( 您好!臺灣時間:2021/04/10 19:46
字體大小: 字級放大   字級縮小   預設字形  


研究生(外文):Chen-Yo Lin
論文名稱(外文):The energy recovery of the battery constant current discharge test
指導教授(外文):Chung-Wen Hung
外文關鍵詞:full-bridge inverterpush-pull converterthe battery discharge test systeminterleaved boost converter
  • 被引用被引用:1
  • 點閱點閱:604
  • 評分評分:系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔系統版面圖檔
  • 下載下載:16
  • 收藏至我的研究室書目清單書目收藏:0
傳統電池放電測試主要藉由負載消耗放電測試能量,此方法不但浪費能量還會產生廢熱,需要增加散熱元件的成本。本論文研製一電池放電測試系統,目的在於回收電池放電測試時所釋放出來的能量。系統包含以定電流控制為基礎的交錯式升壓型轉換器(Interleaved Boost Converters)、開迴路的推挽式轉換器(Push-pull Converter)與交流電流控制為基礎的全橋式逆變器(Full-Bridge Inverter),其優點在於將電池定電流放電測試所產生的電能,升壓到適當的電壓準位,接著再轉換為交流電並聯至市電系統,回收能量提供電源加以應用。
在控制器上,使用比例積分控制(Proportional Integral Control, PI)與弦波脈波寬度調變(Sinusoidal Pulse Width, SPWM)控制。交錯式升壓型轉換器主要由PI控制法則控制,第一級交錯式升壓型轉換器所回收的能量,經由開迴路模式下的第二級推挽式轉換器升壓電壓準位,則全橋式逆變器將被啟動同時並聯市電,此程序由PI控制法則與弦波脈波寬度調變控制。
本論文將先就所提出的系統架構進行分析與模擬,其硬體系統控制單元使用德州儀器(Texas Instruments TI)公司的C2000 TMS320F28035 Digital signal processors, DSP及外部擴充電路來進行實驗。透過實驗結果驗證了定電流放電測試系統是可以被實現的。
Traditional battery discharge test uses load consumption energy to inspect the capacity. This method not only wastes the energy but also generates heat. Besides, it needs to increase the cost for the components of cooling system.
The aim of the battery discharge test system presented in this paper is to recycle the energy released from battery discharge test. This system includes interleaved boost converter based on constant current control, push-pull converter in open loop mode and full-bridge inverter, which is with the foundation of AC current control. The advantage is to recycle energy by boosting battery energy to an appropriate voltage and then, to transform the DC to AC for grid-connected.
The controllers of this battery test system are based on PI control and SPWM. Interleaved boost converter is controlled by PI regulator. The energy which is recycled from first stage interleaved boost converter is boosted to an appropriate voltage by second stage push-pull converter under open loop mode, and full-bridge will transform the DC to AC for grid-connected by PI control and SPWM.
This paper builds the battery discharge test system model to analyze the circuit state, and it uses the TI TMS320F28035 DSP to achieve the control method. According to the result of the experiment, the energy recycle function of the battery constant current discharge test system is proved to be achieved.
第1章 導論
1.1 研究背景
1.2 研究動機
1.3 文獻回顧
1.4 論文大綱
第2章 電力轉換電路分析
2.1 前言
2.2 系統架構
2.3 DC-DC 升壓型轉換器
2.4 DC-DC 推挽式轉換器
2.5 DC-AC 全橋式逆變器
2.6 小結
第3章 硬體架構與軟體控制設計
3.1 前言
3.2 數位信號處理器架構概述
3.3 升壓型轉換器控制設計與模擬
3.3.1 比例-積分控制器
3.3.2 升壓型轉換器控制架構
3.3.3 升壓型轉換器電路模擬
3.4 推挽式轉換器控制設計與模擬
3.4.1 推挽式轉換器控制架構
3.4.2 推挽式轉換器電路模擬
3.5 全橋式逆變器控制架構
3.6 小結
第4章 實驗結果
4.1 前言
4.2 實際電路與硬體方塊周邊電路
4.2.1 直流電壓偵測電路
4.2.2 交流電流偵測電路
4.2.3 直流電流偵測電路
4.2.4 光耦合驅動電路
4.2.5 靴帶式驅動電路
4.2.6 零交越相位偵測電路
4.3 升壓型轉換器實驗結果
4.4 推挽式轉換器實驗結果
4.5 市電並聯
4.6 小結
第5章 結論
[1] Ruijie Shen; Rujun Chen; Zheyuan Huang; , "High-precision battery test system based on 24-bit ADC," Electronic Measurement &; Instruments, 2009. ICEMI ''09.9th International Conference on , pp.1-867-1-872, 16-19 Aug. 2009
[2] Qiu Jieting; Chen Rujun; Tang Bo; Wei Honglan; , "Multi-channel High Precision Battery Test System," Electronic Measurement and Instruments, 2007. ICEMI ''07.8th International Conference on , pp.1-932-1-935, Aug. 16 2007-July 18 2007
[3] Xiangwu-Yan; Chunlin-Du; Heming-Li; Lixia-Zhang; Fang-Wang; , "Application
of three-phase current source converter in power battery testing system for electric vehicles," Electrical Machines and Systems, 2008. ICEMS 2008. International Conference on , pp.4205-4209, 17-20 Oct. 2008
[4] Zhang Lixia; Kang Wei; Jia Li; Zhao Min; Xu Ronggen; , "Control of Bidirectional Current Source SVPWM Converter in the Power Accumulator Battery Testing System," Power and Energy Engineering Conference (APPEEC), 2010 Asia-Pacific , pp.1-4, 28-31 March 2010
[5] Ming-Shi Huang; Po-Yi Yeh; Jia-Rong Huang; Chang-Hung Liao; , "Novel bi-directional AC-DC converter for electrical vehicle battery testing," IECON 2011 - 37th Annual Conference on IEEE Industrial Electronics Society , pp.1480-1485, 7-10 Nov. 2011
[6] Tseng, K.C.; Liang, T.J.; , "Novel high-efficiency step-up converter," Electric Power Applications, IEE Proceedings - , vol.151, no.2, pp. 182- 190, Mar 2004
[7] Zhang, M.T.; Jovanovic, M.M.; Lee, F.C.Y.; , "Analysis and evaluation of interleaving techniques in forward converters," Power Electronics, IEEE Transactions on , vol.13, no.4, pp.690-698, Jul 1998
[8] Ting, I.C.P., Duke, R., Round, S. and Kotula, T. (2003) “A prototype interleaved two-transistor flyback converter. Christchurch”, New Zealand : Australasian Universities Power Engineering Conference, Sep 2003. 6.
[9] Yoon-Ho Kim; Yun-Bok Kim; Yong-Hyun Cho; , "A high performance ZVT-PWM boost rectifier with soft switched auxiliary switch," Industrial Electronics Society, 1998. IECON ''98. Proceedings of the 24th Annual Conference of the IEEE , vol.2, pp.798-801 vol.2, 31 Aug-4 Sep 1998
[10] Fu, M.; Chen, Q.; , "A DSP based controller for power factor correction (PFC) in a rectifier circuit," Applied Power Electronics Conference and Exposition, 2001. APEC 2001. Sixteenth Annual IEEE , vol.1, pp.144-149 vol.1, 2001
[11] Selvaraj, J.; Rahim, N.A.; Krismadinata, C.; , "Digital PI current control for grid connected PV inverter," Industrial Electronics and Applications, 2008. ICIEA 2008. 3rd IEEE Conference on , pp.742-746, 3-5 June 2008
[12] Yaosuo Xue; Liuchen Chang; Sren Baekhj Kjaer; Bordonau, J.; Shimizu, T.; ,
"Topologies of single-phase inverters for small distributed power generators: an
overview," Power Electronics, IEEE Transactions on , vol.19, no.5, pp. 1305- 1314, Sept. 2004
[13] Nagao, M.; Harada, K.; , "Power flow of photovoltaic system using buck-boost PWM power inverter," Power Electronics and Drive Systems, 1997. Proceedings., 1997 International Conference on , vol.1, pp.144-149 vol.1, 26-29 May 1997
[14] Yishu Zhao; Yan Zhang; Dapeng Wang; Jie Zhan; , "The circuit topology for single-phase grid-connected system and the control technology on converters," Sustainable Power Generation and Supply, 2009. SUPERGEN ''09. International Conference on , pp.1-5, 6-7 April 2009
[15] Kangarlu, M.F.; Babaei, E.; Mazgar, F.N.; , "Dynamic voltage restorer using
push-pull inverter," Power Electronics, Drive Systems and Technologies Conference (PEDSTC), 2011 2nd , pp.274-278, 16-17 Feb. 2011
[16] Alonso, J.M.; Ordiz, C.; Gacio, D.; Ribas, J.; Calleja, A.J.; , "Closed-loop regulated power supply for ozone generation based on buck converter and current-fed push-pull resonant inverter," Power Electronics and Applications, 2009. EPE ''09. 13th European Conference on , pp.1-10, 8-10 Sept. 2009
[17] Sierra, J.A.; Kaiser, W.; , "Comparison of fluorescent lamp stabilization methods in the current-fed push-pull inverter," Industry Applications Conference, 1998. Thirty-Third IAS Annual Meeting. The 1998 IEEE , vol.3, pp.2099-2104 vol.3, 12-15 Oct. 1998
[18] Gulko, M.; Ben-Yaakov, S.; , "Current-sourcing push-pull parallel-resonance
inverter (CS-PPRI): theory and application as a discharge lamp driver," Industrial Electronics, IEEE Transactions on , vol.41, no.3, pp.285-291, Jun 1994
[19] Bumrungkeeree, S.; Boonyaroonate, I.; , "Push-pull dc/ac inverter for large
electroluminescent lamp," Circuits and Systems, 2003. ISCAS ''03. Proceedings of
the 2003 International Symposium on , vol.3, pp. III-359- III-362 vol.3, 25-28 May 2003
[20] Narayana Prakash, S.R.; Ananda Mohan, P.V.; Iyengar, B.S.R.; , "A novel high frequency PWM push-pull inverter generates sinusoidal output voltage at 50
Hz," Telecommunications Energy Conference, 1990. INTELEC ''90., 12th International , pp.35-40, 22-25 Oct. 1990
[21] Campos, A.M.; Vivero, R.; Quintero, A.; Serrano, V.; , "UPS system employing high frequency PWM techniques," Applied Power Electronics Conference and Exposition, 1990. APEC ''90, Conference Proceedings 1990., Fifth Annual , pp.414-421, 11-16 March 1990
[22] Caceres, R.O.; Barbi, I.; , "A boost DC-AC converter: analysis, design, and experimentation," Power Electronics, IEEE Transactions on , vol.14, no.1, pp.134-141, Jan 1999
第一頁 上一頁 下一頁 最後一頁 top
系統版面圖檔 系統版面圖檔