未來展望

本實驗提出一個準確，直覺的和電池模擬平台。這個模型模擬電 池的動態特徵，從非線性的開路電壓去萃取出電池內阻值變化。這個 簡化的模型忽略自動放電、使用週期和溫度的作用，所以若考慮到實 際運用面，若再加入電池廠所提供自動放電、使用週期和溫度的作用 及鋰電池特有之Recover 效應等相關曲線，在加入其變化係數，在運 用面上將更為廣泛。

除了研究鋰二次電池的放電特性外，事實上，對於鋰電池充電過 程這個環節也是一門重要課題，因為除了做到要如何能夠最大化使用 電池電量外，相對的，要如何能夠適當地將鋰電池充飽到最極至的狀 態也是不可忽視的議題。由於目前的實驗平台只能做放電的模擬，因 此，如何修改這個平台，使其也能夠做充電這部分的模擬[27]-[30]，

也是未來另一個新的研究重點。

參考文獻

1. Shang-Fong Lin and Lan-Rong Dung“tudy on Extending Li Battery-Life With Charge-Recovery Effect,” 2006

2. S. Abu-Sharkh and D. Doerffel, “Rapid test and non-linear model characterization of solid-state lithium-ion batteries,” J. Power Sources, vol. 130,pp. 266–274, 2004.

3. Min Chen and Gabriel A. Rinc´on-Mora, “Accurate Electrical Battery Model Capable of Predicting Runtime and I–V Performance,” IEEE Transactions on energy conversion, vol. 21, no, no.2, June 2006.

4. Shih-Jung Lai and Tzuen-Lih Chern “Study on estimation of intelligent residual capacity of li-ion batteries,” 2004

5. J. P. Gabano, Lithium Batteries, Academic Press, London, 1983.

6. 李敏昌，工業材料，110 期，74-82 頁，85 年 2 月。

7. M. Wakihara, “Recent developments in lithium ion batteries”, J.

Materials Science and Engineering R: Reports, vol. 33, Issue 4, pp.

109-134, 1 June 2001.

8. Z. M. Salameh,M. A. Casacca, andW. A. Lynch, “A mathematical model for lead-acid batteries,” IEEE Trans. EnergyConvers., vol. 7, no. 1, pp. 93–98, Mar. 1992.

9. M. Valvo, F. E. Wicks, D. Robertson, and S. Rudin, “Development and application of an improved equivalent circuit model of a lead acid battery,”in Proc. Energy Convers. Eng. Conf., vol. 2, Aug.

1996, pp. 1159–1163.

10. M. Ceraolo, “New dynamical models of lead-acid batteries,” IEEE Trans.Power Syst., vol. 15, no. 4, pp. 1184–1190, Nov. 2000.

11. S. Barsali and M. Ceraolo, “Dynamical models of lead-acid batteries:Implementation issues,” IEEE Trans. Energy Convers., vol. 17, no. 1,pp. 16–23, Mar. 2002.

12. B. Schweighofer, K. M. Raab, and G. Brasseur, “Modeling of high power automotive batteries by the use of an automated test system,” IEEE Trans.Instrum. Meas., vol. 52, no. 4, pp. 1087–1091, Aug. 2003.

13. L. Gao, S. Liu, and R. A. Dougal, “Dynamic lithium-ion battery model for system simulation,” IEEE Trans. Compon. Packag.

Technol., vol. 25,no. 3, pp. 495–505, Sep. 2002.

14. M. C. Glass, “Battery electrochemical nonlinear/dynamic SPICE model,”in Proc. Energy Convers. Eng. Conf., vol. 1, 1996, pp.

292–297.

15. Chulsung Park, Jinfeng Liu, and Pai H. Chou Center for Embedded Computer SystemsB#: a Battery Emulator and Power Profiling Instrument.

16. Pai H. Chou et al., "B#: a Battery Emulator and Power Profiling Instrument," 2003 International Symposium on Low Power Electronics and Design, pp 288-293, Seoul, Korea, Aug. 2003.

17. Chulsung Park, Jinfeng Liu, Pai H. Chou, "B#: A Battery Emulator and Power-Profiling Instrument," IEEE Design and Test of Computers, vol. 22, no. 2, pp. 150-159, Mar./Apr. 2005.

18. MAXIM Current-sense amplifiers datasheet:

http://pdfserv.maxim-ic.com/en/ds/MAX471-MAX472.pdf 19. Microchip Microcontroller datasheet:

http://ww1.microchip.com/downloads/en/DeviceDoc/30292c.pdf

20. Chroma 6304 技術文件

http://www.chroma.com.tw/chinese/product/detail.asp?gid=44&id=

21. 研華技術文件

http://www.titan.fr/Produits/CarteACQUI/pdf/PCI1710.pdf

22. Luca Benini, Davide Bruni, Alberto Macii, Enrico Macii, Senior and Massimo Poncino“ Discharge Current Steering for Battery Lifetime Optimization,” IEEE Transactions on computers,vol. 52, no. 8, August 2003

23. Peng Rong, Student Member, IEEE, and Massoud Pedram, Fellow, IEEE“An Analytical Model for Predicting the Remaining Battery Capacity of Lithium-Ion Batteries ,” IEEE Transactions on very large scale integration (VLSI) system , vol .14, no. 5 ,May 2006 24. D. Fouchard, J. B. Taylor, “The MOLICEL) rechargeable lithium

system: Multicell aspects”, Journal of Power Sources, vol. 21, no.

3-4, pp. 195-205, 1987.

25. J. P. Gabano, Lithium Batteries, Academic Press, London, 1983.

26. Pai H. Chou et al., "B#: a Battery Emulator and Power Profiling Instrument," 2003 International Symposium on Low Power Electronics and Design, pp 288-293, Seoul, Korea, Aug. 2003.

27. Guan-Chyun Hsieh, Senior Member, IEEE, Liang-Rui Chen, and Kuo-Shun Huang “Fuzzy-Controlled Li–Ion Battery Charge System with Active State-of-Charge Controller ,” IEEE Transactions on industrial electronics, vol. 48, no.3, June 2001 28. Juan Díaz, MembeE, Juan A. Martín-Ramos, Alberto M. Pernía,

Member,Fernando Nuño, and Francisco Fernández Linera

“Intelligent and Universal Fast Charger for Ni-Cd and Ni-MH Batteries in Portable Applications ,” IEEE Transactions on

industrial electronics, vol. 51, no. 4, August 2004

29. M. Gomzilez, Miguel A. PCrez, J. Diaz, F.J. Ferrero“Ni-Cd and NI-MH Battery Optimized Fast-Charge Method for Portable Telecommunication Applications ,”

30. Panasonic 技術資料

http://www.panasonic.com/industrial/battery/oem/chem/lithion 31. T. F. Fuller, M. Doyle, J.S. Newman, “Simulation and Optimization

of the Dual Lithium Ion Insertion Cell”, Journal of Electrochem.

Soc., vol. 141, no. 4, pp. 1-10, Apr. 1994.

32. C. F. Chiasserini and R. R. Rao, "Pulsed battery discharge in communication devices", Proceedings of Mobicom 99, pp. 88-95, Seattle, Aug. 1999

自 傳

姓名:林士人 籍貫:台北市

兵役:84 年~86 年役畢

學歷:87 年~89 年畢業於私立龍華科技大學電機工程系

工作經歷

87 年:服務於南亞科技公司廠務部，擔任廠務工程師，從事廠務系統 維修及規劃。

89 年:服務於穩懋半導體蝕刻薄膜部，擔任設備工程師，從事相關設 備維修及規劃。

92 年:服務於廣輝電子研發部，擔任專案副理，從事液晶相關產品導 入量產及新技術開發。