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Autores principales: Tsintsadze, Giorgi, Vahdani, Reza, Drewniak, James L., Zai, Richard
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2509.11542
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author Tsintsadze, Giorgi
Vahdani, Reza
Drewniak, James L.
Zai, Richard
author_facet Tsintsadze, Giorgi
Vahdani, Reza
Drewniak, James L.
Zai, Richard
contents A systematic approach for high-speed via transition design is proposed. The effects of via barrel radius, anti-pad size, and the distance from adjacent stitching (GND) vias on bandwidth are analyzed and characterized. Guidelines for selecting parameter values are provided and validated by correlating 3D full-wave FEM simulation results with actual measurements of the coupon board. When a sufficient number of stitching vias are used, the via structure can be approximated as a coaxial transmission line. The proposed methodology builds on this approximation and also considers high-order modes. With this framework, engineers can easily optimize design parameters while intuitively understanding how geometry affects bandwidth. This approach also allows engineers with limited access to expensive and computationally intensive 3D FEM tools to design high bandwidth vias up to 67 GHz.
format Preprint
id arxiv_https___arxiv_org_abs_2509_11542
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Simplified Design Approach for Via Transitions up to 67 GHz
Tsintsadze, Giorgi
Vahdani, Reza
Drewniak, James L.
Zai, Richard
Signal Processing
A systematic approach for high-speed via transition design is proposed. The effects of via barrel radius, anti-pad size, and the distance from adjacent stitching (GND) vias on bandwidth are analyzed and characterized. Guidelines for selecting parameter values are provided and validated by correlating 3D full-wave FEM simulation results with actual measurements of the coupon board. When a sufficient number of stitching vias are used, the via structure can be approximated as a coaxial transmission line. The proposed methodology builds on this approximation and also considers high-order modes. With this framework, engineers can easily optimize design parameters while intuitively understanding how geometry affects bandwidth. This approach also allows engineers with limited access to expensive and computationally intensive 3D FEM tools to design high bandwidth vias up to 67 GHz.
title Simplified Design Approach for Via Transitions up to 67 GHz
topic Signal Processing
url https://arxiv.org/abs/2509.11542