|
High Efficiency Speaker Asylum Need speakers that can rock with just one watt? You found da place. |
|
|
|
High Efficiency Speaker Asylum Need speakers that can rock with just one watt? You found da place. |
|
In Reply to: request for help: 60-degree LF horn calc posted by keto on April 25, 2003 at 15:17:36:
Recommended reading from
http://www.interdomain.net.au/~bodzio/
[1] L.L. Beranek, ACOUSTICS, McGraw-Hill, New York.
[2] P.M. Morse, VIBRATION AND SOUND, McGraw-Hill, New York.
[3] E.R. Geddes, AN INTRODUCTION TO BAND-PASS LOUDSPEAKER SYSTEMS, JAES Vol 37.
[4] LOUDSPEAKERS PART 1, An Anthology, JAES Vol 1 to 25.
[5] LOUDSPEAKERS PART 2, An Anthology, JAES Vol 26 to 31.
[6] A.N. Thiele, MEASUREMENT OF TWEETER PARAMETERS, 22 nd International Convention and Exhibition, Australia 1989.
[7] M. Abramowitz, HANDBOOK OF MATHEMATICAL FUNCTIONS, Dover Publications, New York.
[8] A.H. Davis, MODERN ACOUSTICS, G. Bell & Sons, London.
[9] R.H. Small, CONSTANT-VOLTAGE CROSSOVER DESIGN, JAES Vol 19.
[10] R.M. Bullock, PASSIVE THREE-WAY ALL-PASS CROSSOVER NETWORKS, JAES Vol 32.
[11] P. Grade, ALL-PASS CROSSOVER SYSTEMS, JAES Vol 28.
[12] G.J. Adams, COMPUTER-AIDED LOUDSPEAKER SYSTEM DESIGN PART 1 AND 2, JAES Vol 26.
[13] P.L. Schuck, DESIGN OF OPTIMISED LOUDSPEAKER CROSSOVER NETWORKS USING A PERSONAL COMPUTER, JAES Vol 34.
[14] R.P.De Wit, A.J. Kaizer, J,F Op De Beek, NUMERICAL OPTIMISATION OF THE CROSSOVER FILTERS IN A MULTIWAY LOUDSPEAKER SYSTEM, JAES Vol 34.
[15] S.H. Linkwitz, ACTIVE CROSSOVER NETWORKS FOR NONCOINCIDENT DRIVERS, JAES Vol 24.
[16] W. Waldman, SIMULATION AND OPTIMISATION OF MULIWAY LOUDSPEAKER SYSTEMS USING A PERSONAL COMPUTER, JAES Vol 36.
[17] R.F. Allison, THE INFLUENCE OF ROOM BOUNDARIES ON LOUDSPEAKER POWER OUTPUT, JAES Vol 22.
[18] H.H Rosenbrock, AN AUTOMATIC METHOD FOR FINDING THE GREATEST OR LEAST VALUE OF A FUNCTION, Computer J, Vol 3.
[19] P.R Adby, M.A.Dempster, INTRODUCTION TO OPTIMISATION METHODS, Chapman & Hall, London.
[20] D.J. Wilde, OPTIMUM SEEKING METHODS, Parentice-Hall, NJ.
[21] D.M. Burley, STUDIES IN OPTIMISATION, Intertext Books,
[22] Philips Data Book C3, LOUDSPEAKERS, 1985.
[23] Lorantz Audio Services Data Book, LOUDSPEAKERS 1992, Australia.
[24] H. Flanders, J.J. Price, CALCULUS WITH ANALYTIC GEOMETRY Academic Press, New York.
[25] M. Rossi, ACOUSTICS AND ELECTROACOUSTIC, Artech House, 988.
[26] V. Dickason, LOUDSPEAKER DESIGN COOKBOOK, The Marshall Jones Co. 1987.
[27] K.C Ng, ELECTRICAL NETWORK THEORY, Pitman, London 1977.
[28] J. Borwick, LOUDSPEAKER AND HEADPHONE HANDBOOK, Butterworth & Co.
[29] C.B. Rorabaugh, CIRCUIT DESIGN AND ANALYSIS FEATURNIC C ROUTINES, Tab Books 1992.
[30] M. Colloms, HIGH PERFORMANCE LOUDSPEAKERS, Pentech Press, 1991.
[31] D.E. Johnson, ELECTRICAL CIRCUIT ANALYSIS, Prentice-Hall, 1989.
[32] L. Beranek, ACOUSTICAL MEASUREMENTS, Acoustical Society of America, 1988.
[33] J.D. Turner, ACOUSTICS FOR ENGINEERS, MacMillan, 1991.
[34] J. Vlach, COMPUTER METHODS FOR CIRCUIT ANALYSIS AND DESIGN, Van Nostrand, 1992.
[35] A. Ioinovici, COMPUTER-AIDED ANALYSIS OF ACTIVE CIRCUITS, Marcel Dekker, 1990.
[36] L. Chua, COMPUTER-AIDED ANALYSIS OF ELECTRONIC CIRCUITS, Prentice-Hall, 1990.
[37] H. Press, NUMERICAL RECIPES IN C, Cambridge Univarsity Press, 1992.
[38] R. D. Strum, DISCRETE SYSTEMS AND DIGITAL SIGNAL PROCESSING, Addison-Wesley, 1989.
[39] G. James, ADVANCED MODERN ENGINEERING MATHEMATICS, Addison-Wesley, 1993.
[40] P. Embree, C LANGUAGE ALGORITHMS FOR DIGITAL SIGNAL PROCESSING, Prentice-Hall,1991.
[41] C. P. Bernardin, C/MATH TOOLCHEST FOR ENGINEERING AND SCIENTIFIC APPLICATIONS, Prentice-Hall,1993.
[42] S. Nakamura, APPLIED NUMERICAL METHODS IN C, Prentice-Hall,1993.
[43] R. Kielkowski, INSIDE SPICE, McGraw-Hill, 1994.
[44] M. E. Van Valkenburg, ANALOG FILTER DESIGN, Holt, Rinehart & Winston, 1989.
[45] J. Helszjan, SYNTHESIS OF LUMPED ELEMENT, DISTRIBUTED AND PLANAR FILTERS, McGraw-Hill 1989.
[46] W. W. Seto, ACOUSTICS, McGraw-Hill, INC. 1970.
[47] J. Middlehurst, PRACTICAL FILTER DESIGN, Prentice-Hall, 1993.
[48] S. D. Stearns, R.A. David, SIGNAL PROCESSING ALGORITHMS USING FORTRAN AND C. Prentice-Hall, 1993.
[49] L.E.Kinsler, A.R. Frey, A.B.Coppens & J.V. Sanders, FUNDAMENTALS OF ACOUSTICS, John Wiley & Sons, 1982.
[50] O.C. Zienkiewicz, R.L. Taylor, THE FINITE ELEMENT METHOD, Vol 1, Vol 2 McGraw-Hill, 1991
[51] W.B. Bickford, A FIRST COURSE IN THE FINITE ELEMENT METOD, IRWIN, Boston 1990.
[52] R. D. Cook, D. S. Malkus & M.E. Plesha, CONCEPTS AND APPLICATIONS OF FINITE ELEMENT METHOD, John Wilet & Sons, Canada, 1989.
[53] M. Petyt, INTRODUCTION TO FINITE ELEMENT VIBRATION ANALYSIS, The Bath Press, Avon, 1990.
[54] G. R. Buchanan, FINITE ELEMENT ANALYSIS, McGraw-Hill, 1995.
[55] R. J. Bernhard, A FINITE ELEMENT PROCEDURE FOR DESIGN CAVITY ACOUSTICAL TREATMENT, J. Acoustic Society of America, 83, June 1988.
[56] S. Sakai, Y. Kagawa and T. Yamabuchi, ACOUSTIC FIELD IN AN ENCLOSURE AND ITS EFFECT ON SOUND-PRESSURE RESPONSES OF A LOUDSPEAKER, Loudspeakers Vol 3. Journal of the Audio Engineering Society Vol 32-Vol 39.
[57] M. Petyt, J. Lea and G.H. Koopman, A FINITE ELEMENT METHOD FOR DETERMINING THE ACOUSTIC MODES OF IRREGULAR SHAPED CAVITIES, Journal of Sound and Vibration, Vol 45, 1976.
[58]. J. Vanderkooy and S.P. Lipshitz, "Power Response of Loudspeakers with Noncoincident Drivers - The Influence of Crossover Design", 74th Convention of the AES, New York, 1983.
[59]. M. E. Engebretson, "Low-Frequency Sound Reproduction", JAES, Vol 32, May 1984.
[60]. M.R. Gander and J.M.Eargle, "Measurement and Estimation of Large Loudspeaker Array Performance", JAES, Vol 38, April 1990.
[61] D.B. Keele, "Effective Performance of Bessel Arrays", JAES, Vol 38, October 1990.
[62]. Harry F. Olson, "Direct Radiator Loudspeaker Enclosures", Audio Engineering, November, 1951.
[63]. Ole Lund Christensen, "A practical guide to acoustical design of control rooms and placement of loudspeakers", Copenhagen AES Convention 1989.
[64]. J. BACKMAN, The Nonlinear Behaviour of Reflex Ports. AES preprint 3999.
[65]. J. VANDERKOOY, Nonlinearities in Loudspeaker Ports. AES preprint 4748.
[66]. N.B ROOZEN, J.E.M. VEAL, J.A.M. NIEUWENDIJK, Reduction of Bass-Reflex Port Nonlinearities by Optimizing the Port Geometry, AES preprint 4661.
[67]. A. SALVATTI, D. BUTTON, A. DEVANTIER, Maximizing Performance from Loudspeaker Ports, AES preprint 4855.
[68]. G. TRURSTON and others, Nonlinear Properties of Circular Orifices, JASA, Volume 29, Number 9, 1957.
[69]. A. NOLLE, Small-Signal Impedance of Short Tubes, JASA, Volume 25, Number 1, 1953.
[70]. G. THURSTON, C.MARTIN, Periodic Flow through Circular Orifices, JASA, Volume 25, No 1, 1953.
[71]. D. BIES, O. WILSON, Acoustic Impedance of a Helmholtz Resonator at Very High Amplitude, JASA, Volume 29, Number 6, 1957
[72]. U. INGARD, H.ISING, Acoustic Nonlinearity of an Orifice, JASA, Volume 42, Number 1, 1967.
[73]. U. INGARD, On the Theory and Design of Acoustic Resonators, , JASA, Volume 25, Number 6, 1953.
[74]. G. THURSTON, Periodic Fluid Flow through Circular Tubes, JASA, Volume 24, Number 6, 1952.
[75]. R. SMALL, Direct Radiator Loudspeaker Analysis, An Anthology of Articles on Loudspeakers from JAES Vol. 1 -Vol. 25 (1953-1977)
[76]. V. DICKASON, Loudspeaker Design Cookbook, 5th Edition, Old Colony Sound Lab. 1997.
[77]. JOSEPH D’APPOLITO, Ph.D., Testing Loudspeakers, Audio Amateurs Press, Old Colony Lab.1998.
[78]. J.BORISH and J.B ANGELL, An Efficient Algorithm for Mesuring the Impulse Response Using Pseudorandom Noise, JASA Vol 31, No7, August 1983.
[79]. W.T. CHU, Impulse-Response and Reverberation-Decay Mesurements Made by Using a Periodic Pseudorandom Sequence. Applied Acoustics, 29, 1990.
[80]. L.R.FINCHAM, Refinements in the Impulse Testing of Loudspeakers, JASA, Vol 33, No 3, March 1985.
[81]. D.D. RIFE and J. VANDERKOOY, Transfer -Function Measurement with Maximum-Length Sequences.
JASA, Vol 37, No 6, June 1989.
This post is made possible by the generous support of people like you and our sponsors:
Follow Ups
- Some light reading - hulkss 04/25/0319:54:00 04/25/03 (0)
Top of Page ]
[ Contact Us ]
[ Support/Wish List ]
[ Copyright © 2025, Audio Asylum, all rights reserved ]
