ZDK_19 Audio technology II

Faculty of Arts
Autumn 2024
Extent and Intensity
1/1/1. 5 credit(s). Type of Completion: z (credit).
In-person direct teaching
Teacher(s)
doc. Ing. Jiří Schimmel, Ph.D. (lecturer)
Mgr. Marie Sedláková (assistant)
Guaranteed by
doc. Ing. Jiří Schimmel, Ph.D.
Department of Musicology – Faculty of Arts
Contact Person: Ing. Alena Albíniová
Supplier department: Department of Musicology – Faculty of Arts
Timetable
Fri 8. 11. 16:00–19:40 VP, Fri 6. 12. 16:00–19:40 VP
Prerequisites
ZDK_06 Math and Physics && ZDK_10 Theory of signals && ZDK_15 Audio technology I
The knowledge of basic laws and quantities in electrical circuits is required as well as the knowledge of the characteristics of electric circuit elements, periodical and non-periodical signal spectra, and basic knowledge in the area of continuous- and discrete-time systems.
Course Enrolment Limitations
The course is also offered to the students of the fields other than those the course is directly associated with.
fields of study / plans the course is directly associated with
Course objectives
The aim of the course is to make students familiar with the chain of processing acoustic signals from their origination through their transformation into electric signals and back to acoustic signals up to the listener's final perception.
Learning outcomes
After course completion, students are to:
- explain the physiology of hearing, including binaural auditory perception,
- operate sound meters and use them for noise measurements and for electroacoustic measurements,
- characterize the acoustic properties of closed spaces, measure the reverberation time,
- describe types of microphones and their properties, parameters and characteristics,
- describe the properties of the used constructions of direct and indirect radiating loudspeakers,
- describe the types of headphones and their construction,
- characterize sound systems for small and large spaces, describe the principles of stereophonic and multi-channel reproduction.
Syllabus
  • 1. Sound waves: quantities of the sound field, basic types of waves, types of sound fields, addition and subtraction of sound pressure levels. 2. Physiological acoustics: hearing organ, frequency analysis in the inner ear, masking, sound source localization. 3. Measurement of acoustic quantities: broadband sound analysis, weighting filters, constant-percentage band analysis, sound level meter, calibration of measurement chain. 4. Acoustics of closed spaces: propagation of sound through the environment, reverberation time, measurement of reverberation time, normative requirements, acoustic absorbing, reflective and diffusion elements. 5. Electromechanical transducers: transducers using electromagnetic and electrostatic fields, construction of electromagnetic, electrodynamic, electrostatic and piezoelectric transducer. 6. Microphones: gradient acoustic receivers, directional receivers, microphone construction, electrical interface and microphone parameters. 7. Loudspeakers: loudspeaker as a mechanical system, electrodynamic, electrostatic and piezoelectric loudspeaker, indirect radiating loudspeakers, characteristics and parameters of loudspeakers. 8. Loudspeaker systems: loudspeakers as an acoustic system, open, closed and bass-reflex loudspeakers, band-pass and transmission line loudspeakers, loudspeaker crossovers, loudspeaker system parameters. 9. Headphones: types of headphones, simulation of acoustic impedance of the ear, construction of electrodynamic, electromagnetic and electrostatic headphones, parameters of headphones. 10. Sound reinforcement basics: sound reinforcement in small spaces, stereophonic and multi-channel reproduction, sound reinforcement in large spaces, acoustic feedback and its suppression.
Literature
    required literature
  • Eargle, J. The Microphone Book. 2004. ISBN 0-240-51961-2
  • STREICHER, Ron – EVEREST, Alton F. The New Stereo Soundbook. 3rd edition. Audio Engineering Associates, 2006, ISBN 978-0966516210
    recommended literature
  • HOLMAN, Tomlinson. Surround Sound: Up and running. Focal Press, 2. Ed., 2017, ISBN 978-1138406537
  • JONES, Ralph. The sound reinforcement handbook. Edited by Lee Savoit, Illustrated by Gary Davis. Second edition. Milwaukee: Hal Leonard Corporation, 1989, 8, 412. ISBN 9780881889000. info
  • ZWICKER, E. and H. FASTL. Psychoacoustics : facts and models. Berlin: Springer, 1999, xii, 416. ISBN 3540650636. info
Teaching methods
Lectures: explanations of the basic principles, subject methodology, examples of problems and their solutions.
Homework: self-practicing of selected topics from lectures.
Laboratory exercises: practical mastering of the themes presented in lectures. Active participation of students is required.
Assessment methods
In order to be awarded the credit, it is necessary to complete all laboratory exercises in regular or substitute terms and at least 80% to pass a test of theoretical knowledge composed of a range of questions thematically focused according to the course syllabus.
Language of instruction
Czech
Study support
https://is.muni.cz/auth/el/phil/podzim2024/ZD_19/index-lsyjpl.qwarp
Further Comments
The course is taught annually.
The course is also listed under the following terms Autumn 2022, Autumn 2023.
  • Enrolment Statistics (recent)
  • Permalink: https://is.muni.cz/course/phil/autumn2024/ZDK_19