Claims
- 1. An electromechanical push-pull transducer comprising a first pair of electrostatically polarized stator electrets, conductive means adjacent each of said electrets, said electrets and said conductive means each having apertures therethrough, a first thin vibratory internally non-polarized diaphragm comprising a layer of conductive material, means for supporting said diaphragm between said electrets in spaced relation thereto throughout the dynamic operation of said diaphragm, said electrets being polarized to develop electrical charges of opposite polarity on the surfaces of said electrets facing said diaphragm, a second pair of electrostatically polarized stator electrets, one of said second pair of electrets being adjacent one of said conductive means, conductive means adjacent the other electret of said second pair, said second pair of electrets and said conductive means adjacent thereto each having apertures therethrough, a second thin vibratory internally non-polarized diaphragm comprising a layer of conductive material, means for supporting said second diaphragm between said second pair of electrets in spaced relation thereto throughout the dynamic operation of said second diaphragm, said second pair of electrets being polarized to develop electrical charges of opposite polarity on the surfaces of said second pair of electrets facing said second diaphragm, said second pair of electrets also being polarized to develop electrical charges of the same polarity as corresponding electrets of said first pair develop on said surfaces thereof facing said first diaphragm, said first and second diaphragms being so acoustically coupled as to vibrate in unison throughout the dynamic operation of the transducer, and circuit means for applying an alternating current signal between said diaphragms and said conductive means, said diaphragms being electrically connected and said conductive means being electrically connected.
- 2. A transducer in accordance with claim 1 in which said apertures of said electrets and said conductive means adjacent thereto are substantially aligned.
- 3. A transducer in accordance with claim 1 suitable for use as a headphone and in which each diaphragm covers uniformly substantially the entire audio frequency range.
- 4. An electromechanical push-pull transducer comprising a pair of electrostatically polarized stator electrets, conductive means adjacent said electrets, said electrets and said conductive means each having apertures therethrough, first and second thin vibratory internally non-polarized diaphragms each comprising a layer of conductive material, means for supporting said first diaphragm in spaced relation to one of said electrets throughout the dynamic operation of said first diaphragm, said first diaphragm being an external electrostatic member of said transducer, and means for supporting said second diaphragm in spaced relation to the other of said electrets throughout the dynamic operation of said second diaphragm, said electrets and said conductive means being disposed between said first and second diaphragms, said electrets being polarized to develop electrical charges of opposite polarity on the surfaces of said electrets facing said diaphragms, said first and second diaphragms being so acoustically coupled as to vibrate in unison throughout the dynamic operation of the transducer, a second pair of electrostatically polarized stator electrets, conductive means adjacent said second pair of electrets, said second pair of electrets and said conductive means adjacent thereto each having apertures therethrough, means for supporting said second diaphragm in spaced relation to one of said second pair of electrets throughout the dynamic operation of said second diaphragm, a third thin vibratory internally non-polarized diaphragm comprising a layer of conductive material, and means for supporting said third diaphragm in spaced relation to the other of said second pair of electrets throughout the dynamic operation of said third diaphragm, said second pair of electrets and said conductive means adjacent thereto being disposed between said second and third diaphragms, said second pair of electrets being polarized to develop electrical charges of opposite polarity on the surfaces of said second pair of electrets facing said second and third diaphragms, said second pair of electrets facing said second and third diaphragms also being polarized to develop electrical charges of the same polarity as corresponding electrets of said first pair develop on said surfaces thereof facing said first and second diaphragms, respectively, said first, second and third diaphragms being so acoustically coupled as to vibrate in unison throughout the dynamic operation of the transducer.
- 5. A transducer in accordance with claim 3 suitable for use as a heaphone and in which each diaphragm covers uniformly substantially the entire audio frequency range.
- 6. A transducer in accordance with claim 3 in which said third diaphragm is an external electrostatic member of said transducer.
- 7. A transducer in accordance with claim 4 and circuit means coupled thereto for applying an alternating current signal between said diaphragms and said conductive means, said diaphragms being electrically connected and said conductive means being electrically connected.
Priority Claims (1)
Number |
Date |
Country |
Kind |
231048 |
Jul 1975 |
CAX |
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Parent Case Info
This is a continuation of application Ser. No. 615,669, filed Sept. 22, 1975 now abandoned.
US Referenced Citations (4)
Number |
Name |
Date |
Kind |
1082248 |
Unterholzner |
Dec 1913 |
|
3821492 |
Tamura et al. |
Jun 1974 |
|
3941946 |
Kawakami et al. |
Mar 1976 |
|
3980838 |
Yakushiji et al. |
Sep 1976 |
|
Foreign Referenced Citations (1)
Number |
Date |
Country |
838024 |
Jun 1960 |
GBX |
Continuations (1)
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Number |
Date |
Country |
Parent |
615669 |
Sep 1975 |
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