IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0930546
(2004-08-31)
|
등록번호 |
US-7258003
(2007-08-21)
|
발명자
/ 주소 |
- Padmanabhan,Aravind
- Bonne,Ulrich
- Marchini,Michael G.
|
출원인 / 주소 |
- Honeywell International Inc.
|
인용정보 |
피인용 횟수 :
24 인용 특허 :
68 |
초록
▼
A flow sensor is provided having a substrate with a sensing element and flow channel aligned over the sensing element. The sensing element senses at least one property of a fluid. The flow channel is aligned by one or more guide elements formed in an alignment layer. The flow channel across the sens
A flow sensor is provided having a substrate with a sensing element and flow channel aligned over the sensing element. The sensing element senses at least one property of a fluid. The flow channel is aligned by one or more guide elements formed in an alignment layer. The flow channel across the sensing area is accurately and precisely aligned due to the guide elements provided at the wafer-level, facilitating reliable, low-cost, and consistent results among multiple flow sensors. The flow sensor is adapted for use in harsh environments.
대표청구항
▼
We claim: 1. A flow sensor comprising: a substrate having a sensing element thereon, said sensing element configured to sense at least one property of a fluid; an alignment layer deposited on the substrate, the alignment layer defining one or more guide elements; and a flow channel; wherein the gui
We claim: 1. A flow sensor comprising: a substrate having a sensing element thereon, said sensing element configured to sense at least one property of a fluid; an alignment layer deposited on the substrate, the alignment layer defining one or more guide elements; and a flow channel; wherein the guide elements define the flow channel and align the flow channel over the sensing element. 2. The flow sensor of claim 1, comprising first and second guide elements, wherein the first and second guide elements define the flow channel. 3. The flow sensor of claim 2, further comprising a molded element positioned over the guide elements, the molded element defining first and second flow channel extensions; wherein the first flow channel extension is in fluid communication with a first end of the flow channel and the second flow channel extension is in fluid communication with a second end of the flow channel. 4. The flow sensor of claim 3, wherein the substrate forms a bottom of the flow channel, the guide elements forms sides of the flow channel, and the molded element forms a top of the flow channel. 5. The flow sensor of claim 3, wherein the first and second flow channel extensions are connected to the flow channel at an angle. 6. The flow sensor of claim 5, wherein the angle is a substantially right angle. 7. The flow sensor of claim 6, wherein the first and second flow channel extensions have a diameter and a distance between the angle and the sensing element is greater than or equal to 10 times the diameter of the second flow channel extension. 8. The flow sensor of claim 3, wherein the molded element is attached to the substrate and alignment layer with adhesive, wherein the alignment layer prevents the adhesive from entering the flow channel. 9. The flow sensor of claim 1, wherein said alignment layer includes a polymer. 10. The flow sensor of claim 9, wherein said polymer is poly(methyl methacrylate). 11. The flow sensor of claim 9, wherein said polymer is a photoresist. 12. The flow sensor of claim 11, wherein said photoresist is SU8. 13. The flow sensor of claim 1, wherein said sensing element includes a heater and at least one thermal sensor. 14. The flow sensor of claim 1, wherein said substrate is selected from the group consisting of quartz, silicon, ceramic, glass, metal, and polymer, which are generally chosen to have a relatively low value of thermal conductivity. 15. The flow sensor of claim 1, wherein the flow channel is a conduit positioned within the flow channel. 16. The flow sensor of claim 15, wherein the conduit is disposable. 17. The flow sensor of claim 15, wherein the conduit is made of one or more materials selected from the group consisting of glass, ceramic, fused silica, polymer, metal, and mixtures thereof. 18. The flow sensor of claim 17, wherein the conduit is stainless steel, and wherein oil is added to a junction between the flow channel and the conduit. 19. The flow sensor of claim 15, further comprising a molded element positioned over the alignment layer, the molded element extending beyond the alignment layer along the flow path, the molded element aligning the conduit over the sensing element. 20. The flow sensor of claim 19, further comprising a cap positioned over the molded element. 21. The flow sensor of claim 20, wherein the cap and molded element are attached with adhesive. 22. The flow sensor of claim 1, further comprising a molded channel positioned within the flow channel. 23. The flow sensor of claim 22, further comprising a cap positioned over the molded channel; wherein the molded channel forms a bottom and sides of the flow path and the cap forms a top of the flow path. 24. The flow sensor of claim 1, comprising a single guide element adjacent the sensing element; wherein the flow channel is a molded element positioned over the guide element and substrate. 25. A flow sensor comprising: a substrate having a sensing element thereon, said sensing element configured to sense at least one property of a fluid; an alignment layer deposited on the substrate, the alignment layer defining a location channel aligned over the sensing element; and a flow tube positioned within the location channel. 26. A flow sensor comprising: a substrate having a sensing element thereon, said sensing element configured to sense at least one property of a fluid; a polymer structure positioned on the substrate, the polymer structure defining a location channel aligned over the sensing element; a molded structure defining a flow channel, the molded structure configured to be at least partially received within the location channel such that the flow channel is aligned over the sensing element; wherein the molded structure defines at least a bottom of the flow channel. 27. The flow sensor of claim 26, further comprising a cap positioned over the molded structure. 28. The flow sensor of claim 27, wherein the molded structure defines a bottom and walls of the flow channel and the cap defines a top of the flow channel. 29. A sensor comprising: sensor means for sensing at least one property of a fluid; flow channel alignment means positioned to direct fluid flow over the sensor means; flow directing means for directing fluid flow into the flow channel alignment means; and a cap positioned over the flow channel alignment means. 30. The sensor of claim 29, wherein the sensor means includes a heating element. 31. The sensor of claim 30, wherein the sensor means includes at least one thermal sensing element. 32. The sensor of claim 29, wherein the flow channel alignment means includes a polymer layer forming walls of a flow channel. 33. The sensor of claim 32, wherein the polymer is a photoresist. 34. The sensor of claim 33, wherein the resist is a poly(methyl methacrylate). 35. The sensor of claim 33, wherein the resist is SU-8. 36. A sensor for measuring one or more physical properties of a fluid comprising: a sensor die made up of a substantially solid insulating sensor body and a plurality of sensing elements; a polymer substrate attached to the sensor die, the polymer substrate defining a plurality of flow channels positioned over the sensing elements; and a plurality of flow tubes in fluid communication with the flow channels.
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