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[미국특허] Electrokinetic high pressure hydraulic system 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • C12Q-001/68
  • B01J-019/00
  • G01N-033/48
출원번호 US-0057017 (1998-04-07)
발명자 / 주소
  • Paul Phillip H.
  • Rakestraw David J.
출원인 / 주소
  • Sandia Corporation
대리인 / 주소
    Nissen
인용정보 피인용 횟수 : 87  인용 특허 : 1

초록

A compact high pressure hydraulic pump having no moving mechanical parts for converting electric potential to hydraulic force. The electrokinetic pump, which can generate hydraulic pressures greater than 2500 psi, can be employed to compress a fluid, either liquid or gas, and manipulate fluid flow.

대표청구항

[ We claim:] [1.] A valve for the manipulation of a fluid, comprising:a) an electro-osmotic pump capable of exerting a hydraulic force greater than 10 psi, comprising;i) a microchannel having a fluid inlet and outlet and a porous dielectric material disposed in said microchannel;ii) an electrolyte c

이 특허에 인용된 특허 (1) 인용/피인용 타임라인 분석

  1. Zanzucchi Peter J. (West Windsor Township NJ) Cherukuri Satyam C. (Cranbury NJ) McBride Sterling E. (Lawrence Township NJ) Judd Amrit K. (Belmont CA), Partitioned microelectronic device array.
    상세보기

이 특허를 인용한 특허 (87) 인용/피인용 타임라인 분석

  1. Kenny,Thomas; McMaster,Mark; Lovette,James, Apparatus and method of forming channels in a heat-exchanging device.
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  2. Kenny, Jr.,Thomas William; Goodson,Kenneth E.; Santiago,Juan G.; Everett, Jr.,George Carl, Apparatus for conditioning power and managing thermal energy in an electronic device.
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  3. Datta, Madhav; McMaster, Mark, Bonded metal and ceramic plates for thermal management of optical and electronic devices.
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  4. Goodson,Kenneth E.; Chen,Chuan Hua; Huber,David E.; Jiang,Linan; Kenny,Thomas W.; Koo,Jae Mo; Laser,Daniel J.; Mikkelsen,James C.; Santiago,Juan G.; Wang,Evelyn Ning Yi; Zeng,Shulin; Zhang,Lian, Closed-loop microchannel cooling system.
    상세보기
  5. Santiago,Juan G.; Zeng,Shulin, Control of electrolysis gases in electroosmotic pump systems.
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  6. Shook,James Gill; Lovette,James, Decoupled spring-loaded mounting apparatus and method of manufacturing thereof.
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  7. Correa, Adrian; Lin, Tien Chih (Eric); Hom, James; Shiomoto, Gregory; Chow, Norman; Leong, Brandon; Brewer, Richard Grant; Werner, Douglas E.; McMaster, Mark, Device and methodology for the removal of heat from an equipment rack by means of heat exchangers mounted to a door.
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  8. Correa, Adrian; Lin, Tien-Chieh (Eric); Hom, James; Shiomoto, Gregory; Chow, Norman; Leong, Brandon; Brewer, Richard Grant; Werner, Douglas E.; McMaster, Mark, Device and methodology for the removal of heat from an equipment rack by means of heat exchangers mounted to a door.
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  9. Harris, John L.; West, Adrian Mark Thomas; Ten Broeck, Dirk Peter; Protozanova, Ekaterina, Device for preparing a sample.
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  10. Shapiro, Benjamin; Smela, Elisabeth, Electrically driven microfluidic pumping for actuation.
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  11. Koval, Carl A.; Evans, Christine E.; Noble, Richard D.; Norman, Mya A., Electrochemical high pressure pump.
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  12. Mauge, Christophe P.; Venugopalan, Ramakrishna, Electrokinetic actuator to titrate fluid flow.
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  13. Anex, Deon S.; Paul, Phillip H.; Neyer, David W.; Hlavka, Edwin J., Electrokinetic delivery systems, devices and methods.
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  14. Paul,Phillip H., Electrokinetic device employing a non-newtonian liquid.
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  15. Anex,Deon; Paul,Phillip; Neyer,David W., Electrokinetic device having capacitive electrodes.
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  16. Carruba, Frank R., Electrokinetic fluid ejection.
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  17. Hencken, Kenneth R.; Sartor, George B., Electrokinetic pump.
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  18. Anex, Deon Stafford; Schwimmer, Charles Martin; Black, David Laurence; Rush, Richard Dean; Gearhart, Michael James, Electrokinetic pump designs and drug delivery systems.
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  19. Anex, Deon Stafford; Schwimmer, Charles Martin; Black, David Laurence; Rush, Richard Dean; Gearhart, Michael James, Electrokinetic pump designs and drug delivery systems.
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  20. Paul, Phillip H.; Anex, Deon S.; Arnold, Don W., Electrokinetic pump driven heat transfer system.
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  21. Anex, Deon S.; Paul, Phillip H.; Neyer, David W., Electrokinetic pump having capacitive electrodes.
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  22. Anex, Deon S.; Paul, Phillip H.; Neyer, David W., Electrokinetic pump having capacitive electrodes.
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  23. Anex, Deon S.; Paul, Phillip H.; Neyer, David W., Electrokinetic pump having capacitive electrodes.
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  24. Anex,Deon S.; Paul,Phillip H.; Neyer,David W., Electrokinetic pump having capacitive electrodes.
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  25. Saleki, Mansour A.; Reis, Antonio, Electrokinetic pump with fixed stroke volume.
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  26. Paul, Phillip H.; Arnold, Don Wesley; Bailey, Christopher G., Electroosmotic flow controller.
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  27. Goodson, Kenneth E.; Chen, Chuan-Hua; Huber, David E.; Jiang, Linan; Kenny, Thomas W.; Koo, Jae-Mo; Laser, Daniel J.; Mikkelsen, James C.; Santiago, Juan G.; Wang, Evelyn Ning-Yi; Zeng, Shulin; Zhang, Electroosmotic microchannel cooling system.
    상세보기
  28. Goodson,Kenneth E.; Chen,Chuan Hua; Huber,David E.; Jiang,Linan; Kenny,Thomas W.; Koo,Jae Mo; Laser,Daniel J.; Mikkelsen,James C.; Santiago,Juan G.; Wang,Evelyn Ning Yi; Zeng,Shulin; Zhang,Lian, Electroosmotic microchannel cooling system.
    상세보기
  29. Goodson,Kenneth E.; Chen,Chuan Hua; Huber,David E.; Jiang,Linan; Kenny,Thomas W.; Koo,Jae Mo; Laser,Daniel J.; Mikkelsen,James C.; Santiago,Juan G.; Wang,Evelyn Ning Yi; Zeng,Shulin; Zhang,Lian, Electroosmotic microchannel cooling system.
    상세보기
  30. Goodson,Kenneth E.; Chen,Chuan Hua; Huber,David E.; Jiang,Linan; Kenny,Thomas W.; Koo,Jae Mo; Laser,Daniel J.; Mikkelsen,James C.; Santiago,Juan G.; Wang,Evelyn Ning Yi; Zeng,Shulin; Zhang,Lian, Electroosmotic microchannel cooling system.
    상세보기
  31. Goodson,Kenneth E.; Kenny,Thomas W.; Santiago,Juan G.; Laser,Daniel J.; Chen,Chuan Hua, Electroosmotic micropump with planar features.
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  32. Huber,David; Yao,Shuhuai; Santiago,Juan G., Electroosmotic micropumps with applications to fluid dispensing and field sampling.
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  33. Neyer, David W.; Paul, Phillip H.; Arnold, Don Wesley; Bailey, Christopher G., Flow control systems.
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  34. Patil, Vishal, Focusing chamber.
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  35. Arnold, Don W.; Paul, Phillip H.; Anex, Deon S., Fuel cell system with electrokinetic pump.
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  36. Anex, Deon S.; Nip, Kenneth Kei-ho, Gel coupling diaphragm for electrokinetic delivery systems.
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  37. Munch, Mark; Werner, Douglas E., Gimballed attachment for multiple heat exchangers.
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  38. Werner,Douglas; Munch,Mark; Kenny,Thomas, Hermetic closed loop fluid system.
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  39. Hom, James; Upadhya, Girish; Werner, Douglas E.; Munch, Mark; Tsao, Paul; Conway, Bruce; Zhou, Peng; Brewer, Richard, Integrated liquid to air conduction module.
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  40. Upadhya,Girish; Kenny,Thomas W.; Zhou,Peng; Munch,Mark; Shook,James Gill; Goodson,Kenneth; Corbin,David, Interwoven manifolds for pressure drop reduction in microchannel heat exchangers.
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  41. Paul,Phillip H.; Neyer,David W.; Rehm,Jason E., Laminated flow device.
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  42. Krulevitch, Peter; Zhao, Mingqi; Bohm, Sebastian; Anex, Deon; Gearhart, Michael, Malfunction detection in infusion pumps.
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  43. Galbraith,S. Douglas, Meso-frequency traveling wave electro-kinetic continuous adsorption system.
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  44. Goodson,Kenneth; Kenny,Thomas; Zhou,Peng; Upadhya,Girish; Munch,Mark; McMaster,Mark; Horn,James, Method and apparatus for achieving temperature uniformity and hot spot cooling in a heat producing device.
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  45. Upadhya,Girish; Brewer,Richard Grant; McMaster,Mark, Method and apparatus for controlling freezing nucleation and propagation.
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  46. Kenny,Thomas W.; Munch,Mark; Zhou,Peng; Shook,James Gill; Upadhya,Girish; Goodson,Kenneth; Corbin,Dave; McMaster,Mark; Lovette,James, Method and apparatus for efficient vertical fluid delivery for cooling a heat producing device.
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  47. Winer,Paul; Vakanas,George P., Method and apparatus for fabrication of passivated microfluidic structures in semiconductor substrates.
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  48. Shepodd, Timothy J.; Duncan, Matthew P., Method for a microfluidic weaklink device.
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  49. Brewer, Richard Grant; Chow, Norman; Hom, James, Methodology of cooling multiple heat sources in a personal computer through the use of multiple fluid-based heat exchanging loops coupled via modular bus-type heat exchangers.
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  50. Nelson, Darcee Deschamp; Dahl, Klaus Joachim, Methods, compositions and devices, including electroosmotic pumps, comprising coated porous surfaces.
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  51. Corbin,David; Goodson,Kenneth; Kenny,Thomas; Santiago,Juan; Zeng,Shulin, Micro-fabricated electrokinetic pump.
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  52. Kenny,Thomas W.; Shook,James Gill; Zeng,Shulin; Lenehan,Daniel J.; Santiago,Juan; Lovette,James, Micro-fabricated electrokinetic pump with on-frit electrode.
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  53. Martin, Francis J.; Boiarski, Anthony A., Microfabricated nanopore device for sustained release of therapeutic agent.
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  54. Martin, Francis J.; Boiarski, Anthony A., Microfabricated nanopore device for sustained release of therapeutic agent.
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  55. Martin, Francis J.; Boiarski, Anthony A., Microfabricated nanopore device for sustained release of therapeutic agent.
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  56. Martin, Francis J.; Boiarski, Anthony A., Microfabricated nanopore device for sustained release of therapeutic agent.
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  57. Martin, Francis J.; Boiarski, Anthony A., Microfabricated nanopore device for sustained release of therapeutic agent.
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  61. Squires,Todd M.; Bazant,Martin Z., Microfluidic pumps and mixers driven by induced-charge electro-osmosis.
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  62. Datta, Madhav; Leong, Brandon; McMaster, Mark, Microheat exchanger for laser diode cooling.
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  63. Thiesen, Jack H.; Willen, Gary S.; Mohling, Robert A., Miniature reciprocating heat pumps and engines.
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