IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0177036
(2002-06-21)
|
우선권정보 |
JP-0364604 (1999-12-22) |
발명자
/ 주소 |
- Kondoh, You
- Saito, Mitsuchika
|
출원인 / 주소 |
- Agilent Technologies, Inc.
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
3 |
초록
▼
The switch device comprises a pair of cavities, an elongate passage, a non-conductive fluid having a high electrical resistance, a conductive fluid having a high electrical conductivity and an electrical path. The passage is in fluid communication with the cavities and has a substantially elliptical
The switch device comprises a pair of cavities, an elongate passage, a non-conductive fluid having a high electrical resistance, a conductive fluid having a high electrical conductivity and an electrical path. The passage is in fluid communication with the cavities and has a substantially elliptical cross-section over at least part of its length. The non-conductive fluid is disposed in each of the cavities. The conductive fluid is located in the passage. The electrical path is changeable between a connected state and a disconnected state by the non-conductive fluid separating the conductive fluid in the passage into non-contiguous conductive fluid portions.
대표청구항
▼
1. A switch device, comprising:a pair of cavities;an elongate passage in fluid communication with the cavities, the passage having a length and having a substantially elliptical cross-section over at least part of its length;a non-conductive fluid having a high electrical resistance disposed in each
1. A switch device, comprising:a pair of cavities;an elongate passage in fluid communication with the cavities, the passage having a length and having a substantially elliptical cross-section over at least part of its length;a non-conductive fluid having a high electrical resistance disposed in each of the cavities;a conductive fluid having a high electrical conductivity located in the passage; andan electrical path changeable between a connected state and a disconnected state by the non-conductive fluid separating the conductive fluid in the passage into non-contiguous conductive fluid portions. 2. The switch device of claim 1, in which:the switch device additionally comprises a pair of plates; andthe passage comprises opposing grooves, one in each of the plates, the grooves extending into the plates in a depth direction and having a substantially semi-elliptical cross section. 3. The switch device of claim 2, wherein the grooves are formed by sandblasting. 4. The switch device of claim 1, in which:the switch device additionally comprises a channel extending from each of the cavities and terminating in an opening in the passage; andthe passage has the substantially semi-elliptical cross section in a portion of its length between the openings. 5. The switch device of claim 1, in which:the switch device additionally comprises a channel extending from each of the cavities and terminating in an opening in the passage;during operation, the non-conductive fluid separates the conductive fluid into the conductive fluid portions located in the passage at separation locations positioned on both sides of at least one of the openings; andthe passage has the substantially semi-elliptical cross section in portions of its length that correspond to the separation locations. 6. A switch device, comprising:a pair of cavities;an elongate passage in fluid communication with the pair of cavities, the passage having a length and a cross-sectional shape, the cross-sectional shape over at least a portion of the length of the passage including a corner;a non-conductive fluid having a high electrical resistance disposed in each of the pair of cavities;a conductive fluid having a high electrical conductivity located in the passage and in contact with the non-conductive fluid from each of the cavities; anda wettable material wettable by the conductive fluid, the wettable material being in contact with the conductive fluid and being located in at least part of the portion of the length of the passage where the cross-sectional shape includes the corner. 7. The switch device of claim 6, in which:the switch device additionally comprises a mated pair of plates;the pair of cavities and the passage are formed in the mated pair of plates;at least part of the passage that is substantially in contact with the conductive fluid is formed by disposing a groove made in one of the mated pair of plates opposite a major surface of the other of the mated pair of plates to form the corner at the intersection between the groove in the one of the mated pair of plates and the major surface of the other of the mated pair of plates. 8. The switch device of claim 7, in which the groove has a substantially semi-elliptical cross section. 9. The switch device of claim 7, in which the groove has a substantially polyhedral cross section. 10. The switch device of claim 7, in which the groove is formed by etching. 11. The switch device of claim 6, in which the wettable material includes a patterned wettable metal film on at least one of the mated pair of plates. 12. The switch device of claim 6, in which the wettable material includes an electrode. 13. The switch device of claim 6, in which:the switch device additionally comprises a channel extending from each of the pair of cavities and terminating in an opening in the passage;the wettable material is located in a portion of the passage between the openings. 14. The switch device of claim 6, in which:the switch device additionally c omprises a channel extending from each of the pair of cavities and terminating in an opening in the passage;during operation, the non-conductive fluid separates the conductive fluid into non-contiguous conductive fluid portions located in the passage at separation locations on either side of one of the openings; andthe wettable material is located in portions of the passage corresponding to the separation locations. 15. A method of making a switch device, the method comprising:providing a pair of plates, a non-conductive fluid having a high electrical resistance and a conductive fluid having a high electrical conductivity;forming, in at least one of the plates, a pair of cavities and a passage that allows the pair of cavities to communicate, the passage having a length and a cross-sectional shape, the cross-sectional shape including a corner over at least part of the length;mating the plates;placing a portion of the non-conductive fluid in each of the cavities;placing the conductive fluid in the passage in contact with the portion of the non-conductive fluid in each of the cavities; andforming a wettable film that is wettable by the conductive fluid on at least one of the plates, the wettable film being located adjacent the corner of the cross-sectional shape and extending widthways and lengthways in the passage when the pair of plates is mated. 16. The method of claim 15, in which forming the wettable film includes forming the wettable film on both of the plates, so that when the plates are mated, the wettable film surrounds the passage along at least part of the length of the passage. 17. The method of claim 15, in which, forming the wettable film includes forming the wettable film substantially in the form of a band surrounding the passage. 18. The method of claim 15, in which:forming the cavities and the passage comprises forming a channel that extends between each of the cavities and the passage, the channel terminating in an opening at the passage;in forming the wettable film, the wettable film is formed between the openings. 19. The method of claim 15, in which:forming the cavities and the passage comprises forming a channel that extends between each of the cavities and the passage, the channel terminating in an opening at the passage;during operation, the non-conductive fluid separates the conductive fluid into portions located in the passage at separation locations on either side of at least opening;in forming the wettable film, the wettable film is formed in portions of the passage corresponding to the separation locations.
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