Routing Aspects in PCB Design for High Frequency Circuits

2022 IEEE 28th International Symposium for Design and Technology in Electronic Packaging (SIITME) Pub Date : 2022-10-26 DOI:10.1109/SIITME56728.2022.9988510

M. Andrei, Mihnea Nicolae Dumitriu, V. Nicolau, G. Petrea

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Abstract

Nowadays the high-speed communication systems involve also high data rates with minimum error numbers. Differential transmission lines are a good solution to mitigate the different types of noise which inevitably occur and affect the signal. However, this comes with a disadvantage: the signal skew. The meander lines are used in Printed Circuit Board (PCB) to compensate the aforementioned problem. In addition, this method improves the signal integrity, and it is a popular choice for signals synchronization. In this paper, a study of the routing performances for a high-speed circuit at high frequencies is presented. The goal is to determine the optimum meander shape and the maximum speed at which the circuit operates. The performance evaluation was done in terms of S- parameters and the reflections level simulated with Time-Domain-Reflectometry (TDR) function. For simulations, a PCB with 2circuits of Ethernet type signals is considered. The signals are propagated through different PCB layers, from a line-separation relay to an integrated circuit. A series of bits was transmitted from the relay through the equivalent filter of the lines to the integrated circuit. The results showed a slight signal attenuation due to the mismatch of the impedance.

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高频电路PCB设计中的布线问题

目前，高速通信系统要求高数据速率和最小错误数。差分传输线是一种很好的解决方案，可以缓解不可避免地出现并影响信号的不同类型的噪声。然而，这也带来了一个缺点:信号偏斜。在印刷电路板(PCB)中使用弯曲线来补偿上述问题。此外，该方法提高了信号的完整性，是信号同步的普遍选择。本文研究了高速电路在高频下的路由性能。目标是确定电路运行的最佳弯道形状和最大速度。用S-参数和时域反射函数模拟的反射电平进行了性能评价。为了进行仿真，考虑了一个带有2路以太网类型信号的PCB。信号通过不同的PCB层传播，从线分离继电器到集成电路。一系列的比特通过线路的等效滤波器从继电器传输到集成电路。结果表明，由于阻抗的不匹配，信号有轻微的衰减。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 28th International Symposium for Design and Technology in Electronic Packaging (SIITME)

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