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With this book, anyone can become a speaker builder. You don't need an elaborate workshop, expensive analytical equipment, or sophisticted software. Learn the concepts you need or chhose any of the eleven tested and proven speaker designs included in the book. Contains all the information the speaker builder needs to design and build a first-rate system, one that surpasses higher-cost commercial products.
Introduction to Loudspeaker Design is written for students, technicians, engineers and hobbyists seeking an overview of the technology of loudspeakers. Starting with a brief history of audio developments the book begins by introducing the concepts of frequency, pitch and loudness and proceeds to develop the idea of a loudspeaker as a system. The book covers such topics as loudspeaker design tradeoffs, spatial loading, diffraction loss, cavity effect and enclosure construction. A complete chapter is devoted to the subject of crossover design including design equations. The second edition adds a new chapter on simulation and analysis which includes design equations for closed and vented type speakers. The appendices contain technical references, design aids, glossaries and a chart depicting 18 different loudspeaker enclosure types. The author is a physicist/audio design engineer with over 35 years experience in the research and development of audio products spanning both hardware and software. His WinSpeakerz, TrueRTA and DATS software applications are widely used throughout the audio industry as tools for simulating and measuring loudspeaker performance. Captain Murphy served as a space systems analyst for NORAD during his military career. Changes for the Second Edition: The second edition brings new material and polishes the first edition with many new or improved illustrations. Chapter 2 was expanded with the second half split into a new Chapter 3 titled "Speaker Response Functions." The discussion of Thiele-Small parameters has been expanded and now covers small-signal parameters vs. large-signal parameters as it explores the role of the test signal level in parameter measurement. The crossover design chapter has been expanded to include formulas for calculating component values for the most popular crossover types. Equations have been added for calculating impedance compensation and attenuation networks. The old Chapter 7 FAQ material was integrated into other chapters as appropriate. A new Chapter 8 titled "Loudspeaker Simulation" has been added and introduces loudspeaker equivalent circuit analysis with equations for calculating the magnitude and phase responses of closed and vented loudspeaker systems. Additional design equations are introduced and then examples are given for calculating the responses of a closed box and a vented box loudspeaker. Detailed design equation summaries are given for closed and vented boxes. Appendix C was added to provide a glossary of symbols and a glossary of terms. The box type charts were moved to Appendix D.
Advanced Speaker Designs shows the electronics hobbyist and the experienced technician how to create high-quality speaker systems for the home, office, or auditorium. Every part of the system is covered in detail, from the driver and crossover network to the enclosure itself. You can build speaker systems from the parts lists and instructions provided, or you can actually learn to calculate design parameters, system responses, and component values with scientific calculators or PC software. You can also learn how to measure driver parameters and predict system responses for greater precision.
Loudspeakers: For Music Recording and Reproduction, Second Edition is a comprehensive guide, offering the tools and understanding needed to cut out the guesswork from loudspeaker choice and set-up. Philip Newell and Keith Holland, with the assistance of Sergio Castro and Julius Newell, combine their years of experience in the design, application, and use of loudspeakers to cover a range of topics from drivers, cabinets, and crossovers, to amplifiers, cables, and surround sound. Whether using loudspeakers in a recording studio, mastering facility, broadcasting studio, film post-production facility, home, or musician’s studio, or if you simply aspire to improve your music-production system this book will help you make the right decisions. This new edition provides significant updates on the topics of digital control, calibration, and cinema loudspeaker systems.
This book covers the design of both direct-radiator loudspeakers, together with passive crossover networks and advanced topics such as time-delay equalization and time-frequency response analysis. Also included are chapter covering the analysis of general passive networks, as well as frequency response equalizers, Acoustics and loudspeaker measurement techniques.
Design and build customized, professional-quality speakers. From drivers to crossovers and custom enclosures, the possibilities for designing speakers that will provide the best possible performance are endless. Great Sound Stereo Speakers Manual, Second Edition, by David Weems and G.R. Koonce, eliminates much of the guesswork--not to mention the ripping out of parts and trying of alternative values--associated with proper design. More than a normal revision, this edition is virtually a new book, with a solution to an old problem, crossover design. This reader-friendly guide puts equipment-enhancing, computer-aided design techniques at your disposal. You get six complete projects, with lucid illustrated instructions for modifying and testing designs, along with 24 proposed projects. The CD-ROM packaged with the book gives you system design software, crossover network design applications, and files for all project drivers, allowing you to alter a project to fit a different physical arrangement of the drivers, explore driver substitution, perform driver tests, simulate box and network design, or customize the included projects.
SCIENCE/MATHEMATICS