Title :
Vertically-stacked on-chip SiGe/BiCMOS/RFCMOS coplanar waveguides
Author :
Woods, Wayne ; Tretiakov, Youri ; Vaed, Kunal ; Ahlgren, David ; Rascoe, Jay ; Singh, Raminderpal
Author_Institution :
IBM Microelectron., White Plains, NY, USA
Abstract :
This paper presents a new on-chip transmission line interconnect structure which offers the potential of superior return and insertion loss characteristics compared to the equivalent standard transmission line device. Conventional on-chip coplanar waveguides (CPW) and differential pairs are routed in a single metal layer in the chip´s metal-dielectric stack. The vertically stacked coplanar waveguide (PW) transmission lines presented here consist of metal lines on multiple metal levels connected by continuous via bars. The additional cross-sectional area of the VCPW topology decreases interconnect resistance while the increased effective device thickness increases capacitance to neighboring ground return lines leading to a characteristics impedance reduction.
Keywords :
BiCMOS integrated circuits; CMOS integrated circuits; coplanar waveguides; integrated circuit interconnections; radiofrequency integrated circuits; transmission lines; BiCMOS; RFCMOS; SiGe; VCPW topology; capacitance; device thickness; differential pair; ground return lines; impedance reduction; insertion loss characteristics; interconnect resistance; metal levels; metal lines; metal-dielectric stack; on-chip coplanar waveguides; on-chip transmission line interconnect structure; transmission line device; vertically-stacked interconnect; via bars; Bars; BiCMOS integrated circuits; Capacitance; Coplanar transmission lines; Coplanar waveguides; Germanium silicon alloys; Insertion loss; Propagation losses; Silicon germanium; Topology;
Conference_Titel :
Interconnect Technology Conference, 2004. Proceedings of the IEEE 2004 International
Print_ISBN :
0-7803-8308-7
DOI :
10.1109/IITC.2004.1345765
