Title :
Analysis of wave propagation along coaxial through silicon vias using a matrix method
Author :
Dahl, David ; Beyreuther, Anne ; Xiaomin Duan ; Ndip, Ivan ; Lang, K.-D. ; Schuster, Christian
Author_Institution :
Inst. fur Theor. Elektrotechnik, Tech. Univ. Hamburg-Harburg (TUHH), Hamburg, Germany
Abstract :
This paper presents an efficient method for the determination of the dispersion relation of wave propagation along coaxial structures with radially layered dielectric filling based on a matrix method known from the theory of optical waveguides. The method is applied for investigations of coaxial through silicon vias having different dimensions and different conductivities of the silicon semiconductor filling. The fundamental modes are derived, results are correlated to full-wave simulation results, and the physical phenomena of quasi TEM, slow-wave and skin-effect propagation in the fundamental mode are discussed with regard to signal integrity.
Keywords :
coaxial waveguides; electromagnetic wave propagation; matrix algebra; optical waveguide theory; three-dimensional integrated circuits; coaxial structures; dispersion relation; full-wave simulation results; matrix method; optical waveguides theory; quasi TEM propagation; radially layered dielectric filling; signal integrity; silicon semiconductor filling; silicon vias; skin-effect propagation; slow-wave propagation; Approximation methods; Conductivity; Conductors; Dielectrics; Silicon; Silicon compounds; Transmission line matrix methods; 3D interconnects; matrix method; multilayer coaxial waveguides; through silicon vias;
Conference_Titel :
Signal and Power Integrity (SPI), 2014 IEEE 18th Workshop on
Conference_Location :
Ghent
DOI :
10.1109/SaPIW.2014.6844539
