Development of Automotive Time Domain Custom-Fit Speaker

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Development of Automotive Time Domain Speaker

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Transcription:

Development of Automotive Time Domain Custom-Fit Speaker Kiyosei SHIBATA Takashi MORIKI Kazuhiko HAMADA Ryousuke SOU Katsuhiko TSUMORI Abstract The "ECLIPSE TD" series, Fujitsu Ten home audio system, is based on "Time Domain (TD) Theory" that is different from the conventional theory, and has been highly praised in various fields beyond the home audio use since the release in April 2001. As for automotive speakers, in June 2008, we have developed a center speaker, a satellite speaker and a tune-up subwoofer by adapting the TD theory, which provide sound space in a car with the same level as the one through home audios. In order to build an all TD system structure this time, by adopting the TD theory, we have developed a new custom-fit door speaker that is a key item to produce sounds in a car cabin. This paper explains the development background of the TD custom-fit speaker, development concepts and our unique technology to achieve them. Then it goes on to introduce the example of the automotive system structure and the market evaluation of its sound quality. 3

FUJITSU TEN TECHNICAL JOURNAL 4 (1) Increased sound clarity (Even minute sounds are heard without masking unwanted sound) (2) Faster and tighter reproduction of sound (The rising and falling of sound reproduction are both quick) (3) Improved spatial reproducibility (The listeners are now less aware of the existence of speakers, which means that what they hear comes from their surrounding space) Introduction Product Concept of ECLIPSE TD Speakers Background of Product Development 3.1 Development of automotive surround system 3.2 Aim of Development of TD Custom-Fit Speaker

Development of Automotive Time Domain Custom-Fit Speaker 3.3 Market Trends of Custom-Fit Speakers 3.3.1 Speaker Diameter 3.3.2 Trend of Other Companies 3.4 Target Specifications 5

FUJITSU TEN TECHNICAL JOURNAL Development Outline 4.1 Development Subject 4.2 Achievement of TD Structure 4.2.1 Achievement of Floating Structure (1) Achievement of TD structure (floating structure) (2) Ensuring of water proof property (3) Improvement of impulse response characteristics of driver unit 6 4.2.2 Validation of TD Structure's Superiority

Development of Automotive Time Domain Custom-Fit Speaker 4.3 Ensuring of Water-Proof Property 4.4 Improvement of Impulse Response Characteristics of Driver Unit (1) Selection of diaphragm material (aiming to reduce unwanted vibrations by means of increasing inner loss) (2) Improvement of forward-and-backward symmetry of damper amplitude (3) Improvement of driving force (magnetic efficiency) 4.4.1 Selection of diaphragm Material 7

FUJITSU TEN TECHNICAL JOURNAL 4.4.2 Improvement of Forward-and-Backward Symmetry of Damper Amplitude 4.4.3 Improvement of Driving Force (magnetic efficiency) 4.4.4 Verification of Impulse Response 4.5 Development Result 8

Development of Automotive Time Domain Custom-Fit Speaker Automotive System Structure 5.1 5.1-channel Surround System Built with All TD Speakers 5.2 Evaluation under Installed Conditions 9

FUJITSU TEN TECHNICAL JOURNAL Conclusion Profiles of Writers Kiyosei SHIBATA Entered the company in 1998. Since then, has engaged in the development of OEM car speakers, development of sound systems, and then development of commercial car / home speakers. Currently in the Acoustic Engineering Dept, Engineering Div 1, CI OEM Group. Ryousuke SOU Entered the company in 2005. Since then, has engaged in the development of commercial car / home speakers. Currently in the Acoustic Engineering Dept, Engineering Div 1, CI OEM Group. Takashi MORIKI Entered the company in 2008. Since then, has engaged in the development of commercial car / home speakers. Currently in the Acoustic Engineering Dept, Engineering Div 1, CI OEM Group. Katsuhiko TSUMORI Entered the company in 1986. Since then, has engaged in the planning / development / designing of speakers and sound systems. Currently the Team Leader of the Acoustic Engineering Dept, Engineering Div 1, CI OEM Group. Kazuhiko HAMADA Entered the company in 1986. Since then, has engaged in the designing of mechanisms for car audio systems, development of music software, and then development of commercial car / home speakers. Currently in the Acoustic Engineering Dept, Engineering Div 1, CI OEM Group. 10

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