EPFL MicroNano Fabrication Annual Review Meeting

The Networking Event organized by the EPFL Center of MicroNanoTechnology (CMi)

Date: Tuesday May 18th, 2010
Time: 09h30 - 17h00
Place: EPFL Lausanne, Salle Polyvalente, Centre Est, CE 1 515

Program :

• 10 invited speakers
• 163 posters

The presented topics include:

• Biomedical Applications (Microfluidics, Cellular-Manipulation, Microelectrode Arrays, Molecules Detection, BioMicroNanoSystems, ...)
• Optics (Nanophotonics, Optomechanics, Optofluidics, MOEMS, ...)
• Micro and Nanoelectronics (Nanowires, High-Q Resonators, RF MEMS and Switches, 3D integration, CMOS, ...)
• Nanostructure Physics (III/V Devices, Nanotubes, Nanowires, Nanomechanics, ...)
• Material Sciences (Graphene, Polymers, Piezoelectric Ceramics, Photovoltaic Materials, Micro Fuel Cells, ...)
• MEMS, NEMS (Motors, Tweezers, Sensors and Actuators, Micro and Nanomechanics, ...)
• Micro and Nanofabrication Technologies (Self-Assembly, EBEAM Lithography, Dry Etching, Thin Films, Photolithography, FIB, CMP, ...)
• Packaging and Assembly

Registration is required by sending an email to: claudia.dagostino@epfl.ch

Compact Modeling: Principles, Techniques and Applications

Gildenblat, Gennady (Ed.)
1st Edition., 2010, 545 p., Hardcover
ISBN: 978-90-481-8613-6
Erscheinungstermin: Juli 2010

[mos-ak] MOS-AK/GSA ESSDERC/ESSCIRC Workshop in Seville: 1st announcement

MOS-AK/GSA ESSDERC/ESSCIRC Workshop in Seville
*** 1st announcement ***

Date: September 17, 2010
Venue: Barceló Hotel Renacimiento

Co-Located With:
* 40th European Solid-State Device Research Conference (ESSDERC):
http://www.essderc2010.org
* 36th European Solid-State Circuits Conference (ESSCIRC) :
http://www.esscirc2010.org
* CMC Meeting (Q3 Event in Madrid): http://www.geia.org/index.asp?bid=597

More MOS-AK/GSA information and updates: http://www.mos-ak.org/seville/

Extended MOS-AK/GSA Committee:
===========================
http://www.mos-ak.org/committee.html
===========================
MOS-AK/GSA North America:
Chair: Pekka Ojala, Exar Corporation
Co-Chair: Geoffrey Coram, Analog Devices
Co-Chair: Prof. Jamal Deen, U.McMaster

MOS-AK/GSA South America:
Chair: Prof. Gilson I Wirth; UFRGS; Brazil
Co-Chair: Prof. Carlos Galup-Montor, UFSC; Brazil

MOS-AK/GSA Europe:
Chair: Ehrenfried Seebacher, austriamicrosystems AG
Co-Chair: Sebastian Schmidt, XFab
Co-Chair: Prof. Benjamin Iniguez, URV

MOS-AK/GSA Asia/Pacific:
Chair: Goichi Yokomizo, STARC, Japan
Co-Chair: Sadayuki Yoshitomi, Toshiba, Japan
Co-Chair: Xing Zhou, NTU, Singapore
===========================

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Thoughts on Directions for Silicon Technology Development as we Approach the End of CMOS Scaling

Speaker: Dr. Tak H. Ning, IBM and IEEE Fellow, and co-author of the Taur & Ning textbook now in its second edition.
Date: TUESDAY, May 11, 2010; Time: 6:00 PM - Pizza, 6:15 PM – Lecture; Cost: Free
Location: National Semiconductor, Building E1, Conference Center, 2900 Semiconductor Drive, Santa Clara, CA 95051
Web link: http://www.ewh.ieee.org/r6/scv/eds/
Contact: Sandeep Bahl

POWER/HVMOS Devices Compact Modeling

POWER/HVMOS Devices Compact Modeling

W. Grabinski and T. Gneiting, (Eds.)
1st Edition., 2010, V, 300 p., Hardcover
ISBN: 978-90-481-3045-0

Content Level » Research

Keywords » HV EKV, HV HiSIM,MM20, compact modeling - LDMOS, VDMOS, quasi-saturation, self heating - power, high voltage semiconductor devices

TABLE OF CONTENTS
CHAPTER 1: Numerical Power/HV Device Simulations; Oliver Triebl and Tibor Grasser.

CHAPTER 2: HiSIM-HV: A scalable, surface-potential-based compact model for symmetric and asymmetric high-voltage MOSFETs; Hans J. Mattausch, Norio Sadachika, M. Yokomichi, M. Miyake, T. Kajiwara, H. Kikuchihara, U. Feldmann, and M. Miura-Mattausch.

CHAPTER 3: MM20 HVMOS Model: a surface-potential based LDMOS model for circuit simulation; Annemarie Aarts and Alireza Tajic.

CHAPTER 4: Practical HV DMOS modeling using HVEKV; Yogesh Singh Chauhan, Francois Krummenacher and Adrian Mihai Ionescu.

CHAPTER 5: Power Devices; Andrzej Napieralski, Malgorzata Napieralska and Lukasz Starzak.

CHAPTER 6: Distributed modeling approach applied to the IGBT; Patrick Austin and Jean-Louis Sanchez.

CHAPTER 7: Web Based Modeling Tools; Andrzej Napieralski, Lukasz Starzak, Bartlomiej Swiercz and Mariusz Zubert.