 3205 Australia T +61 3 9645 6311 F +61 3 9645 6322 E apemc2013@wsm.com.au www.apemc2013.org NEARBY WINERIES 4 APEMC 2013 20-23 MAY WELCOME FROM THE SYMPOSIUM CHAIRMAN MELBOURNE’S FEDERATION SQUARE It is my great pleasure to welcome you to the 2013 Asia-Pacific International Symposium and Exhibition on Electromagnetic Compatibility, Melbourne, Australia 20-23 May. My thanks go to all involved in making this event happening: the Technical Program Committee, reviewers, and all authors of technical papers, workshops and tutorials who put together a comprehensive program for the four days of the conference; and the members of the Organising Committee who took care of all the logistics. Symposia and conferences are an important communication tool for researchers, scientists and engineers to stay in touch with each other and with the wider community. The Asia-Pacific International Symposium and Exhibition on Electromagnetic Compatibility provides a platform for all interested in and affected by Electromagnetic Compatibility matters to meet, learn, and exchange ideas. The 2013 event is hosted by the EMC Society of Australia and Engineers Australia in Melbourne and continues the successful series of symposia that has been started in Singapore in 2006. EMC issues won’t go away any time soon; to the contrary, adverse electromagnetic effects are becoming ever more common place. A basic understanding of electromagnetic coupling and propagation effects, of filtering and shielding principles, of EMC related printed circuit board design rules, of testing and measurement procedures, and many other phenomena, is essential to build electronic products and design systems that not only work, but do so without interfering with anything else. EMC Symposia, including APEMC 2013 the one you are now attending, are ideal platforms to keep you updated. APEMC 2013 | www.apemc2013.org As in previous years, the 2013 APEMC Symposium targets a diverse audience of academics and industry representatives, of experienced EMC experts and new-comers to the field, of persons with a particular problem in mind, or anybody who just needs to know what is going on in the scene. The technical program includes oral and poster presentations of theoretical and practical nature, workshops, tutorials and a trade exhibition with vendor presentations. There will also be ample networking opportunities during the Welcome Reception, the Symposium Dinner, and during lunch and tea breaks. To make the most out of your attendance I encourage all delegates to an active participation. Ask questions after the presentations, engage with poster authors and with the vendors at the exhibition, and start discussions over a cup of coffee or tea. Have wonderful and fruitful four days of EMC in Melbourne. Franz Schlagenhaufer Symposium Chairman APEMC 2013 20-23 MAY 5 SYMPOSIUM ORGANISING COMMITTEE MELBOURNE CRICKET GROUND APEMC 2013 Organising Committee William Radasky, Paul Kay, Technical Secretary Program Chair Mark Mifsud, Exhibition Chair and IEEE EMC-S Liaison Gordana Klaric-Felic, Publications Paul Payne, Exhibition Co-Chair Chris Zombolas, Workshops/ Tutorials Mirerva Holmes, Kingsley McRae, Engineers Treasurer Australia Liaison APEMC 2013 | www.apemc2013.org Franz Christophe Schlagenhaufer, Fumeaux, Chairman Co-Chair 6 APEMC 2013 20-23 MAY APEMC SYMPOSIUM COMMITTEES APEMC Steering Committee Jinliang He, China Joungho Kim, Korea Peter Leung, Hong Kong Erping Li, Singapore Tzong-Lin Wu, Taiwan Franz Schlagenhaufer, Australia Jianqing Wang, Japan Mohamad Zara, Malaysia APEMC International Program Committee (cont.) Seungyoung Ahn, Korea Mark Montrose, USA Martin Alexander, United Kingdom Antonio Orlandi, Italy Luk Arnaut, United Kingdom Hideki Asai, Japan Yoshihiro Baba, Japan Sonia Ben Dhia, France Flavio Canavero, Italy APEMC Technical Committee Nico Ebbendorf, Netherlands Yoshihiro Baba, Japan Jun Fan, USA Christophe Fumeaux, Australia Christophe Fumeaux, Australia Jinliang He, China Heyno Garbe, Germany Elya Joffe, Israel Jan Geratt Bij De Vaate, Netherlands Ken Kawamata, Japan Paul Kay, Australia Jiseong Kim, Korea Frank Leferink, Netherlands Peter Leung, Hong Kong Erping Li, Singapore Enxiao Liu, Singapore Junwei Lu, Australia Mark Montrose, USA Sergio Pignari, Italy William Radasky, USA Laurent Sauvage, France Franz Schlagenhaufer, Australia APEMC 2013 | www.apemc2013.org APEMC International Program Committee Jianqing Wang, Japan Xing Chang Wei, China Perry Wilson, USA A. Ege Engin, USA Jinliang He, China Todd Hubing, USA Elya Joffe, Israel Sungtek Kahng, Korea Thomas Kaufmann, Australia Ken Kawamata, Japan Paul Kay, Australia Jiseong Kim, Korea Joungho Kim, Korea Hans Georg Krauthauser, Germany Hyun Ho Park, Korea Sergio Pignari, Italy Farhad Rachidi, Switzerland Bill Radasky, USA Howard Reader, South Africa Vesna Roje, Croatia Laurent Sauvage, France Franz Schlagenhaufer, Australia Christian Schuster, Germany Andrew Seagar, Australia Lihua Shi, China Naoki Shinohara, Japan Madhavan Swaminathan, USA George Teunisse, Netherlands David Thomas, United Kingdom Thomas Ussmueller, Germany Marcel Van Doorn, Netherlands Jianqing Wang, Japan Xing Chang Wei, China Robert Weigel, Germany Carol Wilson, Australia Perry Wilson, USA Tzong-Lin Wu, Taiwan Frank Leferink, Netherlands Yan-Zhao Xie, China Peter Leung, Hong Kong Boyuan Zhu, Australia Erping Li, Singapore Jianfang Zhu, USA Enxiao Liu, Singapore Jianmin Lu, China Junwei Lu, Australia Francesca Maradei, Italy APEMC 2013 20-23 MAY 7 TECHNICAL PROGRAM AT A GLANCE MONDAY 20 MAY 2013 09:00 – 12:40 Tea Break 10:40 – 11:00 Jim Stynes B Tea Break 15:40 – 16:00 Olympic Room B T2: Designing for EMCFundamentals Related to Printed Circuit Boards T1: EMC Metrology and Computation T3: System Design for EMC Fundamental Requirements 12:40 – 14:00 14:00 – 17:40 Jim Stynes A WS1: Understanding Measurement Uncertainty T4: EMC for Engineers: Theory and Practice T5: Near field Scanning techniques for the characterization of emissions from PCBs Tour of Melbourne Cricket Ground 19:00 – 21:00 Welcome Reception, Melbourne Cricket Ground 09:00 – 10:40 PLENARY SESSION (Members’ Dining Room) TUESDAY 21 MAY 2013 10:40 – 11:00 WS3: Recent Advances and Applications of Aerospace Antennas Tea Break TC11: System Level EMC 12:40 – 14:00 14:00 – 15:40 WS2: Aerospace EMC in Europe Lunch Break 18:00 – 19:00 11:00 – 12:40 Olympic Room A TC5-1: Measurements Test Site & Antennas TC1-1: Computation TC7-1: HPEM Lunch Break WEDNESDAY 22 MAY 2013 WS4: EMC Regulations TC5-2: Measurements Radiated Measurements 16:00 – 18:05 WS5: Metamaterials, Periodic Structures and EBG in EMC/Antenna/RF Designs TC14: Wireless Power Transfer TC12: EM Information Leakage TC6: Lightning 09:00 – 10:40 T6-1: Solving EMC problems using state of the art numerical techniques TC5-3: Measurements Conducted Measurement TC2: Signal Integrity TC13: Wireless Communications 15:40 – 16:00 Tea Break T6-2: Solving EMC problems using state of the art numerical techniques TC5-4: Measurements – Standards TC3: Power Integrity 12:40 – 14:00 Lunch Break 14:00 – 15:40 POSTER SESSION (Olympic Lounge, Level 3) 15:40 – 16:00 Tea Break 16:00 – 17:40 19:00 – 23:00 09:00 – 10:40 T7: Using Reverberation Chambers for Actual EMC Tests TC18-1: Radio Astronomy T8-1: High-speed PCB design TC18-2: Radio Astronomy THURSDAY 23 MAY 2013 TC8: ESD TC16: Aerospace EMC TC10: Protection TC15: Transportation T8-2: High-speed PCB design TC18-3: Radio Astronomy WS6-1: EMC Test methods for Wireless Communication WS7-1: Power and Signal Integrity Co-Design for High-speed Circuits WS6-2: EMC Test methods for Wireless Communication WS7-2: Power and Signal Integrity Co-Design for High-speed Circuits WS8-2: HPEM Protection of Commercial Facilities TC: Technical Sessions WS: Workshops T: Tutorial Lunch Break 15:40 – 16:00 16:00 – 17:30 TC9: Power Systems Tea Break 12:40 – 14:00 13:20 – 15:40 TC4: Semiconductor TC19/20: Biomedical/EMF Symposium Dinner and Award Presentations, Zinc at Federation Square, Melbourne 10:40 – 11:00 11:00 – 12:40 TC7-2: HPEM Tea Break 10:40 – 11:00 11:00 – 12:40 TC1-2: Computation EMC Modeling WS8-1: HPEM Protection of Commercial Facilities Tea Break APEMC 2013 | www.apemc2013.org Date Time 8 APEMC 2013 20-23 MAY KEYNOTE SPEAKERS Dr Erping Li Principal Scientist and Director of the Electromagnetics and Photonics at A*STAR-IHPC, Singapore APEMC 2013 | www.apemc2013.org ABSTRACT: Dr Erping Li is currently the Principal Scientist and Director of the Electromagnetics and Photonics at A*STARIHPC, Singapore. He received his PhD in computational electromagnetics from Sheffield, UK in 1992. Dr Li is a Fellow of IEEE, and a Fellow of Electromagnetics Academy, USA. He was the recipient of number of international awards including IEEE EMC Technical Achievement Award, Singapore IES Prestigious Engineering Achievement Award, and named Changjiang Chair Professorship, several Best Paper Awards. He is an elected IEEE EMC Distinguished Lecturer for 2007 to 2008. He served as an Associate Editor for the IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS FROM 2006-2008, Guest Editor for 2006 and 2010 IEEE Trans EMC special issues of EMC,SI/PI of printed circuits boards, Guest Editor for IEEE Trans on MTT-special issue-2009 APMC. He is currently as an Associate Editor to IEEE TRANSACTIONS ON EMC and IEEE TRASACTIONS on CPMT. He has been a General Chair and Technical Chair for many international conferences. He was the President for the International Zurich Symposium on EMC held in 2006, the Founding General Chair for the 2008 &2010 Asia-Pacific EMC Symposium, General Chair for 2010 IEEE EDAPS. He authored and co-authored over 200 papers and authored one book and 5 Book Chapters. He has delivered over 80 invited and keynote speeches at international conferences and forums. Advances of EMC in Semiconductor Devices Rapid growth and convergence of digital computing and wireless communication have been driving the semiconductor technology in today’s nanometer regime to continue its evolution following the scaling law, i.e., Moore’s law at the semiconductor transistor device and on-chip level, and “More than Moore” at the intra-chip interconnect and packaging level. The through-silicon via (TSV) technology, which is explored by many researchers for threedimensional (3D) integration, represents such a latest example of scaling. It has the potential benefits of improving the electrical performance including speed, bandwidth and functionality, and reducing power consumption by shortening the interconnection path in the 3D ICs. However, the development of nano-scaled integrated circuits and 3D integration faces several challenges in terms of electrical performance, such as the electromagnetic compatibility (EMC) between circuits, signal integrity (SI) and power integrity (PI) in electronic integration are of vital importance. In addition, the material property on electromagnetic performance, aging effects, thermal-electrical coupling. This presentation will cover the advances and challenges of EMC modeling, measurement, design in semiconductor integrated circuits and the system package integration. APEMC 2013 20-23 MAY 9 KEYNOTE SPEAKERS Professor Peter Quinn West Australian Scientist of the Year 2012 Professor Peter Quinn is the Director of the International Centre for Radio Astronomy Research (ICRAR) and Winthrop Professor of Astronomy and Astrophysics at the University of Western Australia. Professor Quinn was born in Australia and received his BSc (Hons) in Mathematics and Physics from the University of Wollongong in 1978. He conducted graduate studies in astronomy and astrophysics at the Australian National University and received his PhD in 1982. Professor Quinn is a world leader in data intensive science, the design, development and operation of super-science facilities, the theory of galaxy formation and the search for Dark Matter. His scientific career covers 30 years of research in Australia, the US, Europe and South America and has produced more than 300 publications and articles which have received broad international recognition and acclaim. His work on computational astrophysics was awarded a NASA High Performance Grand Challenge Award in 1992 and in 2005 he was awarded the Computerworld 21st Century Achievement Award for his work at the ESO Very Large Telescope (VLT), the world’s largest optical and infrared observatory. The SKA: A New Era in Radio Astronomy Mankind’s understanding of Nature is now at a point of crisis. More than 95% of the Universe we live in is composed of mysterious stuff – matter that is hidden from the view of our telescopes and a form of energy that is tearing the Universe apart. Our two most successful theories of Nature – the theory of atoms and the theory of Gravity – cannot together describe the Big Bang which formed the Universe 13.7 billion year ago. We need a new idea, a new concept that will provide us with a consistent picture of the evolution of our Universe and its contents. New ideas flow from discoveries. Our ability to explore, and map and make discoveries within our Universe is about to be exploded by more than a factor of 10,000. The Square Kilometre Array (SKA) radio telescope will revolutionize our view of the Universe. It will push the boundaries of our knowledge back in time to the formation of the first stars and galaxies. It will also push the boundaries of our technology and will provide new industrial, educational, scientific and technological opportunities in the 21st century. APEMC 2013 | www.apemc2013.org ABSTRACT: Professor Quinn has held positions at the California Institute of Technology (1982-1985), Space Telescope Science Institute (1985-1989), Australian National University (1989-2006) and the European Southern Observatory (ESO) in Munich. Professor Quinn took up the position of Winthrop Professor of Astronomy at the University of Western Australia in August 2006 and was awarded a Western Australian Premier’s Fellowship. Between 2006 and 2012, Professor Quinn worked with the Australian Federal Government and the West Australian State Government to support and coordinate Australia’s involvement in the $2 billion Square Kilometre Array project which will be build in Australia and Southern Africa starting in 2016. He was appointed the Director of ICRAR in 2008 and was named as Western Australian Scientist of the Year in 2012. 10 APEMC 2013 20-23 MAY SPONSORS AND HOSTS The Symposium gratefully acknowledges the support from its sponsors and hosts. Gold Sponsor Name Badge and Lanyard Sponsor Proudly hosted by Antenna Measurement Systems EMC Software & Test Systems APEMC 2013 | www.apemc2013.org RF Field Monitoring Systems RF & Microwave Amplifiers Microwave Absorbers Anechoic Chambers Shielded Enclosures An ESCO Technologies Company www.emtest.com The World Wide Leader in Conducted EMC! 13 EMC 20 P A : t a Visit us y 2013 a 20-23 M rne, Australia , nd ou in Melb e Cricket Grou rn Melbou Booth 5 Transient & RF Power Quality ESD Automotive CI Conducted Immunity IEC 61004-4,-5,-8,-9,-11,-29 IEC 61004-6 Harmonics & Flicker Interharmonics Measure/Generate Powered to 30 kV Battery Modular R-C Generate/Measure All Standards Pioneering Electric/Hybrid Vehicle Compliance Testing Expanding and Enhancing EM TEST User Experience: > Surpassing Best in class performance, quality and know-how. Broadest product range. 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(Pty) – FEKO Booth 4 ETS-Lindgren Booth 17 Faraday Pty Ltd Booth 3 IEEE EMC Society Booth 18 LEAP Australia Pty Ltd Booth 15 Rohde & Schwarz (Australia) Booths 11 and 12 Safety & EMC Magazine Booth 19 Test & Measurement (Australia) Booth 1 Westek Electronics Pty Ltd Booth 20 Würth Elekronik eiSos GmbH & Co Booth 8 APEMC 2013 20-23 MAY 13 EXHIBITION FLOOR PLAN 18 19 SPEAKER PREP 20 REG 9 N ATIO ISTR 1 8 2 5 4 3 6 7 10 17 11 16 15 14 13 APEMC 2013 | www.apemc2013.org 12 14 APEMC 2013 20-23 MAY VENUE MELBOURNE CRICKET GROUND (MCG) The Symposium takes place at the Melbourne Cricket Ground (MCG) and will be held in the following rooms: The Registration and Information Desk and the Symposium Exhibition will be held in the Betty Cuthbert Lounge and Olympic Atrium located on Level 2 of the Olympic Stand. The Plenary and Parallel Technical sessions take place on the same level in the Members Dining Room, Olympic Rooms A and B and Jim Stynes Rooms A and B. The Poster Session will take place in the Olympic Lounge on Level 3. APEMC 2013 | www.apemc2013.org apemc2013.org rg g The appropriate entry for delegates is Enter the Melbourne Cricket Ground through Gate 3 near light tower 1. Take the lift/escalator to Level 2. Members Dining Room Olympic Atrium Olympic Rooms A and B Betty Cuthbert Lounge Jim Stynes Rooms A and B APEMC 2013 20-23 MAY 15 MELBOURNE’S ARTS CENTRE GETTING TO THE MELBOURNE CRICKET GROUND Tram/Train/Bus Ticketing System – MYKI Bus to the Melbourne Cricket Ground myki is the smart card ticketing system that has replaced the Metcard in metropolitan Melbourne and paper tickets on buses in selected regional towns. It is an integrated system that works on trains, trams and buses. Tickets can no longer be purchased on board. The bus route 246 is run by National Bus Company, which links La Trobe University with Elsternwick Station and is a useful service for patrons from the northern and southern suburbs. The 246 stops on Punt Road, just a short distance to the Melbourne Cricket Ground. You may purchase a ticket online in advance http://www.myki.com.au/ or for interstate and international guests, a myki visitor pack can be purchased from the PTV Hub at Southern Cross Station, the Melbourne Visitor Centre at Federation Square and the SkyBus terminals at Melbourne Airport and Southern Cross Station. For more information http://www.myki.com.au/ About-myki/myki-visitor-pack You are able to top up myki cards online or at a number of retail outlets displaying the myki sign including all Seven Eleven convenience stores. Walking to the Melbourne Cricket Ground The Melbourne Cricket Ground is a pleasant 15 minute walk from the city. Onsite Parking Facilities Patrons heading to the Olympic Stand should enter via Entrance A off Brunton Avenue. Please park near lifts 9,10,11 and proceed to Level 2. The Symposium has a limited amount of parking available, this will allocated on a case by case basis. Both the No. 75 (City-Vermont South) and No. 48 (City-North Balwyn) stop just outside the Melbourne Cricket Ground. The No. 70 (City-Wattle Park) detour from Flinders Street along Swan Street and it is a short walk across the footbridge to the Melbourne Cricket Ground. Train to the Melbourne Cricket Ground Jolimont station is north of the Melbourne Cricket Ground. From any railway station in the central business district, take the Hurstbridge or Epping lines. Richmond station is on the south eastern side of the Melbourne Cricket Ground. To get to Richmond station from the city, take any train on the Lilydale, Belgrave, Alamein, Glen Waverley, Dandenong, Pakenham, Cranbourne, Frankston or Sandringham lines. Exit the station, cross Punt Road and walk towards the Melbourne Cricket Ground along Brunton Avenue. Melbourne Tullamarine Airport is located approximately 24 kilometres from the Melbourne Cricket Ground. SkyBus Airport Shuttle provides a regular service to and from the airport to the city with a transfer time of 25 minutes. The current cost for a one way transfer is $16 per adult or $26 return. SkyBus pick up from most major city hotels and Southern Cross Station Bus Interchange (Spencer Street). SkyBus can be contacted on +61 3 9335 2811 or you can book online up to three months in advance at www.skybus.com.au. Alternatively, a taxi from Melbourne Cricket Ground to the Airport will cost approximately $60 to $70. APEMC 2013 | www.apemc2013.org Transport to Melbourne Tullamarine Airport Tram to the Melbourne Cricket Ground 16 APEMC 2013 20-23 MAY GENERAL INFORMATION ATM Facilities Insurance The closest ATM facilities (cash machines) are located at the external concourse outside Gate 3 and on Level 1, outside the Paddock Café. Delegates are strongly advised to secure appropriate travel and health insurance. Delegate registration fees do not provide any such insurance coverage. The Symposium Organising Committee and the Symposium Office accept no responsibility for any loss in this regard. Catering Morning, afternoon tea and lunch will be served in the Symposium Exhibition located in the Betty Cuthbert Lounge and Olympic Atrium. Climate With May being the third month of autumn, it is a cooler month. A full range of weather may be experienced within a few days, from warm, calm and sunny to cold, windy and showery. There are several cloudy to overcast days – so it is advisable to dress for “four seasons in one day”! Temperatures generally range between 15-25 degrees Celsius or 60-77 degrees Fahrenheit. For more information please visit www.bom.gov.au. Credit Cards MasterCard, Visa and AMEX will be accepted at the Symposium Registration and Information Desk. Most hotels, large restaurants and shops will accept international credit cards, the most widely recognised being American Express, Diners Club, MasterCard and Visa. APEMC 2013 | www.apemc2013.org Disclaimer The Asia Pacific Electromagnetic Compatibility Symposium including the Symposium Organisers, will not accept liability for the damages of any nature sustained by participants or their accompanying persons for loss or damage to their personal property as a result of Symposium and Exhibition or related events. All details contained in this handbook are correct at the time of printing. Dress Code Smart casual clothes are suitable for the Symposium sessions and Welcome Reception. The dress code for the Symposium Dinner is Lounge Suit. Internet Access The Melbourne Cricket Ground has free WIFI named MCG Hotspot. The MCG Hotspot is limited to certain areas of the ground and the internet speed may vary depending on the number of users. How to Log on to MCG Hotspot: > Enable WIFI on your device > Select MCG Hotspot on the WIFI networks > You will then be connected Language The official language of the Symposium is English. Name Badges Your name badge is your entry to all sessions, the exhibition, inclusive social functions as well as morning and afternoon teas and lunch (all served in the exhibition area). Please wear your name badge at all times. Swapping the Symposium lanyard with your own lanyard is not permitted. Tickets are required for admission to the Symposium Dinner and will be issued with your name badge. People with Special Needs Every effort will be made to ensure that delegates with special needs are catered for. However, any special requirements advised onsite at the Symposium, without prior notice, cannot be guaranteed. APEMC 2013 20-23 MAY 17 GENERAL INFORMATION Registration and Information Desk Special Dietary Requirements The Registration and Information Desk is located in the Betty Cuthbert Lounge and Olympic Atrium located on Level 2 of the Olympic Stand at the Melbourne Cricket Ground and will be open during the following times: Every effort has been made to cater for all delegates who have specified special dietary requests at the time of registering. Please make yourself known to a venue staff member at catering times and functions in order to obtain your meal. Vegetarians will be catered for on the buffet during lunches. If you did not provide this information at the time of registering, please advise the staff at the registration and information desk immediately. Monday 20 May 2013 0830 – 1740 hrs Tuesday 21 May 2013 0830 – 1805 hrs Wednesday 22 May 2013 0830 – 1800 hrs Thursday 23 May 2013 0830 – 1740 hrs Smoking Policy Smoking is prohibited in all areas except within the designated smoking zones. USB of Proceedings The USB of Proceedings will be distributed from the Registration and Information Desk. Time Zone Melbourne in May operates on Australian Eastern Standard Time. Speaker Preparation Room Speakers will be able to review and load their presentations in the Speaker Preparation Room located in the Olympic Atrium side of the Exhibition area at the following times: 0830 – 1740 hrs Tuesday 21 May 2013 0830 – 1805 hrs Wednesday 22 May 2013 0830 – 1800 hrs Thursday 23 May 2013 0830 – 1400 hrs MELBOURNE’S CROWN CASINO MELBOURNE AT NIGHT APEMC 2013 | www.apemc2013.org Monday 20 May 2013 18 APEMC 2013 20-23 MAY SYMPOSIUM ACCOMMODATION Mercure Melbourne Treasury Gardens 13 Spring Street Melbourne, VIC 3000 Mantra on Jolimont Quest Jolimont Hilton on the Park Melbourne 133 Jolimont Road East Melbourne, VIC 3002 153 – 155 Wellington Parade South East Melbourne, VIC 3002 192 Wellington Parade East Melbourne, VIC 3002 T +61 3 9668 1200 T +61 3 9419 2000 (Approximately a 8 minute walk to the Melbourne Cricket Ground) (Approximately a 9 minute walk to the Melbourne Cricket Ground) T +61 3 9940 2100 T +61 3 9205 9999 (Approximately a 15 minute walk to the Melbourne Cricket Ground) (Approximately a 6 minute walk to the Melbourne Cricket Ground) ING SPR EET STR TREASURY GARDENS FITZROY GARDENS WELLING TON PAR A DE WELLING TON PAR A ROAD DE JOLIMONT JOLIMONT STATION FEDERATION SQUARE GATE 3 PRINCES WALK JO LI MO NT MCG RO AD BR UN A RR YA TO N AV E MELBOURNE CRICKET GROUND BRUNTON AVE, EAST MELBOURNE YARRA PARK ER V RI APEMC 2013 | www.apemc2013.org BIRRARUNG BARR PARK RICHMOND STATION APEMC 2013 20-23 MAY Monday 20 May 2013 1800 – 1900 hrs (prior to the Welcome Reception) Meeting Point Symposium Registration and Information Desk, Betty Cuthbert Lounge and Olympic Atrium, Melbourne Cricket Ground. Dress Smart Casual Inclusive with all Full and Student Symposium Registrations, attendance should have been booked during the Registration process. Directions Enter the Melbourne Cricket Ground through Gate 3 near light tower 1. Take the lift/escalator to Level 2. Tour Guides will offer delegates stories and insights into the rich history and cultural significance of the Melbourne Cricket Ground. The Tour highlights include visiting the famous Long Room, player change rooms and taking a walk on the arena’s boundary. SOCIAL PROGRAM MELBOURNE CRICKET GROUND TOUR 19 WELCOME RECEPTION Monday 20 May 2013 1900 – 2100 hrs Venue Sympoisum Exhibition, Betty Cuthbert Lounge and Olympic Atrium, Melbourne Cricket Ground Dress ENJOY MELBOURNE’S LANEWAY COFFEE Smart Casual Inclusive for all Student and Full Symposium registrations. Additional Tickets $88 (subject to availability). Tickets can be purchased from the Symposium Registration and Information Desk. Directions Enter the Melbourne Cricket Ground through Gate 3 near light tower 1. Take the lift/escalator to Level 2. Enjoy a selection of canapés and drinks as you mingle throughout the exhibition. It is a great opportunity to catch up with old friends and make new acquaintances. SYMPOSIUM DINNER AND AWARDS PRESENTATION Wednesday 22 May 2013 1900 – 2300 hrs Venue ZINC at Federation Square – Located on the riverfront side of Federation Square, Melbourne CBD Dress Lounge Suit Directions By Car – Enter Federation Square via the Russell Street extension turning into the car park. Proceed to the lifts and take the lifts to the end of car park. Take the stairs to the ZINC entrance at river level. Drop off – Proceed to the end of the Russell Street extension. Take the stairs on the right down to the ZINC entrance at the river level. On foot – From the main plaza head towards the BMW Edge at the end of the atrium. Proceed through the sliding doors and down the stairs to ZINC. From the Prince’s Bridge head down to the Yarra River along the river until you reach ZINC. APEMC 2013 | www.apemc2013.org The Symposium Dinner is included with Full Symposium Registration Packages A and B. However, tickets should have been booked during the registration process. If you are no longer able to attend the Symposium Dinner please return your ticket to the Registration and Information Desk to assist with catering numbers. UTD U OUR DOMAIN: HYBRIDISATION PO/GO Electrical Size MLFMM MoM (since 1991) MoM/PO (since 1992) MoM/UTD (since 1994) MLFMM (since 2004) MoM/FEM (since 2005) MoM/RL-GO (since 2007) FEM/MLFMM (since 2010) MOM F FEM Complexity of Materials One Product. Multiple Solvers. FEKO includes several computational methods, each optimised for different problem types. Due to a long history of hybridising different techniques, FEKO has been at the forefront of the efficient analysis of complex, low and high frequency problems. The Method of Moments, Finite Element Method, Multilevel Fast Multipole Method, Uniform Theory of Diffraction, Physical Optics and Ray-Launching Geometrical Optics are all available in the standard package. Additional Applications: Antenna Design, Antenna Placement, Waveguide, RF Components, Microstrip Circuits, EMC, Cable Coupling, Radomes, RCS, Bio-EM. www.feko.info Global sales and technical support network: Local distributors in Europe, North America, South America, Japan, China, South Korea, Singapore, India, Israel, Taiwan, South Africa 21 APEMC TECHNICAL PROGRAM TECHNICAL PROGRAM MONDAY 20 MAY 2013 Time Jim Stynes B 09:00 – 12:40 Understanding Measurement Uncertainty Tea Break 10:40-11:00 (Organizer: Janet O’Neil, ETS-Lindgren, USA) Jim Stynes A Olympic Room B Olympic Room A Designing for EMC – Fundamentals for Printed Circuit Boards and Systems EMC for Engineers: Theory and Practice Aerospace EMC in Europe (Christos Christopoulos, University of Nottingham, UK) (Filippo Marliani, ESA-ESTEC, The Netherlands) (Mark Montrose, Montrose Compliance Services, Inc, USA) 12:40 – 14:00 Lunch Break 14:00 – 17:40 EMC Metrology and Computation Tea Break 15:40 - 16:00 (Howard Reader, University of Stellenbosch, South Africa) System Design for EMC Fundamental Requirements Near field Scanning techniques for the characterization of emissions from PCBs Recent Advances and Applications of Aerospace Antennas (Mark Montrose, Montrose Compliance Services, Inc, USA) (Christos Christopoulos, University of Nottingham, UK) (Organizer: Janet O’Neil, ETS-Lindgren, USA) TECHNICAL PROGRAM 22 TUESDAY MORNING, 21 MAY 2013 Time Members Dining Room 09:00 – 10:40 Plenary Session Welcome Advances of EMC in Semiconductor Devices Erping Li, Principal Scientist and Director of the Electromagnetics and Photonics at A*STAR-IHPC, Singapore Professor at Zhejiang University, China The SKA: A New Era in Radio Astronomy Peter Quinn, Director of the International Centre for Radio Astronomy Research (ICRAR) and Winthrop Professor of Astronomy and Astrophysics at the University of Western Australia 10:40 – 11:00 Time Tea Break Jim Stynes B Jim Stynes A Olympic Room B Olympic Room A TC1-1: Computation CEM Chairs: En-Xiao Liu, Hyun Ho Park TC5-1: Measurements – Test Site and Antennas Chairs: Thomas Kaufmann TC7-1: High Power Electromagnetics HPEM The University of Suwon, Korea, Republic of Chairs: Vince Rodriguez University of Adelaide, Australia Chairs: William Radasky 11:00 – 12:40 TC11: System Level EMC 11:00 – 11:25 Numerical Shielding Evaluation of Cliptype Shield Can in Mobile Phones (ETS-Lindgren, USA) Metatech Corporation , USA Issues on Calibration of Direct Feed Contour Integral Equation and Vector Biconical Antenna In a Semi-Anechoic Fitting Based Adaptive Frequency Chamber Using Standard Antenna Method Sampling for Fast Wide-Band Analysis of Power Ground Plane Pair Syarfa Zahirah Sapuan, Alireza Kazemipour, Analytical Approach for the Prediction of EMP Coupling to Multiconductor Transmission Lines Hyun Ho Park, The University of Suwon, Korea, Republic of; Dong Min Lee, Yong Sang Park , Keun Young Choi, Samsung Electronics, Korea, Mohd Zarar Mohd Jenu, Universiti Tun Hussein Republic of Onn, Malaysia 11:25 – 11:50 EMC Engineering of Military Systems using Off-The-Shelf Products - Hobart Class Air Warfare Destroyer Greg Gallagher, Raytheon Australia Pty Ltd, Australia 11:50 – 12:15 A study of main contributors to the Outof-Band performance of a generic wire antenna Vivian Jun Xian Lim, NTU , Singapore; Wai Loon Alen Ke, ST Electronics , Singapore; Eng Leong Tan, NTU, Singapore; Ee Lee, Singapore Electronics, Singapore 12:40 – 14:00 Yan-zhao Xie, Jun Guo, Xi’an Jiaotong University, China Calibration of Calculable Wideband Direct Feed Biconical Antenna for EMC Measurements Modeling Absorbing Materials in Cavities with Apertures Using the Thin Sheet Approximation Syarfa Zahirah Sapuan, Alireza Kazemipour, Mohd Zarar Mohd Jenu, Universiti Tun Hussein Onn, Malaysia Alexander Vogt, Heinz-Dietrich Brüns, Christian Schuster, Helge Fielitz, Technische Universität Hamburg-Harburg, Germany Measurement Uncertainties for Biconical Antenna Calibrations using Standard Site Method Simulation and Analysis of an Axial Vircator using PIC Code A z-Domain SPICE Model for Surface Transfer Impedance Moitreyee Maiti, IBM India Pvt. Ltd. , India; Deepak Tiwari, Veermata Jijabai Technological Institute , India; Amitava Roy, APPD, Bhabha Atomic Research Center , India; Navdeep Singh, Sushama Wagh, Veermata Jijabai Technological Institute, India Lihua Shi, Qi Zhang, Xiang Zhang, Nanjing Engineering Institute, China Acceleration of the Two-Dimensional Shunt-Node TLM Method Using C++AMP High Electromagnetic Pulse Environment Measurement Technology in Pulse Power Research Zhong Chen, ETS-Lindgren, USA 12:15 – 12:40 Design of Complex Naval Installations and A Method to Evaluate Radiated Emission the Limitations of Equipment Standards Test Sites above 1 GHz using Propagation Loss of Different Polarization B. J. A. M. van Leersum, University of Twente, Netherlands; C. C. J. van der Ven, Imtech Marine Netherlands B.V., Netherlands; J. G. Bergsma, Thales Nederland B.V. , Netherlands; F. B. J. Leferink, University of Twente, Netherlands Huapeng Zhao, En-Xiao Liu, Er-Ping Li, A*STAR Institute of High Performance Computing, Singapore Atsuya Maeda, VCCI Council , Japan; Shuichi Kobayashi, Voluntary EMC Laboratory Accreditation Center Inc., Japan; Katsuyuki Tanakajima, Intertek Japan K.K. , Japan; Takayoshi Suda, Industrial Research Institute of Niigata Prefecture, Japan; Hidenori Muramatsu, VCCI Council, Japan Poman So, Wolfgang Hoefer, University of Victoria, Canada Lunch Electromagnetic Attenuation Through Various Types of Buildings Dave Giri, PRO-TECH , USA; Fred Tesche, USA Zhaojie Tan, Rongmei Chen, Cui Meng, Tsinghua University, China TECHNICAL PROGRAM 23 TUESDAY AFTERNOON, 21 MAY 2013 Time Jim Stynes B 14:00 – 15:40 WORKSHOPS 14:00 – 14:25 Jim Stynes A Olympic Room B Olympic Room A TC5-2: Measurements – Radiated TC1-2: Computation EMC Modelling Chairs: Luk Arnaut Chairs: Huapeng Zhao (A*STAR Institute of High Performance Computing, Singapore), Christophe Fumeaux (University of Adelaide, Australia) TC7-2: High Power Electromagnetics HPEM George Green Institute of Electromagnetics Research, UK Figure of Merit for Determining the Usable A Dual Linearly Polarized Super-Open Test Volume of the GTEM Cell Quad-Ridged Horn Antenna for Quick Emission Measurements in the L to Ku David Pouhè, Reutlingen University of Applied Bands Sciences, Germany; Olaf Sandstede, Gerhard 14:25 – 14:50 EMC Regulations (Chris Zombolas, EMC Technologies, Australia) 14:50 – 15:15 15:15 – 15:40 Radiative EMI Measurement Method Applied in GTEM Based on Noise Source Characteristics Numerical Analysis of the Unwanted Influence of a Probe Fixture on Transient Electromagnetic Field Analysis of IEMI Induced Distortion on Wireless Digital Data Transmission Links Radiated Emissions Estimation of an Integrated Circuit Based on Measurements in GTEM Cell Time-Domain versus Frequency-Domain Computation of Spatial Correlation Functions for Near-Field Measurements Assessment of Immunity of the Passive High Frequency RFID Transponder to Pulsed Magnetic Field King Lee Chua, Mohd Zarar Mohd Jenu, Universiti Tun Hussein Onn, Malaysia ; Man On Wong, See Hour Ying, Altera Corporation (M) Sdn. Bhd., Malaysia Luk Arnaut, George Green Institute of Electromagnetics Research, UK Yury Parfenov, IHED , Russian Federation; William Radasky, Metatech Corporation , USA: Boris Titov, Leonid Zhoukhov, IHED , Russian Federation Yuhuan Zhang, Yong Liu, Huan Xia, Wei Yan, Yang Zhao, Electrical Equipment EMC Lab of Jiangsu Province (Nanjing Normal University), China Marcin Mleczko, David Hamann, Heyno Garbe, Li-jun Yao, Tao Shen, Ning Kang, Jianling, Leibniz Universität Hannover, Germany Huang, Beijing Institute of Radio Metrology and Measurement, China Effect of a Metallic Object on the Quality Factor of a Reverberation Chamber Application of IEC SC 77C Standards for the Protection of the Critical Infrastructures William Radasky, Metatech Corporation , USA Tea Break 16:00 – 18:05 16:00 – 16:25 TC14: Wireless Power Transfer TC12: EM Information Leakage TC6: Lightning Chairs: Jiseong Kim (Korea Advanced Institute of Science and Technology , Korea, Republic of ) Naoki Shinohara (Research Institute for Sustainable humanosphere, Kyoto University, Japan) Chairs: Laurent Sauvage Chairs: Yoshihiro Baba Telecom ParisTech, France Doshisha University, Japan EMF Safety of Magnetic–Resonance Wireless Power Transfer System at 128 kHz Introduction to recent researches on EM information leakage Soil Ionization Phenomenon around Grounding Electrode under Lightning Impulse Yoon-Myoung Gimm, Dankook University , Korea, Republic of; Young-Jun Ju, Yu-Ri Lee, EMF Safety Inc. , Korea, Republic of; Geun-Wu Gimm, Seoul National University, Korea, Republic of 16:25 – 16:50 Coil design and manufacture of in vitro exposure system for wireless power transfer using resonant coupling phenomenon Metamaterials, Periodic Structures and EBG in EMC/Antenna/RF Designs (Sungtek Kahng, University of Incheon, Korea, Republic of) Kohei Mizuno, Junji Miyakoshi, Naoki Shinohara, Research Institute for Sustainable humanosphere, Kyoto University, Japan Optimization Procedure of Complex Permeability for a Wireless Power Transfer System Yu-ichi Hayashi, Naofumi Homma, Takaaki Mizuki, Takafumi Aoki, Hideaki Sone, Tohoku University, Japan; Laurent Sauvage, Jean-Luc Danger, Telecom ParisTech, France Undesired Emission and Biological Effect of Open-end and Short-end Antennas for Coupled-resonant Wireless Power Transfer Transient Characteristic of an Actual Wind Turbine Grounding System Electric Probes for Fault Injection Attack Simulation of Lightning Electromagnetic Pulses Using the Constrained Interpolation Profile Method Kazuo Yamamoto, Shinichi Sumi, Chubu Pierre Bayon, Lilian Bossuet, Alain Aubert, Viktor University , Japan; Shunichi Yanagawa, Shoden Co.,Ltd., Japan Fischer, Laboratoire Hubert Curien, France Laurent Sauvage, Telecom ParisTech, France Kenta Kajita, Yoshihiro Baba, Naoto Nagaoka, Akihiro Ametani, Doshisha University, Japan Investigation of Near-Field Pulsed EMI at IC Level Amine Dehbaoui, CEA-LETI , France; Jean-Max Dutertre, EMSE, France; Bruno Robisson, Hiroshi Hirayama, Tomohiro Amano, Nobuyoshi Assia Tria, CEA-LETI, France Kikuma, Kunio Sakakibara, Nagoya Institute of Technology, Japan Investigation of Magnetic Flux Distribution Power Current Modeling of Cryptographic of EV Wireless Charging Systems VLSI Circuits for Analysis of Side Channel Attacks Chirag Panchal, Junwei Lu, Sascha Stegen, Griffith University,Nathan Campus, Australia Jinliang He, Bo Zhang, Tsinghua University, China EM radiation analysis on True Random Number Generators: Frequency and localization retrieval method Hongseok Kim, Chiuk Song, Jiseong Kim, Korea Advanced Institute of Science and Technology , Korea, Republic of; Hakbyoung Park, Hyunho Park, Eakhwan Song, Samsung Electronics, Korea, Republic of; Joungho Kim, Korea Advanced Institute of Science and Technology , Korea, Republic of 17:40 – 18:05 Lars Ole Fichte, Helmut-Schmidt-University , Germany; Ronald Rambouski, Frank Sabath, Bundeswehr Institute for Protective Technologies - NBC Protection , Germany; Marcus Stiemer, Helmut-Schmidt-University, Germany Vince Rodriguez, ETS-Lindgren, USA 15:40 – 16:00 17:15 – 17:40 Nanjing Engineering Institute, China A Note on the Use of Downscaled Lab Models for IEMI investigations Mönich, Technical University Berlin, Germany Stefan van de Beek, University of Twente , Netherlands; Kate Remley, Christopher Holloway, John Ladbury, National Institute of Standards and Technology , USA; Frank Leferink, University of Twente , Netherlands 16:50 – 17:15 Chairs: Lihua Shi Makoto Nagata, Daisuke Fujimoto, Daichi Tanaka, Kobe University, Japan Insulator Voltages at a Lightning-Struck Tower in the Presence of Ground-Wire Corona Huu Thang Tran, Yoshihiro Baba, Naoto Nagaoka, Akihiro Ametani, Doshisha University , Japan; Naoki Itamoto, Hokuriku Electric Power Company, Japan; Vladimir A. Rakov, University of Florida, USA Improvement of a Wind Turbine Grounding System using Various Grounding Wires Naoki Yoshikawa, Akihiro Ametani, Doshisha University , Japan; Kazuo Yamamoto, Chubu University, Japan; Shunichi Yangawa, Shoden Co.,Ltd., Japan TECHNICAL PROGRAM 24 Time WEDNESDAY MORNING, 22 MAY 2013 Jim Stynes B 09:00 – 10:40 WORKSHOPS 09:00 – 09:25 Jim Stynes A Olympic Room B Olympic Room A TC5-3: Measurements – Conducted TC2: Signal Integrity TC13: Wireless Communications Chairs: Frank Leferink Chairs: Xing Chang Wei Chairs: Perry Wilson University of Twente, Netherlands Zhejiang University, China NIST Physical Measurement Laboratory, USA Special requirements for associated equipments used in an electrical fast transient/burst immunity test Time-domain simulation of crosstalk between coaxial cables Wireless LAN Systems as a Component of the Communication Infrastructure of a Hospital: Insuring Availability and Security Lei Zhou, Lingxiang Deng, Daosheng Chen, Jiangsu Institute of Metrology, China; Wei Yan, Nanjing Normal University, China 09:25 – 09:50 10:15 – 10:40 VSI-EBG Structure for Common-Mode Noise Suppression in High-Speed Differential Signals Bo Zhao, Min Zhao, Nanjing University of Aeronautics and Astronautics, China Myunghoi Kim, ETRI, Korea, Republic of; Sukjin Steve Iskra, Ray McKenzie, Swinburne Kim, Joungho Kim, KAIST, Korea, Republic of; University of Technology, Australia; Jack Jaehoon Kim, , ETRI, Korea, Republic of Rowley, GSM Association, UK; Robert McIntosh, Swinburne University of Technology, Australia Method of Measuring Common Mode Conducted Emission at Power Supply DC Output Characterization of CMOS On-Chip Transformer for Digital Transmission Line Driver Applications Keng Kok Khoo, Hewlett Packard, Singapore Chien-Chang Huang, Chia-Kai Chen, Yuan Ze University, China Research on the High-Frequency Characteristics of DC_LISN Xiaohui Qiu, Nanjing University of Posts and Telecommunications , China; Yong Liu, Yuhuan Zhang, Wei Yan, Yang Zhao, Nanjing Normal University, China 10:40 – 11:00 11:00 – 11:25 11:25 – 11:50 Abdur Rahim, Nemai Chandra Karmakar, Monash University, Australia A Novel Reader Architecture for chipless RFID Tags Md. Aminul Islam, AKM Azad, Nemai Karmakar, Monash University, Australia Bert W.-J. Wong, Antonio Cantoni, School of Electrical, Electronic and Computer Engineering, The University of Western Australia, Australia TC3: Power Integrity TC19/20: Biomedical/EMF Chairs: Frank Leferink Chairs: Mark Montrose Chairs: Jianqing Wang University of Twente, Netherlands Montrose Compliance Services, Inc, USA Nagoya Institute of Technology, Japan Response Time of Electromagnetic Field Strength Probes Reduction Method of Common-Mode Noise on Power Supply Cable Using Floating Conductor Radiated Electric Field Strengths on the Ground for Various Body-Worn Antenna Positions Tohlu Matsushima, Kyoto university, Japan; Yuichi Mabuchi, Hitachi, Ltd., Japan; Takashi Hisakado, Osami Wada, Kyoto university, Japan Thomas Kaufmann, University of Adelaide, Australia; Andrew Piotrowski, Department of Defence, EWRD DSTO , Australia; Christophe Fumeaux, University of Adelaide, Australia LSI Noise Model Extraction with the Printed Reverberation Board EM Absorption and Temperature Increase in Human Bodies due to EM Fields Emitted from On-Body Transceivers at 2.45 GHz Relation between Disturbance Current and Radiating Field Strength for Module Devices Solving EMC problems using state of the art numerical techniques (Frank Demming, CST, Germany) Umberto Paoletti, Takashi Suga, Hitachi, Ltd., Nobuo Kuwabara, Kenich Yano, Kyushu Institute Yokohama Research Laboratory, Japan of Technology, Japan; Hidenori Muramatsu, VCCI Council, Japan; Toshiki Shimasaki, NEC Engineering, Ltd., Japan; Kengo Mori, I-O DATA DEVICE , Japan; Hirokazu Tohya, ICAST, Inc., Japan Characterization of uncertainties in RF adapters for EMC measurement Jian Song, Hon Tat Hui, National University of Singapore, Singapore Towards the Single European EMC Defence Standard AECTP 250-500, and Planned Updates Frank Leferink, University of Twente, Netherlands 12:40 – 14:00 Sensor cooperation using Loglikelihood Ratio-based amplify and forward protocol in wireless body area network channel for sleep apnoea monitoring system TC5-4: Measurements – Standards Robert Vogt-Ardatjew, University of Twente, Netherlands; Ramiro Serra, Technical University Eindhoven, Netherlands; Gregory Hiltz, Quality Engineering Test Establishment (QETE) Department of National Defence, Canada; Frank Leferink, University of Twente, Netherlands 12:15 – 12:40 Improved Radiated Emission Model for Two Damping Schemes for Signal Integrity Management on Microstrips Validated with MoM Distributed Antenna System for Mobile Phone Coverage in a Hospital – EMI Considerations Tea Break 11:00 – 12:40 11:50 – 12:15 Eisuke Hanada, Shimane University Hospital , Japan; Takato Kudou, Oita University , Oita University , Japan; Shusaku Tsumoto, Shimane University Hospital, Japan Comparison of Two Methods on CM Conductive EMI Noise Source Impedance Extraction Solving EMC problems using state of the art numerical techniques 09:50 – 10:15 (Frank Demming,CST, Germany) Yu Teo, David Thomas, Christos Christopoulos, University of Nottingham, UK Hsing-Yi Chen, Heng-Ming Lee, Yuan Ze University, China Measurement and Analysis of Voltage Investigation of Relationship between Transfer Ratio (VTR) of Package-level WPT SAR and Required Communication considering PDN Conditions Performance for Wireless Capsule Endoscope Eunseok Song, Hongseok Kim, Jonghoon J. Kim, Jiseong Kim, Joungho Kim, KAIST, Korea, Republic of Daisuke Anzai, Sho Aoyama, Jianqing Wang, Nagoya Institute of Technology, Japan PI-EMI Co-Analysis of Ground Via Effect Design of a Neural Recording Amplifier Robust to EMI Ling-Song Zhang, Zhejiang University, China; Xue-Quan Yu, Lin Yang, Huawei Technologies Co., Ltd , China; Xiao-Juan Wang, Xin Wei, Xing-Chang Wei, Zhejiang University, China Lunch Orazio Aiello, Politecnico di Torino, Italy; Jean-Michel Redoute, Monash University, Australia TECHNICAL PROGRAM WEDNESDAY AFTERNOON, 22 MAY 2013 Time 25 Olympic Lounge, Level 3 14:00 – 15:40 Poster Session Fast Estimation of Radiated Emission from Microwave Microstrip Amplifiers Influence Analysis of Electrode Velocity and Air Pressure Impacted on ESD Parameters Han-Chang Hsieh, Nai-Chung Kuo, Jay-San Chen, Bureau of Standards, Metrology and Inspection (BSMI), Taiwan; Cheng-Nan Chiu, Department of Electrical Engineering, Da-Yeh University, Taiwan; Yung-Chi Tang, Bureau of Standards, Metrology and Inspection (BSMI), Taiwan Fangming Ruan, Xiangdong Yang, Guizhou Normal University, China; Yongbing Xu, Research Institute of Nanoelectronics & Nanotechnology, York University, UK The Practical Measurement Setup of DPI Method above 1 GHz for ICs Yin-Cheng Chang, Shawn S. H. Hsu, Institute of Electronics Engineering, National Tsing Hua University , Taiwan; Kang-Chu Peng, National Chip Implementation Center, National Applied Research Laboratories , Taiwan; Yen-Tang Chang, Chiu-Kuo Chen, Bureau of Standards, Metrology and Inspection, M.O.E.A , Taiwan; Hsu-Chen Cheng, Da-Chiang Chang, National Chip Implementation Center, National Applied Research Laboratories, Taiwan Intrinsic Conducting Polymers for Wi-Fi electromagnetic 14:00 – 15:40 interference shielding A Study on a Cabtyre Cable for a Transient Condition Using Electro Magnetic Transient Program for Switching Surge Application Asha Shendge, N. N. Nagaoka , University of Pune, India Comparison of Radiated Emission Measurement in accordance with CISPR 11 and CISPR 15 below 30 MHz Jong Hwa Kwon, ETRI, Korea, Republic of; Tae Heon Jang, KTL, Korea, Republic of; Seung Keun Park, Hyung Do Choi, ETRI, Korea, Republic of An Artificial Neural Network Model for S-Parameter of Microstrip Line Whamid Al-Shabib , Edith Cowan University, Australia Xue-Lian Gao, Zhen-Nan Cui, Nan Feng, Xiao-Yu Zhang, Lei Zhao, North China Electric Power University, China The study of parameter determination of impedance model by APSO Test Procedures for Conducted Transient Immunity Testing for Low Frequency Energy Meters including the new Standards for Differential Mode Disturbances from 2 kHz to 150 kHz on AC power supplies Xue-lian Gao, Yan-yu Chen, Zhen-nan Cui, Nan Feng, Xiao-yu Zhang, Lei Zhao, North China Electric Power University, China Markus Fuhrer, EM TEST GmbH, Switzerland Analysis of Power Frequency Disturbance in Cables of Truck Cranes Based on Field-circuit Coupling Method Power isolation strategies Olga Tereshchenko, Frits Buesink, Frank Leferink, EEMCS, Telecommunication engineering group, University of Twente, Netherlands Li Xiao, Zhanqing Yu, Shuiming Chen, Yang Zeng, Xiaoying Yu, Bo Zhang, Rong Zeng Performance-based Comparison of UPQC Compensating Current Generation Algorithms under Distorted Supply and Non-linear Load Conditions Sudhir Wamane, Veermata Jijabai Technological Institute, Mumbai, Maharashtra, India Low Impedance Multi-Octave Integrated Amplifier for EMR Measurements in Fully Electric Vehicles Jose Chicharro, Thomas Ußmüller, Robert Weigel, Friedrich Alexander University of Erlangen-Nuremberg, Germany Potential of Steel-Fibre-Reinforced Concrete to increase RFI mitigation of antenna foundations Li Li, CSIRO, ICT Centre , Australia; Ross Forsyth, Carole Jackson, CSIRO Astronomy and Space Science, Australia Analysing and Simulation of Electromagnetic Pulse Irradiation Coupling Effects Jieqing Fan, Peihua Qi, Jianhong Hao, North China Electric Power University, China Single-Ended Broadband Antenna for Radiofrequency Energy Harvesting Luca Vincetti, Moreno Maini, M. Bompani, Luca Larcher, Alessandro Bertacchini, S. Scorcioni, University of Modena and Reggio Emilia - Eng. Dept., Italy; Daniel Grossi, Alessandro Tacchini, Reggio Emilia Innovazione, Italy Wave Regime of Electronics Metal Enclosure Shielding in Microwave Region of Electromagnetic Impact Valentin Butin, Michail Filatov, Pavel Kundyshev, FSUE VNIIA, Russian Federation Reducing the LUF of a Reverberation Chamber based on the concept of MIMO for Electromagnetic Emission Measurements for Radio Astronomy Applications Chittawan Choeysakul, Franz Schlagenhaufer, Peter Hall, The International Centre for Radio Astronomy Research (ICRAR), Curtin University 15:40 – 16:00 Time Tea Break Jim Stynes B 16:00 – 17:40 WORKSHOPS 16:00 – 16:25 16:25 – 16:50 Using Reverberation Chambers for Actual 16:50 – 17:15 EMC Tests (Frank Leferink, University of Twente, Netherlands) Jim Stynes A Olympic Room B Olympic Room A TC18-1: Radio Astronomy TC4: Semiconductor TC9: Power Systems Chairs: Franz Schlagenhaufer Chairs: Junwei Lu Chairs: Jinliang He The International Centre for Radio Astronomy Research (ICRAR), Curtin University School of Engineering, Griffith University, Australia Tsinghua University,Beiijng, China The SKA and the battle against radio interference EMC/EMI Verification Methodology for Semi-Custom Design Magnetic Field Environments at Power Frequency inside modern Buildings Rob Millenaar, SKA Organisation, UK Hai Au Huynh, Kyungsoo Kim, Soyoung Kim, Sungkyunkwan University, Korea, Republic of Mingli Chen, Yaping Du, The Hong Kong Polytechnic University, Hong Kong Components of EMC Thinking Relevant to Radio Astronomy Sites EMI Prediction in Slew Rate Controlled Switching IO Buffer Howard Reader, University of Stellenbosch, South Africa Namkyoung Kim, Nahyun Kim, Jisu Hwang, Sungkyunkwan university, Korea, Republic of; Jungmin Kim, Samsung Electronics , Korea, Republic of; Soyoung Kim, Sungkyunkwan university, Korea, Republic of Research on DC-AC EMI Noise Mechanism and Reduction for New Energy Inverter System Measures for Control of EMI and RFI at the Analysis of source bus line current of a LCD panel through magnetic near field Murchison Radioastronomy Observatory, measurement Australia Carol Wilson, CSIRO ICT Centre , Australia; Michelle Storey, Tasso Tzioumis, CSIRO Astronomy and Space Science, Australia 17:15 – 17:40 EMC Considerations for the ASKAP dish antennas Carole Jackson, Ross Forsyth, Li Li, Michael Kesteven, Samatha Mickle, CSIRO Astronomy and Space Science, Australia Sandeep Dhungana, Kaoru Arai, Ryosuke Okuta, Masahiro Yamaguchi, Kunio Yanagi, Tohoku University, Japan Yong Liu, Yuhuan Zhang, Wei Yan, Yang Zhao, Hongyan Sun, Nanjing Normal University, China Prefluxing Technique to Mitigate Inrush Current of Three-Phase Power Transformer Shantanu Kumar, The University of Western Australia, Australia; Krishna Kant Sharma, Deepak Tiwari, Sudhir Bhil, Sushama Wagh, VJTI, India EMC Requirement for Semiconductor Plants: A Case Study in Peninsular Malaysia Mohamed Fuad Faisal, Tenaga Nasional Berhad, Malaysia; Azah Mohamed, Universiti Kebangsaan, Malaysia TECHNICAL PROGRAM 26 Time THURSDAY MORNING, 23 MAY 2013 Jim Stynes B 09:00 – 10:40 WORKSHOPS Jim Stynes A Olympic Room B Olympic Room A TC18-2: Radio Astronomy TC8: ESD TC16: Aerospace EMC Chairs: Howard Reader Chairs: Ken Kawamata (Hachinohe Institute of Technology, Japan), Takayoshi Ohtsu (Suzuka National College of Technology , Japan) Chairs: Paul Kay (Royal Australian Air Force (Aerospace Operational Support Group, Australia), Sergio Pignari (Politecnico di Milano, Italy) Directivity and Polar Effect of Electromagnetic Radiation in Low Voltage ESD Using Spherical Electrode The Connection Between Aircraft Skin and Cable Current Modelling University of Stellenbosch, South Africa 09:00 – 09:25 New Instrumentation for EMC work in Radio Astronomy Paul Roberts, Ron Beresford, CSIRO Astronomy and Space Science, Australia 09:25 – 09:50 Shielding Requirements for ADE Receivers Reduction of Coupled Voltage of Electric Cable with Electro-static Countermeasure Ron Beresford, CSIRO Astronomy and Space Science, Australia Takayoshi Ohtsu, Yusaku Kobayashi, Hideyuki Doyama, Shogo Imai, Kentaro Hayashida, Shunsuke Okada, Suzuka National College of Technology , Japan; Yorioki Matsumoto, Matsumoto Giken Co.Ltd., Japan Spectrum Quietness Metrics for Radio Astronomy A Study on System-level ESD Stress Simulation using Circuit Simulator Aaron Chippendale, CSIRO Astronomy and Space Science, Australia, Kjetil Wormnes, European Space Research and Technology Centre, Netherlands Takahiro Yoshida, Noriaki Masui, Tokyo University of Science, Japan Artificial pulse triggers LOFAR radio telescope Efficient Circuit/Electromagnetic Hybrid Simulation for the Electrostatic Discharge Events High-speed PCB design (Frits Buesink, University of Twente, Netherlands) 09:50 – 10:15 10:15 – 10:40 Menno Norden, Astron, Netherlands 10:40 – 11:00 WORKSHOPS 11:00 – 11:25 11:25 – 11:50 Emir Ibatoulline, Dept. of Radio-Physics, Kazan Federal University, Russian Federation Low Level Swept Current Aircraft Testing Kevin Goldsmith, Andrew Walters, Defence Science and Technology, Australia Systems Level EMC for Aircraft: QF72 Revisited TC18-3: Radio Astronomy TC10: Protection TC15: Transportation Chairs: Carol Wilson Chairs: William Radasky Chairs: Sergio Pignari CSIRO ICT Centre , Australia Metatech Corporation, USA Politecnico di Milano, Italy Proposed Radio Quiet Zone around FAST in China Effective Electromagnetic Shielding over An Ultra-Wide Bandwidth Using a Frequency Selective Surface Estimation of the On-Axis and Off-Axis Near Field Power Density of a Linear Array Antenna Close to an Electrically Large Structure Pre-compliance EMC Measurements for MRO Equipment High-speed PCB design (Frits Buesink, University of Twente, Netherlands) Irfan Sohail Syed, Macqaurie University , Australia; Yogeshwar Ranga, CSIRO, Austrlia; Karu Esselle, Macqaurie University , Australia; Ladislau Matekovits, Politecnico di Torino Dipartimento di elettronica e Telecomunicazioni , Italy; Stuart Hay, CSIRO, Australia Shielding Effectiveness of Concrete with Graphite Fine Powder in Between 50MHz to 400MHz Ron Beresford, CSIRO Astronomy and Space Science, Australia; Li Li, CSIRO, ICT Centre See Khee Yee, Mohd Zarar Mohd Jenu, Universiti Tun Hussein Onn, Malaysia Practical solutions for realising an RFI compliant building for the Australian SKA Pathfinder telescope Angus Leitch, Shandip Abeywickrema, Aurecon , Australia; Antony Schinckel, Kerry Ardern, Graham Allen, Carol Wilson, Ron Beresford, CSIRO, Australia 12:40 – 14:00 New Approach to Definition of the Interference Immunity of an Information System Paul Kay, Royal Australian Air Force (Aerospace Tsuyoshi Takada, Tadatoshi Sekine, Hideki Asai, Operational Support Group), Australia Shizuoka University, Japan Haiyan Zhang, Rendong Nan, Bo Peng, National Astronomical Observatories, Chinese Academy of Sciences, China; Yuebing Xia, Guizhou Radio Regulatory Bureay, China; Chengjin Jin, Jianbin Li, Xiaonian Zheng, Long Gao, National Astronomical Observatories, Chinese Academy of Sciences, China 12:15 – 12:40 Andrew Walters, Tan Doan, Defence Science and Technology, Australia Tea Break 11:00 – 12:40 11:50 – 12:15 Ken Kawamata, Hachinohe Institute of Technology, Japan; Shigeki Minegishi, Tohoku Gakuin University, Japan; Osamu Fujiwara, Nagoya Institute of Technology, Japan Metamaterial-based Electromagnetic Wave Shielding Giuseppina DallArmi-Stoks, Defence Science and Technology, Australia Reduction Effects of Geometrical Configuration on FM-Band Cross-Talks between Two Parallel Signal Traces on Vehicle-Mounted Printed Circuit Boards Michihira Iida, DENSO CORPORATION / Nagoya Institute of Technology, Japan; Tsuyoshi Maeno, Qualtec Co.,Ltd , Japan; Jerdvisanop Chakarothai, Jianqing Wang, Osamu Fujiwara, Nagoya Institute of Technology, Japan Assessment of the Bulk Current Injection Test Procedure Based on the Substitution Method Montree Malathong, Nantakan Wongkasem, Department of Electrical Engineering, Faculty of Flavia Grassi, Politecnico di Milano, Italy; Engineering, Khon Kaen University, Thailand Cyrous Rostamzadeh, Robert Bosch LLC , USA: Diego Bellan, Giordano Spadacini, Sergio Amedeo Pignari, Politecnico di Milano, Italy Radio Interference Evaluations of Photovoltaic Modules for Radio Astronomy Active Antenna Modeling Strategies for Conducted and Radiated Emissions in High-Speed Railway Lines Budi Juswardy, Franz Schlagenhaufer, Peter Hall, The International Centre for Radio Astronomy Research (ICRAR), Curtin University Diego Bellan, Giordano Spadacini, Flavia Grassi, Sergio A. Pignari, Politecnico di Milano, Italy; Eugenio Fedeli, RFI S.p.A., Italy Lunch TECHNICAL PROGRAM THURSDAY AFTERNOON, 23 MAY 2013 Time Jim Stynes B Jim Stynes A Olympic Room B WORKSHOPS 13:20 – 17:30 EMC Test Methods for Wireless Communication Power and Signal Integrity Co-Design for High-speed Circuits (Perry Wilson, NIST Physical Measurement Laboratory, USA) (Tzong-Lin Wu, National Taiwan University, Taiwan HPEM Protection of Commercial Facilities (William Radasky, Metatech Corporation, USA) Olympic Room A 27 It’s Not Bragging When You Can Back It Up. Lots of suppliers claim to have “The Best Products”, but do they have any proof to back it up? AR has been proving it for over 43 years. We’ve built a reputation for reliable products that go the distance… and then some. Products that are more powerful, faster, smaller, and more efficient. Products that outlast, outperform, and outrun any of our competitors. 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They allow accurate, sensitive and repeatable measurement in one unit. And did we mention incredible speed with outputs up to 150 watts and 400 MHz. Dual Band Amplifiers For the first time you can go from 0.7 to 18 GHz with the reliability of solid state in a single housing. Numerous models with various output powers help you reduce the footprint and cost of separate instruments. “S” Series amplifiers Lighter, more portable, and up to 50% smaller. Available with all the power you need up to 1200 watts. Field Analyzer The new series of laser-powered electric field analyzers have an extremely high sample rate and can precisely measure pulsed electric fields in the microsecond range. They represent a whole new way to more accurately measure modulated and CW electric fields in both conventional and reverberation chambers and allow the user to see the modulation envelope. Multi-Tone Tester This incredible system cuts RF Radiated Immunity testing from days down to hours by testing multiple frequencies simultaneously, reducing product development cost and time to market. Precision DSP Receiver This 18 GHz EMI receiver changes the way you think about emissions testing. Data is more accurate and test time is reduced. Testers have a suite of new mitigation tools. A Special Family of Antennas for High Intensity Radiated Field (HIRF) Testing These are all high-gain,high-power microwave horn antennas that provide typical 20 dBi over isotropic. They supply high intensity fields for DO 160 HIRF testing. Integrated Test Systems All-in-one test systems for any EMC application, DC to 50 GHz. Our systems make testing more efficient, accurate, and affordable. 16,000 Watts of Pure Power The new 16000A225 amp. It covers 10 kHz to 225 MHz and delivers 16,000 watts of power and we’re not stopping there. www.arworld.us/notBragging ISO 9001:2008 Certified rf/microwave instrumentation Other ar divisions: modular rf U receiver systems U ar europe USA 215-723-8181. For an applications engineer, call 800-933-8181. www.arworld.us Copyright © 2013 AR. The orange stripe on AR products is Reg. U.S. Pat. & TM. Off. 29 WORKSHOPS AND TUTORIALS Mon morning Mon afternoon Tue morning Tue afternoon Workshop WS1 Tutorial T2 Tutorial T4 Workshop WS2 Understanding Measurement Uncertainty Designing for EMCFundamentals Related to Printed Circuit Boards EMC for Engineers: Theory and Practice European Space EMC Tutorial T1 Tutorial T3 Tutorial T5 Workshop WS3 EMC Metrology and Computation Decoupling, Bypassing and Embedded Capacitance for Enhanced PCB Performanc Near field scanning techniques for the characterization of emissions from PCBs Recent Advances and Applications of Aerospace Antennas Plenary session Techncial session: System Level EMC Technical session: Measurements Technical session: Computation Technical session: HPEM Workshop WS4 Technical session: Measurements Technical session: Computation Technical session: HPEM Technical session: Wireless Power Transfer Technical session: Information Leakage Technical session: Lightning Technical session: Measurements Technical session: Signal Integrity Technical session: Wireless Communications Technical session: Measurements Technical session: Power Integrity Technical session: Biomedical/EMF EMC Regulations Workshop WS5 Metamaterials, Periodic Structures and EBG in EMC/Antenna/RF Designs Wed morning Tutorial T6 Solving EMC problems using state of the art numerical techniques Poster Session Wed afternoon Tutorial T7 Techncial session: EMC in Radio Astronomy Technical session: Semiconductor Technical session: Power Systems Techncial session: EMC in Radio Astronomy Technical session: ESD Technical session: Aerospace EMC Techncial session: EMC in Radio Astronomy Technical session: Protection Technical session: Transportation Workshop WS6 Workshop WS7 Workshop WS8 EMCTest methods for Wireless Communications Power and Signal Integrity Co-Design for High-speed Circuits HPEM Protection of Commercial Facilities Using Reverberation Chambers for Actual EMC Tests Thu morning Thu afternoon Tutorial T8 High-speed PCB design 30 WORKSHOPS AND TUTORIALS Workshop WS1: Time: Venue: Organizer: Speakers: Understanding Measurement Uncertainty 9:00 - 12:40, Monday, 20 May 2013 Jim Stynes B Janet O'Neil: ETS-Lindgren, USA Ghery Pettit, Intel, USA, “Regulatory Implications of Measurement Uncertainty in CISPR and ANSI C63” Vince Rodriguez, ETS-Lindgren, USA, “Antenna Calibration and Uncertainty: A Numerical Study of the Calibration of a Dual Ridge Horn Antenna” Dennis Lewis, The Boeing Company, USA, “The Impact of Cables and Connectors on Measurement Uncertainty” Zhong Chen, ETS-Lindgren, USA, “Model Equations for Evaluating Measurement Uncertainties based on GUM” Abstract In recent years, there has been an increasing need for accredited calibration test services in the commercial EMC area. This is likely to impact the military and aerospace test communities as well in the future. Part of the accreditation process based on ISO 17025 is the determination of measurement uncertainty – a requirement that is often misunderstood or misinterpreted. This workshop will provide an overview and discussion of measurement uncertainty to further the knowledge of this subject in the EMC testing community. For example, ensuring your product complies with measurement uncertainty regulations will be discussed. Influences of antenna gains in the near field and the impact of test benches on measurement uncertainty will be addressed. Finally, while often overlooked, the impact of cables and connectors on measurement uncertainty will be reviewed. This workshop brings together a number of different viewpoints on measurement uncertainty in order to provide a well rounded discussion of the topic. Speakers include an EMC regulatory compliance manager for corporate product regulations and standards, an antenna designer and manufacturer, and a metrology laboratory engineer/manager. Two of the speakers (Rodriguez and Lewis) have been appointed Distinguished Lecturers of the IEEE EMC Society for 2013-2014. The workshop will conclude with a panel discussion with all speakers fielding questions from attendees in order to provide further education on the topic. Ghery Pettit has 36 years EMC design and testing. US Navy (civilian), Martin Marietta Denver Aerospace, Tandem Computers and Intel Corporation. Presently active in US and international standards bodies (C63 SC 1, CISPR SC I, IEC SC77B), industry committees (chair ITI TC5) and IEEE EMC Society (President - 2012-2013 / President Elect - 2011 / Vice President, Conference Services - 2009-2010 / Vice President, Communication Services - 2003-2008). Convener of CISPR SC I WG3 (2007 - 2012), member of CISPR SC I WG2 and WG4 Vicente Rodriguez attended Ole Miss, in Oxford MS, where he obtained his B.S.E.E. M.S. and Ph.D. degrees in 1994, 1996 and 1999, respectively. He is currently the Antenna Product Manager of ETS-Lindgren. He has been involved in the RF anechoic design of several chambers, including rectangular and taper antenna pattern measurement chambers, some of which operate from 100 MHz to 40 GHz. Dr. Rodriguez is a Senior Member of the IEEE and several of its technical societies. He is also a Senior Member of the Antenna Measurements Techniques Association (AMTA) and a member of its Board of Directors. WORKSHOPS AND TUTORIALS Dennis Lewis received his BS EE with honors from Henry Cogswell College and his MS Physics from the University of Washington. Dennis is a member of the IEEE and several of its technical societies including the Microwave Theory and techniques, Electromagnetic Compatibility and the Antennas and Propagations societies. He serves on the IEEE MTT-S subcommittee 11 on microwave measurements. He is a Senior Member of the Antenna Measurements Techniques Association. He is an active member and past chairman of the Technical Advisory Committee for North Seattle Community College. Dennis has worked at Boeing for 23 years and is recognized as an Associate Technical Fellow. He currently has leadership and technical responsibility for the primary RF, Microwave and Antenna Metrology labs. His recent interests include aerospace applications of reverberation chamber techniques and microwave measurement systems and uncertainties. Zhong Chen is a Product Manager for RF Materials at ETS-Lindgren. He has more than 15 years of experience in RF testing as well as in EMC antenna, field probe and absorber design and measurement. He is a Chair of Subcommittee 1 of ANSI ASC C63® and a member of its several working groups. He is chairman of the IEEE 1309 committee for developing calibration standards for field probes. Mr. Chen received his M.S.E.E. degree in electromagnetics from the Ohio State University at Columbus. Workshop WS2 Time: Venue: Organizer: Speakers: European Space EMC 09:00 – 12:40, Monday, 20 May 2013 Olympic Room A Filippo Marliani, ESA-ESTEC, Netherlands A. Bertrand, EADS Astrium Space Transportation, Les Mureaux France, "OVERTIME EVOLUTION OF EMC ACTIVITIES ON SPACE TRANSPORTATION VEHICLES" P. Pelissou, Astrium Satellites, France, "ADVANCED TOOLS FOR SPACECRAFT SYSTEM ANALYSIS" K. Bubeck, Astrium GmbH, Germany, “MAGNETIC CLEANLINESS CONTROL ON EQUIPMENT AND SPACECRAFT LEVEL” Filippo Marliani, ESA-ESTEC, Netherlands, “NON-CLASSICAL EMC AT THE EUROPEAN SPACE AGENCY: ELECTROMAGNETIC PROPAGATION THROUGH PLASMA Abstracts A. Bertrand, EADS Astrium Space Transportation, Les Mureaux France,"OVERTIME EVOLUTION OF EMC ACTIVITIES ON SPACE TRANSPORTATION VEHICLES" Since Ariane 1 first flight in 1979 the Ariane launchers have been a major element in Europe’s independent access to space. Drawing on the experience gained from variants 1, 2 and 3, Ariane 4 proved to be one of the best launchers in its class with 113 successful launches since its inaugural flight in 1988 from the Europe's Spaceport in Kourou, French Guyana. Ariane 4 was the fruit of collaboration between some 40 companies in 11 European countries, called together by the European Space Agency (ESA), with Astrium as industrial design authority. The new-generation Ariane 5 continues the tradition of its predecessors, but features a radically new design. The development of the Ariane 5 ME (Midlife Evolution) launcher with a new cryogenic upper stage, which will be powered by the new Vinci engine, will provide an increased Geostationary Transfer Orbit payload capacity of up to 12 tonnes on dual launches. As prime contractor since May 2003, Astrium delivers to Arianespace, the launch services marketing company, a complete and fully-tested launcher. Astrium was involved in the development of each of the launcher variants, and manufactured and delivered all the Ariane 4 stages. As Ariane 5 lead manufacturer, Astrium is responsible for the production of all Ariane 5 stages, the vehicle equipment bay, the dual launch system structure (SYLDA), along with a number of subassemblies. Moreover, Ariane 5 continues to place in low-Earth orbit the European Automated Transfer Vehicle, the ATV, which ferries propellants, supplies, and equipment to the International Space Station. The ATV is the first spacecraft in the world to carry out an automatic docking with a space station and once docked, it uses its 31 32 WORKSHOPS AND TUTORIALS own engines to correct the station’s orbit. Under contract to the European Space Agency (ESA), Astrium is industrial prime contractor for the ATV, with a 4th ATV launch in March 2013. The prime contractor is in charge of ensuring that those complex systems will be designed for electromagnetic compatibility, both internally and with respect to other elements of the on board and ground infrastructure. We will therefore describe how EMC aspects have been dealt with for these 2 major projects that are the Ariane launchers and the ATV, in accordance with the evolution of Astrium responsibilities on each vehicle. We will especially explain how the EMC activities have evolved over time according on one hand to the changes of launchers’ architecture from Ariane 1 to Ariane 5-ME and on the other hand to the environment evolution involving new electromagnetic threats, and to tests and modelling capabilities. P. Pelissou, Astrium Satellites, France, "ADVANCED TOOLS FOR SPACECRAFT SYSTEM ANALYSIS" The EMC tests at spacecraft level represent important preparation efforts with sometimes difficulties to achieve a spacecraft configuration representative of the flight. So actions have been taken to improve the simulations and reduce the EMC testing at system level. A lot of efforts have been put on the elaboration of new methodologies and tools to improve the representativeness of EMC analyses at spacecraft system level to fulfil the following objectives: To verify the EMC performances at system level during the preliminary phases of the projects To avoid over-specification of equipment as concerns EMC levels To simplify the test procedures and speed up the realisation of the EMC tests at system level To cross-validate system-level EMC tests and simulations results. The objectives of the works were to develop an EMC simulation process for an Industry need i.e to find a good compromise between a correct simulation accuracy and a fast computation time. This resulted in: The development of macro-models simulating all the spacecraft electrical power functions: solar array, battery and different power regulators. These models have been simplified as much as possible while keeping a representative dynamic behaviour in conducted mode from DC to 50MHz. All models have been validated by tests. The development of an analytical method for the E-field prediction inside the different spacecraft cavities. The general principle is to consider the internal volumes of the spacecraft as a multimode or oversized cavities, inside which RF E-fields are statistically homogeneous and isotropic. This approach has been implemented in a tool starting for the 3D CAD model of the spacecraft and simulating the E-field distribution inside the different cavities coming from the radiated emission of the external antennas and from the RF leakages of the internal units. This tool has also been validated by tests. K. Bubeck, Astrium GmbH, Germany, “MAGNETIC CLEANLINESS CONTROL ON EQUIPMENT AND SPACECRAFT LEVEL” Magnetic cleanliness is an important attribute of satellites in the majority of scientific programmes. The reasons for the demand of magnetic cleanliness are manifold, e.g. the focus of the mission is to sense and analyse the magnetic field of a planet or the Sun, the mission is aimed at exploring complicated physical interactions involving magnetic fields, or the spacecraft’s payload instruments are susceptible to magnetic interferences. Rigorous magnetic engineering paves the way for magnetically clean spacecraft, thereby controlling the magnetic fields and forces at defined locations and limiting torque affecting the attitude of the spacecraft. The spacecraft of the SWARM mission can be considered a benchmark for magnetic cleanliness control. SWARM shall provide the best ever survey of the geomagnetic field and its temporal evolution. A constellation of three satellites orbiting the Earth at altitudes of 450 km and 530 km is foreseen. As a novelty, the two spacecraft at the lower altitude will provide measurement data suitable for quantifying geomagnetic field gradients. Each spacecraft carries two magnetometers, a flux gate vector magnetometer and an optical pumped helium scalar magnetometer. They are mounted on a boom structure to minimise the influence of magnetic disturbance fields generated by the spacecraft body. Filippo Marliani, ESA-ESTEC, Netherlands, “'NON-CLASSICAL' EMC AT THE EUROPEAN SPACE AGENCY: ELECTROMAGNETIC PROPAGATION THROUGH PLASMA" ESA is committed to push the frontiers of knowledge, support an innovative and competitive Europe and foster the introduction of innovative products and systems into the market. The Electromagnetics and Space Environment Division at ESA is engaged to provide technical support throughout the whole development life cycle of the new technologies of tomorrow. This tutorial will present the results of some studies carried out in the Electromagnetic group to address the propagation of electromagnetic waves through the plasma, an WORKSHOPS AND TUTORIALS issue of particular interest for electric propulsion telecommunications satellites as well as for the communication payload of re-entry vehicles. In the Human Spaceflight & Exploration Programme ESA will provide a Service Module for the Multi-Purpose Crew Vehicle (MPCV-SM) of NASA while in the Telecommunication and Integrated Applications Programme ESA has fostered the development of a general purpose small geostationary satellite platform (SGEO) to enable European Industry to compete in the commercial telecom market for small platforms, and of a full electric propulsion telecommunications satellite (Electra) in the 3 tonne launch mass range, which is currently not existing in Europe. Workshop WS3 Time: Venue: Organizer: Speakers: Recent Advances and Applications of Aerospace Antennas 14:00 - 17:40, Monday, 20 May 2013 Olympic Room A Janet O'Neil: ETS-Lindgren, USA Dennis Lewis, The Boeing Company, USA, “Synthetic Aperture Applications for HIRF in the Aerospace Industry” Vince Rodriguez, ETS-Lindgren, USA, “Half Power Beamwidth Measurements of Radiated Emission Antennas for EMC” Dennis Lewis, The Boeing Company, USA, “Assessment of Aircraft Electromagnetic Environments and Shielding using a Novel Fiber Optic Link and TEM Antennas” John Norgard, NASA/JSC, USA, “EMC Tests of the NASA/Orion Mars/Moon Spacecraft: EMI Effects of the Re-Entry Capsule Parachute Assembly System” Abstract There have been many recent advancements in the use and development of EMC antennas and test systems in the aerospace and government test and measurement communities. Some of these advancements have led to a significant reduction in test time and expense, for example, by utilizing broadband hybrid and TEM antennas to perform commercial and government radiated emissions and immunity standards. TEM antennas are well suited for time domain applications due to their low aperture reflections and clean time domain response. Other advancements involve using traditional EMC antennas and fiber optic links for novel aerospace applications such as aircraft shielding assessment and HIRF applications; these allow for precision measurements over very large distances and harsh operating environments. New systems test approaches are being used to effectively test space flight hardware against various electromagnetic threats as well as characterize complex electromagnetic environments for wireless applications. This workshop brings together a number of different viewpoints on aerospace antenna applications. Speakers include an antenna designer and manufacturer, a metrology laboratory engineer/manager, an R&D engineer, and a chief engineer for Electromagnetic Environmental Effects (E3). Two of the speakers (Rodriguez and Lewis) have been appointed Distinguished Lecturers of the IEEE EMC Society for 20132014. Dennis Lewis received his BS EE with honors from Henry Cogswell College and his MS Physics from the University of Washington. Dennis is a member of the IEEE and several of its technical societies including the Microwave Theory and techniques, Electromagnetic Compatibility and the Antennas and Propagations societies. He serves on the IEEE MTT-S subcommittee 11 on microwave measurements. He is a Senior Member of the Antenna Measurements Techniques Association. He is an active member and past chairman of the Technical Advisory Committee for North Seattle Community College. Dennis has worked at Boeing for 23 years and is recognized as an Associate Technical Fellow. He currently has leadership and technical responsibility for the primary RF, Microwave and Antenna Metrology labs. His recent interests include aerospace applications of reverberation chamber techniques and microwave measurement systems and uncertainties. 33 34 WORKSHOPS AND TUTORIALS Vicente Rodriguez attended Ole Miss, in Oxford MS, where he obtained his B.S.E.E. M.S. and Ph.D. degrees in 1994, 1996 and 1999, respectively. He is currently the Antenna Product Manager of ETS-Lindgren. He has been involved in the RF anechoic design of several chambers, including rectangular and taper antenna pattern measurement chambers, some of which operate from 100 MHz to 40 GHz. Dr. Rodriguez is a Senior Member of the IEEE and several of its technical societies. He is also a Senior Member of the Antenna Measurements Techniques Association (AMTA) and a member of its Board of Directors. Johannes (John) Norgard is a Professor Emeritus at the University of Colorado and the President/CEO of ElectroMagnetic Techniques. His education includes a B.S.E.E. (Co-op) from Georgia Tech; the MS and Ph.D. degrees in Applied Physics from Caltech; and a Post-Doc. in Geophysics from the University of Oslo. He was a Senior Research Scientist at the Air Force Research Lab. He is now the Chief Engineer at NASA/Johnson Space Center for Electromagnetic Environmental Effects. He was also a Distinguished Visiting Professor at the Air Force Academy. He has taught Electromagnetic courses for over 30 years and was the Interim Dean of the College of Engineering, Chair of Mechanical & Aerospace Engineering, Interim Chair of Electrical & Computer Engineering, and the Director of the Electromagnetics Laboratory at the University of Colorado. He was a Professor in the Electrical Engineering Department at Georgia Tech and was a Post-Doctoral Fellow at the Norwegian Defense Research Establishment and Auroral Observatory near Oslo, Norway. He worked at NASA/Jet Propulsion Laboratory while studying at Caltech and was a CoOp student at Georgia Tech while working at the Charleston Naval Shipyard and Polaris Submarine Base. He was also a Visiting Professor at the Tel-Aviv University and at the Air Force Weapons Lab, and was a member of the technical staff of the Bell Telephone Laboratories. He was an Adjunct Professor at Syracuse University and at the University of Houston. He is a Fellow of IEEE for “IR Measurements of EM Fields”. Workshop WS4 Time: Venue: Organizer: Speakers: EMC Regulations 14:00 – 15:40, Tuesday, 21 May Jim Stynes B Chris Zombolas, EMC Technologies Pty Ltd, Australia Chris Zombolas, EMC Technologies Pty Ltd, Australia, "New consolidated Regulatory Compliance Mark (RCM) to replace A-tick and C-tick" Patrick Emery, Australian Communications and Media Authority, "Consolidated Regulatory Compliance Mark" Steve Koster, Washington Laboratories, USA, " International Regulatory Requirements for Wireless Systems" Abstract st On 1 March 2013, the Regulatory Compliance Mark (RCM) replaced the C-tick and A-tick marks and the new Electrical Equipment Safety Scheme (EESS) was introduced. The new national EESS will require the use of the RCM and will replace the current state and territory based electrical safety approval systems. The use of the RCM will require manufacturers, importers and suppliers to register products on the new EESS national data base. The RCM will be a single compliance mark and may only be used after establishing compliance with all applicable regulations including EMC, Telecoms, Radiocoms, Electromagnetic Radiation (EMR) and electrical safety. Chris will explain the new ACMA and EESS regimes including the testing, certification and administrative requirements. To reach the major markets, wireless system designers and operators must understand regulatory schemes to receive proper authorization and approval. The FCC Rules and Regulations cover technical and administrative requirements for sale and marketing of all RF devices. Industry Canada has similar means and requirements for wireless device approvals for Canada. The European CE Marking is regulated by the R&TTE Directive, covering EMC and safety aspects of intentional transmitters. WORKSHOPS AND TUTORIALS Measurement and filing procedures must be followed to gain equipment authorization for any device that transmits radio frequency energy. These requirements are specific to the use, frequency, power, spurious emissions, occupied bandwidth and tolerances. The focus of this workshop will be on the practical application of gaining approval in three major markets: North America and the EU. The role of international standards will also be addressed, Chris Zombolas is the Technical Director of EMC Technologies, an internationally recognized Test Lab, with labs in Australia and New Zealand; specializing in EMC, EMF/EMR, SAR, Electrical Safety and Radio communications testing and approvals. Chris has 32 years’ experience in these test and approvals disciplines. He is an authorized EMC Competent Body and a member of many technical working groups and committees, including the ACMA Techhnical Working Group. He was also a member of the former Radiocommunications Consultative Committees that advised the Australian government on the implementation of the EMC and EMR Regulations. Steve Koster, VP, Washington Laboratories has over 25 years of experience in the EMC and Wireless Testing and Regulations. He operates WLL’s laboratory in Gaithersburg, MD and has presented at IEEE EMC Symposia in the US. He advises clients on regulatory matters, prescribes testing and certification strategies and supervises the conduct of hundreds of tests each year. Workshop WS5 Time: Venue: Speaker: Metamaterials, Periodic Structures and EBG in EMC/Antenna/RF Designs 16:00 – 18:05, Tuesday, 21 May Jim Stynes B Sungtek Kahng, University of Incheon, Korea Abstract As the operating frequency goes higher and the demands on complex architectures of electronics and new materials increase, the classic guide lines and design rules on EMC and RF device designs are facing the challenges and limitations in meeting the requirements. In response to the need to find the alternatives, periodic structures such as FSS are adopted or hybridized with the conventional practices to stop the radiated/conducted noise and unwanted resonance more effectively. Especially, the photonic bandgap design as the periodic structures with perfect or imperfect periodicity is revisited and becomes the EBG by being adapted to RF frequency from optics. With a different motivation, metamaterial is researched that when permittivity and permeability the constitutive parameters of a material are given unusual or usual values, they possibly result in phenomena interpreted meaningful to overcome the limitations above in EMC and microwave engineering. Particularly, the left-handedness and the infinite wavelength are introduced by negative permittivity and negative permeability and zero refractive index, respectively, and they are used to change the direction or phase of wave propagation. The dispersion engineering stemming from the metamaterials has drawn attention in that it is helpful to reduce the volume of a structure and form a bandgap free from the resonance condition of the conventional periodic structure approach. So, in this session, the analysis and design methods of FSS, DNG/SNG/AMC and EBG are dealt with as well as advanced applications to EMC/antenna/RF designs. Also, we discuss the slow-wave effects of a periodic geometry and the resonant slots(non-metamaterial) of DGS and SRR/CSRR. Last but not least, a number of electromagnetic computational methods are shown to efficiently and accurately predict the scattering and radiation of the aforementioned structures. Sungtek Kahng received the Ph.D. degree in electronics and communication engineering from Hanyang University, Korea in 2000, with the specialty in radio science and engineering. He is currently with the department of Information and Telecommunication Engineering at the University of Incheon. His research interests include analysis and advanced design methods of microwave components and antennas including metamaterial technologies, MIMO communication and wireless power transfer. He holds several patents concerning EMC solutions and microwave- and millimeter-wave components. Also, he has 35 36 WORKSHOPS AND TUTORIALS provided consultancy for RF system developers and served the Microwave and Antennas/Propagation Research Groups of the Korean Institute of Electromagnetic Engineering and Science, the IEEE APS Seoul Chapter, and conferences of KJMW 2009, KJJC 2009, GSMM 2010, APEMC 2011, ISAP 2011 as the secretary. Workshop WS6 Time: Venue: Organizer: Speakers: EMC Test methods for Wireless Communications 13:20 – 17:30, Thursday 23 May Jim Stynes B Perry Wilson, NIST Physical Measurement Laboratory, USA Jeremy Taylor, National Instruments, USA, "Coexistence Testing Methods for Medical Product Design" William Young, NIST, USA, "Over-the-Air Test Methods for Wireless Devices" William Young, NIST, USA, "Reverberation Chamber Test Methods for Multiple Antenna Systems' Abstract As wireless devices and communications proliferate, so does the need for test methods that characterize wireless device performance under complex, realistic conditions. In addition to the replicating potentially complicated real-world environmental factors, test methods must incorporate increasingly sophisticated communication signaling techniques, such as multiple-input, multiple-out (MIMO) and orthogonal frequency division multiplexing (OFDM). The combination of complex environments and signaling techniques indicates that traditional EMC testing approaches must be extended to provide meaningful results. Concurrently, freefield and EMC-specific test metrics must be defined to include emerging, highly integrated devices and interference from multiple devices in proximity. This workshop will present current research targeting wireless communication EMC test method development. Of interest are: laboratory methods to simulate real-world multipath environments for device, link, and multiple-antenna-system testing; test methods to simulate modulated wireless signals and their interference potential; test methods that characterize the interoperability of wireless devices; test methods that incorporate interference from radio-frequency identification (RFID) systems; test metrics that tie-to and predict real-world performance. 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. Jeremy Taylor completed his Undergraduate studies in Electrical Computer Systems and Engineering at Monash University with Honours in 2001. Before joining National Instruments (NI) in 2003, Jeremy worked with Linak Australia, designing test and measurement systems. Since joining NI, he has worked as an Applications and Field Engineer. In his current role as a technology and large systems expert with NI, Taylor is involved in defining system level solutions in application areas ranging from spectrum monitoring to power quality monitoring. Being based in the field for over 8 years has given Taylor great insight and knowledge into how engineering is applied across different industries. Taylor regular presents at industry conferences and events including the 2nd Australasian Ground Control in Mining Conference, the 2010 IDC Remote Monitoring and Control Conference and the NI Technical Symposium Graphical System Design conference series. He has also delivered guest lectures at the University of New South Wales. WORKSHOPS AND TUTORIALS William Young obtained a Ph.D. from the University of Colorado in electrical engineering in 2006. He worked at Sandia National Laboratories from 1998 to 2010, where he collaborated with NIST on wireless system metrology beginning in 2003. He joined the Electromagnetics Division at NIST in 2010 where he continues to investigate a variety of wireless communication challenges. Dr. William Young’s experience in wireless communication systems includes diversity antenna design, radio frequency propagation measurements, MIMO system applications, electromagnetic interference testing, and wireless network security analysis. He is currently developing radio frequency laboratory measurement techniques that support standards specification efforts by the National Fire Protection Association (NFPA) for Personal Alert Safety Systems (PASS), and by the CTIA-The Wireless Association for Long Term Evolution (LTE) MIMO technology evaluation. He is also involved in the ANSI C63.27 project, which is focused on test methods for wireless coexistence. He has previously presented material on wireless system metrology at workshops for the IEEE AP and EMC Societies. Workshop WS7 Time: Venue: Organizer: Speakers: Power and Signal Integrity Co-Design for High-speed Circuits 13:20 – 17:30, Thursday, 23 May Jim Stynes A Tzong-Lin Wu, National Taiwan University, Taiwan Madhavan Swaminathan, Georgia Tech, USA Christian Schuster, Technische Universität Hamburg-Harburg, Germany Jun Fan, Missouri University of Science & Technology, USA Tzong-Lin Wu, National Taiwan University, Taiwan Abstract This workshop will focus on the latest progress on the design and modelling methods considering the interaction between the power noise and signal quality in high-speed circuits. New ideas to solve the power integrity problems like power transmission line concepts and electromagnetic bandgap (EBG) structure will be reported. In addition, several new modelling methodologies emphasized on the effect of the power distribution networks (PDN) noise on the signal integrity will also be presented. 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. 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 numerous awards for his distinguished achievements and outstanding contribution. He 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. Christian Schuster (S'98 - M'00 - SM'05) received the Diploma degree in physics from the University of Konstanz, Germany, in 1996, and the Ph. D. degree in electrical engineering from the Swiss Federal Institute of Technology (ETH), Zurich, Switzerland, in 2000. Since 2006 he is full professor and head of the Institute of Electromagnetic Theory at the Hamburg University of Technology (TUHH), Germany. Prior to that he was with the IBM T. J. Watson Research Center, Yorktown Heights, NY, where he was involved in high-speed optoelectronic package and backplane interconnect modeling and signal integrity design for new server generations. His currents interests include signal and power integrity of digital systems, multiport measurement and calibration techniques, and development of electromagnetic simulation methods for communication electronics. 37 38 WORKSHOPS AND TUTORIALS Dr. Schuster received the IEEE Transactions on EMC Best Paper Award in 2001, an IEEE Transactions on CPMT Best Paper Award in 2012, IEC DesignCon Paper Awards in 2005, 2006, and 2010, three IBM Research Division Awards between 2003 and 2005, IBM Faculty Awards in 2009 and 2010, and further awards for conference contributions. He is a member of the German Physical Society (DPG) and several technical program committees of international conferences on signal/power integrity and electromagnetic compatibility. He is currently serving as a Distinguished Lecturer for the IEEE EMC Society in the period 2012-2013, and as a vice chairman for the German EMC Society Chapter in 2013. Jun Fan (S’97-M’00-SM’06) received his B.S. and M.S. degrees in Electrical Engineering from Tsinghua University, Beijing, China, in 1994 and 1997, respectively. He received his Ph.D. degree in Electrical Engineering from the University of MissouriRolla in 2000. From 2000 to 2007, he worked for NCR Corporation, San Diego, CA, as a Consultant Engineer. In July 2007, he joined the Missouri University of Science and Technology (formerly University of Missouri-Rolla), and is currently an Associate Professor with the Missouri S&T EMC Laboratory. His research interests include signal integrity and EMI designs in high-speed digital systems, dc power-bus modeling, intrasystem EMI and RF interference, PCB noise reduction, differential signaling, and cable/connector designs. Dr. Fan served as the Chair of the IEEE EMC Society TC-9 Computational Electromagnetics Committee from 2006 to 2008, and was a Distinguished Lecturer of the IEEE EMC Society in 2007 and 2008. He currently serves as the Vice Chair of the Technical Advisory Committee of the IEEE EMC Society, and is an associate editor for the IEEE Transactions on Electromagnetic Compatibility and EMC Magazine. Dr. Fan received an IEEE EMC Society Technical Achievement Award in August 2009. Workshop WS8 Time: Venue: Organizer: Speakers: HPEM Protection of Commercial Facilities 13:20 – 17:30 Thursday 23 May Olympic Room B William Radasky, Metatech Corporation, USA William Radasky, Metatech Corporation, USA Mike Caruso, ETS-Lindgren, USA This workshop will introduce the two major high-frequency HPEM threats (the high altitude electromagnetic pulse – HEMP, and intentional electromagnetic interference – IEMI) and then will describe the approach taken by the US military to protect important military facilities against the HEMP threat. These topics will then be followed with the adaptation of these protective measures with how high-frequency HPEM protection is performed for civil facilities. The topics will include how to shield new buildings and also how to provide the protection of power system PoEs from HEMP conducted transients. William Radasky received his Ph.D. in Electrical Engineering from the University of California at Santa Barbara in 1981. He has worked on high power electromagnetics applications for more than 44 years. He has published over 400 reports, papers and articles dealing with electromagnetic environments, effects and protection during his career. In recent years he has worked extensively in performing assessments for critical infrastructures to the threats of HEMP, IEMI and severe geomagnetic storms. He is Chairman of IEC SC 77C (EMC: High Power Transient Phenomena), Chairman of IEEE EMC Society TC-5 (High Power EM), and a Working Group Convener for Cigré C4. He founded Metatech Corporation in 1984 in California and is the President and Managing Engineer. Dr. Radasky is very active in the field of electromagnetic compatibility (EMC) standardization, and he received the Lord Kelvin Award from the IEC in 2004 for outstanding contributions to international standardization. He is an IEEE Life Fellow and a registered Professional Engineer in electric engineering. WORKSHOPS AND TUTORIALS Mike Caruso is Director, Government & Specialty Business Development for ETS-Lindgren. He is a recognized leader in the RF Shielded Enclosure/Anechoic Chamber Industry with 30-years’ experience in account management, project management, technical applications, business development, marketing and sales planning. He has a successful track record in assisting customers with technological interpretations, finding and developing strategic partnerships that create value for customers and end-users. His operational experience in running an EMC Laboratory adds to his depth of knowledge of real-world testing and leadership challenges. Mr. Caruso chairs ETS-Lindgren’s HEMP/EMP Product Team and has been involved in a sales, design, engineering and project management capacity for hundreds of projects involving high performance RF Shielding, both large and small over the years, totaling over $75M. Among them is the Benefield Anechoic Facility located at Edwards AFB, CA, and the very first ferrite-lined 10-meter anechoic chamber in North America for IBM in Austin, TX. Mr. Caruso led the EMC Power Electronics testing program for the Boeing 787-8 while at Ingenium Testing Laboratory. 39 40 WORKSHOPS AND TUTORIALS TUTORIALS Tutorial T1 EMC Metrology and Computation Time: Venue: Speakers: 14:00 - 17:40, Monday, 20 May 2013 Jim Stynes B Howard C Reader, University Stellenbosch, South Africa Ernst Burger, FEKO Services, South Africa Abstract The tutorial on EMC Metrology and Computation will lead participants through three laboratory experiments that illustrate fundamental issues in EMC. The first raises simple questions about coupling between parallel wires systems that are either separated or share a common conductor. An unexpected finding is the consequence of making the measurement carelessly. The other two experiments challenge participants on whether or not partial or complete enclosure shielding is necessary in RFI mitigation. The thought process of EMC problem solving though computational tools will then be introduced. The intention is to help visualize and understand the physics of the EM coupling mechanisms. Participants will be introduced to important concepts of computational electromagnetics (CEM) relevant to EMC. A leading CEM software suite will be used to demonstrate the practical application of such tools to the three experiments and also to two more industrially-linked case studies. Howard C. Reader received a Ph.D. in Time Domain Electromagnetics from St. John's College, Cambridge, U.K., in 1985. From 1986 to 1994, he was Lecturer, Senior Lecturer, and Associate Professor at the University of Natal, South Africa. In 1994, he was appointed to the Chair of High Frequency Electronics in the EEEng. Department, University of Stellenbosch, South Africa. His research interests include electromagnetic compatibility, HF metrology and microwave dielectric heating. Current work is directed towards research and consultation on EMC and RFI Mitigation of South Africa's SKA MeerKAT telescopes. Howard is senior member of the IEEE and has recently co-founded the new South African IEEE EMC Chapter, he is a member of the Institution of Engineering and Technology, a Chartered Engineer (U.K.), and serves as South Africa's Union Radio-Scientifique Internationale Commission E (EMI) chair Ernst Burger received an M.Sc.Eng. degree with a specialisation in computational electromagnetics from the University of Stellenbosch, South Africa, in 2000. From 2001 to 2006 he was employed as a radar professional in the South African defence industry before joining EM Software & Systems early in 2006. At EMSS, he worked as consulting engineer before moving into a business development and customer relations role in support of the FEKO suite of computational electromagnetics software. His professional interests include the EM modelling of electrically large platforms for problem solving in the fields of EMC, RCS and radiation hazard analysis. His current work includes the development of FEKO markets in Australia and support of distribution efforts in various other markets as well as the establishment of a CEM consulting service for EMSS. Tutorial T2 Designing for EMC-Fundamentals Related to Printed Circuit Boards Time: Venue: Speaker: 09:00 – 12:40, Monday, 20 May 2013 Jim Stynes A Mark Montrose, Montrose Compliance Services, Inc., USA Abstract Technology of today, when designing printed circuit boards for both EMC compliance and functionality, has advanced to where current design techniques and rules of thumb are becoming less effective. A new view on design engineering must occur if one is to be successful based on use of higher speed components, greater power consumption, higher bandwidth interconnects, along with their incorporation in lightweight enclosures with minimal shielding provided. This workshop has a focus toward hands-on or applied engineering related to printed circuit board design that includes understanding fundamentals of both time- and frequency-domain aspects. Without understanding what Maxwell and Ohms law tells us, we can spend considerable time, money and effort experimenting to achieve EMC at the component level. WORKSHOPS AND TUTORIALS All EMC problems begin and end with electronic circuitry. A printed circuit board is essentially a physical structure used to mechanically support transmission lines, thus transmission line theory is discussed heavily. EMC engineers of today need to understand both signal integrity (time domain) as well as EMI (frequency domain) associated with transmission lines along with advances in printed circuit board manufacturing technology, lossy material, and the need to use of higher-speed printed circuit board core material for GHzbased systems.. Tutorial T3 Decoupling, Bypassing and Embedded Capacitance for Enhanced PCB Performanc Time: Venue: Speaker: 14:00 – 17:40, Monday, 20 May 2013 Jim Stynes A Mark Montrose, Montrose Compliance Services, Inc., USA Abstract With advances in semiconductor manufacturing, larger pin count devices, greater power consumption and higher clock speeds, an optimal power distribution network for printed circuit boards is now a primary concern for designers. Signal integrity must be ensured while maintaining electromagnetic compatibility for an intended operating environment, such as telecommunication, information technology or industrial control. Power plane resonances and lack of energy charge to digital components are now causing functional and operational problems. Understanding how to incorporate basic capacitive structures in power distribution networks is becoming a mandatory aspect of design engineering along with the PCB layout process. Areas of concern deal with application of use, proper implementation techniques, equivalent series resistance/inductance, minimizing lead and loop inductance, discrete component placement, multi-pole methodology, and of course capacitance value. Characteristic parameters on how capacitors function and selection criteria are presented. A case study analyzes what can happen when incorrect use of a single decoupling capacitor occurs. This is an introductory course on designing a power distribution network that targets design engineers who need to understand how and why capacitive structures work in a simplified manner, and how to design an efficient power distribution network at minimal cost. Mark Montrose is principle consultant of Montrose Compliance Services, Inc., a full service regulatory compliance firm specializing in electromagnetic compatibility (EMC) and industrial product safety with over 30 years of applied, hands on experience. He is a professional trainer, consultant and design engineer in all aspects of EMC and authored four popular textbooks with translations. Currently he is a member of the IEEE EMC Society Board of Directors, past president and founder of the IEEE Product Safety Engineering Society, and past Division Director of the IEEE along with being an elected Member of the IEEE Board of Director, 2009-2010. He is an iNARTE (RABQSA) Master EMC Design Engineer and provides consulting and training services worldwide in addition to being an ISO 17025 EMC Assessed Test Laboratory for in situ compliance of industrial products. Tutorial T4 EMC for Engineers: Theory and Practice Time: Venue: Speaker: 09:00 – 12:40, Monday, 20 May 2013 Olympic Room B Christos Christopoulos, University of Nottingham, UK Abstract This is an introductory level short course covering practical issues in EMC design and also some of the modeling techniques used for more sophisticated EMC analysis. The treatment will suit EMC practitioners and also those who are relatively new to the field. Mathematical analysis is kept to a minimum and therefore the material is accessible to a wide range of people. It can also be split into two half-day courses if desired, one on “Practical issues in EMC design” and the other on “Modelling for EMC”. Topics to be covered include: Introduction to EMC EMI Sources, coupling paths and effects of EMI Practical issues in EMC design (stray components, differential- and common-mode currents, radiation and cross-talk, pulse rise-time and bandwidth, shielding segregation and grounding etc) 41 42 WORKSHOPS AND TUTORIALS CAD and simulation techniques in EMC EMC measurements and standards Relation of EMC to Signal Integrity Conclusions and suggestions for self study Tutorial T5 Near field scanning techniques for the characterization of emissions from PCBs Time: Venue: Speakers: 14:00 – 17:40, Monday, 20 May 2013 Olympic Room B Christos Christopoulos, University of Nottingham, UK David Thomas, University of Nottignham, UK Abstract The focus of this tutorial is on the development of emission models for PCBs derived from near-field studies. These models can then be readily incorporated into full-field codes to make predictive studies thus decoupling the complexity of the PCBs from the simulation of large scale problems. The material will cover the extraction of the emission models by experimental techniques, the robustness of the derived models and show how they can be incorporated into full-field solvers. Christos CHRISTOPOULOS was born in Patras, Greece in 1946. He received the Diploma in Electrical and Mechanical Engineering from the National Technical University of Athens in 1969 and the MSc and DPhil from the University of Sussex in 1979 and 1974 respectively. He joined the Department of Electrical and Electronic Engineering, University of Nottingham and has been Professor of Electrical Engineering since 1990 and Director of the George Green Institute for Electromagnetics Research (GGIEMR) since 2001. He is now Emeritus Professor. His research interests are in Computational Electromagnetics, Electromagnetic Compatibility, Signal Integrity, Protection and Simulation of Power Networks, and Electrical Discharges and Plasmas. He is the author of over 400 research publications, five books and several book chapters. He has taught University and Professional courses in many countries worldwide. He served as Chairman of URSI Commission E "Electromagnetic Environment and Interference" in the period 2008-2011. In 2011 he received the IET Ambrose Fleming Medal for Achievement in Information and Communications. He is a Fellow of the Royal Academy of Engineering (FREng). David W. P. Thomas MIET SMIEEE CEng. received the B.Sc. degree in Physics from Imperial College of Science and Technology, the M.Phil. degree in Space Physics from Sheffield University, and the Ph.D. degree in Electrical Engineering from Nottingham University, in 1981, 1987 and 1990, respectively. In 1990 he joined the Department of Electrical and Electronic Engineering at the University of Nottingham as a Lecturer where he is now a Professor of Electromagnetic Applications. His research interests are in electromagnetic compatibility, electromagnetic simulation, power system transients and power system protection. He is a member of CIGRE and convener for Joint the Working Group C4.207 “EMC of communication circuits, low voltage systems and metallic structures in the vicinity of power systems” and the newly formed C4.31 “EMC between communication circuits and power systems”. He is Vice Chair for the IEEE EMC Technical committee T7 on Low Frequency EMC. Tutorial T6 Solving EMC problems using state of the art numerical techniques Time: Venue: Speaker: 09:00 – 12:40, Wednesday, 22 May Jim Stynes B Frank Demming-Janssen, CST-Computer Simulation Technology AG, Germany Abstract The tutoprial will start with a brief overview of the various numerical EM Simulation methods, such as FDTD, TLM, FEM and MoM. These computational techniques are commonly used to investigate EMC/EMI problems. The pros and cons of each technique will be discussed. In addition, some EMC/EMI specific enhancements WORKSHOPS AND TUTORIALS to the above mention standard algorithms will be introduced. The second part of the workshop will focus on the real life application of these numerical techniques to EMC/EMI -problems. A variety of applications will be presented, including the simulation of the shielding effectiveness of enclosures, the calculation of the susceptibility and emission from cable harnesses, EMP, ESD, lightning strike simulations and the calculation of RADHAZ. The presentation will be accompanied by online demonstrations of the workflows used in state of the art EM field simulators. Frank Demming-Janssen Received his Diplom Ingenieur (FH) in Engineering Physics in Oct. 1995 from the University of Applied Science in Münster. From August 1994 to May 1995 he was studying as a Fulbright Scholar at the Institute of Optics at the University of Rochester, N.Y., USA. In Sep. 2001 he received his Ph.D. in Physics from the Technical University of Chemnitz/Germany. He joined Computer Simulation Technology (CST AG) in Jan. 2001 and is currently working as Principal Engineer and Country Manager supporting customers in Northern Germany/BeNeLux and Australia. Tutorial T7 Using Reverberation Chambers for Actual EMC Tests Time: Venue: Speaker: 16:00 – 17:40 Wednesday 22 May Jim Stynes B Frank Leferink, University of Twente/ THALES, Netherlands Abstract Reverberation chambers are becoming very popular. Major advantages are the high field uniformity, the isotropicity and high field strength with only moderate power. In this tutorial an overview of (flexible wall) reverberation chamber (VIRC, or Vibrating Intrinsic Reverberation Chamber) testing is given. The main advantages and some actual tests caried out on large systems will be shown. By using two VIRCs with a common wall in between shielding effectiveness testing can be performed very easily: a dynamic range of over 130 dB at 300 MHz, decreasing to 80 dB at 18 GHz, can be achieved using a normal (scalar or vector) network analyser without any additional amplifiers. Frank Leferink (B.Sc 1984, M.Sc. 1992, PhD 2001, Prof. 2003) has been an employee of THALES Netherlands Since 1984. He is now Technical Authority and responsible for EMC activities within THALES Netherlands. He is manager of the (virtual) Center of Excellence on EMC, comprising the group of more than 100 EMC engineers within the THALES group located at appr. 30 sites in France, United Kingdom, The Netherlands, Italy and Germany. Since 2003 he is (part-time, full-) professor EMC at the University of Twente. He is acting chair of the Telecommunication and EMC group, with 6 staff and 15 PhD researchers, 7 of them are involved in EMC research. He published over 200 papers. He is teaching EMC and Transmission Media courses, and he is involved in training activities towards professionals. He is chair IEEE EMC Benelux, member of ISC EMC Europe, and associate editor of the IEEE Transactions on EMC. His main interest areas are EMI at PCB and IC level and innovative test techniques, such as reverberation chambers. Tutorial T8 High-speed PCB design Time: Venue: Speaker: 9:00 – 12:40, Thursday, 23 May Jim Stynes B Frits Buesink, University of Twente, Netherlands Abstract This tutorial explains the effects encountered in electrical interconnections as frequencies are increased. The simple, low frequency approach based on lumped parameter inductive and capacitive models are replaced by per unit length versions. This becomes critical when a signal transition fits the length of an interconnecting line (combination of risetime and propagation speed). Interconnections become transmission lines and impedance control is necessary to reduce reflections and assure signal integrity. 43 44 WORKSHOPS AND TUTORIALS Another effect is crosstalk between “long” lines. Using several practical demonstrations, these effects are made visible. Measures are then explained and demonstrated that can be used to reduce the undesired effects. One of the tricks is the partitioning of an electrically “large” design into smaller modules using the current boundary. Finally, the similarity between crosstalk and field emission of transmission line structures is explained and demonstrated, together with the measures to reduce both effects. Frits Buesink graduated in 1977 at the Twente University of Technology (UT), Electrical Engineering Department, in Enschede (Netherlands) and works at the former Hollandse Signaal Apparaten, now Thales Nederland B.V. in Hengelo, the Netherlands. In 1989 he became involved with EMC and has set up educational programs for EMC awareness in the various disciplines in the company. He is a member of the Environmental Competence Center at Thales and works as an EMC engineering consultant for various programmes. In May 2009, he also joined the Faculty of Telecommunications Engineering at the Twente University as a part time researcher to coach PhD students in the EMC disciplines. NOTES NOTES www.apemc2013.org GREAT OCEAN ROAD VICTORIA 119 Buckhurst Street South Melbourne VIC 3205 Australia T +61 3 9645 6311 F +61 3 9645 6322 E apemc2013@wsm.com.au www.apemc2013.org