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February 20, 2013

DPC Sponsor: Applied Materials

Button 9th Annual Global Business Council Spring Conference Featuring Presentations from Medtronic, Starkey, Yole, TechSearch, IBM, Cobham and Many Others! (read more...)

Button Thank You Device Packaging 2013 Exhibitors and Sponsors! (read more...)

Button The 2013 IMAPS Microelectronics Foundation Spring Golf Invitational Is Filling Fast (read more...)

Button Technical Training Opportunities on on 3D, Interposers, Flip Chip, MEMS, High Temperature Electronics, Polymers, Glass Technology, Advanced Packaging and more... (read more...)

Button High Temperature (HiTEN 2013) - LAST CALL for Abstracts this Friday (read more...)

   CHAPTER ACTIVITIES (events listed in chronological order)
Bullet San Diego Chapter February 19 Lunch Meeting Featuring DfR Solutions (read more...)

Bullet Arizona Chapter February 21 Lunch Meeting with Presentation on The "New" IC Industry Cycle Model (read more...)

Bullet 2nd Southeastern Microelectronics Packaging Conference - Registration and Exhibits Filling Fast! (read more...)

Bullet Viking Chapter March 21 Social Event at St. Paul Curling Club (read more...)

Bullet Metro Chapter Vendor Day April 11 (read more...)

Bullet New England Chapter's 40 Symposium & Expo - Program "Sampler" (read more...)

Bullet IMAPS France - EMPC 2013 Abstract Deadline This Friday (read more...)

Bullet Advancing Microelectronics January/February 2013 Magazine Now On-Line - Bumping & Wafer Level Packaging...  (read more...)

Bullet Journal of Microelectronics and Electronic Packaging 3rd Quarter 2012 On-Line - Q4 and Q1 2013 Available Soon  (read more...)


RGL Enterprises
F&K Delvotec

Palomar Technologies

TJ Green Associates, LLC


  IMAPS Events (view full Web Calendar)

9th Annual Global Business Council Spring Conference Featuring Presentations from Medtronic, Starkey, Yole, TechSearch, IBM, Cobham and Many Others!    ^ Top
IMAPS 9th Annual GBC Spring Conference and Marketing Forum, Covering the Business Side of Microelectronics Assembly and Packaging, will be held at the Radisson Fort McDowell Resort in Fountain Hills, Arizona from March 10-11, 2013. Visit this week to register, view the program and more.

The IMAPS GBC is pleased to announce its 2013 Spring Conference. Key industry leaders will provide important information on the critical role that supply chain management plays in our global industry. Presenters will address how business models, industry collaboration, and market dynamics can have profound impacts on the increasingly interconnected semiconductor supply chains. Participants will gain valuable industry insight to achieve a competitive advantage in product development, manufacturing, marketing, and sales. The conference will facilitate networking with key decision-makers across our broad industry supply chain.

Thank you to the GBC Speaker Dinner Sponsors:
GBC Speaker Dinner Sponsor: Solid State Equipment Corp.
GBC Speaker Dinner Sponsor: ASE US, Inc.
GBC Speaker Dinner Sponsor: Amkor Technology
GBC Speaker Dinner Sponsor: Kyocera America

Sunday, March 10, 2013

5:30 - 7:30: Registration and GBC Welcome Reception (Beverages and Appetizers)
7:30 - 9:00: Speaker Dinner (by Invitation)

Monday, March 11, 2013

7:00am - 5:00pm -- Registration
7:00am - 8:00am -- Continental Breakfast

8:00am - 8:15am -- Opening Remarks
Steve Annas, Vice President of Operations, nMode Solutions, Inc.
Chair of the IMAPS Global Business Council

8:15am - 11:55am -- Morning Session:
Medical Electronics Trends for Evolving Healthcare Ecosystems

Moderator: Iris Labadie, Kyocera America; Peter Tortorici, Medtronic, Inc.

8:15am - 9:00am -- “Medical Electronics Crossroad – from Healthcare to Health”
Keith Lindor, Arizona State University

9:00am - 9:30am -- “Implantable Electronics Technology Needs for Improved Cost Efficient Care and Emerging Markets”
David Ruben, Fellow and SMTS, Medtronic, Inc.

9:30am - 10:00am -- “Supply Chain Issues With New Electronic Packaging Technologies”
John Dzarnoski, Director of Microelectronic Packaging, Starkey Hearing Technologies

10:00am - 10:20am -- Coffee Break

10:20am - 10:50am -- “Collaborating to Compete: Biomedical Sensor Failure Prediction”
Colin Drummond, Department Director, Case Western Reserve University

10:50am - 11:20am -- “Latest Trends in Advanced Packaging Technologies and Focus on Medical Applications”
Lionel Cadix, Technology & Market Analyst, Advanced Packaging, Yole Développement

11:20am - 11:55am -- “Opportunities for Microelectronics Packaging Technologies to Advance Wireless/Mobile Health”
Mehren Mehrgany, Director, Case Western Reserve University

12:00pm - 1:00pm -- Lunch & Keynote Presentation

“The 'New' IC Industry Cycle Model”
Bill McClean, President, IC Insights

1:15pm - 5:10pm -- Afternoon Session:
Trends in Microelectronics & Factors Shaping Enabling Technologies

Moderator: Lee Smith, Plexus Corp.; David D’Ambra, DuPont Microcircuit Materials

1:15pm - 2:00pm -- “Saving Lives with MEMS and Sensors: Advancements in Packaging”
E. Jan Vardaman, President, TechSearch International

2:00pm - 2:30pm -- “Material Requirements for the Electronics Industry today and in the Next Decade”
Vern Stygar, Program Manager, AGC Electronics

2:30pm - 3:15pm -- “Microelectronics: Driving Increased Energy Productivity”
Jeff Perkins, Senior Director of Business Development, Energy & Resource Solutions

3:15pm - 3:30pm -- Coffee Break

3:30pm - 4:10pm -- “Supply Chain Eco-systems for Next Generation 3D and High-density Flip Chip Interconnection”
Jean Trewhella, Director of Packaging Research and Development Center, IBM

4:10pm - 4:40pm -- “Defense Electronics Today and in the Next Decade”
Mark Darrow, Director of Sales, Cobham Defense

4:40pm - 5:10pm -- “Virtual Factory: Cloud Based System for Global Manufacturing & Data Management”
Simon Gonzales, Executive Director of Operations, Murata - RF Monolithics, Inc.

5:10pm - 5:20pm -- Closing Remarks, Final Questions, and Conference Evaluation
Steve Annas, Vice President of Operations, nMode Solutions, Inc.
Chair of the IMAPS Global Business Council

Device Packaging Welcome Reception
5:15pm - 6:45pm (Beverages and Appetizers) GBC Participants Invited

Texas Hold'em Poker Tournament
7:00pm – 10:00pm -- To benefit the IMAPS Educational Foundation

Thank You Device Packaging 2013 Exhibitors and Sponsors!    ^ Top
IMAPS 9th International Conference and Exhibition on Device Packaging will be held at the Radisson Fort McDowell Resort in Fountain Hills, Arizona from March 11-14, 2013. Visit this week to register, view the program and more. The exhibit hall has sold out again this year. Thank you to all our exhibiting companies and the sponsors supporting the many aspects of the Conference!

Exhibitor Contact name Booth Booth Type Booth Category
3D Plus USA Dargnies Timothee Booth: 51 8 x 10 Corner
ACM Research, Inc. Lee Michael Booth: 29 8 x 10 Corner
AdTech Ceramics Wade Jim Booth: 26 8 x 10 In-Line
AGC Electronics America Stygar Vern Booth: 13 8 x 10 In-Line
AI Technology, Inc. Boersig Charles Booth: 35 8 x 10 In-Line
ALLVIA, Inc. Sparrer Natalie Booth: 39 8 x 10 In-Line
Amicra Microtechnologies GmbH Gisler Walter Booth: 63 8 x 10 In-Line
Amkor Technology Patterson Deborah S. Booth: 47 8 x 10 Corner
ASE Group MacLeod Patricia Booth: 50 8 x 10 Corner
ASM Pacific Technology, Ltd. Troche Bud Booth: 62 8 x 10 In-Line
Atotech USA, Inc. Roberts Hugh D Booth: 33 8 x 10 Corner
Axus Technology VanDevender Barrie Booth: 16 8 x 10 In-Line
Azimuth Electronics, Inc. Johnsen Kenneth C Booth: 41 8 x 10 In-Line
Boschman Technologies / Advanced Packaging Center Crane John H Booth: 49 8 x 10 In-Line
Canon USA, Inc. Shelton Doug Booth: 10 8 x 10 Corner
Chalman Technologies, Inc. Chalman Keith Booth: 3 8 x 20 In-Line
Cleanlogix LLC Lee John Booth: 57 8 x 10 In-Line
CMS Circuit Solutions, Inc. Steddom Clark Booth: 65 8 x 10 Corner
CPS Technologies Sullivan Bo Booth: 53 8 x 10 In-Line
Dow Electronic Materials Forman Robert S Booth: 36 8 x 10 In-Line
DYCONEX AG (shared with MSE) Stutz Melanie Booth: 15 8 x 10 Corner
Dynaloy Scheele Diane Booth: 60 8 x 10 In-Line
Endicott Interconnect Technologies Orband James Booth: 06 8 x 10 Corner
F&K Delvotec Inc. Bailey Rick Booth: 58 8 x 10 In-Line
Finetech, Inc. Gerard Adrienne Booth: 25 8 x 10 Corner
FRT of America, LLC Flynn Paul Booth: 07 8 x 10 In-Line
Hesse Mechatronics Bubel Joseph S Booth: 01 8 x 20 Corner
IMAT, Inc. Feigner Eric Booth: 05 8 x 10 Corner
Infinite Graphics, Inc. Maitland Pete Booth: 19 8 x 10 Corner
Interconnect Systems, Inc. Thomas Joretta Booth: 48 8 x 10 In-Line
Kyocera America, Inc. Labadie Iris Booth: 22 8 x 10 In-Line
LINTEC of America Le Yukiyo Booth: 27 8 x 10 In-Line
Micro Hybrid Dimensions, Inc. Spradlin Greg Booth: 23 8 x 10 In-Line
Micro Systems Engineering GmbH (shared with Dyconex) Stutz Melanie Booth: 15 8 x 10 Corner
Micross Components Riordan John Booth: 64 8 x 10 In-Line
Mini-Systems, Inc. Tran Minh Booth: 31 8 x 10 In-Line
Mitsubishi Materials Corporation Nagashima Megumi Booth: 24 8 x 10 Corner
NAMICS Corporation Jensen Richard C Booth: 42 8 x 10 Corner
nMode Solutions, Inc. Annas Steve Booth: 12 8 x 10 In-Line
Oneida Research Services, Inc. McEwen James Booth: 28 8 x 10 Corner
Pac Tech Packaging Technologies USA Sarkar Mausumi Booth: 54 8 x 10 Corner
Palomar Technologies, Inc. Sylvester Jessica Booth: 32 8 x 10 Corner
Polysciences, Inc. Gidzinski Ashley Booth: 56 8 x 10 In-Line
Pure Technologies, LLC Cohn Jerry Booth: 20 8 x 10 Corner
PVA TePla America, Inc. Chrysostomou Demetri Booth: 59 8 x 10 In-Line
Riv, Inc. Keefe Tania Booth: 30 8 x 10 In-Line
Rudolph Technologies, Inc. Pauling Amy Booth: 55 8 x 10 Corner
SANTIER Klun Leonard Booth: 34 8 x 10 In-Line
Sentec Electro Ceramic & Device Group Huang Jason Booth: 40 8 x 10 In-Line
SETNA Phillips Matt Booth: 45 8 x 10 In-Line
Sikama International, Inc. Skeen Phil Booth: 21 8 x 10 In-Line
Solid State Equipment Corporation Voltz John Booth: 38 8 x 10 Corner
Sonoscan, Inc. Lykowski Janet Booth: 61 8 x 10 In-Line
STATS ChipPAC, Inc. Lavin Lisa Booth: 52 8 x 10 In-Line
Surfx Technologies Weaver Gregg Booth: 8 8 x 10 In-Line
TDI International DeJean William Booth: 11 8 x 10 Corner
TechSearch International, Inc. Travelstead Becky Booth: 37 8 x 10 Corner
Teledyne Microelectronic Technologies Fletcher Sharon Booth: 46 8 x 10 Corner
Trace Laboratories, Inc. Pawluk Nick Booth: 9 8 x 10 In-Line
Unisem Group Chiu Gil Booth: 18 8 x 10 In-Line
West Bond, Inc. Witters Lorri Booth: 43 8 x 10 Corner
XIA, LLC McNally Brendan Booth: 17 8 x 10 In-Line
XYZTEC Schade Dirk Booth: 44 8 x 10 In-Line
Yole Developpement Favre Camille Booth: 14 8 x 10 Corner
Booth Count:

Premier Sponsors:

DPC/GBC Premier Sponsor: Solid State Equipment Corp.

Golf Hole Sponsor: Amkor Technology
DPC/GBC Premier Sponsor: ASE US, Inc.
Event Sponsors:
ALLVIA - Event Sponsor
Applied Materials - Event Sponsor
Hole Sponsor: NAMICS
3D Panel Sponsor: Invensas
Sponsor: SANTIER
Golf Hole Sponsor: SETNA
STATSChipPAC - Coffee Break Sponsor
Sikama - Coffee Break Sponsor
Kyocera - GBC Speaker Dinner Sponsor
Golf Hole Sponsor: Infinite Graphics
Golf Hole Sponsor: Coining Inc/SPM
Golf Hole Sponsor: AGC Electronics America
Yole Developpement
3D InCites - Media Sponsor

Questions? Or looking to have your company involved...
Contact Brian Schieman by email at or by phone at 202-548-8715.

The 2013 IMAPS Microelectronics Foundation Spring Golf Invitational Is Filling Fast    ^ Top
Thursday, March 14, 2013
1:00pm Shotgun Start – “Best Ball” Scramble
Desert Canyon Golf Club
10440 Indian Wells Drive | Fountain Hills, AZ

The IMAPS Microelectronics Foundation Spring Golf invitational will be held at the Desert Canyon Golf Club. Desert Canyon was named 2009 “Best Places to Play” by Golf Digest and has been voted “Best Public Golf Course” in Fountain Hills for six consecutive years. Desert Canyon Golf Club’s eighteen hole championship course features elevated tees coupled with a variety of elevation changes. Fairways, though open, play tight and prove challenging with strategically placed doglegs.

Cost: $125/golfer -- $450/four-some
The cost includes: Transportation to and from the course, greens/cart fees, shotgun start, lunch in cart, and awards reception following your round.

A shuttle will pick up golfers at the Radisson Fort McDowell at 12:00pm. Golfers will tee off shortly after arriving at the course – 1:15pm shotgun start. Golfers are welcome to drive themselves to arrive earlier. An awards presentation and reception will be held immediately following golf.

All proceeds from this event will benefit the IMAPS Microelectronics Foundation.

Special Awards and Activities tentatively planned:

  • Closest to the Pin;
  • Longest Drive

Sponsorship Opportunities:

Eagle Sponsor - $3,000 -- 2 SOLD

  • Company logo/name displayed as Awards Reception Sponsor.
  • Entrance of two four-somes.
  • Includes three hole sponsorships with signage.
  • Company logo/name on all event promotional signs, materials and website.
  • Company may provide take-away products to be handed to all golfers. Golf-related items usually most appropriate (e.g., golf towels, balls, tees, etc.). At expense of sponsor.

Birdie Sponsor - $1,500 -- 1 SOLD

  • Company logo/name displayed as Lunch Sponsor - in/on boxed lunches.
  • Entrance of one four-some.
  • Includes one hole sponsorship with signage.
  • Company logo/name on all event promotional signs, materials and website.

Hole Sponsor - $400 ($750 w/ four-some) -- 13 SOLD

  • Sponsorship of one hole with signage.
  • Entrance of one golfer ($400 or $750 includes 4-some).
  • Company logo/name on promotional materials and website.

Register On-line

Technical Training Opportunities on on 3D, Interposers, Flip Chip, MEMS, High Temperature Electronics, Polymers, Glass Technology, Advanced Packaging and more...    ^ Top
IMAPS 9th International Conference and Exhibition on Device Packaging will be held at the Radisson Fort McDowell Resort in Fountain Hills, Arizona from March 11-14, 2013. Visit this week to register, view the program and more.

For those wishing to broaden their knowledge of device packaging, a selection of half-day courses will be offered on Monday, March 11th, preceding the technical conference (and for an additional registration fee). Morning PDCs will run from 8:00am until 12:00 noon. Afternoon PDCs will be held from 1:00pm until 5:00pm. The Welcome Reception will immediately follow the PDCs from 5:00pm until 6:30pm in the foyer. A Microelectronics Foundation Texas Hold-em Tournament will be held this year from 7:00pm until 10:00pm (TBD).

When you register on-line for these courses, you should first select your Device Packaging Conference registration category on page 1, and then under SESSIONS (page 2 of registration) you will select your PDCs. If you DO NOT plan on attending the conference (Tuesday-Thursday), then simply select EXHIBITS ONLY on page 1 ($0 charge) and then select your PDCs on page 2. Contact with questions..

Morning Professional Development Courses
8:00 am - Noon
Monday, March 11

PDC1: 2.5D/3D, Flip Chip WLP, MEMS & LED Packaging Trends, Updates & Advances
Course Leader: Phillip G. Creter, Creter & Associates

Course Description:
This NEW overview focuses on the four technical topics of this 2013 Device Packaging Conference, independently reviewing leading edge technical developments featuring the latest in microelectronics updates/trends.

Specific topics from 2012-1Q2013 conferences, technical papers, news reports:

- 2.5D/3D (Status/market, wide I/O memory stacking, polymer isolated TSVs, silicon bridge TSVs, fusion glass substrates, wafer adhesives, thin stacking, test vehicle demos, self-assembly).
- Flip Chip Wafer Level Packaging (Status/market, fine pitch copper pillars, electromigration, intermetallic compound studies, non-conductive film used in wafer level underfill, low cost FC-PoP, electromigration of lead free solder bumps).
- MEMS (Status/market, challenges, novel approaches, hermetic wafer level packaging, drop reliability, flex adhesive).
- LED Packaging (Status/market, high power heat sinks/die attach material, novel encapsulants, silicon/glass/GaN substrates).

Technical innovations related to the above topics presented with input from leading industrial/academic institutions: Advanced Semiconductor Engineering/ASE, Altera, Amkor, CEA-Leti, Corning, DELO, Georgia Institute of Technology, Global Foundries, Hitachi, Hong Kong University, IBM, IFTLE, Intel, ITRS, Karlsruhe Institute, Microsystems, NAMICS, National Tsing Hua University, Oracle, Philips Lumileds, Qualcomm, Samsung, Sandia National Labs, Sematech, Solid State Technology, Siliconware Precision Industries/SPIL, TechSearch, Tohoku University, Toray, Toshiba, University of California, Wuhan National Laboratory for Optoelectronics, Xilinx, Yole and others.

Emphasis on visual aids (photos, figures, videos) with pass-around microcircuit samples. An invaluable handout includes over 100 references.

Who Should Attend?
Designed primarily for all engineers, scientists and others interested in an up-to-date overview of new developments in 3D, Flip Chip, MEMS and LED. The course uses simple terms and many graphics and figures to describe these elements of advanced packaging for those who are new to the field and needing a running start in these four focused areas of packaging technology. Ideal for entry-level technicians and engineers but also for people in quality assurance, sales, marketing, purchasing, safety, administration and program management since it also includes a short review of current single chip and advanced wafer levels of 3D packaging.

Phillip Creter is a consultant (Creter & Associates) with 30 years of microelectronics experience at Polymer Flip Chip, Mini-Systems, GTE, Itek Corporation. Past positions at GTE included Microelectronics Center Manager (received GTE Corporate Lesley Warner Technical Achievement Award), and Principal Investigator of GTE IR&D Projects. Other positions elsewhere included management in Projects/Process Engineering, Process Development, Materials Engineering/Manufacturing Engineer, receiving many awards of distinction. Creter has been teaching college-level microelectronics courses since 1997. He has continuously taught PDCs since 2004 for online webinars and national microelectronics symposia/workshops. He is a well-known presenter having published technical papers in IEEE Transactions, Solid State Technology, High Density Interconnect, Circuits Manufacturing, Insulation Circuits, others. He has chaired many technical symposia sessions, given numerous technical presentations, is a US patent-holder. He is an active certified Department of Homeland Security instructor, a Life member of IMAPS, elected Fellow of the Society, and has held several executive committee offices both locally/nationally.

PDC2: Recent Advances in Glass and Silicon Interposers for 2.5D and 3D Integration
Course Leader: Venky Sundaram, Georgia Institute of Technology (PRC)

Course Description:
This course will present a comprehensive review of the latest 2.5D and 3D interposer approaches being developed worldwide. High density interposers are emerging as a mainstream technology for packaging of heterogeneous ICs and 3D ICs, but also as a simpler and better alternative to 3D ICs with TSV, eventually providing a path for integration of sub-systems or entire systems. Silicon and glass interposers are emerging as the front-runners to address the I/O, CTE, warpage and thermal limitations of current organic packages. The topics covered include Electrical & Mechanical Design, Silicon Interposers, Glass Interposers, Chip Level & Board Level Interconnections, Applications and Markets, and Manufacturing Infrastructure for interposers. Wafer based BEOL Si interposers as well as emerging panel based glass and other interposer technologies will be described in detail. A variety of materials and process options for interposer fabrication will be presented. The technical and business challenges that must be addressed for successful implementation of interposers in 3D packages will be discussed. Specific examples of key interposer developments such as Xilinx stacked silicon interconnect, MEMS packaging using glass interposers, silicon interposer for high performance CPU packaging, and logic-memory high bandwidth 3D integration will be highlighted. For 2013, the course materials will be updated to include technology highlights in the past twelve months.

Who Should Attend?
This popular course is a must-attend event for those highly interested in interposer technology advances for the future. The course is intended for a broad audience including semiconductor and packaging managers, technologists, engineers, industry and academic researchers, and students.

Dr. Venky Sundaram is the Director of Research at the 3D Systems Packaging Research Center (PRC), Georgia Tech. He is the Program Manager for the Silicon and Glass Interposer (SiGI) industry consortium with more than 25 active global industry members. His research expertise is in the areas of System on a Package (SOP) technology, 3D packaging and integration, ultra-high density interposers, embedded components and systems integration. He is a globally recognized expert in packaging technology and a co-founder of Jacket Micro Devices, an RF/wireless start-up acquired by AVX. Dr. Sundaram is the co-chairman of the IEEE CPMT Technical Committee on Interconnections and Substrates and is on the Executive Council of IMAPS as Director of Education Programs. Dr. Sundaram has won several best paper awards and has 15+ patents and 100+ publications. He received his BS from IIT Mumbai, and MS and PhD in Materials Science and Engineering from Georgia Tech.

PDC3: High-Temperature Electronics - with an Emphasis on Assembly & Packaging
Course Leader: Randall Kirschman, Consultant

Course Description:
High-Temperature Electronics (HTE) is a valuable option for substantially improving overall system performance. Operating temperature can be an additional design parameter when justified by system performance requirements. Applications of HTE include many areas of science and technology, including petroleum and geothermal wells, vehicles, aircraft, Solar System exploration, and electric power. Relocating electronic subsystems to high-temperature can improve overall system efficiency, decrease size and weight, simplify maintenance and improve reliability. At the same time there are many technical challenges, related to materials interactions, component behavior, circuit design and interfacing. The focus of this course is semiconductor electronics assemblies at high temperatures: applications, advantages and drawbacks, technical issues and present situation. Topics include semiconductor device behavior and capabilities, packaging and assembly materials characteristics as a function of temperature, passive electronic component behavior, practical aspects of choosing packaging and assembly material and techniques. The temperature range covered in this course extends from 125°C upward, as high as 1000°C, although emphasis is on the more practical range of approximately 125°C to 300°C. The course notes include approximately 160 PowerPoint slides, more than 100 pages of detailed notes, and more than 300 references.

Who Should Attend?
Engineers and technical persons developing, designing or working with electronics for operation at high temperatures. A basic background in electronic materials and devices will be helpful.

Dr. Randall Kirschman is an internationally recognized authority on extreme-temperature electronics. He has been consulting to industry, government and academe since 1980 in the areas of micro-electronic materials and fabrication technology, and electronics for extreme temperatures. Before going into business for himself, he managed an R&D processing laboratory a division of Eaton Corporation, where he was responsible for the fabrication of microwave thin-film circuits. Prior to that he was on the staff of the Jet Propulsion Laboratory, performing research on a variety of semiconductor materials and devices. During 1990-91 he was a Visiting Senior Research Fellow at the University of Southampton, England. and between 1998-2005 was a member of the Physics Department at Oxford University. He edited the 1999 IEEE Press/Wiley book High-Temperature Electronics. He completed his undergraduate studies at the University of California, and earned his Ph.D. in Physics and Electrical Engineering at the California Institute of Technology.

PDC4: Hermetic Sealing and Testing of Small Volume MEMS Packages
Course Leader: Thomas J. Green, TJ Green Associates LLC

Course Description:
Reliable packaging of MEMS requires the ability to create and maintain a suitable inert atmosphere or vacuum inside the package cavity for the expected lifetime of the device. Traditional hermetic ceramic/metal packages are being replaced by wafer level packaging techniques, which present unique challenges from a hermeticity testing perspective. This course begins with an overview of traditional hermetic sealing processes along with wafer level MEMS packaging processes and methods. In some cases near-hermetic packages, such as LCP are suitable for some applications. Testing of small cavity MEMS packages according to the traditional Mil Spec TM 1014 requirements may not be sufficient to guarantee reliable operation. Difficulties and limitations in fine leak testing of small volume packages will be addressed. Recent advances in Optical Leak Testing (OLT), Cumulative Helium Leak Detection (CHLD) along with other hermeticity techniques, such as pirani vacuum sensors, are reviewed in light of the new tighter hermeticity specifications. Gaseous ingress is of primary concern for a small volume MEMS cavity packages. Moisture level vs. surface area to volume ratio is an important concept, along with material outgassing and the potential to mitigate these problems with getters. These along with other critical MEMS packaging issues are addressed.

Who Should Attend?
This PDC is intended as an intermediate level course for process engineers, designers, quality engineers, and managers responsible for packaging and hermetic testing of small volume cavity style packages.

Thomas J. Green is the principal at TJ Green Associates LLC (, a veteran owned small business specializing in teaching and consulting for the microelectronics industry. Tom has demonstrated expertise in sealing and hermeticity testing of products intended for high rel military and medical applications. He is currently on the JEDEC committee helping to revise TM 1014 and has served as an expert witness in medical cases related to hermeticity failures. Tom is an active member of IMAPS and a Fellow of the Society. He has a B.S. in Materials Engineering from Lehigh University and a Masters in Engineering.

PDC5: Failure Mode Analysis of Flip Chip and Advanced Package and Board Assemblies
Course Leader: Daniel Baldwin, Engent, Inc.

Course Description:
Over the past few years, numerous advanced packaging and process technologies have emerged such as flip chip in package, PoP, SiP, WLCSP, 3D-WLCSP, QFN, etc.. While a large number of technical publications are available to help with process requirements, understanding failure modes and reliability standards is essential for these technologies to be successfully sustained in production. This course will present reliability test procedures, assembly process defects, and common failure modes that occur in advanced package and board level assemblies. It will focus on process defect identification and resolution, failure mechanisms and the associated analysis tools needed to identify them such as FTIR, XRF, transmission X-ray analysis, acoustic microscopy and scanning electron microscopy. Numerous process defects and failure modes will be presented along with extensive visual aids to provide a more intuitive understanding of the defects and failure modes associated with these advanced assemblies. It will also discuss artifacts leading to process defects and how they can contribute to premature failure.

Who Should Attend?
Individuals associated with electronics packaging, package reliability, package failure analysis, and assembly process control/defects are encouraged to attend. The following are encouraged to attend. Managers. Knowledge gained through this course will allow managers to make informed decisions about the technical feasibility, implementation factors, performance benefits, reliability, and risks of implementing flip chip technology. Engineers. Manufacturing, quality, design, and packaging engineers in integrated circuit, equipment, materials, and system design who are challenged to solve process defects and packaging problems. Knowledge gained through this course will allow engineers and technologists to make informed decisions about the technical feasibility, implementation factors, performance benefits, reliability, and risks of implementing flip chip technology.

Dr. Daniel F. Baldwin is the President and CEO of Engent, Inc.-Enabling Next Generation Technologies providing enabling manufacturing services and process technologies in the areas of microelectronics, flip chip, optoelectronics, and MEMS. He is one of the 2003 founding partners of Engent. He recently completed an Adjunct Associate Professor of Mechanical Engineering position at the Georgia Institute of Technology. He was a tenured Associate and Assistant Professor of Mechanical Engineering at Georgia Tech from 1995 through 2005. At Georgia Tech, he headed the Low Cost Flip Chip Processing program for the Packaging Research Center, the Advanced Interconnect Technologies research program for the Manufacturing Research Center, and the Low Cost Assembly Processing Program for the CBAR. Prior to joining the faculty, he was a Member of the Technical Staff at Bell Laboratories, Princeton NJ working on electronic product miniaturization. He was formerly the Vice President of Siemens' Advanced Assembly Technology Division. He also served as a research manager and research assistant at MIT's Laboratory for Manufacturing and Productivity from 1990 to 1994, a Draper Fellow at the Charles Stark Draper Laboratory in Cambridge MA from 1988 to 1990, and an Engineering Intern for Mitsubishi Electric, Kamakura, Japan in 1987. Dr. Baldwin received his S.M. and Ph.D. degrees in Mechanical Engineering from MIT in 1990 and 1994, respectively. Dr. Baldwin served as the Technical Program Chair of the IMAPS 2nd International Advanced Technology Workshop on Flip Chip Technology and the General Chair of the IMAPS 3rd International Advanced Technology Workshop on Flip Chip Technology. Dr. Baldwin was the recipient of the ASME Electrical and Electronics Packaging Division's Outstanding Young Engineer Award, 1998 and the Milton C. Shaw Outstanding Young Manufacturing Engineer Award, Society of Manufacturing Engineers, 1999. He has sixteen years of experience in the electronics manufacturing and packaging industries, eight U.S. Patents, over 230 scholarly publications, and expertise in electronics packaging, MEMS packaging, advanced materials processing and manufacturing systems design. Dr. Baldwin is a past President of the Surface Mount Technology Association (SMTA), and formerly on the Board of Advisors for the Society of Manufacturing Engineers/Electronics Manufacturing Division (SME/EM). He was on the editorial advisor board of Advanced Packaging magazine and HDI magazine. He is on the Board of Directors of Engent, Inc. and Akrometrix, LLC, and the Board of Advisors for IC Interconnect. Dr. Baldwin was also on the technical Board of Advisors of RFIDentics Corp. which was acquired by Avery Dennison Corp.

Break: 10:00 am - 10:20 am

Afternoon Professional Development Courses
1:00 pm - 5:00 pm

PDC6: Fundamentals of Glass Technology and Applications for Advanced Semiconductor Packaging
Course Leader: TJ Kiczenski, Corning, Inc.

Course Description:
The objective of this course is to build a foundation of understanding of engineered glass as a material that technologists can leverage in the development of advanced IC packaging applications. Starting from the fundamental principles of glass structure, composition and properties we will provide a broad overview of glass with a focus on unique attributes that make glass as an enabling material. Subjects to be covered will include strength and reliability, chemical durability, thermal behavior, associated thermal relaxation behavior, and electrical properties. Additionally we will review the platform alternatives as part of the "glass toolkit" available to semiconductor packaging development including various manufacturing (melt & form) approaches, the diversity of compositional options and a survey of glass processing options that can be adapted from adjacent glass technology space to advanced semiconductor packaging. Finally the course will illustrate with case studies how glass is contributing to emerging 3D-IC technologies and explore current and potential applications in advanced semiconductor packaging. We will focus on its role as a carrier for temporary bonding, integrated wafer for CMOS Image Sensor, and 2.5D and 3D glass interposers. Relative costs of glass will be discussed as an alternative to other materials for carriers and interposers.

Who Should Attend?
The target audiences include individuals or companies with little or no experience in using glass. Engineers, technical managers, scientists, buyers, and managers involved in materials, research and development, and 3D IC packaging.

Dr. TJ Kiczenski is a Research Associate with Corning Incorporated. His work includes investigations of the physics of glass relaxation, liquidus relationships in multicomponent glass forming systems, metallic glasses, and glass/glass and glass/ceramic composite materials. He is credited as the inventor or co-inventor of several Corning Display Technology products manufactured by the proprietary fusion process, including Corning Lotus Glass for low-temperature polysilicon display applications. He received his PhD in Geology and M.S. in Materials Science from Stanford University where he investigated the structure of fluorine in silicate and aluminosilicate glasses and his B.A. degree in Physics from Coe College where he studied alkali-germanate glasses. Aric Shorey, PhD, is a Sr. Technical Manager at Corning Incorporated working on the Semiconductor Glass Wafer program. He has BS/MS in Mechanical Engineering and a PhD in Materials Science - all from the University of Rochester. He has spent the majority of his career in material's finishing and characterization for the telecommunications, precision optics and semiconductor industries.

PDC7: Polymers for Electronic Packaging
Course Leader: Jeffrey Gotro, InnoCentrix, LLC

Course Description:
This course will provide a broad overview of polymers and the important structure-property-process-performance relationships for electronic packaging. Topics to be covered are thermosetting polymers versus thermoplastics, thermosetting polymer curing, curing mechanisms (heat and light cured), network formation, and an overview of key chemistries used (epoxies, acrylates, polyimides, bismaleimides, curing agents, and catalysts). The course will provide a more in-depth discussion of the chemistries, material properties, and process considerations for adhesives (both paste and film), capillary underfills, packaging substrate materials, encapsulants (mold compounds), and coatings. In most cases, adhesives, underfills, mold compounds and coatings are applied as a viscous liquid and then cured. The flow properties are critical to performance in high volume manufacturing. The final portion of the PDC will provide an introduction to rheological characterization methods (various types of rheometers and viscometers) and the properties of adhesives (shear thinning, viscosity, time dependence, rheology changes during curing), underfills, and mold compounds.

Who Should Attend?
Packaging engineers and R&D professionals involved in the development, production, and reliability testing of semiconductor packages would benefit from the course.

Dr. Jeffrey Gotro has over twenty-six years experience in polymers for electronic applications and composites having held scientific and leadership positions at IBM, AlliedSignal, Honeywell, and Ablestik Laboratories. He is an accomplished technology professional with demonstrated success solving complex polymer problems, directing new product development, and enabling clients to improve the financial impact of their polymer technologies. Jeff has consulting experience with companies ranging from early-stage start-ups to Fortune 50 companies. Jeff is a nationally recognized authority in thermosetting polymers and he has received invitations to present lectures and short courses at national technical conferences. He has published 60 technical papers (including 4 book chapters) in the field of polymeric materials for advanced electronic packaging applications, holds 13 issued US patents, and has 8 patents pending. Jeff has a Ph.D. in Materials Science from Northwestern University with a specialty in polymer science and a B.S. in Mechanical Engineering/Materials Science from Marquette University.

PDC8: Thermal and Mechanical Simulation Techniques - An Introductory Course for 3D Enablement Professionals
Course Leader: Kamal Karimanal, Cielution LLC

Course Description:
The industry is becoming increasingly aware of the fact that thermal and mechanical factors are crucial hurdles to the realization of TSV based 3 Dimensionally stacked IC products. These challenges are pervasively felt at all stages of the product development cycle starting from Layout, IC design, power management, assembly processing strategy, package design, and testing. Due to the need to narrow down from a myriad of costly choices even prior to test chip or prototype development, engineering simulation is an important tool at the disposal of the engineer. As a result, engineers from all IC design and packaging background who are tasked with the responsibility of enabling 3D ICs are interested in utilizing thermal and mechanical simulation. This is an introductory course on thermal and mechanical simulation techniques pertaining to 3D Through Silicon Stacking meant for engineering professionals involved in the enablement of TSV based 3D stacked SOCs. Thermal Modeling Techniques: Steady-State, Transient, Detailed and Compact. Modeling Tools and Techniques for 3D IC Thermal Management. Overview of mechanical challenges to 3D stacking: warpage, assembly Yield, CPI effects on Yield & reliability Mechanical Modeling Tools and Techniques for Technology development and Reliability. Mobility/stress distribution: Contributions from package, TSV and devices.

Who Should Attend?
Any Engineering professional involved in 3D enablement with interest in the Thermal and mechanical challenges. Also suited for technologists and managers interested in deploying engineering simulation as a strategic tool for understanding thermo-mechanical feasibility, risks and benefits of costly technological investments related to 3D TSV based products.

Kamal Karimanal is the Founder of Cielution LLC, which is an engineering simulation software and services company serving the electronics supply chain. Prior to starting Cielution, Dr. Karimanal has served in several engineering simulation focused roles at Fluent Inc, ANSYS Inc and Globalfoundries. Dr. Karimanal has contributed to several detailed and compact modeling methodologies which are being widely used by the electronics industry today. He has written several conference and journal papers and online application notes. Dr. Karimanal received his Ph. D in Mechanical Engineering from The University of Texas at Austin.

PDC9: MEMS Reliability and Packaging
Course Leader: Slobodan Petrovic, Oregon Institute of Technology

Course Description:
This course provides a comprehensive discussion of a broad array of MEMS packaging and reliability issues. An overview of the principles of operation, fabrication methods, and materials used in building MEMS structures will be presented as well. Because each MEMS device requires a distinctive packaging approach, practical examples and illustrations will be used to demonstrate uniqueness of solutions and interactions between micromachined structures and packaging. A full range of MEMS devices will be discussed while a particular emphasis will be placed on sensors and actuators used in industrial, medical, and automotive applications. Extensive case studies that will be used to most effectively demonstrate diverse packaging principles for devices such as accelerometers, pressure sensors, and digital micromirror devices. The course will be divided in 2 major sections: general MEMS competence; and packaging and reliability. The following major topics will be covered: fabrication technologies, materials, design and device physics, main MEMS types, integration aspects, selected industrial application, design considerations, types of packaging, quality control, reliability and failure analysis.

Who Should Attend?
While some prior knowledge by the participants of MEMS in general is helpful, the packaging discussion will include a detailed explanation of the principles of operation, fabrication methods, and materials used in building MEMS structures. The course is therefore open to participants with no prior MEMS knowledge and would provide a reasonably broad general introduction into the field. The participants will have the opportunity to gain knowledge about MEMS in general through the eyes of a packaging and reliability specialist.

Dr. Slobodan Petrovic is an associate professor at the Oregon Institute of Technology in Portland, OR. His research interests are in the areas of MEMS fuel cells, sensor media compatibility, hydrogen generation and storage, and dye-sensitized solar cells. Prior to that, he was at the Arizona State University, where he taught courses in MEMS, Sensors, and alternative energy. Dr. Petrovic also held appointments at Clear Edge Power as a Vice President of Engineering; at Neah Power Systems as Director of Systems Integration; and Motorola, Inc. as a Reliability Manager. Dr. Petrovic has over 25 years of experience in MEMS, sensors, energy systems; fuel cells and batteries; and electrochemical solar cells. He has over 50 journal publications and conference proceedings; 2 book contributions and 24 pending or issued patents.

PDC10: Basics of Conventional and Advanced Packaging
Course Leader: Syed Sajid Ahmad, Center for Nanoscale Science and Engineering, NDSU

Course Description:
The course presents manufacturing, materials, quality and reliability info in terms understandable to engineering and non-engineering personnel. Packaging characteristics and drivers will be outlined. Types of packages and critical differences among them and their applications will be discussed. The course will look at the design selection to meet use and application environments. Step-by step manufacturing flow for plastic packages will be presented as an example to understand the complexity of processes, materials and equipment involved in their manufacture. Advanced packaging will be introduced. Materials selection with respect to application environments will be discussed. Quality and reliability issues related to chip packaging and SMT and their solution will be outlined. Topics: Packaging characteristics and drivers. Types of packages and critical differences among them. Design selection to meet use and application environment. Step-by step manufacturing flow for plastic packages. Advanced packaging. Materials selection. Quality and reliability issues.

Who Should Attend?
It will help the attendees understand the effects of package configurations on their work and the effect of their work on chip packages. Personnel entering the packaging field will have a critical look at the quality, reliability and materials issues related to the development and manufacture of chip pacakages. Non-packaging personnel will learn ins and outs of chip packaging. Non-technical personnel will learn the material and manufacturing intricacies of simple looking chip packages.

Syed Sajid Ahmad contributed to quality and reliability enhancement of assembly processes at Intel (1979-89), especially wire bond. Ahmad also contributed to packaging development at National Semiconductor (1990) and managed quality at GigaBit/TriQuint (1990-91). His major work at Micron Technology (1991-2003) involved the development and implementation of advanced packaging. At the Center for Nanoscale Science and Engineering, Ahmad's focus is on enhancing research and manufacturing capabilities at the center in the areas of thin film, thick film, chip scale packaging (CSP) and surface mount technology (SMT). Ahmad has 34 international publications and presentations and holds 54 patents.

Break: 3:00 pm - 3:20 pm

Welcome Reception (All Attendees Are Invited To Attend)
5:00 pm - 6:30 pm

Microelectronics Foundation Texas Hold'Em Tournament (Separate Register Fees - limited seating)
7:00 pm - 10:00 pm

Register On-Line | Device Packaging Home

Join Us for the 2013 IMAPS Microelectronics Foundation Spring Golf Invitational This March

High Temperature (HiTEN 2013) - LAST CALL for Abstracts this Friday    ^ Top
IMAPS International Conference and Exhibition on High Temperature Electronics Network (HiTEN) will be held July 8-10, 2013, at St. Catherine’s College Oxford in Oxford, United Kingdom. Visit to register to attend and to view the program on-line.

The objective of the HiTEN Conference is to have a unique forum that brings together researchers and practitioners in academia and industry from all over the world. All styles of practical high temperature electronics design and implementation approaches are encouraged, along with a variety of high temperature application areas. Today the main semiconductor focus of HITEN is silicon and silicon on insulator (SOI).  Although, HITEN is not simply a semiconductor focused network. HITEN provides a conduit for the exchange and dissemination of information on all aspects of high temperature electronics. It is a global network with users, suppliers, developers and fundamental researchers dealing in all aspects of High Temperature Electronics.

Abstracts are being requested in the following areas:

  • Applications in the Aerospace, Automotive, Oil & Gas, and Geothermal Industries
  • Devices and applications
  • Novel devices
  • ASICs for high temperature applications
  • Memories
  • Passive components
  • Power devices
  • Semiconductor materials
  • Contacts and metallizations
  • Materials
  • Packaging and inter connects
  • Sealants, adhesives, solders
  • Reliability and failure mechanisms
  • Lifetime predictions
  • Accelerated life testing
  • Testing at high temperatures

Those wishing to present a paper at the HiTEN Conference must submit a 200-300 word abstract electronically ASAP, using the on-line submittal form at: A Final Manuscript of 6-12 pages, two-column format is due May 31, 2013, for all accepted abstract.

Please contact Brian Schieman by email at or by phone at 202-548-8715 if you have questions.

Accepted papers may be considered for publication in the IMAPS Journal of Microelectronics and Electronic Packaging. All Speakers are required to pay a reduced registration fee and are required to attend the entire Conference to maximize opportunities for interaction with registered attendees. 

Submit Abstract(s)

  Chapter Activities (events listed in chronological order)

San Diego Chapter February 19 Lunch Meeting Featuring DfR Solutions    ^ Top

Date: February 19, 2013, 12:00pm

Hilton Hotel Click
401 K Street
San Diego California 92101
619.231.4040 - Hotel


Space is limited to 30 registrants due to room size; please sign up quickly.

It is suggested to park at the San Diego Convention Center if you are attending IPC APEX Expo.

$20.00 for RSVPed IMAPS members. $25.00 for non-members. Free for students with an ID.

To register, please contact Dave Virissimo of Ametek Specialty Metal Products at or 619-464-5430.

Topic: Quality and Reliability Challenges for Package‐on‐Package

Presenter Bio:
Cheryl Tulkoff - Senor Technical Staff Member – DfR Labs- Austin, TX
Cheryl Tulkoff is an industry renowned expert in the fields of semiconductor fabrication, electronics assembly, RoHS conversion, and reliability engineering and management. Prior to joining DfR, Ms. Tulkoff developed a comprehensive reliability organization at National Instruments, including the creation of an internal failure analysis group and a closed loop reliability program. She has also taken the lead in process development and implementation in semiconductor fabrication at Cypress Semiconductor and IBM. Cheryl is the head of DfR’s newest office located in Austin, Texas, which opened in February 2009. Cheryl has a B.S., in Mechanical Engineering from Georgia Institute of Technology.

DfR Solutions is the leading provider of quality, reliability, and safety software and services for the electronics industry. They support clients across all of the electronic technology markets. DfR’s innovative reliability software and industry expertise empower customers to maximize and accelerate product design and development while saving time, managing resources, and improving customer satisfaction. Applying an integrated use of the science of Physics of Failure, best practices, and an in depth understanding of industry standards, DFR provides crucial insights and solutions early in product design and throughout the product life cycle

Arizona Chapter February 21 Lunch Meeting with Presentation on The "New" IC Industry Cycle Model    ^ Top

Date: February 21, 2013

Dobson Ranch Inn
Mesa AZ


Register On-Line by February 19
Luncheon and presentations - $25.00 in advance / $30 at door.

Registration and exhibits will open at 11:30
Lunch and Presentation from noon to 1pm
Exhibits close at 1:30

Exhibit with us!
Exhibit at any of our AZ luncheons for $100
- 6ft Tabletop for your display
- Company promotion via links from our invitations and the AZ Chapter website to your company website
- lunch for one attendee

If you'd like to exhibit, please contact Greg Clemons <>

The "New" IC Industry Cycle Model
Presented by: Bill McClean, President, IC Insights

Come hear why one of the top semiconductor industry analysts believes 2013 will mark the beginning of the next semiconductor industry upturn. What are the assumptions leading IC Insights to forecast this new 5 year cycle will result in a $465Bn market by 2017 (as shown below).

  • Why double digit growth is expected for both 2015 and 2016 as pent up demand for electronics is unleashed globally.
  • How industry consolidation is shaping supply in better balance with demand, enabling semiconductor pricing to firm or stabilize.
  • How the "new" IC cycle model can help suppliers better plan their capital investments.

About Our Speaker
Bill McClean - President - IC Insights
Prior to forming IC Insights, Mr. McClean worked at ICE Corporation for 17 years--the last 10 as Vice President of Market Research. With 33 years of experience tracking the IC industry, Mr. McClean has become a well-known authority on market and technology analysis and forecasting. He specializes in tracking global economic conditions, developing IC market forecasts, analyzing capital spending and fab capacity trends, researching ASIC markets and technologies, and following emerging markets for ICs such as cellular phones. Mr. McClean serves as contributor and managing editor of IC Insights' studies and other products. In addition, he instructs for IC Insights' seminars and has been a guest speaker at many important annual conferences held worldwide. Mr. McClean has a Bachelor of Science degree in Marketing and an Associate degree in Aviation from the University of Illinois.

2nd Southeastern Microelectronics Packaging Conference - Registrations and Exhibits Filling Fast!    ^ Top

Date: February 28, 2013

Rosen Centre Hotel
9840 International Drive
Orlando, FL 32819


Register On-Line
Please email Doug Bokil - with questions

The objective of the Florida Chapter Microelectronics Symposium is to provide a forum that brings together experts from science, academia, design, manufacturing and business to discuss the latest advances and emerging applications in microelectronics and high density packaging.

Professional Development Course (PDC) on WIRE BONDING:

9AM - 12 NOON
Conducted by Lee Levine who is an expert on this topic & has conducted a similar PDC for IMAPS


1PM - 5PM

DNA Marking to Assure Product Authenticity
Janice Meraglia, Applied DNA Sciences

Additive Manufacturing of Fine Lines and Embedded Electronics for use in Chip Packaging and Microelectronic Systems
Scott Lauer, AdvantechUS, Inc.

Predicting the Reliability of Zero-Level TSVs
Greg Caswell, Dfr Solutions, LLC

Low Temperature Sintering Silver Paste Using MO Technology
Ken Araujo, NAMICS Technologies, Inc.

Rediscovering Multilayer Rigid-Flex with Z-interconnect Technology
Rabindra Das, Endicott Interconnect Technologies, Inc.

Cyberfacturing and the 3rd Industrial Revolution
Mike Newton, Newton Cyberfacturing, LLC

Design Optimization of Micro-channel Heat Exchanger embedded in LTCC
Aparna Aravelli, University of Miami

A Novel Approach to Interconnect Redistribution on Singulated Die
David Herndon, Harris Corporation


Patrick Simpkins, Director of Engineering
NASA's John F. Kennedy Space Center in Florida
Dr. Patrick Simpkins is the director of Engineering at NASA's John F. Kennedy Space Center in Florida. In this position, Simpkins leads a group of engineers from multiple disciplines in the design, development and operations of spaceflight hardware and ground systems assigned to the Kennedy Space Center.

3 - 8:30PM

** Raffle: Attendees (excluding Exhibitor representatives) may win an iPad etc. **

Please contact Doug Bokil - if you have questions.

Viking Chapter March 21 Social Event at St. Paul Curling Club    ^ Top

Date: March 21, 2013

St. Paul Curling Club


No minimum group size. 15 – 20 people expected .
Cost is $25 per person. Food and beverages not included.
Food (pizza) to be paid by the Viking chapter.

Contact: Sean Ferrian, Ferrian and Associates, Email:


Metro Chapter Vendor Day April 11    ^ Top

Date: April 11, 2013

Holiday Inn
Ronkonkoma, New York
Hotel Phone Number (631) 585-9500


$450.00 (reservation with payment by 3/15/2013)
$500.00 after 3/15/2013
$100.00 Discount if you have exhibited at a Metro chapter event in the past 2 years and you register by 3/15/2013

Please make/mail check payable to:

42 Jesse Way
Mount Sinai, NY 11766

Attendee Schedule:
7:00am-8:00am-Attendee Registration
8:00am-5pm-PDC #1
4:30pm-Technical presentation
5:30pm-Technical presentation

Vendor Schedule:
1:00pm- Vendor registration/setup
3:00pm- Exhibit opens
6:00pm-Hospitality hour
8:00pm-Exhibits close

Vendor Information:
Walter Becker

WJB Sales, Inc
631 331 0689

Steve Lehnert
Space Systems Loral
650 644 5218

”Space is limited so register early to guarantee your spot


New England Chapter's 40 Symposium & Expo - Program "Sampler"    ^ Top

Date: Tuesday May 7th, 2013

Holiday Inn Boxborough Woods Conference Center
Boxborough, Massachusetts


For Complete Technical Program, Registration & Information visit

For details about Sponsoring, Exhibiting or Attending Contact Harvey Smith: or Call 508-699-4767

Symposium Technical Chair
A. James (Jim) McLenaghan, Creyr Innovation

Symposium Technical Team
Microelectronic Packaging Chairs: Bill Boyce & Mike McKeown
Everything Nano Chairs: Alan Rae & Siva Somu
Thermal Management Chairs: David Saums & Glenn Sundberg
MEMS Chairs: Jacob Trevino & Tina Prevost
DFR, DFM, & Readiness Assessment Chairs: Greg Caswell & Cynthia Hay
LED Applications Chairs: George Hwang & Madis Raukas
Cleaning - Necessity, Process ID & Assessment Chairs: Terry Munson & Eric Camden
Surface Mount Technology Chairs: Jeff Anweiler & Ray Whittier
Poster Session Chairs: Ron Lasky & Daryl Santos

Technical Program Sampler
"Applicability of Non-Hermetic Packaging for Military and Space Applications"

"Using Physics of Failure to Predict System Level Reliability for Avionics"

"Thermal and Electronic Interconnects in LED Packaging and Assembly"

"RF/Microwave Die Attach of GaN Devices in a Flux Free Environment"

"Digital fabrication of flexible circuits with Thermal Transfer Printing"

"New Nano-materials and Structures with Electronic Potential"

"Electrical Current Capabilities of Aluminum Inlay"

"Robotics Assembly from Design to Steady State"

"DNA Marking to Assure Product Authenticity"

"Thermal Conductivity Measurements of Multi-Chip-Module Re-distribution Layers"

"Prognostics for LED Light and Color Degradation by Encapsulant Degradation"

"Application Requirements and Developments for Thermal Core PCBs"

"MEMS Sensors for Surface Flow Sensing in Aerospace Applications"

"Minimizing Voids for Quad Flat-Pack in Lead-Free Assembly"

"Process for Selecting Optimum Wafer Bonding Process"

"Accurate In-Line 3D Measurement for Process Control"

"Thin Film CZTS Solar Cell Using Sputtering Method"

IMAPS France - EMPC 2013 Abstract Deadline This Friday    ^ Top

For submitting a paper, please use conftool address :

Visit EMPC2013 Website

Florence VIRETON
Tél: 33 (0) 1 39 67 17 73

  Membership Corner

Advancing Microelectronics January/February 2013 Magazine Now On-Line - Bumping & Wafer Level Packaging...   ^ Top

January/February 2013:
Volume 40, No. 1
Bumping & Wafer Level Packaging

The January/February 2013 issue featured four technical articles on: A Short History of Flip Chip and Wafer Level Packaging; A Brief History of Electroplating for Bumping and Wafer Level Packaging; Wafer Level Chip-Scale Packaging: Evolving to Meet a Growing Application Space; and Embedded Wafer-Level Packaging is Expected to Increase by 2015, Once Platforms Mature and Fabless Customers Commit

download magazine PDF (10mb)

Journal of Microelectronics and Electronic Packaging 3rd Quarter 2012 On-Line - Q4 and Q1 2013 Available Soon   ^ Top

Journal of Microelectronics
and Electronic Packaging

(ISSN # 1551-4897)

Volume 9, Number 3
Third Quarter 2012

download pdf of full Journal - 58mb



Die-Attach Technologies for Ultraviolet LED Multichip Module Based on Ceramic Substrate
T. Burkhardt, M. Hornaff, A. Acker, T. Peschel, E. Beckert, R. Eberhardt, and A. Tünnermann, Fraunhofer Institute for Applied Optics and Precision Engineering IOF; T. Burkhardt and A. Tünnermann, Friedrich-Schiller-University Jena; K.-H. Suphan, Micro-Hybrid Electronic GmbH; K. Mensel and S. Jirak, Lastronics GmbH


Design and Fabrication of an LTCC Structure for a Microceramic Combustor
Darko Belavic, Marko Hrovat, Kostja Makarovic, and Marina Santo Zarnik, Centre of Excellence NAMASTE; Darko Belavic, HIPOT-RR; Darko Belavic, Marko Hrovat, Gregor Dolanc, Kostja Makarovic, and Marina Santo Zarnik, Jozef Stefan Institute; Marina Santo Zarnik, IN.Medica

Inkjet Printing of Multilayer Capacitors
D. Jeschke, E. Ahlfs, and K. Krüger, Institute of Automation Technology Helmut-Schmidt-University and University of the Federal Armed Forces Hamburg

Aerosol Printing of High Resolution Films for LTCC-Multilayer Components
Martin Ihle, Uwe Partsch, Sindy Mosch, and Adrian Goldberg, Fraunhofer Institute for Ceramic Technologies and Systems


Cold Embossing of Ceramic Green Tapes
Anja Härtel, Hans-Jürgen Richter, and Tassilo Moritz, Fraunhofer Institute of Ceramic Technologies and Systems

Automated Complex Permittivity Characterization of Ceramic Substrates Considering Surface-Roughness Loss
A. Ege Engin and Pavithra Pasunoori, San Diego State University

LORD Corporation


Crane AE Banner


2013 Events:

Southeastern Microelectronics Conference
February 28

GBC Spring Conference
March 10-11

Device Packaging
March 11-14
*Exhibitors contact

CICMT (Ceramics)
April 22-24
*Exhibitors contact

Next Gen Nano Devices
April 30 - May 1
*Exhibitors contact

New England Chapter 40th Symposium & Expo
May 7

Medical & Hi-Rel Devices
May 13-14
*Exhibitors contact

Mobile Energy Systems
June 6-7
*Exhibitors contact

HiTEN (High Temp)
July 8-10
*Exhibitors contact

IMAPS 2013 (Orlando)
September 29-Oct. 3
*Exhibitors contact

^ Top



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