Abstract
Recently, interior noise levels of passenger cars have been significantly reduced. The reduction of major cabin noise led to the recognition of small noises that are previously unnoticed. Specifically, the button noises of electrical devices in passenger compartments have been identified as belonging to this category of noise. The aim of this study is to improve the auditory quality of a car audio button while maintaining its tactile quality that is familiar to users. The tactile and auditory qualities can be described by the load versus stroke characteristics and the operation noise level. For buttons with rubber domes, the buckling behavior of the domes governs the tactile and auditory qualities. To preserve the tactile quality, the sensitivity of load versus stroke characteristics to each of the eight identified parameters is obtained from the finite element analyses using model parameters varied by ±10%. Four parameters to which the tactile quality was insensitive are selected. To identify the contributions of these four design parameters to auditory quality, finite element analyses were performed in conjunction with design of experiments. The improved design obtained by the subsequent response surface methodology optimization was validated by a prototype test with a 12 dBA reduction in noise.
Highlights
Automobiles are rated by safety, performance, comfort, and fuel economy
Many studies have been conducted to investigate the noise inside the cabin, including the optimization of beads in the body panels to reduce the noise transmitted from the power train,[1] an evaluation of the noise characteristics of a car air conditioner,[2] a method for increasing the sound quality during acceleration,[3] an investigation of auditory impressions during driving,[4] and evaluations of the noise quality of premium-class passenger cars[5] and the sound quality of automobile power windows.[6]
A car audio button assembly consists of several components, including a button, a button case, a rubber dome, and a printed circuit board (PCB)
Summary
Noise, controls, display, cabin access, interior fit, interior finish, and cargo space. Many studies have been conducted to investigate the noise inside the cabin, including the optimization of beads in the body panels to reduce the noise transmitted from the power train,[1] an evaluation of the noise characteristics of a car air conditioner,[2] a method for increasing the sound quality during acceleration,[3] an investigation of auditory impressions during driving,[4] and evaluations of the noise quality of premium-class passenger cars[5] and the sound quality of automobile power windows.[6] With the technical progress in the field of noise vibration harshness, small sounds, such as audio-button clicking, became far more noticeable.
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