直流對直流降壓轉換器自動化合成流程

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姓名

羅欣瑜(Hsin-yu Luo) 查詢紙本館藏

畢業系所

電機工程學系

論文名稱

直流對直流降壓轉換器自動化合成流程
(Automatic Synthesis Flow of DC to DC Step-Down Converter Circuits)

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摘要(中)

近年來積體電路發展趨向微小化及多樣化，因此在系統晶片上有各種不同電路，電源轉換器也包括在內。本論文提出一套直流對直流降壓轉換器自動化合成流程，可以支援兩種不同的架構，包含切換式降壓轉換器（Buck Converter）及線性低壓降穩壓器（Linear Low Dropout Voltage Regulator, LDO），此兩種轉換電路皆包含補償的控制電路（Control Circuit），而補償元件面積能夠達到最小值。
使用者只須在工具界面上選取轉換器架構，並輸入規格需要之規格，例如輸入電壓、輸出電壓等等，合成工具會自動產生合適的參數，與HSpice所需的模擬檔，以進行後續的電路模擬，驗證設計結果與規格是否相符，若不符合規格，合成工具會自動調整輸入參數，並重新跑一次合成程序，在切換式降壓轉換器中，主要判斷的是效率；而在線性低壓降轉換器中，判斷的規格是線性調節度與負載調節度。整個轉換器的合成流程已經以工具命令語言（Tool Command Language, Tcl）整合，可以在Linux作業系統上執行。由合成範例可看出，產生的電路皆能夠符合規格。

摘要(英)

Recent trend of integrated circuit design requires miniaturization as well as diversification. As such, the IC contains different kinds of circuits on a whole chip including power converters. This work proposes an automatic synthesis flow for DC-DC step-down converters. The converter architectures of a switcher DC-DC step-down converter（buck converter） and a linear low dropout voltage regulator（LDO） are both supported in the flow with complete control circuits. Moreover, the area of compensation circuits is minimized.
Users can select topology of converter and input specifications of converters in the proposed synthesis tool, like input voltage, output voltage, etc. Then the synthesis tool will automatically generate proper design parameters and corresponding design netlist. The netlist is then simulated with HSpice to verify the implementation results with specifications. If the required specifications are not achieved, the tool will adjust the input parameters and re-run the synthesis procedure actomatically. For buck converters, the primary concern is the efficiency. For LDO circuits, the primary concerns are the line regulation and load regulation. This proposed synthesis flow has been integrated with the tool command language（tcl） on Linux platform. As demonstrated on the circuit examples, all the generated circuits can meet the required specifications.

關鍵字(中)

★ 自動化合成流程
★ 線性低壓降穩壓器
★ 切換式降壓轉換器

關鍵字(英)

★ automatic synthesis flow
★ LDO
★ buck converter

論文目次

摘要 i
Abstract ii
致謝 iii
目錄 iv
圖目錄 vii
表目錄 x
第一章、緒論 1
1-1 研究動機 1
1-2 電源轉換器基本簡介 5
1-3 相關研究 9
1-4 論文組織 11
第二章、背景 12
2-1 簡介 12
2-2 切換式降壓轉換器基本介紹 13
2-2-1 工作原理 15
2-2-2 連續導通模式與非連續導通模式 16
2-3 線性低壓降穩壓器基本介紹 17
2-3-1 工作原理 19
第三章、切換式降壓轉換器合成 21
3-1 合成流程 21
3-2 電感漣波電流 23
3-3 輸出漣波電壓 26
3-4 效率 28
3-5 回授控制系統 33
3-5-1 轉換電路轉移函數 34
3-5-2 脈衝寬度調變器轉移函數 37
3-5-3 補償的誤差放大器轉移函數 39
3-6 電路模擬與修正 43
3-7 合成範例 44
第四章、線性低壓降穩壓器合成 55
4-1 合成流程 55
4-2 壓降電壓 57
4-3 靜態電流 58
4-4 線性調節度 60
4-5 負載調節度 61
4-6 頻率響應 63
4-7 電路模擬與修正 67
4-8 合成範例 68
第五章、自動化合成工具 76
5-1 簡介 76
5-2 切換式降壓轉換器 77
5-3 線性低壓降穩壓器 81
第六章、結論與未來展望 86
6-1 結論 86
6-2 未來展望 87
參考文獻 88

參考文獻

[1] ITRS “Executive Summary” 2007
[2] J.-Q. Liu, “3D Hyperintegration and Packing Technologues for Micro-Nano Systems,” Proc. IEEE, pp. 18--30, Jan. 2009.
[3] 顧馨文，「產業分析全球類比晶片市場綜觀」，南港IC設計育成中心，2010年6月。
[4] 萬蓓琳，「綠色工業革命」，《今周刊》591期，2008年4月。
[5] 蔡建泓，「生醫電力電子系統」，成功大學電機系，2010。
[6] National Semiconductor, "DC to DC Converter Basics", Analog University, Jul. 2008.
[7] On line resources︰Jeff Shepard, 新興ULP無線應用推動電源管理IC成長，電子工程專輯，2007年6月。取自http://www.eettaiwan.com/ART_8800470009_675763_NT_9036996d.HTM。
[8] Sawal Hamid Md Ali, Peter R. Wilson, and Andrew D. Brown, "Yield Predictive Model Characterization In Analog Circuit Design", International Symposium on Integrated Circuits, pp. 289 - 292, 2007.
[9] Fathey Ei-Turky and Elizabeth E. Perry, "BLADES: an artificial intelligence approach to analog circuit design", IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, Issue : 6, Vol. 8, pp. 680 - 692, 1989.
[10] Maria del Mar Hershenson, "CMOS analog circuit design via geometric programming", Proceedings of the American Control Conference, pp. 3266 – 3271, Vol.4, 2004.
[11] Walter Daems, Georges Gielen, and Willy Sansen, "Simulation-based generation of posynomial performance models for the sizing of analog integrated circuits", IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, pp. 517 - 534, Vol. 22, Issue:5, 2003.
[12] N. D. Muhamad, M. R -Sahid, A. H. M. Yatim, N. R. N. Idris, and M. S. Ayob,” Design of Power Stage and Controller for DC-DC Converter Systems Using PSPICE”, International Conference on Power Electronics and Drives Systems, pp. 903 - 908, 2005.
[13] Nisha Das and Marian K. Kazimierczuk, “Power Losses and Efficiency of Buck PWM DC-DC Power Converter” Electrical Insulation Conference and Electrical Manufacturing Expo, Page(s): 417 – 423, 2005.
[14] Samiran DasGupta, Pradip Mandal, “An Automated Design Approach for CMOS LDO Regulators”, Asia and South Pacific Design Automation Conference, pp. 510 – 515, 2009.
[15] On line resources, Buck converter, Wikipedia, the free encyclopedia, from http://en.wikipedia.org/wiki/Buck_converter.
[16] Y-S Shyu, "Low Operating current analog integrated circuits", National Chiao Tung University, Taiwan, PHD Thesis, Jun. 2002.
[17] Gabriel A. Rincon-Mora, “Analog IC Design with Low-Dropout Regulators”, McGraw-Hill 2009.
[18] On line resources, Mack Grady, DC-DC Buck Converter, The University of Texas at Austin, 2009.
[19] Ned Mohan, Tore M. Undeland, William P. Robbins, "Power Electronics: Converters, Applications and Design", 3rd edition, John Wiley & Sons, Inc. 2003.
[20] R.W. Erickson and D. Maksimovic, “Fundermental of Power Electronics”, 2nd edition, Kluwer Academic Publishers, 2004.
[21] Behzad Razavi, “Design of Analog CMOS Integrated Circuits”, Mc Graw Hill International Edition, 2001.
[22] Christophe P. Basso, “Switch-Mode Power Supplies Spice Simulations and Practical Designs”, McGraw-Hill, 2008.
[23] R. Jacob Baker, "CMOS: circuit design, layout, and simulation", 2nd Edition, John Wiley & Sons, Inc. 2007.
[24] 趙晏廷，「運算放大器之自動化設計流程及形為模型研究」，國立中央大學電機工程學系碩士論文，2007年7月。
[25] On line resources, SMD Unshielded Power Inductors - SCD Series, CHILISIN, from http://www.chilisin.com.tw.
[26] On line resources, SMD Aluminum Electrolytic Capacitors Datasheet, STONE, from http://us.100y.com.tw/pdf_file/NACZ.pdf
[27] Bang S. Lee, “Technical Review of Low Dropout Voltage Regulator Operation and Performance,” Application Report, Aug. 1999.
[28] Gupta, V.; Rincon-Mora, G.A.; Raha, P., "Analysis and Design of Monolithic, High PSR, Linear Regulators for SoC Applications”, IEEE International SOC Conference, 2004.
[29] C-Y Huang, "An Improved Frequency Compensation Technique for Low Dropout Regulator", National Tsing Hua University, Taiwan, MS. Thesis, Jun. 2004.
[30] Kursun, V.; Narendra, S.G.; De, V.K.; Friedman, E.G., “Efficiency Analysis of a High Frequency Buck Converter for On-Chip Integration with a Dual-VDD Microprocessor” Proceedings of the 28th European Solid-State Circuits Conference, 2002.
[31] Jaeseo Lee, Geoff Hatcher, Lieven Vandenberghe, and Chih-Kong Ken Yang, “Evaluation of Fully-Integrated Switching Regulators for CMOS Process Technologies” IEEE TVLSI, vol. 15, no. 9, pp.1017-1027, Sep. 2007.
[32] Shih-Min Chen; Chun-Yu Hsieh; Ke-Horng Chen, “Challenge on Compact Size DC-DC Buck Converters with High-Speed Current Sensor and On-Chip Inductors”, 50th Midwest Symposium on Circuits and Systems, pp. 670 – 673, 2007.
[33] Viraj, A.K.P., Amaratunga, G.A.J., “A Monolithic CMOS 5V/1V Switched Capacitor DC-DC Step-down Converter”, IEEE Power Electronics Specialists Conference, pp. 2510 – 2514, 2007.
[34] Siamak Abedinpour, Bertan Bakkaloglu, and Sayfe Kiaei, “A 65MHZ Switching Rate, Two-Stage Interleaved Synchronous Buck Converter with Fully Integrated Output Filter,” IEEE International Symposium on Circuits and Systems, Proceedings, pp. 5315-5318, May 2006.

指導教授

劉建男(Chien-nan Liu)

審核日期

2011-8-18

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