优化了多千兆传输的表面贴装结构

Y. Fei
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引用次数: 2

摘要

本文研究了交流耦合电容的表面贴装(SMT)焊盘对传输速率为26gbps的印刷电路板(PCB)走线阻抗不连续或失配的影响,以及减小其不利影响的技术,从而减轻信号完整性的退化。该设计通过在SMT焊盘下方的参考平面区域插入一个切口来优化。利用Keysight公司的EMPro软件研究了优化对0603和0402封装在三维模型提取中的影响,并利用先进设计系统(ADS)进行了s参数(即插入损耗)、时域反射(TDR)和眼图分析的仿真。随后,在原型PCB上使用矢量网络分析仪(VNA)和误码率测试仪(BERT)进行表征,验证测量与仿真之间的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimized surface mount structure for multi-Gigabit transmission
This paper studies the impact of impedance discontinuity or mismatch contributed by surface mount (SMT) pads of AC coupling capacitor on Printed Circuit Board (PCB) traces with 26 Giga-bit per second (Gbps) transmission and the technique to minimize its adverse effect, which in turn mitigates the degradation of signal integrity. The design is optimized by the insertion of a cut-out on the reference plane area beneath the SMT pads. The impact of the optimization is studied for 0603 and 0402 package in 3D model extraction using EMPro software from Keysight, and simulations of s-parameter (i.e. insertion loss), time domain reflectometry (TDR) and eye diagram analysis are conducted using Advance Design System (ADS). Subsequently, the characterization using vector network analyzer (VNA) and bit error rate tester (BERT) is conducted on a prototype PCB to verify the correlation between the measurement and simulation.
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