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姓名 張家賢(Jia-Xian Chang ) 查詢紙本館藏 畢業系所 電機工程研究所 論文名稱 一個2V 5GHz CMOS非整數頻率合成器與和差調變器設計
(A 2V 5GHz CMOS Fractional-N Frequency Synthesizer with a ΔΣ Modulator)相關論文 檔案 [Endnote RIS 格式]
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摘要(中) 頻率合成器(Frequency Synthesizer)是通訊系統射頻前端的一個重要元件。在以鎖相迴路(Phase-Locked Loops)為基礎的設計上,會遭遇頻率解析度(Frequency Resolution)、轉換速度(Switching Speed)與相位雜訊(Phase Noise)等問題。
本論文採用和差調變器(Sigma-Delta Modulator)技術的非整數頻率合成器,可同時達到好的頻率解析度、快速的轉換速度與低的相位雜訊。包含的元件有相位頻率偵測器(Phase Frequency Detector)、電荷充放器(Charge Pump)、迴路濾波器(Loop Filter)、壓控振盪器(Voltage Controlled Oscillator)、倍頻器(Frequency Doubler)、多係數除頻器(Multi-Modulus Frequency Divider)與二位元三階和差調變器(2-bit 3rd Order Sigma-Delta Modulator)。
在晶片設計上,針對5GHz的ISM頻帶設計一2V 5GHz的頻率合成器,以0.35μm 1P4M CMOS製程完成。在2V的操作電壓下,功率消耗為80mW,晶片面積為3210μm×2410μm。摘要(英) Frequency Synthesizer is an important component in RF front end. In conventional PLL-based architecture, there exists some difficult design trade-off between the frequency resolution, the switching speed and the phase noise.
This thesis proposes a single chip CMOS fractional-N frequency synthesizer using sigma-delta modulator. It can achieve fine frequency resolution, fast switching speed and low phase noise simultaneously. The frequency synthesizer is composed of a phase frequency detector, a charge pump, a loop filter, a VCO, a frequency doubler, a multi-modulus frequency divider and a 2-bit 3rd order sigma-delta modulator.
The design of the 2V 5GHz frequency synthesizer aims at the 5GHz ISM band. Implemented in TSMC 0.35μm 1P4M CMOS technology, the circuit consumes 80mW from 2V supply and occupies chip size of
3210μm×2410μm.關鍵字(中) ★ 和差調變器
★ 多係數除頻器
★ 非整數頻率合成器關鍵字(英) ★ Fractional-N Frequency Synthesizer
★ Multi-Modulus Frequency Divider
★ ΔΣ Modulator論文目次 第一章簡介‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 1
1.1 研究動機‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 1
1.2 組織架構‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 2
第二章鎖相迴路‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 3
2.1 簡介‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 3
2.2 鎖相迴路的雜訊‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 4
2.3 整數鎖相迴路‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 6
2.4 非整數鎖相迴路‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 7
第三章和差調變器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 10
3.1 簡介‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 10
3.2 和差調變器架構‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 10
3.3 低階和差調變器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 11
3.3.1 一階和差調變器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧12
3.3.2 二階和差調變器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧13
3.4 高階和差調變器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 14
3.5 單級和差調變器架構‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 15
3.6 多位元和差調變器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 16
3.7 諧波與加入雜訊‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 16
第四章鎖相迴路電路設計‧‧‧‧‧‧‧‧‧‧‧‧‧ 18
4.1 簡介‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 18
4.2 相位頻率偵測器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 19
4.3 電荷充放器與迴路濾波器‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 20
4.4 壓控振盪器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 21
4.5 倍頻器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 22
4.6 多係數除頻器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 24
4.6.1 除頻器簡介‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 24
4.6.2 前置除頻器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 25
4.6.3 可程式計數器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 28
4.6.4 屏蔽計數器‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 30
第五章和差調變器電路設計‧‧‧‧‧‧‧‧‧‧‧‧ 32
5.1 簡介‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 32
5.2 和差調變器架構‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 32
5.3 穩定性分析‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 34
5.4 和差調變器電路‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 35
5.5 總結‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 39
第六章佈局與量測結果‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 40
6.1 佈局‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 40
6.2 量測結果‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 42
6.2.1 多係數除頻器量測結果‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 42
6.2.2 壓控振盪器與倍頻器量測結果‧‧‧‧‧‧‧‧‧‧‧ 42
第七章結論‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧ 44
參考文獻‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧‧45參考文獻 [1]Hamid R. Rategh, Hirad Samavati and Thomas H. Lee, “A CMOS Frequency Synthesizer with an Injection-Locked Frequency Divider for a 5-GHz Wireless LAN Receiver”, IEEE J. Solid-State Circuits, vol. 35, May 2000, pp. 780-787.
[2]Christopher Lam and Behzad Razavi, “A 2.6-GHz/5.2-GHz Frequency Synthesizer in 0.4-μm CMOS Technology”, IEEE J. Solid-State Circuits, vol. 35, May 2000, pp. 788-794.
[3]B. G. Goldberg and H. Eisenson, “Frequency Synthesizer Strategies for Wireless”, Microwave Journal, vol. 36, June 1993, pp. 24-40.
[4]A. Kajiwara and M. Nakagawa, “A New PLL Frequency Synthesizer with High Switching Speed”, IEEE Transactions on Vehicular Technology, vol. 41, November 1992, pp.407-413.
[5]Brian Miller and Robert J. Conley, “A Multiple Modulator Fractional Divider”, IEEE Transactions on Instrumentation and Measurement, vol. 40, June 1991, pp. 578-583.
[6]Tom A. D. Riley, Miles A. Copeland and Tad A. Kwasniewski, “Delta-Sigma Modulation in Fractional-N Frequency Synthesis”, IEEE J. Solid-State Circuits, vol. 28, May 1993, pp. 553-559.
[7]Woogeun Rhee and Bang-Sup Song, “A 1.1-GHz CMOS Frational-N Frequency Synthesizer with a 3-b Third-Order ΔΣ Modulator”, IEEE J. Solid-State Circuits, vol. 35, October 2000, pp. 1453-1460.
[8]L. Williams and B. Wooley, “A Third-Order Sigma-Delta Modulator with Extended Dynamic Range”, IEEE J. Solid-State Circuits, vol. 29, March 1994, pp. 193-202.
[9]Kirk C. H. Chao, Shujaat Nadeem, Wai L. Lee and Charles G. Sodini, “A Higher Order Topology for Interpolative Modulators for Oversampling A/D Converters”, IEEE Transactions on Circuits and Systems, vol.37, March 1990, pp.309-318.
[10]P. Ju and D. Vallancourt, “Quantization Noise Reduction in Multibit Oversampling Σ-Δ A/D Converters”, Electron. Lett., vol. 28, June 1992, pp. 1162-1163.
[11]Chris Dunn and Mark Sandler, “Linearising Sigma-Delta Modulators using Dither and Chaos”, IEEE International Symposium, vol. 1, 1995, pp. 625-628.
[12]Ting-Ping Liu, “A 6.5GHz Monolithic CMOS Voltage-Controlled Oscillator”, ISSCC 1999, pp.404-405.
[13]Jan Craninckx and Michiel S. J. Steyaert, “A 1.75-GHz/3-V Dual-Modulus Divide-by-128/129 Prescaler in 0.7-μm CMOS”, IEEE J. Solid-State Circuits, vol. 31, July 1996, pp. 890-897.
[14]Behzad Razavi, Kwing F. Lee and Ran-Hong Yan, “A 13.4-GHz CMOS Frequency Divider”, ISSCC 1994, pp.176-177.
[15]HongMo Wang, “A 1.8V 3mW 16.8GHz Frequency Divider in 0.25μm CMOS”, ISSCC 2000, pp.196-197.指導教授 陳巍仁(Wei-Zen Chen) 審核日期 2001-7-31 推文 plurk
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