電壓控制模式單一電感雙輸出降壓型轉換器之回授迴路模型及設計

Kun-Yu Lin; 林昆餘

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/37729

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳德玉
dc.contributor.author	Kun-Yu Lin	en
dc.contributor.author	林昆餘	zh_TW
dc.date.accessioned	2021-06-13T15:40:45Z	-
dc.date.available	2018-09-30
dc.date.copyright	2008-07-10
dc.date.issued	2008
dc.date.submitted	2008-07-07
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Ma, “Single-inductor multiple-output switching converters,” Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE 32nd Annual, vol.1, pp. 226 - 231, June 2001. [9] D. Ma, W. H. Ki, C. Y. Tsui, P. K. T. Mok, “A 1.8 V single-inductor dual-output switching converter for power reduction techniques,” VLSI Circuits, 2001. Digest of Technical Papers, pp.137-140, June 2001. [10] P. Patra, A. Patra and D. Kastha, “On-chip implementation of a multi-output voltage regulator based on single inductor Buck Converter topology,” VLSI Design, 2007. Held jointly with 6th International Conference on Embedded Systems., 20th International Conference, pp. 935–940, Jan. 2007. [11] C. Sreekumar and V. Agarwal, “On the hybrid automaton models and control synthesis of a single inductor, double output boost converter,” Power Electronics and Motion Control Conference, 2006. IPEMC '06. CES/IEEE 5th International vol. 1, pp. 1–5, Aug. 2006. [12] E. Bayer and G. Thiele, “A single-inductor multiple-output converter with peak current state-machine control,” Applied Power Electronics Conference and Exposition, 2006. APEC '06. Twenty-First Annual IEEE, March 2006. [13] A. Sharma and Y.S. Pavan, “A single inductor multiple output converter with adaptive delta current mode control,” Circuits and Systems, 2006. ISCAS 2006. Proceedings. 2006 IEEE International Symposium, May 2006. [14] P. Patra, S. Samanta, A. Patra and S. Chattopadhyay, “A novel control technique for single-inductor multiple-output DC-DC Buck Converters,” Industrial Technology, 2006. ICIT 2006. IEEE International Conference, pp. 807–811, Dec. 2006. [15] D. Trevisan, P. Mattavelli and P. Tenti, “Digital control of single-inductor dual-output DC-DC converters in continuous-conduction mode,” Power Electronics Specialists Conference, pp. 2616–2622, 2005. [16] V. Moreno and L. Benadero, “Investigating stability of a single inductor current mode controlled dual switching DC-DC converter,” Power Electronics and Applications, 2005 European Conference, Sept. 2005. [17] S.-C Koon, Y.-H. Lam and W.-H Ki, “Integrated charge-control single-inductor dual-output step-up/step-down converter,” Circuits and Systems, 2005. ISCAS 2005. IEEE International Symposium, vol. 4, pp. 3071-3074, May 2005. [18] D. Trevisan, W. Stefanutti, P. Mattavelli and P. Tenti, “FPGA control of SIMO DC-DC converters using load current estimation,” Industrial Electronics Society, 2005. IECON 2005. 31st Annual Conference of IEEE, Nov. 2005. [19] D. Ma, W. H. Ki, C. Y. Tsui, P. K. T. Mok, “Single-inductor multiple-output switching converters with time-multiplexing control in discontinuous conduction mode,” Solid-State Circuits, IEEE Journal, vol. 38, Issue 1, pp. 89-100, Jan. 2003. [20] R. W. Erickson, D. Maksimovic, “Fundamental of Power Electronics” second edition, Kluwer Academic Publisher, 1999. [21] Mohan, Undeland, Robbins, “Power Electronics” third edition, John Wiely & Soncs, Inc., 2003. [22] V. Vorperian, “Simplified analysis of PWM converters using model of PWM switch. I. Continuous conduction mode,” Aerospace and Electronic Systems, IEEE Transactions, vol. 26, Issue 3, pp. 490-496, May 1990. [23] V. Vorperian, “Simplified analysis of PWM converters using model of PWM switch. II. Discontinuous conduction mode,” Aerospace and Electronic Systems, IEEE Transactions, vol. 26, Issue 3, pp. 497-505, May 1990. [24] CATENA Software Ltd. http://www.catena.uk.com/site/index.htm [25] 友聲電子公司－SIMetrix/SIMPLIS台灣地區代理商 http://www.you-shang.com.tw/card/index.htm [26] Y. Qiu, “High-Frequency Modeling and Analyses for Buck and Multiphase Buck Converters,” Dissertation submitted to the Faculty of the Virginia Polytechnic Institute and State University in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Electrical Engineering, 2005. [27] ON Semiconductor, “TL494” Datasheet. http://www.onsemi.com/pub_link/Collateral/TL494-D.PDF [28] EPARC研究團隊, “電力電子學綜論,” 全華科技, 2007. [29] HEWLETT PACKARD, “HCPL-3120” Datasheet. http://www.datasheetcatalog.org/datasheet/hp/HCPL-3120.pdf [30] AP 200 Parallel Frequency Response Analyzer Application Notes http://www.ridleyengineering.com/downloads/AP200Notes.pdf [31] Ridley Engineering, Inc. http://www.ridleyengineering.com/index.html
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/37729	-
dc.description.abstract	過去幾年，單一電感雙輸出(SIDO)切換式轉換器被發現應用於手持式電子裝置上。它的特色是單一電感、雙調節輸出，因而節省成本、大小及重量。當操作在不連續導通模式(DCM)時，藉由二組相互獨立的回授迴路，轉換器上的二顆開關工作是相互獨立地調節雙輸出端。轉換器回授設計在這樣的條件下因而非常像一般單一電感降壓型轉換器(Buck converter)。當它操作在連續導通模式(CCM)時，二組控制迴路交互耦合，因而無法使用一般小訊號模型來模型化。本論文的焦點在發展電壓控制模式單一電感雙輸出降壓型轉換器操作在連續導通模式之回授迴路模型。這模型藉由模擬及實作結果來驗證。在這模型基礎下，提出對於電壓控制模式單一電感雙輸出降壓型轉換器操作在連續導通模式之回授補償設計。這個模型實際地應用在回授補償設計及預測閉迴路性能，其包括：電路的穩定度、電壓及負載調節率。	zh_TW
dc.description.abstract	Abstract－In recent years, single-inductor dual-output (SIDO) switching converters have found applications in hand-held electronic devices. It features single inductor, dual regulated outputs and therefore saves cost and size/weight. When operated in discontinuous conduction mode (DCM), the two switches in the converter work independently for the two outputs regulated by two independent feedback loops. The design of the converter feedback under such condition is therefore very much like conventional single-inductor buck converters. When it’s operated in a continuous conduction mode (CCM), however, the two control loops are cross-coupling with each other and therefore cannot be modeled using conventional small-signal model. The focus of the thesis is to develop a model for the feedback control loops for a voltage-mode SIDO buck converter working in CCM. The model was and verified by simulations and experimental results. Based on this model, a method is proposed for the design of the feedback compensation for a voltage-mode SIDO buck converter working under CCM. This model is practically useful in designing the feedback compensation and predicting the closed-loop performances including circuit stability, line and load regulations.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T15:40:45Z (GMT). No. of bitstreams: 1 ntu-97-R95921019-1.pdf: 3150807 bytes, checksum: 60569d90bbf0f6c59ff97cc032a93d53 (MD5) Previous issue date: 2008	en
dc.description.tableofcontents	誌謝 I 中文摘要 II 英文摘要 III 目錄 IV 圖目錄 X 表目錄 XVIII 符號表 XIX 第一章緒論 1 1.1 研究動機與目的 1 1.2 研究方向及目標 3 1.3 內容大綱 5 第二章單一電感雙輸出(SIDO)降壓型轉換器電路操作模式優缺點分析 6 2.1 單一電感多輸出(SIMO)切換式轉換器之特色 6 2.2 SIDO電路操作在不連續導通模式(DCM)之優缺點分析 8 2.3 SIDO電路操作在連續導通模式(CCM)之優缺點分析 10 2.4 SIDO電路操作在擬似連續導通模式(PCCM)之優缺點分析 12 2.5 本論文研究之SIDO電路操作在分工式連續導通模式(CCM)之優缺點分析 15 2.5.1 SIDO降壓型轉換器責任週期D1>D2之電路動作原理及分析 18 2.5.2 SIDO降壓型轉換器責任週期D1=D2之電路動作原理及分析 19 2.5.3 SIDO降壓型轉換器責任週期D1<D2之電路動作原理及分析 20 2.5.4 小結 21 第三章單一電感雙輸出(SIDO)降壓型轉換器之小訊號模型及開迴路小訊號分析 23 3.1 變壓器模型 23 3.2 脈波寬度調變(PWM)開關模型 25 3.3 SIDO降壓型轉換器D1>D2之開迴路小訊號分析 26 3.3.1 平均切換式網路電路方塊圖 26 3.3.2 直流電壓增益轉移函數 35 3.3.3 開迴路輸入電壓對輸出電壓轉移函數 37 3.3.3.1 輸入電壓對第一組輸出電壓之小訊號轉移函數 38 3.3.3.2 輸入電壓對第二組輸出電壓之小訊號轉移函數 39 3.3.4 開迴路責任週期對輸出電壓轉移函數 40 3.3.4.1 責任週期-1對第一組輸出電壓之小訊號轉移函數 40 3.3.4.2 責任週期-1對第二組輸出電壓之小訊號轉移函數 41 3.3.4.3 責任週期-2對第一組輸出電壓之小訊號轉移函數 43 3.3.4.4 責任週期-2對第二組輸出電壓之小訊號轉移函數 44 3.3.5 開迴路輸出電流對輸出電壓轉移函數 45 3.3.5.1 第一組輸出電流對第一組輸出電壓之小訊號轉移函數 45 3.3.5.2 第一組輸出電流對第二組輸出電壓之小訊號轉移函數 46 3.3.5.3 第二組輸出電流對第一組輸出電壓之小訊號轉移函數 48 3.3.5.4 第二組輸出電流對第二組輸出電壓之小訊號轉移函數 49 3.3.6 開迴路轉移函數列表 50 3.4 SIDO降壓型轉換器D1=D2之開迴路小訊號分析 52 3.5 SIDO降壓型轉換器D1<D2之開迴路小訊號分析 57 3.6 小結 61 第四章穩態分析、閉迴路小訊號分析、回授補償設計及穩定度判定 62 4.1 SIDO電路操作在連續導通模式之穩態分析 62 4.2 SIDO電路操作在連續導通模式之閉迴路小訊號分析 65 4.2.1 SIDO降壓型轉換器控制方塊圖 65 4.2.2 閉迴路小訊號分析 66 4.2.3 閉迴路轉移函數列表 69 4.3 SIDO電路操作在連續導通模式之回授補償設計 71 4.3.1 回授補償設計之分析 71 4.3.2 迴路增益之控制轉移函數列表 74 4.4 SIDO電路操作在連續導通模式之穩定度判定 75 4.5 小結 75 第五章單一電感雙輸出(SIDO)降壓型轉換器之設計流程及模擬驗證 76 5.1 SIDO電路操作在連續導通模式之設計流程 76 5.1.1 電路設計流程 76 5.1.2 實例說明 76 5.2 SIDO電路操作在連續導通模式之模擬驗證 83 5.2.1 SIMPLIS模擬軟體特色 83 5.2.2 電路模擬與分析 84 5.2.3 小結 92 第六章單一電感雙輸出(SIDO)降壓型轉換器之硬體電路實作與分析 93 6.1 硬體電路實作簡介 93 6.1.1 IC介紹 93 6.1.1.1TL494脈波寬度調變控制電路 93 6.1.1.2 HCPL-3120閘極驅動光耦合器 96 6.1.2 硬體電路 97 6.2 硬體電路實驗量測與分析 98 6.2.1 AP200頻率響應分析儀介紹 98 6.2.2 小訊號實驗量測與分析 99 6.2.2.1 迴路增益波德圖 99 6.2.2.2 閉迴路輸入電壓對輸出電壓轉移函數波德圖 101 6.2.2.3 閉迴路輸出電流對輸出電壓轉移函數波德圖 103 6.2.3 穩態實驗量測與分析 106 6.2.4 小結 109 第七章結論與未來展望 111 7.1 結論 111 7.2 未來展望 112 參考文獻 114
dc.language.iso	zh-TW
dc.subject	單一電感雙輸出(SIDO	zh_TW
dc.subject	降壓型轉換器	zh_TW
dc.subject	電壓模式	zh_TW
dc.subject	Buck converter	en
dc.subject	Voltage-Mode	en
dc.subject	Single-Inductor Dual-Output (SIDO)	en
dc.title	電壓控制模式單一電感雙輸出降壓型轉換器之回授迴路模型及設計	zh_TW
dc.title	Modeling and Design of Feedback Loops for a Voltage-Mode Single-Inductor Dual-Output (SIDO) Buck Converter	en
dc.type	Thesis
dc.date.schoolyear	96-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	許源浴,劉志文,羅有綱
dc.subject.keyword	單一電感雙輸出(SIDO,降壓型轉換器,電壓模式,	zh_TW
dc.subject.keyword	Single-Inductor Dual-Output (SIDO),Buck converter,Voltage-Mode,	en
dc.relation.page	117
dc.rights.note	有償授權
dc.date.accepted	2008-07-08
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

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