Patents Assigned to Torrex Equipment Corporation
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Patent number: 6506691Abstract: A method for high rate silicon nitride deposition at low pressures, including a method of operating a CVD reactor providing a novel combination of wafer temperature, gas flow and chamber pressure resulting in both rapid deposition and a uniform, smooth film surface. According to the method, a wafer is placed in a vacuum chamber wherein a reactant gas flow of silane and ammonia is directed in parallel with the wafer surface via a plurality of temperature controlled gas injectors, the gas being confined to a narrow region above the wafer. The gas is injected at a high velocity, causing the deposition rate to be limited only by the rate of delivery of unreacted gas to the wafer surface and the rate of removal of reaction byproducts. The high velocity gas stream passing across the wafer has the effect of thinning the layer adjacent the wafer surface containing reaction by-products, known as the “boundary layer,” resulting in faster delivery of the desired reactant gas to the wafer surface.Type: GrantFiled: September 15, 1999Date of Patent: January 14, 2003Assignee: Torrex Equipment CorporationInventors: Robert C. Cook, Daniel L. Brors
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Publication number: 20020028290Abstract: A method wherein a thermal gradient over a substrate enhances Chemical Vapor Deposition (CVD) at low pressures. An upper heat source is positioned above the substrate and a lower heat source is positioned below the substrate. The upper and lower heat sources are operated to raise the substrate temperature to 400-700° and cause a heat gradient of 100-200° C. between the upper and lower heat sources. This heat gradient causes an increase in the deposition rate for a given reactant gas flow rate and chamber pressure. The preferred parameters for implementation of the present invention for poly crystalline silicon deposition include the temperature of the upper heat source 100-200° C. above the lower heat source, a substrate temperature in the range of 400-700° C., a reactant gas pressure between 250 and 1000 mTorr, and a gas flow rate of 200-800 sccm. The substrate is rotated, with 5 RPM being a typical rate.Type: ApplicationFiled: September 10, 2001Publication date: March 7, 2002Applicant: Torrex Equipment CorporationInventors: Robert C. Cook, Daniel L. Brors
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Patent number: 6321680Abstract: A plasma enhanced chemical vapor deposition (PECVD) system having an upper chamber for performing a plasma enhanced process, and a lower chamber having an access port for loading and unloading wafers to and from a wafer boat. The system includes apparatus for moving the wafer boat from the upper chamber to the lower chamber. The wafer boat includes susceptors for suspending wafers horizontally, spaced apart in a vertical stack. An RF plate is positioned in the boat above each wafer for generating an enhanced plasma. An RF connection is provided which allows RF energy to be transmitted to the RF plates while the wafer boat is rotated. Apparatus for automatic wafer loading and unloading is provided, including apparatus for lifting each wafer from its supporting susceptor and a robotic arm for unloading and loading the wafers.Type: GrantFiled: January 12, 1999Date of Patent: November 27, 2001Assignee: Torrex Equipment CorporationInventors: Robert C. Cook, Daniel L. Brors
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Patent number: 6235652Abstract: High rate silicon dioxide deposition at low pressures, including a method of depositing silicon dioxide providing a high rate of deposition at a low process chamber pressure, yielding a film with excellent uniformity and with an absence of moisture inclusion and gas phase nucleation. According to the method, a wafer is placed in a reaction chamber wherein a reactant gas flow of silane and oxygen is directed in parallel with the wafer via a plurality of temperature-controlled gas injectors, and confined to a narrow region above the wafer. The gas is injected at a high velocity resulting in the deposition rate being limited only by the rate of delivery of unreacted gas to the wafer surface and the rate of removal of by-products. The high velocity gas stream passing across the wafer has the effect of thinning the layer adjacent the wafer surface containing reaction by-products, known as the “boundary layer,” which results in faster delivery of the desired reactant gas to the wafer surface.Type: GrantFiled: September 15, 1999Date of Patent: May 22, 2001Assignee: Torrex Equipment CorporationInventors: Robert C. Cook, Daniel L. Brors
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Patent number: 5551985Abstract: A CVD reactor includes a vacuum chamber having first and second thermal plates disposed therein and two independently-controlled multiple-zone heat sources disposed around the exterior thereof. The first heat source has three zones and the second heat source has two zones. A wafer to be processed is positioned below the first thermal plate and immediately above the second thermal plate, thereby being indirectly heated from above by the first heat source via the first thermal plate and indirectly heated from below by the first zone of the second heat source via the second thermal plate. A thermal ring plate which laterally surrounds the edge of the wafer absorbs heat energy emitted from the second zone of the second heat source and heats the outer edge of the wafer.Type: GrantFiled: August 18, 1995Date of Patent: September 3, 1996Assignee: Torrex Equipment CorporationInventors: Daniel L. Brors, Robert C. Cook
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Patent number: 5291030Abstract: Changes in the state of a chemical reactant, particularly a resin used for purifying gases, are measured by directing a beam of light through the reactant and detecting changes in the light transmissivity of the reactant as the reactant goes from a first state to a second state.Type: GrantFiled: June 4, 1992Date of Patent: March 1, 1994Assignee: Torrex Equipment CorporationInventor: Daniel L. Brors
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Patent number: RE36957Abstract: A CVD reactor includes a vacuum chamber having first and second thermal plates disposed therein and two independently-controlled multiple-zone heat sources disposed around the exterior thereof. The first heat source has three zones and the second heat source has two zones. A wafer to be processed is positioned below the first thermal plate and immediately above the second thermal plate, thereby being indirectly heated from above by the first heat source via the first thermal plate and indirectly heated from below by the first zone of the second heat source via the second thermal plate. A thermal ring plate which laterally surrounds the edge of the wafer absorbs heat energy emitted from the second zone of the second heat source and heats the outer edge of the wafer.Type: GrantFiled: September 3, 1998Date of Patent: November 21, 2000Assignee: Torrex Equipment CorporationInventors: Daniel L. Brors, Robert C. Cook