1. The Design and Evaluation of an Integrated Wire Bond-less Power Module using a Low Temperature Co-fired Ceramic Interposer.
- Author
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Seal, Sayan, Glover, Michael D., and Mantooth, H. Alan
- Subjects
WIRE bonding (Electronic packaging) ,LOW temperatures ,POWER density ,SEMICONDUCTORS ,SILICON carbide - Abstract
This article presents the plan and initial feasibility studies for an Integrated Wire Bond-less Power Module. Contemporary power modules are moving toward unprecedented levels of power density. The ball has been set rolling by a drastic reduction in the size of bare die power devices owing to the advent of wide bandgap semiconductors such as silicon carbide (SiC) and gallium nitride. SiC has capabilities of operating at much higher temperatures and faster switching speeds compared with its silicon counterparts, while being a fraction of their size. However, electronic packaging technology has not kept pace with these developments. High-performance packaging technologies do exist in isolation, but there has been limited success in integrating these disparate efforts into a single high-performance package of sufficient reliability. This article lays the foundation for an electronic package designed to completely leverage the benefits of SiC semiconductor technology, with a focus on high reliability and fast switching capability. The interconnections between the gate drive circuitry and the power devices were implemented using a low temperature cofired ceramic interposer. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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