Title :
Compact quasi planar silicon bandpass filters based on metallic periodic structure for Q and V band applications
Author :
Ferrand, P. ; Chatras, M. ; Baillargeat, D. ; Blondy, P. ; Verdeyme, S. ; Puech, J. ; Lapierre, L. ; Galiere, J. ; Estebe, E.
Author_Institution :
Faculte des Sci. de Limoges, IRCOM-UMR, Limoges, France
Abstract :
Small size filters are presented here, they are based on a periodic lattice of metallic holes that form coupled silicon resonators. The first structure is a filter at 45 GHz with 8% bandwidth at -3 db, realized on 430 μm thick high resistivity silicon wafer using a wet etching process. I/O CPW feeds are printed on the top of the substrate. The second structure is a filter at 58.5 GHz with 2% bandwidth at -3 db. The via holes lattice is realized with deep RIE process and the filter is bonded to a PCB with a flip chip technique. Based on the same principle, a CPW to waveguide transition is finally presented.
Keywords :
band-pass filters; coplanar waveguides; elemental semiconductors; etching; flip-chip devices; micromachining; periodic structures; resonators; waveguide transitions; 430 micron; 45 GHz; 58.5 GHz; I-O CPW feeds; PCB; Q band application; RIE process; Si; V band application; bandpass filters; coupled silicon resonators; flip chip bonding; metallic holes; metallic periodic structure; micromachining; periodic lattice; quasi planar filters; resistivity; silicon wafer; substrate; via holes lattice; waveguide transition; wet etching; Band pass filters; Bandwidth; Conductivity; Coplanar waveguides; Feeds; Lattices; Periodic structures; Resonator filters; Silicon; Wet etching;
Conference_Titel :
Microwave Symposium Digest, 2004 IEEE MTT-S International
Print_ISBN :
0-7803-8331-1
DOI :
10.1109/MWSYM.2004.1338848
