628 Pages 1226 B/W Illustrations
    by CRC Press

    Electroacoustic devices such as microphones and loudspeakers are used everywhere from cars and mobile phones to homes, places of worship, and sports arenas. They are a key part of the modern communication society, helping to transmit information to our ears. A contemporary introduction to the subject, Electroacoustics explains the scientific and engineering principles behind the design of these sound transducers. It also examines the compromises that are necessary when designing transducers for use in the real world.

    Learn about Ultrasonic Transducers, Loudspeaker Enclosure Design, and More

    This accessible textbook book is based on the author’s extensive experience teaching electroacoustics to advanced graduate and graduate students. He uses the concept of electrical circuit analogies to help readers quickly grasp the fundamentals of acoustical and mechanical systems. The book covers both traditional electrodynamic audio and ultrasonic transducers and includes up-to-date material on arrays, planar transducers, loudspeaker enclosure design, and more. To meet the needs of a broad range of readers, the book also includes background material on room acoustics, electrical circuits, and electrical filters. Electroacoustic theory is explained in an easy-to-read style without resorting to matrix theory. Throughout, a wealth of illustrations and exercises make the ideas more concrete.

    Get a Solid Foundation in Electroacoustic Engineering Principles

    The book emphasizes multidisciplinary engineering principles, preparing students for the broad range of applications they may encounter in their research as well as later in their careers. The modern treatment of transducers also makes this a valuable reference for transducer designers, acoustical consultants, hobbyists, and anyone involved in electroacoustic design.

    Introduction
    Introduction to Electroacoustic Systems
    Sound and Its Properties
    Waves in Membranes and Plates
    Circuits and Circuit Components
    Electromechanical Analogies
    Electroacoustical Analogies
    Conversion between Analogies
    Transducer Operating Principles
    Radiation and Impedance
    Sound Source and Acoustic Environment
    Directivity
    Microphone and Sound Field
    Microphones
    Electrodynamic Loudspeaker Drivers
    Baffle and Box
    Vented Box Loudspeakers
    Transmission Line Loudspeakers
    Horns
    Gradient Loudspeakers
    Drivers Using Flexible Diaphragms
    Multiway Loudspeakers
    Active Loudspeakers
    Headphones and Earphones
    High-Frequency Transducers
    Appendix A: Introduction to Electric Components and Classic Circuit Theory
    Appendix B: Filters and Filter Functions
    Appendix C: Magnetic Fields and Forces
    Appendix D: Time-Domain Approach to Directivity
    Appendix E: Sound-Absorbing Materials
    Appendix F: Resonance in Boxes and Rooms
    Appendix G: Level Definitions
    Index

    Biography

    Mendel Kleiner is Professor Emeritus at Chalmers University of Technology, Gothenburg, Sweden, and head of the Chalmers Room Acoustics Group. Before his retirement, Dr. Kleiner taught room acoustics, audio, electroacoustics, and ultrasonics in the Chalmers Master Program on Sound and Vibration in the Division of Applied Acoustics. After retiring, he continues his research in acoustics, as well as teaching and consulting. He has authored or coauthored more than 55 publications and 110 papers, including two books. He has presented many keynote lectures, led courses at international conferences on acoustics and noise control, and organized an international conference on acoustics. His main research areas include electroacoustics and audio, computer simulation of room acoustics, electroacoustic room acoustics enhancement, room acoustics of auditoria and small rooms, sound and vibration measurement technology, product sound quality, psychoacoustics, and musical acoustics. He is a fellow of the Acoustical Society of America, serves on the Audio Engineering Society’s Standards Committee on Acoustics, and was chair of its Technical Committee on Acoustics and Sound Reinforcement for 20 years.

    "Finally a modern alternative to the classical books on electroacoustics. The powerful technique of electrical analogous circuits is used for the analysis of microphones, loudspeakers and headphones. Theory as well as practical aspects are covered in this book by an author with decades of experience in teaching, research and practical applications. The inclusion of exercises makes this a great textbook for university teachers. Electroacoustics is a great topic for attracting students to acoustics, and this modern textbook will serve well in that role."
    —Peter Svensson, Norwegian University of Science and Technology (NTNU)

    "This book includes comprehensive coverage pertinent to fundamentals of electroacoustics, the latest knowledge pertaining to electroacoustics. Logically divided subtopics are arranged in separate chapters. Each chapter also features review questions and detailed, individual problems at the end of the chapter, suitable for university-level (both under- and graduate) course teaching or even self-study. Many basic theoretical concepts are explained with the help of a minimal amount of math, accessible to many students or audio engineers."
    —Ning Xiang, Rensselaer Polytechnic Institute, New York, USA


    "I found Electroacoustics to be a very readable and informative book. … provides an excellent summary of electroacoustic principles and applications. It will serve as an excellent textbook for an electroacoustics class or a resource for product designers."
    —Noise Control Engineering Journal, September-October 2013

    "Mendel Kleiner, the author of this book, is a Fellow of the Acoustical Society of America and a former Associate Editor of the Journal of the Acoustical Society of America. He is a widely recognized expert on architectural acoustics and electroacoustics."
    Acoustics Today, October 2013

    "It is very thorough in its approach and it covers nearly all transducer types, discussing the key scientific and engineering principles of loudspeaker and microphone transducers. A number of chapters include homework and problem sections."
    —Sound & Communications Magazine, November 2018 Issue