High-speed diaphragm valve for atomic layer deposition
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/02
F16K-049/00
출원번호
US-0609134
(2003-06-26)
발명자
/ 주소
Maula, Jarmo Ilmari
Leskinen, Hannu
Lang, Teemu
Kuosmanen, Pekka
H?rk?nen, Kari
Aitchison, Bradley J.
출원인 / 주소
Planar Systems, Inc.
대리인 / 주소
Stoel Rives LLP
인용정보
피인용 횟수 :
13인용 특허 :
30
초록▼
A diaphragm valve includes a pressure vent communicating with an enclosed space behind the diaphragm for reducing resistance to transitioning of the diaphragm between the open and closed positions. In some implementations, a pump or other source of suction is coupled to the pressure vent to reduce f
A diaphragm valve includes a pressure vent communicating with an enclosed space behind the diaphragm for reducing resistance to transitioning of the diaphragm between the open and closed positions. In some implementations, a pump or other source of suction is coupled to the pressure vent to reduce fluid pressure in the enclosed space. When used in an atomic layer deposition (ALD) system, the venting and suction improves the thin film deposition process and prevents leakage through the valve of potentially toxic ALD precursor vapors. Features for thermal management and reliability enhancement are also described.
대표청구항▼
1. A valve system, comprising:a diaphragm valve including a valve body defining a valve passage having an inlet and an outlet, and a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage, the diaphragm operable, in response to an applied act
1. A valve system, comprising:a diaphragm valve including a valve body defining a valve passage having an inlet and an outlet, and a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage, the diaphragm operable, in response to an applied actuation force, to transition between a closed position blocking the valve passage and an open position wherein the valve passage is at least partially open; an enclosed space adjacent the second side of the diaphragm; a vent passage communicating with the enclosed space to vent the enclosed space, thereby facilitating transitioning of the diaphragm between the oven and closed positions; and means operatively coupled to the vent passage for reducing fluid pressure in the enclosed space below an ambient pressure outside the valve body. 2. A valve system according to claim 1 further comprising an actuator coupled to the diaphragm for applying an actuation force to the diaphragm for transitioning the diaphragm between the open position and the closed position.3. A valve system according to claim 1 further comprising a spring for biasing the diaphragm toward one of the open and closed positions.4. A valve system according to claim 3 wherein the spring biases the diaphragm toward the closed position, and further comprising an actuator operably coupled to the diaphragm for transitioning the diaphragm from the closed position to the open position.5. A valve system according to claim 3 wherein the spring biases the diaphragm toward the open position, and further comprising an actuator operably coupled to the diaphragm for transitioning the diaphragm from the open position to the closed position.6. A valve system according to claim 2 wherein the actuator includes a solenoid.7. A valve system, comprising:a diaphragm valve including a valve body defining a valve passage having an inlet and an outlet, and a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage, the diaphragm operable, in response to an applied actuation force, to transition between a closed position blocking the valve passage and an open position wherein the valve passage is at least partially open; an enclosed space adjacent the second side of the diaphragm; a vent passage communicating with the enclosed space to vent the enclosed space, thereby facilitating transitioning of the diaphragm between the open and closed positions; and a pump operatively coupled to the vent passage. 8. A valve system according to claim 7 wherein the pump is operable to draw a vacuum in the enclosed space.9. A valve system according to claim 7 wherein the pump is operable to draw a vacuum of between approximately 0.1 mbar and approximately 20 mbar within the enclosed space.10. A diaphragm valve according to claim 7 wherein a section of the vent passage passes through the valve body and the pump is connected to said section of the vent passage.11. A valve system according to claim 7 further comprising an actuator coupled to the diaphragm for applying an actuation force to the diaphragm for transitioning the diaphragm between the open position and the closed position.12. A valve system according to claim 11, wherein the actuator includes a solenoid.13. A valve system according to claim 7 further comprising a spring for biasing the diaphragm toward one of the open and closed positions.14. A valve system according to claim 13 wherein the spring biases the diaphragm toward the closed position, and further comprising an actuator operably coupled to the diaphragm for transitioning the diaphragm from the closed position to the open position.15. A valve system according to claim 13 wherein the spring biases the diaphragm toward the open position, and further composing an actuator operably coupled to the diaphragm for transitioning the diaphragm from the open position to the closed position.16. A diaphragm valve comprising:a valve body defining a valve passage having an inlet and an outlet; a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage, the diaphragm operable, in response to an applied actuation force, to transition between a closed position blocking the valve passage and an open position wherein the valve passage is at least partially open; an enclosed space adjacent the second side of the diaphragm; a vent passage communicating with the enclosed space to vent the enclosed space, thereby facilitating transitioning of the diaphragm between the open and closed positions; an actuator coupled to the diaphragm for applying an actuation force to the diaphragm; a heating body positioned proximal to the second side of the diaphragm to maintain an operating temperature of the diaphragm; and a thermally resistive member interposed between the valve passage and the actuator. 17. A diaphragm valve according to claim 16 wherein the actuator includes a solenoid.18. A diaphragm valve according to claim 16 wherein the vent passage passes through the heating body.19. A precursor material delivery system including a diaphragm valve according to claim 17.20. A diaphragm valve comprising:a valve body defining a valve passage having an inlet and an outlet; a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage, the diaphragm operable, in response to an applied actuation force, to transition between a closed position blocking the valve passage and an open position wherein the valve passage is at least partially open; an enclosed space adjacent the second side of the diaphragm; a vent passage communicating with the enclosed space to vent the enclosed space, thereby facilitating transitioning of the diaphragm between the open and closed positions; an actuator including a solenoid coupled to the diaphragm for applying an actuation force to the diaphragm, the actuator including a movable plunger, a stop positioned to limit the movement of the plunger, and a blocking member interposed between the plunger and the stop, the movable plunger being magnetically attracted toward the stop when an electric current is applied to the solenoid, and the blocking member comprises a nonmagnetic material. 21. An ALD reactor including a diaphragm valve according to claim 20.22. A precursor material delivery system comprising:a diaphragm valve including a valve body defining a valve passage having an inlet and an outlet, and a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage; an enclosed space adjacent the second side of the diaphragm; and a vent passage communicating with the enclosed space. 23. A diaphragm valve according to claim 22 wherein the diaphragm is comprised of a plastic material.24. A diaphragm valve according to claim 22 wherein the diaphragm is comprised of an elastomeric material.25. A precursor material delivery system according to claim 22 further comprising pump operatively coupled to the vent passage.26. A precursor material delivery system according to claim 22 further comprising means for reducing fluid pressure in the enclosed space.27. A precursor material delivery system according to claim 22 further comprising means for heating a medium in the valve passage.28. A precursor material delivery system according to claim 22 further comprising an actuator operatively coupled to the diaphragm.29. A precursor material delivery system according to claim 28 wherein the actuator includes a solenoid.30. An ALD reactor comprising:a diaphragm valve including a valve body defining a valve passage having an inlet and an outlet, and a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage; an enclosed space adjacent the second side of the diaphragm; a vent passage communicating with the enclosed space; and means for applying suction to the vent passage. 31. A diaphragm valve system comprising:a body means defining a valve passage having an inlet and an outlet; a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage; means for defining an enclosed space adjacent the second side of the diaphragm; means for reducing a fluid pressure in the enclosed space; and means for heating a medium in the valve passage. 32. A diaphragm valve system according to claim 31 for use in an ALD reactor.33. A diaphragm valve system comprising:a body means defining a valve passage having an inlet and an outlet; a diaphragm having first and second sides and positioned such that the first side is proximal to the valve passage; an actuator operatively coupled to the diaphragm; means for defining an enclosed space adjacent the second side of the diaphragm; means for reducing a fluid pressure in the enclosed space; and means for attenuating heat transfer between the valve passage and the actuator. 34. A diaphragm valve system according to claim 33 for use in an ALD reactor.35. A diaphragm valve system according to claim 33 wherein the actuator includes a solenoid.36. A method of transitioning a diaphragm between a closed position and an open position in a diaphragm valve having a valve body, the valve body defining a valve passage having an inlet and an outlet, the diaphragm having a first side proximal to the valve passage and a second side adjacent an enclosed space, the diaphragm further being operable in response to an applied actuation force to flex between the closed position blocking the valve passage and the open position wherein the valve passage is at least partially open to allow flow through the valve passage, the method comprising:providing a venting passage in communication with the enclosed space; and venting the enclosed space via the venting passage to prevent buildup of pressure behind the diaphragm, thereby facilitating transitioning the diaphragm between the closed position and the open position; and applying suction to the venting passage. 37. A method according to claim 36 further comprising applying an actuation force to the diaphragm.38. A method according to claim 36 further comprising biasing the diaphragm toward one of the open and closed positions.
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