吳宗霖臺灣大學：電信工程學研究所陳沂哲Chen, Yi-CheYi-CheChen2007-11-272018-07-052007-11-272018-07-052007http://ntur.lib.ntu.edu.tw//handle/246246/58588本篇論文著重在探討印刷電路板中的雜訊抑制機制。首先針對各種傳統之雜訊抑制方法加以討論及優缺點分析，之後提出一種光子晶體電源層結構，藉由頻帶圖以及色散圖的分析方式，可以更準確及有效率的預測出光子晶體的截止頻帶，並設計出所需要的截止頻帶位置。論文出提了理論分析，數值模擬以及實際電路板的製做，模擬與量測結果有相當好的一致性，最後另有電路元件的實際測試，可以看出此結構確實有絕佳的雜訊抑制效果。This thesis focuses on the isolation of power/ground bounce noise (P/GBN) and suppression of simultaneous switching noise (SSN) in high-speed circuits. A hybrid photonic crystal power/ground layer (H-PCPL) is proposed to efficiently eliminate the noise. Based on the previous PCPL design, we use two kinds of photonic crystals to synthesis several bandgaps to form a continuously broad bandgap. A sequence of designing photonic bandgaps is investigated; first we fix the radius of the dielectric discs and vary the lattice constant, which can enhance the photonic bandgap but could not get a continuous stopband. Then we use two types of dielectric discs with different radii. The bandgaps can compensate each other and get a continuous stopband ranging from 3 to 9.6 GHz. Real-frequency gapmap is used here to analyze and estimate the bandgap structure, for the hybrid PCPL. H-PCPL are fabricated on Rogers/RT Duroid 5880 and good agreement is shown between the measurement and simulation results. Two noise isolation structure, H-PCPL and the conventional split power plane, are compared here, and the H-PCPL shows better signal integrity performance than the split power plane besides wider stopband for noise isolation. Demonstration of noise isolation on digital circuits is shown in the last section.Chapter 1 Introduction 1.1 Research Motivation………………………………………..……1 1.2 Simultaneous Switching Noise (SSN) in Power Distribution Network (PDN) of IC packages………………………………….1 1.3 Literature Survey and Typical Solutions to SSN Problems………4 1.4 Chapter Outline of This Paper……………………………………8 Chapter 2 Photonic Crystal Bandgap Structure 2.1 One Dimensional and Two Dimensional Photonic Structures….11 2.2 Dispersion Diagram for Bandgap Analysis……………………..12 Chapter 3 Photonic Crystal Power/Ground Layer (PCPL) 3.1 PCPL Model and Design………………………………………..19 3.2 Fabrication and Measurement…………………………………..21 3.3 Power Integrity Performance of PCPL……………………….....24 3.4 Design Diagram and Gapmap…………………………………..28 3.5 Summary………………………………………………………..31 Chapter 4 Hybrid Photonic Crystal Power/Ground Layer (H-PCPL) Design for Broadband Noise Isolation 4.1 Continuous Stopband for Noise Isolation………………………32 4.2 Gapmap for Bandgap Design and Estimation…………………..33 4.3 Power Integrity Performance of H-PCPL………………………38 4.4 Signal Integrity Performance of H-PCPL………………………45 4.5 Ultra High DK H-PCPL………………………………………...50 4.6 Noise Isolation on Digital Circuits……………………………...57 Chapter 5 Conclusion Reference2086885 bytesapplication/pdfen-US光子晶體同步切換雜訊信號完整性電源完整性photonic crystalsimultaneous switching noiseSSNpower/ground bounce noisesignal integritypower integritynoise isolationthesishttp://ntur.lib.ntu.edu.tw/bitstream/246246/58588/1/ntu-96-R94942011-1.pdf