The present disclosure relates to a field of sound-electric conversion technology, in particular to a micro-electro-mechanical system (MEMS) speaker.
As one of the main components of mobile terminals such as mobile phones, speakers mainly convert electrical signals into sound signals.
MEMS speakers (Micro-Electro-Mechanical System) what is micro-electromechanical system speakers, have the advantages of better consistency, lower power consumption, smaller size, and lower price compared to traditional voice coil speakers. A MEMS speaker in related art includes a printed circuit board, a casing connected with the printed circuit board for forming an accommodation space, and a MEMS speaker chip located in the accommodation space, the casing includes a sound hole. However, the total harmonic distortion of the MEMS speaker chip increases when it vibrates to make sound, which greatly affects the performance of the MEMS speaker.
Thus, it is necessary to provide a MEMS speaker to solve the problem.
A MEMS speaker includes a housing with a receiving space; a MEMS speaker chip with an inner cavity, accommodated in the receiving space and connected with the housing, the MEMS speaker chip dividing the receiving space into a first cavity and a second cavity communicating with the inner cavity; a sound hole communicating with the first cavity or the second cavity; and a damping mesh connected to the housing and covering the sound hole; wherein sounds emitted by the MEMS speaker chip transmit outward through the sound hole and the damping mesh.
Further, an acoustic impedance value of the damping mesh is in a range of 1 Mrayl-500 Mrayl.
Further, the housing includes a printed circuit board connected with the MEMS speaker chip and a shell assembled with the printed circuit board for forming the receiving space, the shell and the MEMS speaker chip form the first cavity, the printed circuit board and the MEMS speaker chip form the second cavity, the sound hole is formed on the shell, and the damping mesh is attached to the shell.
Further, the shell includes a top wall spaced from the printed circuit board and a side wall located between the printed circuit board and the top wall, the side wall is connected with the printed circuit board and the top wall respectively, the sound hole is formed on the top wall, and the damping mesh is connected with the top wall.
Further, the top wall is provided with a first outer surface away from the receiving space, and the damping mesh is attached to the first outer surface of the top wall.
Further, the shell includes a top wall spaced from the printed circuit board and a side wall located between the printed circuit board and the top wall, the side wall is connected with the printed circuit board and the top wall respectively, and the sound hole is formed on the side wall.
Further, one end of the damping mesh is connected with the top wall of the shell, and the other end is connected to the printed circuit board.
Further, the damping mesh includes an inner surface facing the receiving space, one end of the inner surface of the damping mesh is connected with the top wall of the shell, and the other end of the inner surface is connected with the printed circuit board.
Further, the printed circuit board includes a through hole communicating with the second cavity, and the MEMS speaker further includes a dust mesh covering the through hole.
Further, the housing includes a printed circuit board connected with the MEMS speaker chip and a shell assembled with the printed circuit board for forming the receiving space, the shell and the MEMS speaker chip form the first cavity, the printed circuit board and the MEMS speaker chip form the second cavity, the sound hole is formed on the printed circuit board and communicates with the second cavity, and the damping mesh is attached to the printed circuit board.
Many aspects of the exemplary embodiment can be better understood with reference to the following drawings. The components in the drawing are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present disclosure.
The present disclosure will hereinafter be described in detail with reference to exemplary embodiments. To make the technical problems to be solved, and technical solutions and beneficial effects of the present disclosure more apparent, the present disclosure is described in further detail together with the figure and the embodiment. It should be understood the specific embodiment described hereby is only to explain the disclosure, not intended to limit the disclosure.
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The MEMS speaker 100 further includes a damping mesh 30 attached to the shell 12 and covering the sound hole 120. The MEMS speaker chip 2 emits sounds transmitting outward through the sound hole 120 and the damping mesh 30. Therefore, the quality factor Q value of the MEMS speaker 100 can be effectively adjusted through the damping mesh 30, the resonance caused by the front cavity can be reduced, and the total harmonic distortion can be improved, thereby improving the performance of the MEMS speaker 100. Preferably, an acoustic impedance value of the damping mesh 30 is in a range of 1 Mrayl-500 Mrayl. The damping mesh 30 completely covers the sound hole 120.
In addition, in this embodiment, the shell 12 includes a top wall 121 spaced from the printed circuit board 11 and a side wall 122 located between the printed circuit board 11 and the top wall 121, two ends of the side wall 122 are respectively connected with the printed circuit board 11 and the top wall 121, the sound hole 120 is provided through the top wall 121. In this way, the sounds emitted by the MEMS speaker 100 could transmit from the front side. The top wall 121 includes a first outer surface 1210 away from the receiving space 10, the damping mesh 30 is attached to the first outer surface 1210 of the top wall 121, therefore, the damping mesh 30 is not only easy to install, but also does not occupy the internal space of the MEMS speaker 100.
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It is to be understood, however, that even though numerous characteristics and advantages of the present exemplary embodiment have been set forth in the foregoing description, together with details of the structures and functions of the embodiments, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the disclosure to the full extent indicated by the broad general meaning of the terms where the appended claims are expressed.
Number | Date | Country | Kind |
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202220453634.2 | Mar 2022 | CN | national |