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Development of embedded power electronics modules

: Boettcher, Lars; Karaszkiewicz, S.; Manessis, D.; Ostmann, A.


Beyne, Eric (General Chair) ; IEEE Components, Packaging, and Manufacturing Technology Society; Institute of Electrical and Electronics Engineers -IEEE-:
4th Electronic System-Integration Technology Conference, ESTC 2012 : Amsterdam, Netherlands, 17 - 20 September 2012
New York, NY: IEEE, 2012
ISBN: 978-1-4673-4645-0
6 S.
Electronics System Integration Technology Conference (ESTC) <4, 2012, Amsterdam>
Fraunhofer IZM ()

The use of Printed Circuit Board (PCB) technology for device packaging offers new opportunities to solve these challenges. During the past decade embedding of semiconductor chips into PCB structures evolved from a research topic to volume production. The paper will briefly describe this development and categorize today's embedding technologies. First modules with embedded chips are in production in Asia and Europe, mainly for mobile applications. In Europe embedding has gained a strong interest for power modules, especially in automotive applications. Main drivers are the capability for compact and thin packaging, the high reliability and cost saving potential. The automotive industry has a strong demand for highly reliable and cost-efficient electronics. Especially the upcoming generations of hybrid cars and fully electrical vehicles need compact and efficient 400 V power modules. Within the engine compartment installation space is of major concern. Therefore small siz e and high integration level of the modules are needed. Embedding of power switches, and controller into compact modules using PCB (Printed Circuit Board) technologies offers the potential to reduce the thickness and size of the module. In order to replace DCB ceramics, a structure of thermal laminate material between Cu layers has been developed and the capability for thermal conduction and electrical insulation has been evaluated. For the assembly of large power IGBTs with sizes of 100 mm2 and larger, new silver sintering pastes have been evaluated. They enable a pressure-less sintering at 200 °C, compatible with PCB materials. To handle the high switching current of up to 200 A, suitable copper tracks in the PCB are required. The realization of such thick copper lines with thickness up to 1 mm requires advanced processing, compared to conventional multilayer PCB production. In order to form complex power systems out of modules with embedded chips interconnections by Ag sintering are under develop