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声束扬声器的换能器方形阵列设计 被引量:6

Square Transducer Array Design of Audio Beam Loudspeaker
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摘要 提出了一种利用空气中超声波非线性传播效应制作的、可产生高指向性可听声的新型声束扬声器。为提高其输出功率、缩短研发周期,以polyvinylidenefluoride(PVDF)膜作为换能器的发声部件,设计出了一种谐振频率可调的换能器。在此基础上,比较了换能器线性阵列与方形阵列的三维指向性问题,指出线性阵列无法像方形阵列一样产生预期的圆柱形声波传播空间分布,并由此指出声束扬声器的换能器阵列采用方形阵列设计较为合理。 A novel audio beam loudspeaker which based on nonlinear propagation ettects ot ultrasonic in the air to generate audible sound with high directivity is presented. Polyvinylidene fluoride(PVDF) as acoustic generator, a transducer with tunable resonant frequency is designed to increase the output power and shorten the time of audio beam loudspeaker's research and development. Furthermore, the three-dimensional directivity of linear transducer array and square transducer array is compared, and it is proved that square transducer array design is more reasonable for audio beam loudspeaker than linear transducer array design, for the reason of desired cylindrical sound wave space distribution can be generated, which can not be produced by linear transducer array.
作者 陈敏 徐利梅 黄大贵 李应涛 张德银
机构地区 电子科技大学机械电子工程学院
出处 《电声技术》 2006年第1期26-29,共4页 Audio Engineering
基金 国家自然科学基金(60302001).
关键词 声束扬声器 换能器结构 非线性传播效应 PVDF膜 方形阵列 指向性 audio beam loudspeaker transducer structure nonlinear propagation effects PVDF film .squaretrausduced array directivity
分类号 TN64 [电子电信—电路与系统]
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参考文献6

  • 1Kamakura T, Chou I-M, Ikagaya K. Parametric Transmitting Array in Air[J].Journal of the Acoustical Society of Japan, 1980, 36(1) :36-41.
  • 2Yoneyama Masahide, et al. The Audio Spotlight: An Application of Nonlinear Interaction of Sound Waves to a New Type of Loudspeaker Design [J]. Journal of theAcoustical Society of America, 1983, 73(5):1 532-1 536.
  • 3Norris Elwood G. The Creation of Audible Sound from Ultrasonic Energy: A Fundamental Paradigm Shift. [In]Proceedings from the ASA 133rd meeting, 2pEAS, 1997.
  • 4Pompel F Joseph. Sound From Ultrasound : the Parametric Array as an Audible Sound Source[D]. USA:Massachusetts Institute of Technology, 2002.
  • 5梁懋.充分利用超声波扬声器的指向性[J].科技新时代,2002(12):44-44. 被引量:2
  • 6董丽杰,熊传溪,陈娟,刘起虹,王雁冰,任中奎.聚偏氟乙烯-钛酸钡复合材料的介电性能[J].复合材料学报,2003,20(3):122-126. 被引量:28

二级参考文献2

共引文献27

同被引文献41

  • 1陈敏,徐利梅,黄大贵,张德银.基于MATLAB的换能器阵列指向性分析方法研究[J].电声技术,2006,30(5):25-28. 被引量:15
  • 2陈敏,徐利梅,黄大贵,张德银.声频定向扬声器的研究进展[J].电声技术,2006,30(11):17-22. 被引量:21
  • 3WESTERVELT P J. Parametric acoustic array[J]. Journal of the Acoustical Society of America,1963,35(4) 1535-537.
  • 4BERKTAY H O. Possible exploitation of nonlinear acoustics in underwater transmitting applications[J].Jounal of Sound and Vibration, 1965,2(4) :435-461.
  • 5YONEYAMA M, FUJIMOTO J, SASABE S. The audio spotlight: an application of nonlinear interaction of sound waves to a new type of loudspeaker design[J]. Jounal of Acoustical Soeity of American, 1983,73(5): 1532-1536.
  • 6KAMAKURA T, TASAHIDE Y, IKEGAYA K. Studies for the realization of parametric loudspeaker[J]. Journal of the Acoustical Society of American, 1985,41 (6) :378-385.
  • 7KAMAKURA T, AOK1 K, KUMAMOTO Y. Suitable modulation of the carrier ultrasound for a parametric loudspeaker [J]. Acustica,1991,73:215- 217.
  • 8AOKI K, KAMAKURA T Y. Kumamoto. Parametric loudspeaker applied examples[J]. Electronics and Communications in Japan, Part A,1993,76(8):1127-1137.
  • 9KAMAKURA T, TANI M, KUMAMOTO Y, BREAZEALE M A. Parametric sound radiation from a rectangular aperture source[J]. Acustica,1994,80:332- 338.
  • 10POMPEI F J. The use of airborne ultrasonics for generating audible sound beams[J]. Journal of Audio Engineering Society, 1999, 47(9) :726-731.

引证文献6

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电声技术
2006年 第1期

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