2LEO L. Acoustics[M]. New York, the USA: Beranek American Institute of Physics, Inc., 1993.
3曹水轩,沙家正.扬声器及其系统[M].南京:江苏科学技术出版社,1991.
4Hiroshi Watanebe, Shiro Iwakura. Improvement of Suspension Lineari- ty in Loudspeakers by means of Biased Suspension [C ]. NewYork, USA, 79Convention of AES, 1985( 11 ) 1:2 - 16.
5Hutt. Loudspeaker Spider with Regressive Rolls. United States: US 6, 449,375 BI [ P]. Sep. 10,2002.
6Hiroshi Ohara. Loudspeaker Spider with Enhanced Structure. United States: US 2006/0002580 A1[ P]. Jan. 5,2006.
7Noberu Kyouno, Tsuyoshi Usagawa. Acoustic Response Simulation of a ConeType Loudspeaker by the F'mite Element Method [ C ]. San Francisco, CA, USA, 117th Convention of AES, 2004, October, 28 -31.
8G. S. WEI. Finite Elevaent Analysis (ANSYS) Aided Loudspeake- Transducer Design[C]. Northridge, CA, USA, 1998, August, 12.
9PACSYS Ltd. Large displacement analysis of a spider[ EB/OL ]. http ://www. vibmacoustics, co. uk/audio/spider/fsspidea01, htm..