相量法历史上的三篇经典文献

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (827 KB)
输出: BibTeX | EndNote (RIS)

摘要研究了促成相量法提出的三篇文献, 分别探讨了它们的主要内容、成文背景和历史地位。结果表明：1886年7月, 亥维赛在分析外加振荡电动势的效应及其在长途电话和电报信号传输中的应用时, 首次提出“阻抗”术语, 并将它定义为传输线上外加电动势振幅和电流振幅之比；1893年4月, 肯涅利将亥维赛定义的传输线的阻抗推广到一般交流电路和设备的阻抗, 并使用复数表示阻抗；1893年8月, 施泰因梅茨为了分析通用电气公司为尼亚加拉瀑布水电站设计的三相系统中相间的不平衡现象, 在肯涅利使用复数表示阻抗的基础上, 用复数表示正弦电压和正弦电流, 提出了相量法。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	张亮亮
	雷银照

关键词 ：相量法, 阻抗, 亥维赛, 肯涅利, 施泰因梅茨, 历史

Abstract：The three classical papers giving birth to the phasor method were studied, and their main content, written background and historical status were discussed respectively. The results are as follows. When analyzing the effect of oscillatory impressed force and its application to the signal transmission of long-distance telephony and telegraphy in July 1886, O. Heaviside coined the terminology “impedance” and gave its definition. The impedance was defined as the ratio of the amplitude of the impressed force to that of the current on transmission line. In April 1893 A. E. Kennelly extended the impedance of transmission line defined by Heaviside to that of the general alternating-current circuit and apparatus, and represented the impedance by complex number. Based on Kennelly’s work, C. P. Steinmetz expressed the sinusoidal voltage and the sinusoidal current by complex number and proposed phasor method in August 1893 in order to analyze the unbalanced phenomenon between the three phases of the three-phase system designed for Niagara Falls hydropower station by General Electric.

Key words： Phasor method impedance O. Heaviside A. E. Kennelly C. P. Steinmetz history

收稿日期: 2011-11-02 出版日期: 2013-11-27

PACS:

TM13

基金资助:国家自然科学基金资助项目（50877025）。

作者简介: 张亮亮女，1978年生，博士研究生，讲师，研究方向为中国电气史。雷银照男，1956年生，教授，博士生导师，研究方向为电磁场理论及其应用、中国电气史。

引用本文:

张亮亮, 雷银照. 相量法历史上的三篇经典文献[J]. 电工技术学报, 2013, 28(1): 94-100. Zhang Liangliang, Lei Yinzhao. Three Classical Papers on the History of the Phasor Method. Transactions of China Electrotechnical Society, 2013, 28(1): 94-100.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2013/V28/I1/94

[1] Heaviside O. Electrical papers(vol.2)[M]. London: Macmillan, 1892.
[2] Kennelly A E. Impedance[J]. Transactions of the AIEE, 1893, 10: 175-232.
[3] Steinmetz C P. Complex quantities and their use in electrical engineering[C]. Proceedings of the Interna- tional Electrical Congress, Chicago: 1893. New York: American Institute of Electrical Engineers, 1894: 33-74.
[4] Wikipedia. Oliver Heaviside[EB/OL].[2010-06-11]. http://en.wikipedia.org/wiki/Heaviside.
[5] 中国大百科全书总编委会, 物理学编委会. 中国大百科全书·物理学[M]. 北京: 中国大百科全书出版社, 1987.
[6] Baber R L. Comparison of electrical “engineering” of Heaviside’s times and software “engineering” of our times[J]. IEEE Annals of the History of Computing, 1997, 19(4): 5-17.
[7] 祖贝R. 英德法俄汉物理学词典: A-M[M]. 物理学词典翻译组, 译. 北京: 原子能出版社, 1980.
[8] Kline R R. Steinmetz: engineer and socialist[M]. Baltimore, London: The Johns Hopkins University Press, C 1992.
[9] Heaviside O. Electrical papers(vol.1)[M]. London: Macmillan, 1892.
[10] Heaviside O. On resistance and conductance operators, and their derivatives, inductance and permittance, especially in connexion with electric and magnetic energy[J]. Philosophical Magazine, 1887, 24(151): 479-502.
[11] Nahin P J. Oliver Heaviside: the life, work, and times of an electrical genius of the Victorian age[M]. Baltimore, MD: The Johns Hopkins University Press, 2002.
[12] IEEE Global History Network. Arthur E. Kennelly [EB/OL].[2010-06-20]. http://ieeeghn.org/wiki/index.php/
Arthur_E._Kennelly.
[13] Brittain J E. Electrical engineering hall of fame: Arthur E. Kennelly[J]. Proceedings of the IEEE, 2006, 94(9): 1772-1775.
[14] Gillispie C C. Dictionary of scientific biography(vol.7) [M]. New York: Scribner, 1981.
[15] Arthur E. Kennelly[J]. Proceedings of the Institute of Radio Engineers, 1930, 18(10): 1614.
[16] Fleming J A. The alternate current transformer in theory and practice(vol.1)[M]. 3rd ed. London: The Electrician Printing and Publishing Company, Limited, 1900.
[17] Arthur Edwin Kennelly[EB/OL].[2010-12-01]. http:// www.quotesinscience.com/K/Kennelly_Arthur/Kennelly_ Arthur.htm.
[18] Wikipedia. Arthur E. Kennelly[EB/OL].[2010-06-02]. http://en.wikipedia.org/wiki/Arthur_Edwin_Kennelly.
[19] Wikipedia. Charles Proteus Steinmetz[EB/OL]. [2010-06-21]. http://en.wikipedia.org/wiki/Charles_ Proteus_Steinmetz.
[20] Anon. The magnetic force of Charles Proteus Steinmetz[J]. IEEE Power Engineering Review, 1996, 16(9): 7-12.
[21] 不列颠百科全书: 国际中文版[M]. 中国大百科全书出版社, 不列颠百科全书编辑部编译. 北京: 中国大百科全书出版社, 2007.
[22] Philatelic Database. Stamps of the U.S.: 1983 “inventors” issue[EB/OL].[2010-12-16]. http://www. philatelicdatabase.com/united-states/us-1983-inventors-stamp-issue/.
[23] Whitman Publishing. Stamp of honoring the contribu- tions of Steinmetz issued by U.S.[EB/OL]. [2011-01- 13]. http://www.whitmanbooks.com/Default.aspx?Page= 81&ProductID=2055M.
[24] 高橋雄造. 百万人の電気技術史[M]. 東京: 工業調査会, 2006.
[25] Bedell F, Crehore A C. Derivation and discussion of the general solution for the current flowing in a circuit containing resistance, self-induction and capacity, with any impressed electromotive force[J]. Transactions of the AIEE, 1892, 9(1): 303-374.
[26] Coleman M. Pioneers of freedom[M]. New York: The Vanguard Press, 1929.
[27] Kline R R, Charles P. Steinmetz and the development of electrical engineering science[D]. Madison, WI: University of Wisconsin-Madison, 1983.