Title :
Increasing circuit functionality and power density in power hybrids
Author :
Brucchi, Fabio ; Salvati, Paolo
Author_Institution :
SEMIKRON Italia S.r.l, Rome, Italy
fDate :
5/1/2005 12:00:00 AM
Abstract :
A new method to increase circuit functionality and power density per unit area in power electronic modules has been developed. This new method uses the present power hybrids production technology platform on ceramic substrates and implements direct bonded copper (DBC) "partial" multilayer structures on application specific substrates. With this novel approach a more than 50% increased power density and a 40% increased circuit complexity has been achieved. Reliability tests (thermal cycling (TC), power cycling (PC), high temperature reverse bias...) have been performed for several new layout solutions, the most relevant results are shown in this paper.
Keywords :
ceramics; integrated circuit manufacture; power integrated circuits; reliability; substrates; ceramic substrates; circuit functionality; direct bonded copper; high temperature reverse bias; partial multilayer structure; power cycling; power density; power electronic modules; power hybrids; power hybrids production technology; reliability test; thermal cycling; Bonding; Ceramics; Circuit testing; Complexity theory; Copper; Nonhomogeneous media; Performance evaluation; Power electronics; Production; Temperature; High temperature reverse bias (HTRB); power cycling (PC); thermal cycling (TC);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2005.846546
