IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0592506
(2006-11-03)
|
등록번호 |
US-7518284
(2009-07-01)
|
우선권정보 |
DE-100 54 247(2000-11-02); DK-PCT/DK01/00719(2001-10-31) |
발명자
/ 주소 |
- Benslimane, Mohamed Yahia
- Gravesen, Peter
|
출원인 / 주소 |
|
대리인 / 주소 |
McCormick, Paulding & Huber LLP
|
인용정보 |
피인용 횟수 :
23 인용 특허 :
72 |
초록
▼
A composite for a transducer facilitates an increased actuation force as compared to similar prior art composites for transducers. In accordance with the present invention, the composite also facilitates increased compliance of the transducer in one direction and an improved reaction time as compare
A composite for a transducer facilitates an increased actuation force as compared to similar prior art composites for transducers. In accordance with the present invention, the composite also facilitates increased compliance of the transducer in one direction and an improved reaction time as compared to similar prior art composites for transducers, as well as provides an increased lifetime of the transducer in which it is applied.
대표청구항
▼
What is claimed is: 1. A composite comprising: a film made of a dielectric material and having a first surface and second surface, at least the first surface comprising a surface pattern of raised and depressed surface portions, and a first electrically conductive layer being deposited onto the sur
What is claimed is: 1. A composite comprising: a film made of a dielectric material and having a first surface and second surface, at least the first surface comprising a surface pattern of raised and depressed surface portions, and a first electrically conductive layer being deposited onto the surface pattern, the electrically conductive layer having a corrugated shape which is formed by the surface pattern of the film; wherein the second surface is substantially flat. 2. The composite according to claim 1, wherein the electrically conductive layer has a modulus of elasticity being higher than a modulus of elasticity of the film. 3. The composite according to claim 1, provided as a web of potentially unlimited length. 4. The composite according to claim 1, wherein the dielectric material is a polymer material. 5. The composite according to claim 1, wherein the dielectric material has properties similar to an elastomer. 6. The composite according to claim 1, wherein the film has a largest thickness which is less than 110 percent of an average thickness of the film. 7. The composite according to claim 1, wherein the film has a smallest thickness which is at least 90 percent of an average thickness of the film. 8. The composite according to claim 1, wherein the first electrically conductive layer has a largest thickness which is less than 110 percent of an average thickness of the first electrically conductive layer. 9. The composite according to claim 1, wherein the first electrically conductive layer has a smallest thickness which is at least 90 percent of an average thickness of the first electrically conductive layer. 10. The composite according to claim 1, wherein the surface pattern comprises waves forming troughs and crests extending in essentially one common direction, each wave defining a height being a shortest distance between a crest and neighbouring troughs. 11. The composite according to claim 10, wherein the waves have a shape which is periodically repeated. 12. The composite according to claim 10, wherein an average height of the waves is between 1/3 and 20 μm. 13. The composite according to claim 12, wherein each wave defines, a largest wave having a height of at most 110 percent of the average wave height. 14. The composite according claim 12, wherein each wave defines a smallest wave having a height of at least 90 percent of the average wave height. 15. The composite according to claim 10, wherein the film has an average thickness being between 10 and 200 μm. 16. The composite according to claim 10, wherein a ratio between an average height of the waves and an average thickness of the film is between 1/50 and 1/2. 17. The composite according to claim 10, wherein the waves have a wavelength defined as the shortest distance between two crests, and wherein a ratio between an average height of the waves and an average wavelength is between 1/30 and 2. 18. The composite according to claim 10, wherein a ratio between an average thickness of the first electrically conductive layer and an average height of the waves is between 1/1000 and 1/50. 19. The composite according to claim 1, wherein the first electrically conductive layer has a thickness in the range of 0.01-0.1 μm. 20. The composite according to claim 1 and being substantially (i.e. at least 10 times) longer in a lengthwise direction than in a perpendicular crosswise direction. 21. The composite according to claim 20, wherein the surface pattern defines a compliance direction in which the composite is mostly compliant, wherein the compliance direction forms an angle between 0 and 90 degrees to the lengthwise direction. 22. The composite according to claim 21, wherein the composite has a compliance in the compliance direction which is at least 50 times larger than its compliance in a direction being at least substantially perpendicular to the compliance direction. 23. The composite according to claim 20, wherein the surface pattern forms wave crests and troughs extending essentially in the lengthwise direction. 24. The composite according to claim 20, wherein the surface pattern forms wave crests and troughs extending essentially in the crosswise direction. 25. The composite according to claim 1, wherein the surface pattern comprises a plurality of identical sub patterns. 26. The composite according to claim 1, wherein the film has a surface with a shape which is essentially unaffected by its contact with the first electrically conductive layer. 27. The composite according to claim 26, wherein the composite has a shape which is essentially unaffected by an elastic modulus of the first electrically conductive layer. 28. The composite according to claim 26, wherein the film has a surface with a shape which is essentially unaffected by the thickness of the first electrically conductive layer. 29. The composite according to claim 1, wherein the film has a surface with a shape which is essentially unaffected by an elastic modulus of the film. 30. The composite according to claim 29, wherein the film has a surface with a shape which is essentially unaffected by the thickness of the film. 31. The composite according to claim 1, comprising a second electrically conductive layer arranged on an opposite surface of the film relative to the first electrically conductive layer to form an electroactive composite. 32. The composite according to claim 1, wherein a resistivity of the dielectric material is larger than 1010Ω·cm. 33. The composite according to claim 1, wherein a resistivity of the electrically conductive material is less than 10-4Ω·cm. 34. A composite comprising: a film made of a dielectric material and having a first surface and second surface, at least the first surface comprising a surface pattern of raised and depressed surface portions; and a first electrically conductive layer being deposited onto the surface pattern, the electrically conductive layer having a corrugated shape which is formed by the surface pattern of the film; wherein the surface pattern forms wave crests and troughs extending essentially in the lengthwise direction and wherein the composite is substantially (i.e. at least 10 times) longer in a lengthwise direction than in a perpendicular crosswise direction.
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