Modeling of Via Interconnect through Pad in Printed Circuit Board

• Published in: Applied Computational Electromagnetics Society journal Vol. 34; no. 5; p. 771
• Main Authors: Ghosh, Avali, Das, Sisir Kumar, Das, Annapurna
• Format: Journal Article
• Language: English
• Published: Pisa River Publishers 2019
• Subjects: Capacitance; Circuit boards; Equivalent circuits; Ground plane; Impedance; Inductance; Load matching; Printed circuit boards; Printed circuits; Reflectance; Software; Substrates; Transmission lines
• ISSN: 1054-4887; 1943-5711

In this paper the methods of finding inductance L of a cylindrical via and capacitance C due to via pad in printed circuit board (PCB) are described. Initially a thin cylindrical via of diameter d without pad is connected between a 50 ohm copper trace on the top of a dielectric substrate and a ground plane at the bottom. The line is terminated with matched load. The geometrical structure is simulated using Ansoft HFSS software tools to find the input reflection coefficient S11. The value of inductance of the via is determined in terms of S11 using transmission line formulation. The theoretical and experimental results for L as a function of d, h, and d/h are compared with those obtained from empirical formulae developed by the other authors. The results are found in good agreement. Secondly a square via pad is added in the trace in absence of via. The equivalent capacitance C of the pad is calculated in the same way from S11 as it is done for L. Finally, the PCB model is configured with a cylindrical via connected between the pad in the trace and the ground plane. The complex load impedance values are obtained from the electrical equivalent circuit of the L-C combination. This impedance is also determined from the S11 parameter using HFSS.