DocumentCode
503150
Title
A comprehensive overview on today´s ceramic substrate technologies
Author
Bechtold, Franz
Author_Institution
VIA Electron. GmbH, Hermsdorf, Germany
fYear
2009
fDate
15-18 June 2009
Firstpage
1
Lastpage
12
Abstract
Ceramic packaging solutions offer superior reliability performance compared to all organic technologies and are only a fraction of the development cost required for monolithic semiconductor integration. System in package integration capabilities, thermal management, temperature resistivity and heterogeneous system integration (matching different TCE´s) are the driving forces for the utilisation of ceramic substrate technologies in microelectronics. This presentation gives a wide and comprehensive overview of today´s ceramic substrate technologies used in microelectronic packaging. It deals with double sided and multilayer ceramics, with low temperature and high temperature manufacturing processes and different material systems. The current state of the art is described by an overview of the main technical and economical characteristics, relevant market sections and the driving forces of these markets to use ceramic substrates. Typical applications, manufactured in volumes for the actual market will be presented to highlight the key benefits for the technology chosen. The focus of the contribution will be on advanced ceramic technologies and LTCC in particular. LTCC material systems, widely used in the automotive and the telecommunication business, will be highlighted and some market penetrating applications as well as low volume applications in the field of sensors will be presented to demonstrate the advantages of ceramic multilayer substrates. An overview of European sources and market shares will complete the picture of the current state of ceramic substrate technologies. Future market needs, technical trends and actual developments in current R&D programmes will be reviewed. This will show perspectives and challenges for the use of ceramic substrate technologies in new applications and emerging markets like MEMS, Biosensors, MOEMS and others.
Keywords
business communication; ceramic packaging; integrated circuit packaging; micromechanical devices; European sources; MEMS; R&D programmes; automotive business; biosensors; ceramic multilayer substrates; ceramic substrate technology; double sided ceramics; driving forces; microelectronic packaging; multilayer ceramics; sensors; telecommunication business; Ceramics; Costs; Microelectronics; Nonhomogeneous media; Semiconductor device packaging; Semiconductor device reliability; Substrates; Temperature; Thermal force; Thermal management; Alumina; Aluminum Nitrid; Ceramic substrates; HTCC; LTCC; Microsystem Technologies; RF capability; costs; integrated components; power dissipation; reliability performance; system in package;
fLanguage
English
Publisher
ieee
Conference_Titel
Microelectronics and Packaging Conference, 2009. EMPC 2009. European
Conference_Location
Rimini
Print_ISBN
978-1-4244-4722-0
Electronic_ISBN
978-0-6152-9868-9
Type
conf
Filename
5272912
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