簡易檢索 / 詳目顯示

回結果列表
研究生: 范憶霖
Fan, Yi-Lin
論文名稱: 操作在 6.2 ~ 7 GHz 可展頻之具有三角積分調變器數位式鎖相迴路
A 6.2 ~ 7 GHz Spread-Spectrum Phase-Locked Loop w/i Delta-Sigma Modulator
指導教授: 朱大舜
Chu, Ta-Shun
口試委員: 吳仁銘
Wu, Jen-Ming
王毓駒
Wang, Yu-Jiu
學位類別: 碩士
Master
系所名稱: 電機資訊學院 - 電機工程學系
Department of Electrical Engineering
論文出版年: 2018
畢業學年度: 106
語文別: 中文
論文頁數: 77
中文關鍵詞: 鎖相迴路展頻
外文關鍵詞: Phase-locked loops, spread spectrum
相關次數: 點閱:1下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 雷達按照發射信號種類分成脈衝雷達和連續波雷達兩大類,常規脈衝雷達發射周期性的高頻脈衝,連續波雷達發射的是連續波信號。連續波雷達發射的信號可以是單頻連續波(CW)或者調頻連續波(FMCW),調頻方式也有多種,常見的有三角波、鋸齒波、編碼調製或者噪聲調頻等。其中,單頻連續波雷達僅可用於測速,無法測距,而FMCW雷達既可測距又可測速,並且在近距離測量上的優勢日益明顯。
    而要有一展頻連續波的訊號,需要一個能產生展頻訊號的鎖相迴路,來提供FMCW雷達所需的展頻功能,在本論文中即提出一個操作在6.2 GHz ~ 7 GHz可展頻之具有三角積分調變器的數位式鎖相迴路,主要組成的電路有相位頻率檢測器、電流幫浦、三階迴路濾波器、壓控振盪器、除頻器、三角積分調變器以及能使鎖相迴路產生展頻訊號的三角波產生器。在設計上除了利用運算放大器降低電流幫浦的非理想效應,並將電流幫浦做成電流可調的能力,透過調整電流改變迴路頻寬,使輸出訊號具有最好的雜訊壓抑,並且在不使用展頻時,十六位元的三角積分調變器能提供相當高的解析度,上述中的子電路構造出完整的鎖相迴路架構。
    本文開頭介紹動機,並對後續章節做簡單介紹,接著講解鎖相迴路中子電路的架構,在說明在本論文中所使用的論文架構,並提出電路之模擬結果,最後對提出的鎖相迴路做簡單的結論。

    According to the type of transmission signal, radar is divided into two types, pulse radar and the continuous wave radar, normally pulse radar emits periodic high-frequency pulse and continuous wave radar emits a continuous wave signal. The signal transmitted by the CW radar may be a single- frequency continuous wave (CW) or a frequency-modulated continuous wave (FMCW), and there are also various frequency modulation methods, such as triangular wave, saw tooth wave, code modulation, or noise frequency modulation. Among them, single-frequency continuous-wave radar can only be used for speed measurement, while FMCW radar can not only measure distance but also speed.
    To have a continuous-wave signal with spread-spectrum, a spread-spectrum signal is required to provide by phase-locked loop for the FMCW radar. In this paper, a 6.2 ~ 7 GHz Spread-Spectrum Phase-Locked Loop w/i Delta-Sigma Modulator is proposed. The main circuit are phase frequency detector, charge pump, 3rd loop filter, voltage-controlled oscillator, frequency divider, and delta-sigma modulators, and a triangular wave generator circuit which make the PLL generating a spread-spectrum signal, using operating amplifier to reduce the non-ideal effect of the charge pump, and make the charge pump have the function of current-adjustable, to have the best noise suppression in output signal, and when the spread spectrum is not used, the 16-bit delta-sigma modulator can provide a very high resolution of frequency, the above sub-circuits construct a complete phase-locked loop architecture.
    This thesis begins with an introduction to the motivation, and gives a brief introduction to the following chapters, the behavior of phase-locked loop and the design flow were described step-by-step. And a brief conclusion for the PLL in the last chapter.

    Abstract(英文摘要) I 中文摘要 II 圖目錄 V 表目錄 VII 第一章 緒論 1 1.1簡介 1 1.2章節介紹 1 第二章 鎖相迴路基本原理介紹 2 2.1 鎖相迴路架構分析及操作原理 2 2.1.1相位頻率檢測器 3 2.1.2 電流幫浦 7 2.1.3 迴路濾波器 11 2.1.4 壓控振盪器 15 2.1.5 除頻器 20 2.1.6 分數型頻率合成器 23 2.1.7 展頻鎖相迴路設計 26 第三章 鎖相迴路電路設計實現與雜訊分析 28 3.1 鎖相迴路電路設計實現 28 3.1.1 頻率相位檢測器以及必定重疊電路 28 3.1.2 電流幫浦 31 3.1.3 壓控振盪器 36 3.1.4 除頻器 38 3.1.5 三角積分調變器 42 3.1.6 三角波產生器 46 3.1.7 迴路濾波器 49 3.2 鎖相迴路雜訊分析 51 第四章 模擬結果 57 4.1 頻率相位檢測器以及必定重疊電路 57 4.2 電流幫浦 59 4.3 壓控振盪器 64 4.4 三角積分調變器以及除頻器 66 4.5 三角波產生器 68 4.6 迴路模擬 70 4.7 電路佈局 74 第五章 結論 75 5.1 結論 75 5.2 參考文獻 76

    1. R. Gu and S. Ramaswamy, "Fractional-N phase locked loop design and applications," in 2007 7th International Conference on ASIC, 2007, pp. 327-332.
    2. T. Mitomo, N. Ono, H. Hoshino, Y. Yoshihara, O. Watanabe, and I. Seto, "A 77 GHz 90 nm CMOS Transceiver for FMCW Radar Applications," IEEE Journal of Solid-State Circuits, vol. 45, no. 4, pp. 928-937, 2010.
    3. R. Indrawijaya, D. Kurniawan, R. Sariningrum, D. Muliawandana, and B. E. Sukoco, "Fractional-N PLL Synthesizer for linear FMCW Radar Signal Generator," in 2016 10th International Conference on Telecommunication Systems Services and Applications (TSSA), 2016, pp. 1-6.
    4. A. E. Kholy et al., "A wide spreading range programmable spread spectrum clock generator using a ∆Σ fractional-N PLL," in 2009 Joint IEEE North-East Workshop on Circuits and Systems and TAISA Conference, 2009, pp. 1-4.
    5. V. Valenta, G. Baudoin, and M. Villegas, "Phase Noise Analysis of PLL Based Frequency Synthesizers for Multi-Radio Mobile Terminals," in 2008 3rd International Conference on Cognitive Radio Oriented Wireless Networks and Communications (CrownCom 2008), 2008, pp. 1-4.
    6. S. G. Bae, G. Kim, and C. Kim, "A 5-GHz Subsampling PLL-Based Spread-Spectrum Clock Generator by Calibrating the Frequency Deviation," IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 64, no. 10, pp. 1132-1136, 2017.
    7. C. Hsiang-Hui, I. H. Hua, and L. Shen-Iuan, "A spread-spectrum clock generator with triangular modulation," IEEE Journal of Solid-State Circuits, vol. 38, no. 4, pp. 673-676, 2003.
    8. G. Bhargav, G. Prasad, S. D. Canchi, and B. Chanikya, "Design and analysis of phase locked loop in 90nm CMOS," in 2016 Thirteenth International Conference on Wireless and Optical Communications Networks (WOCN), 2016, pp. 1-7.
    9. F. An, S. Ma, Q. Chen, G. Zhou, F. Ye, and J. Ren, "A wide-division-ratio 100MHz-to-5GHz multi-modulus divider chain for wide-band PLL," in 2015 IEEE 11th International Conference on ASIC (ASICON), 2015, pp. 1-4.
    10. W. Jiang, A. Tavakol, P. Effendrik, M. v. d. Gevel, F. Verwaal, and R. B. Staszewski, "Design of ADPLL system for WiMAX applications in 40-nm CMOS," in 2012 19th IEEE International Conference on Electronics, Circuits, and Systems (ICECS 2012), 2012, pp. 73-76.
    11. W. Rhee, "Design of high-performance CMOS charge pumps in phase-locked loops," in Circuits and Systems, 1999. ISCAS '99. Proceedings of the 1999 IEEE International Symposium on, 1999, vol. 2, pp. 545-548 vol.2.
    12. Y.-L. Lin, "寬頻低雜訊放大器與三角積分調變分數型頻率合成器之研製," National Central University, 2007.
    13. 高曜煌, 射頻鎖相迴路 IC 設計. 滄海, 2005.
    14. 劉深淵 and 楊清淵, 鎖相迴路. 滄海書局, 2006.

    QR CODE