The present invention relates generally to speakers for producing audible sounds and, more particularly, to an electrostatic speaker arrangement for mobile devices.
Advances in communication and manufacturing technologies have resulted in mobile devices, such as mobile telephones and personal digital assistants, becoming increasingly smaller in size. One consequence of these size reductions is that less space is available for speakers and other components. While consumers prefer mobile devices with small form factors, consumers still expect high quality audio output from their mobile devices. Therefore, there is great interest among manufacturers in finding ways to reduce space requirements for speakers while maintaining high quality audio output. At the same time, manufacturers are constantly looking for ways to reduce the cost of mobile devices. Therefore, a significant challenge facing manufacturers is how to make low cost speakers that require less space and that produce high quality audio output.
The present invention relates to an electrostatic speaker arrangement for mobile devices. The electrostatic speaker arrangement includes a multi-layered printed circuit board. The printed circuit board includes at least one flexible circuit layer with a conductive pattern thereon that functions as the diaphragm of an electrostatic speaker. Positive and negative elements are disposed on opposing sides of the flexible circuit layer. A drive circuit connects to the flexible circuit layer and applies current to the flexible circuit layer responsive to an audio signal. The electrostatic forces move the flexible circuit layer to generate sounds.
In some embodiments, recesses may be formed in the printed circuit board on opposing sides of the flexible circuit layer by removing rigid portions of the printed circuit board. The positive and negative elements may insert into respective recesses. An enclosure may be inserted into one of the recesses to form a sealed speaker cavity on one side of the flexible circuit layer. A speaker grill may be inserted into the other recess.
The speaker arrangement, according to the present invention, may be produced at low cost using components present in the printed circuit board. While low in cost, the electrostatic speaker produces a high quality audio output and reduces space requirements.
Referring now to the drawings,
In some embodiments, a constant charge may be applied to the diaphragm 12, while the drive signal is applied to the elements 14, 16. An electrostatic field proportional to the audio signal is produced between the elements 14, 16. The electrostatic force moves the charged diaphragm 12 back and forth to generate audible sounds.
The rigid layers 24, 26 of the printed circuit board may include outwardly-facing surfaces or lands 40. The lands 40 may have electrical contacts or pads 42 to establish electrical contact between the conductive grids 34, 36 and the printed circuit board 21. Alternatively, conductive leads extending from the conductive grids 34, 36 may be surface mounted to the printed circuit board 21.
An enclosure 50 inserts into the recess 25 on one side of the printed circuit board 21. The enclosure 50 retains the conductive grid 36 and forms an enclosed speaker cavity on one side of the flexible circuit layer 30. A speaker grill 52 inserts into a recess 23 on the opposite side of the printed circuit board 21. The speaker grill 52 retains the conductive grid 34 and includes acoustic ports for emitting sounds generated by the electrostatic speaker 20. The enclosure 50 and speaker grill 52 may include mechanical features to retain the enclosure 50 and speaker grill 52 in respective recesses 23, 25.
In operation, a positive charge is applied to conductive grid 34 and a negative charge is applied to conductive grid 36. Those skilled in the art will appreciate, however, that the positive and negative charges could be reversed. A drive circuit 18 as shown in
The electrostatic speaker 20 may be used in a mobile device, such as a mobile telephone.
The present invention provides a method of fabricating an electrostatic speaker 20 using components of a printed circuit board 21. More particularly, a flexible circuit layer 30 in the printed circuit board 21 functions as the diaphragm 12 of the electrostatic speaker 20. The conductive grids 34, 36 could also be made of flexible circuit layers. The entire speaker assembly may be produced at very low cost without sacrificing sound quality. Further, the arrangement reduces the overall thickness of the mobile device by using some of the area in the printed circuit board 21 as speaker cavities.
The present invention may, of course, be carried out in other specific ways than those herein set forth without departing from the scope and essential characteristics of the invention. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, and all changes coming within the meaning and equivalency range of the appended claims are intended to be embraced therein.
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