Details

Title

Ranking of the Nonlinearities of Electrodynamic Loudspeakers

Journal title

Archives of Acoustics

Yearbook

2010

Volume

vol. 35

Numer

No 1

Authors

Keywords

electrodynamic loudspeaker ; nonlinearities ; small signal parameters ; nonlinear modeling

Divisions of PAS

Nauki Techniczne

Coverage

49-66

Publisher

Committee on Acoustics PAS, PAS Institute of Fundamental Technological Research, Polish Acoustical Society

Date

2010

Type

Artykuły / Articles

Identifier

eISSN 2300-262X ; ISSN 0137-5075

References

Borwick J. (2001), Loudspeaker Measurements, in Loudspeaker and Headphone Handbook. ; Clark D. (1997), Precision measurement of loudspeaker parameters, J. Audio Eng. Soc, 129. ; Dalmont J. (2001), Radiation impedance of tubes with different flanges: numerical and experimental investigations, J. of Sound and Vibration, 244, 3, 505. ; Dobrucki A. (1994), Nontypical effects in an electrodynamic loudspeaker with a nonhomogeneous magnetic field in the air gap and nonlinear suspension, J. Audio Eng. Soc, 42, 565. ; Gander M. (1981), Moving-coil loudspeaker topology as an indicator of linear excursion capability, J. Audio Eng. Soc, 29. ; Gander M. (1986), Dynamic linearity and power compression in moving-coil loudspeaker, J. Audio Eng. Soc, 627. ; Gille J. (1981), Systemes asservis non lineaires. ; I. E. C, <i>Sound. System. Equipment, Part 5: Loudspeaker</i>, Edition 3.1, 11-09-2007. ; Kaizer A. (1987), Modeling of the nonlinear response of an electrodynamic loudspeaker by a Volterra series expansion, J. Audio Eng. Soc, 35, 421. ; Klippel W. (1990), Dynamic measurement and interpretation of the nonlinear parameters of electrodynamic loudspeakers, J. Audio Eng. Soc, 38, 944. ; Klippel W. (2006), Loudspeaker nonlinearities - cause, parameters, symptoms, J. Audio Eng. Soc, 54, 907. ; Leach W. (2002), Loudspeaker voice-coil inductance losses: Circuit models, parameter estimation and effect on frequency response, J. Audio Eng. Soc, 442. ; Lemarquand G. (2007), Ironless loudspeakers, IEEE Trans. Magn, 43, 8, 3371. ; Lemarquand G. (2007), Large bandwith loudspeaker emitting coherent acoustic waves: nonlinear inter-modulation effects, J. Audio Eng. Soc, 56, 36. ; Merit B. (2009a), In pursuit of increasingly linear loudspeaker motors, IEEE. Trans. Mag, 45, 6, 2867. ; Merit B. (2009b), Motor nonlinearities in electrodynamic loudspeakers: modelling and measurement, Archives of Acoustics, 34, 4, 407. ; Quaegebeur N. (2010), Transient model radiation of axisymmetric sources: application to loudspeakers, Applied Acoustics, 71, 4, 335. ; Ravaud R. (2008), Ironless loudspeakers with ferrofluid seals, Archives of Acoustics, 33, 4, 53. ; Ravaud R., Lemarquand G. (2009a), <i>Modelling an ironless loudspeaker by using three-dimensional analytical approaches</i>, Progress in Electromagnetics Research, PIER 91, 53-68. ; Ravaud R. (2009b), Design of ironless loudspeakers with ferrofluid seals: analytical study based on the coulombian model, Progress in Electromagnetics Research B, 14, 285. ; Ravaud R. (2009a), Magnetic pressure and shape of ferrofluid seals in cylindrical structures, J. Appl. Phys, 106, 3, 34911. ; Ravaud R. (2009b), Time-varying non linear modeling of electrodynamic loudspeakers, Applied Acoustics, 70, 450. ; Remy M. (2008), Ironless and leakage-free voice-coil motor made of bonded magnets, IEEE Trans. Magn, 44, 11, doi.org/10.1109/TMAG.2008.2003401 ; Remy M. (2009), An ironless large displacement flat piston loudspeaker, Archives of Acoustics, 34, 4, 407. ; Suzuki H. (1981), Radiation and diffraction effects by convex and concave domes, J. Audio Eng. Soc, 29, 873. ; Thiele A. (1978), Loudspeakers, 1. ; Vanderkooy J. (1989), A model of loudspeaker driver impedance incorporating eddy currents in the pole structure, J. Audio Eng. Soc, 37, 119. ; Wright J. (1990), An empirical model for loudspeaker motor impedance, J. Audio Eng. Soc, 749.

DOI

10.2478/v10168-010-0004-6

×