Method and apparatus for providing a determined ratio of process fluids
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-011/13
G05D-011/00
G05D-016/20
출원번호
US-0174753
(2005-07-05)
발명자
/ 주소
Lull,John M
Valentine,William S
출원인 / 주소
Celerity, Inc.
대리인 / 주소
Lowrie, Lando &
인용정보
피인용 횟수 :
7인용 특허 :
50
초록▼
A fluid flow control system that includes a fluid inlet to receive a flow of process fluid and a plurality of fluid outlets. The plurality of fluid outlets include a first fluid outlet and at least one second fluid outlet. The first fluid outlet provides a first predetermined portion of the flow of
A fluid flow control system that includes a fluid inlet to receive a flow of process fluid and a plurality of fluid outlets. The plurality of fluid outlets include a first fluid outlet and at least one second fluid outlet. The first fluid outlet provides a first predetermined portion of the flow of process fluid, and the at least one second fluid outlet provides the remaining portion of the flow of process fluid. In one embodiment, the control system includes a pressure transducer, first and second multipliers, and first and second flow controllers. The first multiplier multiplies a pressure signal received from the pressure transducer by a first setpoint to control a first flow controller that provides the first predetermined portion of the flow of process fluid. The second multiplier multiplies the pressure signal by a second setpoint to control a second flow controller that provides the remaining portion.
대표청구항▼
The invention claimed is: 1. A fluid flow control system, comprising: a fluid inlet to receive a flow of process fluid; a plurality of fluid outlets including a first fluid outlet to provide a first predetermined portion of the flow of process fluid received at the fluid inlet and at least one seco
The invention claimed is: 1. A fluid flow control system, comprising: a fluid inlet to receive a flow of process fluid; a plurality of fluid outlets including a first fluid outlet to provide a first predetermined portion of the flow of process fluid received at the fluid inlet and at least one second fluid outlet to provide a remaining portion of the flow of process fluid received at the fluid inlet; a pressure sensor, to measure a pressure of the process fluid in the fluid inlet and provide a pressure signal indicative of the pressure of the process fluid; a first flow controller, fluidly coupled to the fluid inlet and the first fluid outlet, to receive a first setpoint indicative of the first predetermined portion of the flow of process fluid received at the fluid inlet to be provided by the first fluid outlet; and a pressure regulating device, fluidly coupled to the fluid inlet and the at least one second fluid outlet, to receive the pressure signal and a pressure setpoint indicative of a desired pressure of the process fluid in the fluid inlet, and to provide the remaining portion of the flow of process fluid received at the fluid inlet to the at least one second fluid outlet. 2. The fluid flow system of claim 1, wherein the pressure regulating device is a mechanical pressure regulator. 3. The fluid flow control system of claim 1, wherein the pressure regulating device is an electronic pressure controller that compares the pressure signal and the pressure setpoint to provide a second setpoint such that the second setpoint depends at least in part on the first setpoint. 4. The fluid flow control system of claim 1, further comprising: a plurality of fluid supply flow controllers each having a fluid inlet and a fluid outlet, the fluid inlet of each respective fluid supply flow controller being fluidly coupled to a respective supply of fluid, each respective fluid supply flow controller receiving a respective supply setpoint indicative of an amount of the respective fluid to be provided at the fluid outlet of the respective fluid supply flow controller, and the fluid output of each respective fluid supply flow controller being fluidly coupled to the fluid inlet to provide the flow of process fluid; a process controller, to provide the respective supply setpoint to each respective fluid supply flow controller, to provide the first setpoint to the first flow controller, and to provide the pressure setpoint to the pressure regulating device; wherein the first setpoint provided to the first flow controller is based upon a fraction indicative of the first predetermined portion of the flow of process fluid that is to be provided by the first flow controller, multiplied by a sum, of the respective supply setpoint provided to each respective fluid supply flow controller multiplied by a calibration factor corresponding to the respective fluid supply flow controller, for the plurality of fluid supply flow controllers. 5. The fluid flow control system of claim 4, wherein the calibration factor for a respective fluid supply flow controller is equal to a full scale range of the respective fluid supply flow controller on a known fluid divided by a full scale range of the first flow controller on the known fluid. 6. The fluid flow control system of claim 5, wherein the known fluid is nitrogen. 7. The fluid flow control system of claim 5, wherein the plurality of fluid supply flow controllers and the first flow controller are mass flow controllers. 8. The fluid flow control system of claim 7, wherein the plurality of fluid outlets are fluidly connected to a semiconductor wafer processing chamber. 9. The fluid flow control system of claim 8, wherein the process fluid is a gaseous process fluid. 10. The fluid flow control system of claim 9, wherein the first flow controller is a mass flow controller that includes a valve and a flow sensor, and wherein the flow sensor is disposed downstream of the valve. 11. The fluid flow control system of claim 1, wherein the plurality of fluid outlets are fluidly connected to a semiconductor wafer processing chamber and wherein the process fluid is a gaseous process fluid. 12. A method of controlling a flow of process fluid, comprising acts of: receiving the flow of process fluid at a fluid inlet; measuring a pressure of the process fluid in the fluid inlet; receiving a pressure setpoint indicative of a desired pressure of the process fluid in the fluid inlet; receiving a first setpoint indicative of a first predetermined portion of the flow of process fluid received at the fluid inlet to be provided to a first fluid outlet; providing the first predetermined portion of the flow of process fluid received at the fluid inlet to the first fluid outlet; and providing a remaining portion of the flow of process fluid received at the fluid inlet to at least one second fluid outlet; wherein the act of providing the remaining portion of the flow of process fluid includes an act of providing an amount of process fluid to the at least one second fluid outlet to maintain the pressure of the process fluid at the pressure setpoint. 13. The method of claim 12, further comprising acts of: directing a first flow controller to provide the first predetermined portion of the flow of process fluid received at the fluid inlet to the first fluid outlet based upon the first setpoint. 14. The method of claim 13, further comprising acts of: receiving a plurality of setpoints, each respective setpoint corresponding to a respective amount of fluid to be provided from a respective fluid supply flow controller; combining each respective amount of fluid to form the flow of process fluid; and determining the first setpoint based upon a fraction indicative of the first predetermined portion of the flow of process fluid to be provided to the first fluid outlet multiplied by a sum, for each respective amount of fluid, of each respective setpoint multiplied by a calibration factor corresponding to the respective fluid supply flow controller. 15. The method of claim 14, further comprising an act of: determining the calibration factor for each respective fluid supply flow controller based upon a full scale range of the respective fluid supply flow controller on a known fluid divided by a full scale range of the first flow controller on the known fluid. 16. The method of claim 13, wherein the first flow controller includes a flow sensor and a valve, the method further comprising an act of: minimizing affects of pressure transients on the flow sensor by disposing the flow sensor downstream of the valve. 17. The method of claim 13, wherein the act of providing the remaining portion of the flow of process fluid further includes an act of comparing the pressure of the process fluid to the pressure setpoint to provide a second setpoint that depends in part upon the first setpoint. 18. The method of claim 17, wherein the act of providing the remaining portion of the flow of process fluid further includes an act of directing a pressure controller to provide the amount of process fluid to the at least one second fluid outlet based upon the second setpoint. 19. The method of claim 18, further comprising acts of: receiving a plurality of setpoints, each respective setpoint corresponding to a respective amount of fluid to be provided from a respective fluid supply flow controller; combining each respective amount of fluid to form the flow of process fluid; and determining the first setpoint based upon a fraction indicative of the first predetermined portion of the flow of process fluid to be provided to the first fluid outlet multiplied by a sum, for each respective amount of fluid, of each respective setpoint multiplied by a calibration factor corresponding to the respective fluid supply flow controller. 20. The method of claim 19, further comprising an act of: determining the calibration factor for each respective fluid supply flow controller based upon a full scale range of the respective fluid supply flow controller on a known fluid divided by a full scale range of the first flow controller on the known fluid.
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