Low loss air-gap spiral inductors for MMICs using glass microbump bonding technique

Air-gap spiral inductor structures have been fabricated and itegrated with semiconductor substrates using glass microbump bonding (GMBB) techniques. Spiral inductors using air-gap structures have the advantages of low losses, and low parasitic capacitance compared to conventional inductors on doped silicon semiconductor substrate. Stacked air-gap spiral inductors on GaAs substrates using GMBB techniques also can reduce the inductor area. Because the glass microbump bonding techniques are simple, this bonding technique provides an alternative integration approach for monolithic microwave integrated circuits (MMICs). Experimental results of air-gap spiral inductor on both silicon and GaAs substrates are presented in this paper.

[1]  M. W. Geen,et al.  Miniature multilayer spiral inductors for GaAs MMICs , 1989, 11th Annual Gallium Arsenide Integrated Circuit (GaAs IC) Symposium.

[2]  D. Schroder,et al.  Air-gap transmission lines for OEICs and MMICs using glass substrates , 1997, 1997 IEEE MTT-S International Microwave Symposium Digest.

[3]  J.N. Burghartz,et al.  Multilevel-spiral inductors using VLSI interconnect technology , 1996, IEEE Electron Device Letters.

[4]  L. M. Burns Applications for GaAs and silicon integrated circuits in next generation wireless communication systems , 1995 .

[5]  S. Paek,et al.  Air-gap stacked spiral inductor , 1997 .