Apparatus and method for pressure fluctuation insensitive mass flow control
DCFirst Claim
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1. A system, defining a flow path between a gas inlet and an outlet of the system, the system comprising:
- a mass flow controller including a mass flow sensor for sensing the mass flow along the flow path and a control valve, responsive to a control signal, for controlling the mass flow through the outlet;
a pressure sensor for measuring fluctuations in pressure of gas along the flow path; and
a controller for generating the control signal as a function of the sensed mass flow and measured fluctuations in pressure of gas so as to provide a constant flow of gas at the outlet irrespective of fluctuations in pressure of gas at the inlet.
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Abstract
A mass flow controller includes a thermal mass flow sensor in combination with a pressure sensor to provide a mass flow controller that is relatively insensitive to fluctuations in input pressure. The pressure sensor and thermal sensor respectively provide signals to an electronic controller indicating the measured inlet flow rate and the pressure within the dead volume. The electronic controller employs the measured pressure to compensate the measured inlet flow rate and to thereby produce a compensated measure of the outlet flow rate, which may be used to operate a mass flow controller control valve.
99 Citations
21 Claims
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1. A system, defining a flow path between a gas inlet and an outlet of the system, the system comprising:
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a mass flow controller including a mass flow sensor for sensing the mass flow along the flow path and a control valve, responsive to a control signal, for controlling the mass flow through the outlet; a pressure sensor for measuring fluctuations in pressure of gas along the flow path; and a controller for generating the control signal as a function of the sensed mass flow and measured fluctuations in pressure of gas so as to provide a constant flow of gas at the outlet irrespective of fluctuations in pressure of gas at the inlet. - View Dependent Claims (2, 3)
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4. A system, defining a flow path between a gas inlet and an outlet of the system, the system comprising:
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a mass flow controller including a mass flow sensor for sensing the mass flow rate along the flow path and a control valve, responsive to a control signal, for controlling the mass flow through the outlet; a pressure sensor for measuring fluctuations in pressure of gas along the flow path; and a controller for generating the control signal as a function of the sensed mass flow rate at the inlet of the controller and the measured fluctuations in pressure of gas so as to compensate the flow rate measured by the sensor at the inlet of the controller to more closely approximate the flow rate at the outlet of the controller. - View Dependent Claims (5, 6)
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7. A control system comprising:
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a mass flow controller constructed and arranged so as to receive fluid flowing from a inlet supply line, the mass flow controller including a thermal mass flow sensor and an outlet valve; a pressure sensor; and a system controller including a pressure sensor interface for coupling the system controller to the pressure sensor, wherein the system controller employs data obtained at the pressure sensor interface to compensate for fluctuations induced in the thermal mass flow sensor by pressure transients in the inlet supply line. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A control system comprising:
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a mass flow controller including (A) an inlet for receiving fluid from an inlet supply line, (B) a thermal mass flow sensor constructed and arranged so as to sense mass flow of fluid at the inlet, and (C) an outlet valve; and a pressure sensor constructed and arranged so as to sense the pressure of the fluid; and a system controller including (i) a pressure sensor interface arranged so as to couple the system controller to the pressure sensor, and (ii) a mass flow interface arranged so as to couple the system controller to the thermal mass flow sensor; wherein the system controller employs readings from the pressure sensor interface to compensate flow measurements obtained at the mass flow interface from the thermal mass flow sensor as the mass flow sensor senses mass flow of fluid at the inlet of the mass flow controller. - View Dependent Claims (14, 15, 16, 17, 18)
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19. An electronic controller designed and arranged for controlling the mass flow Qi of a gas through mass flow controller of the type including an inlet, an inlet flow sensor and bypass system, a control valve and an outlet, wherein a dead space is defined between the inlet flow sensor and bypass system and the control valve, and the inlet flow sensor and bypass system define an effective flow path inner diameter, the mass flow being controlled by the electronic controller in accordance with the following relationship:
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and
Q1=(1+α
)Qcwherein; dc=inside diameter of the capillary tube (m); Lc=length of the capillary tube (m);
μ
= the gas viscosity (Poise);Pi=the pressure at the inlet of the mass flow controller (Pa); PR=the pressure at the outlet of the mass flow controller (Pa); P=the pressure in the dead volume of the mass flow controller (Pa); and α
=the bypass ratio (dimensionless) defined as the ratio of flow through the bypass divided by the flow through the capillary tube.
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20. An electronic controller for use with a mass flow controller of the type having an inlet, an outlet, a wall and a dead volume, the electronic controller being designed and arranged so as to control the mass flow Qo of a fluid at the outlet of a mass flow controller in response to dead volume pressure transients
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P ⅆ t of the fluid within the dead volume of the mass flow controller in accordance with the following relationship; wherein; PR=pressure at standard temperature and pressure (760 Torr); TR=temperature at standard temperature and pressure (273°
K.);Tw=wall temperature (temperature of the wall of the mass flow controller in °
K.);V=volume of the dead volume (cm3); Qi=inlet flow to the mass flow controller (sccm); and Q0=outlet flow from the mass flow controller (sccm).
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21. An electronic controller for use with a mass flow controller of the type having an inlet, an outlet and a dead volume, the electronic controller being designed and arranged so as to compensate the mass flow rate Qo at the outlet of a mass flow controller in response to dead volume pressure transients
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P ⅆ t of a fluid within the dead volume of the mass flow controller in accordance with the following relationship;
Qo=Qi−
C1(V/T)(dP/dt)wherein; Qo=the compensated sensed inlet flow rate (sccm); Qi=the sensed inlet flow rate (sccm); C1=a normalizing constant relating the temperature (°
K) and pressure (torr) of the fluid to standard temperature (°
K) and pressure (torr);V=the dead volume (cm3), T=the temperature (°
K) of the fluid within the dead volume, anddP/dt=time rate of change of pressure within the dead volume (torr/min).
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Specification