Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence
Flat panel loudspeakers are a promising alternative to conventional loudspeakers. In particular, quasi-omnidirectional radiation at higher frequencies is stressed as an advantage of these systems compared to conventional speaker systems. However, this advantage can also be considered a disadvantage....
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MDPI AG
2021-07-01
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| Series: | Applied Sciences |
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| Online Access: | https://www.mdpi.com/2076-3417/11/15/7001 |
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doaj-1bb0806b292c49a5b8d2acf199cc915f2021-08-06T15:19:25ZengMDPI AGApplied Sciences2076-34172021-07-01117001700110.3390/app11157001Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below CoincidenceBenjamin Zenker0Robert Schurmann1Sebastian Merchel2Ercan Mehmet Altinsoy3Chair of Acoustic und Haptic Engineering, Technical University of Dresden, Helmholtzstrasse 18, 01069 Dresden, GermanyChair of Acoustic und Haptic Engineering, Technical University of Dresden, Helmholtzstrasse 18, 01069 Dresden, GermanyChair of Acoustic und Haptic Engineering, Technical University of Dresden, Helmholtzstrasse 18, 01069 Dresden, GermanyChair of Acoustic und Haptic Engineering, Technical University of Dresden, Helmholtzstrasse 18, 01069 Dresden, GermanyFlat panel loudspeakers are a promising alternative to conventional loudspeakers. In particular, quasi-omnidirectional radiation at higher frequencies is stressed as an advantage of these systems compared to conventional speaker systems. However, this advantage can also be considered a disadvantage. Compared to that from conventional speakers with a flat and smooth on-axis and off-axis response, this wide radiation from flat panel loudspeakers occurs with an inconstant directivity factor, which can cause coloration and unusual spatial artifacts. This paper investigated the root causes of inhomogeneous directivity by using numerical methods. Based on these analyses, specific prototypes with various damping layups were built to overcome this problem. The additional damping layer reduces the off-axis radiation without significantly reducing the pressure level in the listening window. This approach is simple, robust, inexpensive and effective for improving the directivity of flat panel loudspeakers.https://www.mdpi.com/2076-3417/11/15/7001flat panel loudspeakerdirectivitydirectivity responsestanding wavestraveling wavesdamping |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Benjamin Zenker Robert Schurmann Sebastian Merchel Ercan Mehmet Altinsoy |
| spellingShingle |
Benjamin Zenker Robert Schurmann Sebastian Merchel Ercan Mehmet Altinsoy Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence Applied Sciences flat panel loudspeaker directivity directivity response standing waves traveling waves damping |
| author_facet |
Benjamin Zenker Robert Schurmann Sebastian Merchel Ercan Mehmet Altinsoy |
| author_sort |
Benjamin Zenker |
| title |
Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence |
| title_short |
Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence |
| title_full |
Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence |
| title_fullStr |
Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence |
| title_full_unstemmed |
Improved Directivity of Flat Panel Loudspeakers by Minimizing the Off-Axis Radiation below Coincidence |
| title_sort |
improved directivity of flat panel loudspeakers by minimizing the off-axis radiation below coincidence |
| publisher |
MDPI AG |
| series |
Applied Sciences |
| issn |
2076-3417 |
| publishDate |
2021-07-01 |
| description |
Flat panel loudspeakers are a promising alternative to conventional loudspeakers. In particular, quasi-omnidirectional radiation at higher frequencies is stressed as an advantage of these systems compared to conventional speaker systems. However, this advantage can also be considered a disadvantage. Compared to that from conventional speakers with a flat and smooth on-axis and off-axis response, this wide radiation from flat panel loudspeakers occurs with an inconstant directivity factor, which can cause coloration and unusual spatial artifacts. This paper investigated the root causes of inhomogeneous directivity by using numerical methods. Based on these analyses, specific prototypes with various damping layups were built to overcome this problem. The additional damping layer reduces the off-axis radiation without significantly reducing the pressure level in the listening window. This approach is simple, robust, inexpensive and effective for improving the directivity of flat panel loudspeakers. |
| topic |
flat panel loudspeaker directivity directivity response standing waves traveling waves damping |
| url |
https://www.mdpi.com/2076-3417/11/15/7001 |
| work_keys_str_mv |
AT benjaminzenker improveddirectivityofflatpanelloudspeakersbyminimizingtheoffaxisradiationbelowcoincidence AT robertschurmann improveddirectivityofflatpanelloudspeakersbyminimizingtheoffaxisradiationbelowcoincidence AT sebastianmerchel improveddirectivityofflatpanelloudspeakersbyminimizingtheoffaxisradiationbelowcoincidence AT ercanmehmetaltinsoy improveddirectivityofflatpanelloudspeakersbyminimizingtheoffaxisradiationbelowcoincidence |
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