Porous gas reservoir electrostatic transducer
First Claim
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1. An electrostatic transducer having an intended operating frequency range and comprising:
- (a) a plurality of perforated sheets arranged adjacent one another in a stack;
(b) a gas-filled gap separating each adjacent pair of said sheets;
(c) a conductive surface on each of said sheets for imposing an electric field within said respective gaps;
(d) flexible positioning means disposed between each adjacent pair of said sheets for maintaining a desired average thickness of said respective gaps;
(e) a high porosity gas reservoir structure fixed to one outer end of said stack for gas flow through said sheets between said respective gaps and said reservoir; and
,(f) a cover sheet fixed to an end of said stack opposite said one end to prevent gas flow between said gaps and a region external to said stack during operation of said transducer within said intended operating frequency range.
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Abstract
An electrostatic transducer in which a plurality of perforated sheets are arranged adjacent one another in a stack. A gas-filled gap separates each adjacent pair of sheets. Conductive surfaces on each sheet impose an electric field within the respective gaps. A flexible positioning mechanism disposed between each adjacent pair of sheets maintains a desired average thickness of the gaps. A high porosity gas reservoir structure is fixed to one outer end of the stack, such that gas may flow through the sheets between the respective gaps and the reservoir. A cover sheet fixed to an end of the stack opposite the reservoir prevents gas flow between the gaps and the region external to the stack during operation of the transducer within its intended operating frequency range.
114 Citations
8 Claims
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1. An electrostatic transducer having an intended operating frequency range and comprising:
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(a) a plurality of perforated sheets arranged adjacent one another in a stack; (b) a gas-filled gap separating each adjacent pair of said sheets; (c) a conductive surface on each of said sheets for imposing an electric field within said respective gaps; (d) flexible positioning means disposed between each adjacent pair of said sheets for maintaining a desired average thickness of said respective gaps; (e) a high porosity gas reservoir structure fixed to one outer end of said stack for gas flow through said sheets between said respective gaps and said reservoir; and
,(f) a cover sheet fixed to an end of said stack opposite said one end to prevent gas flow between said gaps and a region external to said stack during operation of said transducer within said intended operating frequency range. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An electrostatic transducer having an intended operating frequency range and comprising:
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(a) first and second sheets separated by a gas-filled gap, each of said sheets having a conductive surface for imposing an electric field within said respective gaps, one of said sheets having a plurality of perforations; (b) flexible positioning means disposed between said sheets for maintaining a desired average thickness of said gap; (c) a porous gas reservoir structure rigidly bonded to said perforated sheet; wherein; (i) said gas has a gas pressure in said gap; (ii) said desired average gap thickness is less than or equal to the Paschen minimum distance for said gas and said gas pressure; (iii) said sheets have; (A) a component zgap of net mechanical impedance per unit area to pressure changes required to compress and rarefy said gas within said gap; (B) a component zmass of net mechanical impedance per unit area due to said sheets'"'"' mass; (iv) said porous gas reservoir structure contains a volume of gas per unit area sufficiently large that said component zgap has a magnitude of the same order as, or less than the magnitude of said component Zmass at frequencies within said intended operating frequency range; and
,(v) said flexible positioning means has a net mechanical impedance per unit area Zpos having a magnitude of the same order as, or less than, the magnitude of said component Zmass for frequencies within said intended operating frequency range.
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Specification
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Current AssigneeSound Cheers Limited
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Original AssigneeUniversity of British Columbia
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InventorsWhitehead, Lorne A., Bolleman, Brent J.
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Primary Examiner(s)Budd, Mark O.
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Application NumberUS08/525,294Time in Patent Office782 DaysField of Search310/309, 381/190, 381/191US Class Current310/309CPC Class CodesB06B 1/0292 Electrostatic transducers, ...G01H 11/06 by electric meansH02N 1/006 of the gap-closing type H02...
