用于5 ghz和未来6 ghz WiFi应用的数字时钟噪声抑制的可扩展封装级RFI滤波器

2019 IEEE International Symposium on Electromagnetic Compatibility, Signal & Power Integrity (EMC+SIPI) Pub Date : 2019-07-01 DOI:10.1109/ISEMC.2019.8825285

Jaejin Lee, Hao-han Hsu, Ying-Ern Ho

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引用次数: 3

摘要

计算机平台对信号的快速处理要求数字时钟频率大于5ghz。片上系统(SoC)和WiFi无线电共存的风险越来越大，必须减轻，以支持不断增长的数据吞吐量需求。本文研究了适用于5 ghz和未来6 ghz WiFi应用的可扩展封装RFI滤波器解决方案。传统的RFI缓解解决方案已经在封装和板级通过板上屏蔽和去耦滤波器策略进行了研究。然而，解决方案取决于PCB设计和射频元件特性。因此，解决方案的可伸缩性和有效性受到限制。在本研究中，在射频电容器的地垫上实现了一个感应弯曲结构，并允许定制有效滤波器频率，从而提高了封装RFI滤波器解决方案的可扩展性。此外，采用弯曲电感和梳状电容设计了集成封装LC滤波器，有效滤波频率为6.72 GHz, GHz噪声降低约8 dB。这项工作为WiFi应用提供了有效和可扩展的千兆赫片上时钟噪声缓解解决方案。

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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Scalable Package-level RFI Filter for Digital Clock Noise Mitigation in 5-GHz and future 6-GHz WiFi Applications

Digital clock frequency greater than 5-GHz is demanded due to fast signal processing for computer platforms. System-on-chip (SoC) and WiFi radio co-existence risk becomes increasing and has to be mitigated to support increasing data throughput requirement. Scalable package RFI filter solutions are studied for 5-GHz and future 6-GHz WiFi applications in the paper. Conventional RFI mitigation solutions have been investigated in package and board levels by on-board shielding and decoupling filter strategies. However, the solutions depend on PCB designs and RF component characteristics. Scalability and effectiveness of the solutions are therefore limited. In this study, an inductive meander structure is implemented at ground pad of the RF capacitor and allows tailoring effective filter frequency, which improves scalability of the package RFI filter solution. In addition, integrated package LC filter is designed with meander inductors and comb capacitor and shows effective filter frequency of 6.72 GHz and GHz-noise reduction of about 8 dB. This work provides effective and scalable gigahertz on-die clock noise mitigation solutions for WiFi applications.

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来源期刊

2019 IEEE International Symposium on Electromagnetic Compatibility, Signal & Power Integrity (EMC+SIPI)

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