Author_Institution :
John L. Sprague Associates, Lexington, MA, USA
Abstract :
The state of the art in multilayer substrates for integrated circuit (IC) packaging is reviewed. The characteristics, advantages, and disadvantages of the following materials systems are presented: αAl2O3, BeO, AlN, SiC, Si3N4 , BN, mullite, cordierite, glass-ceramics, low-K composites, and polymer systems such as polyimide. These are discussed in single dielectric configurations and more complex systems such as the thin-film multichip module (TFMCM), Si-on-Si wafer-scale integration (SOSWSI), and packaging schemes that incorporate passive components such as capacitors in the substrate. The following conclusions are drawn: (1) the package is less and less just a protective environment and more and more a key functional part of the entire electronic system; (2) the systems manufacturer will play an increasingly important role as the creator of the package; (3) the multichip module (MCM) will slowly be replaced by such schemes as SOSWSI and especially TFMCM; and (4) while Al2O3 will continue to dominate the materials field, a number of other materials will be increasingly used, especially AlN and SiC, wherethermal dissipation is key, and Cu/polymer systems, where low dielectric constants are required
Keywords :
ceramics; cooling; modules; packaging; permittivity; polymers; Al2O3; AlN; BN; BeO; IC packaging; SOSWSI; Si3N4; SiC; TFMCM; ceramic packaging; cordierite; dielectric constants; glass-ceramics; low-K composites; mullite; multichip module; multilayer substrates; passive components; polyimide; polymer systems; protective environment; single dielectric configurations; thermal dissipation; thin-film multichip module; wafer-scale integration; Ceramics; Composite materials; Dielectric materials; Dielectric substrates; Electronics packaging; Integrated circuit packaging; Multichip modules; Nonhomogeneous media; Polymers; Silicon carbide;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
