The power packaging market is growing, pulled by the interconnection and substrate segments, respectively +14% and +13% between 2014 and 2020. And global growth for raw material is expected to reach +12% between 2014 and 2020, with a global market of $1.7B for 2020…
After Status of the Power Electronics report (March 2015), Yole Développement, the "More than Moore" market research and strategy consulting company pursues its investigation in the Power Electronics industry and announces its new technology and market analysis: Power Packaging Technologies Trends & Market Expectations report (April 2015).
Under this new report, Yole's analysts propose a deep understanding of the power module packaging design especially at the substrate, thermal interface materials, baseplate, encapsulation, die attach and interconnection levels. With an approach mixing technologies trends and market needs, the Power Electronics team, managed by Dr Pierric Gueguen, reviews the technical issues and analyzes the market evolution.
In order to increase power module yield and reliability, companies are working on new products for power packaging, especially for the common failure locations, die and substrate attach, interconnection and encapsulation. Both new designs and new materials can be used, whether to eliminate levels of connection or to improve interfaces. In die attach, for instance, soldering is progressively losing market share, which benefits silver sintering. Although the basic material is more expensive, taking into account cheaper equipment and manufacturing costs and improved reliability, this technology is seducing ever more players. Standard wire bonding is evolving as well, with solutions increasing contact surface, such as ribbon or ball bonding. Encapsulation technologies must evolve to handle high operating temperatures: standard silicone gel or epoxy is limited in terms of temperature, and so new materials such as parylene are being developed.
"Developments for power packaging are needed because power electronics is facing many challenges, due to both environmental and technical requirements", says Coralie Le Bret, Technology & Market Analyst, Power Electronics and Compound Semiconductors technologies at Yole. "Increasing power density and power conversion optimization for CO2 emission reduction are key", she adds. To achieve ambitious governmental targets and to respect volume constraints, technology breakthroughs are needed at device and module level. Moreover, the growing and important role of Wide Band Gap (WBG) semiconductors makes efficient packages mandatory, so that devices' high frequency, high voltage or high temperature capabilities can be best exploited.