IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0271447
(2011-10-12)
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등록번호 |
US-8689822
(2014-04-08)
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발명자
/ 주소 |
- Shajii, Ali
- Nagarkatti, Siddharth P.
- Hill, Gordon
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출원인 / 주소 |
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대리인 / 주소 |
McDermott Will & Emery LLP
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인용정보 |
피인용 횟수 :
0 인용 특허 :
18 |
초록
▼
A pressure control system remotely controls pressure within one or more remote zones, each respectively connected to an enclosure through a conduit, by controlling flow of a fluid into and out of each enclosure. The pressure of the fluid is measured within each enclosure. An estimated pressure withi
A pressure control system remotely controls pressure within one or more remote zones, each respectively connected to an enclosure through a conduit, by controlling flow of a fluid into and out of each enclosure. The pressure of the fluid is measured within each enclosure. An estimated pressure within each zone is computed, as a function of the measured pressure in the enclosure and known characteristics of the conduit and the zone. For each zone, an inlet proportional valve and an outlet proportional valve of each enclosure is operated so as to control the input flow rate of the fluid into the respective enclosure and the output flow rate of the fluid out of the enclosure as a function of a pressure set point and the estimated pressure, thereby regulating pressure within the zone in accordance with the pressure set point.
대표청구항
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1. A system for remotely controlling pressure within each of i zones respectively connectable to i measurement chambers through conduits i, by controlling flow of a fluid into and out of each measurement chamber i, and through each conduit i into each zone i, wherein i=1, . . . , N, the system compr
1. A system for remotely controlling pressure within each of i zones respectively connectable to i measurement chambers through conduits i, by controlling flow of a fluid into and out of each measurement chamber i, and through each conduit i into each zone i, wherein i=1, . . . , N, the system comprising: a plurality of measurement chambers, i, wherein each measurement chamber is controllably closable by operation of an inlet proportional valve and outlet proportional valve connected to the measurement chamber, wherein each outlet proportional valve is connected to a vacuum exhaust, and wherein the plurality of measurement chambers, i, are connected to one another at the respective outputs of the proportional valves by a flow constrictor manifold;a plurality of zones i, wherein each zone is connected to a respective measurement chamber through a respective conduit, wherein each zone is a remote zone relative to the respective measurement chamber;a pressure measurement system configured to measure pressure of the fluid in each of the i measurement chambers;a valve system including, for each measurement chamber i, at least one inlet proportional valve configured to regulate an input flow rate of the fluid into the measurement chamber i, and at least one outlet proportional valve configured to regulate an output flow rate of the fluid out of the measurement chamber i;a zone pressure estimator coupled to the pressure measurement system and configured to, for each zone i, receive a measured pressure in the measurement chamber i from the pressure measurement system, and compute an estimated pressure within the zone i as a function of the measured pressure in the measurement chamber i, and as a function of known characteristics of the conduit i and the zone i; anda controller configured to control pressure within each zone i by operating the inlet proportional valve and the outlet proportional valve of each measurement chamber i so as to control the input flow rate of the fluid into the measurement chamber i and the outlet flow rate of the fluid out of the measurement chamber i as a function of a pressure set point for the zone i and the estimated pressure within the zone i from the zone pressure estimator,wherein the controller is further configured to, for each zone, effect PI (Proportional-Integral) control of the input flow rate and the output flow rate;wherein the pressure measurement system comprises a plurality of pressure sensors, each of the pressure sensors respectively connected to measure pressure within the i measurement chambers;wherein at least some of the i zones have flexible walls that allow the zones having the flexible walls to expand and to contract,wherein at least some of the i zones are coupled, andwherein the known characteristics of the i conduits include constants Ctube,i and τtube,i associated with each conduit i connecting the line i to the zone i, Ctube,i representing a conductance of the conduit, and τtube,i representing a flow equilibration time constant across the conduit; andwherein the known characteristics of the i zones include an initial volume (Vz0,i) of each zone i under STP (Standard Temperature and Pressure) conditions, a volume expansion/contraction time constant (τv), an expansion/contraction coefficient (γii) of zone i, and a coupling coefficient (γij) between zone i and zone j, where j=1, . . . , N. 2. The system of claim 1, wherein the zone pressure estimator is further configured to compute an estimated volume of each of the zones with flexible walls so as to compute the estimated pressure within enclosures that are connected to the zones with flexible walls. 3. The system of claim 1, wherein at least some of the i zones are coupled. 4. The system of claim 1, wherein for each zone i, the zone pressure estimator is programmed to calculate an nth sample {circumflex over (P)}z,i(n) of the estimated pressure of the zone i, an nth sample {circumflex over (V)}z,i(n) of an estimated volume of the zone i, and an nth sample {circumflex over (Q)}z,i(n) of an estimated input flow rate into an enclosure i; and wherein P^z,i(n)=P^z,i(n-1)+Δt(PSTPV^z,i(n)Q^z,i(n)+P^z,i(n-1)τvV^z,i(n) [V^z,i(n)-Vz0,i-γii(P^z,i(n-1)-PSTP)-∑i≠jγij(P^z,i(n-1)-P^i,j(n-1))]),Q^z,i(n)=Q^z,i(n-1)+ΔtCpipe,i(Pb,i(n)-P^z,i(n-1))(1+Δtτpipe,i),V^z,i(n)=V^z,i(n-1)+Δtτv[Vz0,i+γii(P^z,i(n-1)-PSTP)+∑i≠jγij(P^z,i(n-1)-P^z,j(n-1))](1+Δtτv),and wherein Pbi denotes the pressure measured by the pressure sensor connected to enclosure i, wherein Qzi denotes an input flow rate of the fluid into zone i that is given by a different between the input flow rate Qin,i of the fluid into enclosure i and the output flow rate Qout,i of the fluid out of enclosure i. 5. A machine including the system of claim 4, and further including the i zones respectively connected to i enclosures. 6. The machine of claim 4, further comprising a CMP carrier head containing the i zones.
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