Patents by Inventor John F. Wengert
John F. Wengert has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7655093Abstract: A wafer support system comprising a susceptor having top and bottom sections and gas flow passages therethrough. One or more spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: January 29, 2007Date of Patent: February 2, 2010Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Patent number: 7186298Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: August 18, 2003Date of Patent: March 6, 2007Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs
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Publication number: 20040198153Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: ApplicationFiled: August 18, 2003Publication date: October 7, 2004Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Patent number: 6692576Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: September 13, 2002Date of Patent: February 17, 2004Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs
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Publication number: 20030075274Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: ApplicationFiled: September 13, 2002Publication date: April 24, 2003Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Patent number: 6491757Abstract: An apparatus for processing a substrate comprises a susceptor for supporting the substrate, an upper heat source spaced above the susceptor, a lower heat source spaced below the susceptor, and a controller. The controller provides power to the heat sources at a selected ratio between the sources. The controller is configured to vary the ratio during a high temperature processing cycle of a substrate to thereby vary the ratio of the heat provided by the heat sources during the cycle.Type: GrantFiled: August 17, 2001Date of Patent: December 10, 2002Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Publication number: 20020179586Abstract: An improved chemical vapor deposition reaction chamber having an internal support plate to enable reduced pressure processing. The chamber has a vertical-lateral lenticular cross-section with a wide horizontal dimension and a shorter vertical dimension between bi-convex upper and lower walls. A central horizontal support plate is provided between two lateral side rails of the chamber. A large rounded rectangular aperture is formed in the support plate for positioning a rotatable susceptor on which a wafer is placed. The shaft of the susceptor extends downward through the aperture and through a lower tube depending from the chamber. The support plate segregates the reaction chamber into an upper region and a lower region, with purge gas being introduced through the lower tube into the lower region to prevent unwanted deposition therein. A temperature compensation ring is provided surrounding the susceptor and supported by fingers connected to the support plate.Type: ApplicationFiled: August 1, 2002Publication date: December 5, 2002Inventors: John F. Wengert, Loren R. Jacobs, Michael W. Halpin, Derrick W. Foster, Cornelius A. van der Jeugd, Robert M. Vyne, Mark R. Hawkins
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Patent number: 6464792Abstract: An improved chemical vapor deposition reaction chamber having an internal support plate to enable reduced pressure processing. The chamber has a vertical-lateral lenticular cross-section with a wide horizontal dimension and a shorter vertical dimension between bi-convex upper and lower walls. A central horizontal support plate is provided between two lateral side rails of the chamber. A large rounded rectangular aperture is formed in the support plate for positioning a rotatable susceptor on which a wafer is placed. The shaft of the susceptor extends downward through the aperture and through a lower tube depending from the chamber. The support plate segregates the reaction chamber into an upper region and a lower region, with purge gas being introduced through the lower tube into the lower region to prevent unwanted deposition therein. A temperature compensation ring is provided surrounding the susceptor and supported by fingers connected to the support plate.Type: GrantFiled: July 11, 2000Date of Patent: October 15, 2002Assignee: ASM America, Inc.Inventors: John F. Wengert, Loren R. Jacobs, Michael W. Halpin, Derrick W. Foster, Cornelius A. van der Jeugd, Robert M. Vyne, Mark R. Hawkins
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Patent number: 6454866Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: July 10, 2000Date of Patent: September 24, 2002Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Patent number: 6343183Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: June 27, 2000Date of Patent: January 29, 2002Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Publication number: 20010054390Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: ApplicationFiled: August 17, 2001Publication date: December 27, 2001Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Patent number: 6325858Abstract: A generally horizontally-oriented quartz CVD chamber is disclosed with front and rear chamber divider plates adjacent a centrally positioned susceptor and surrounding temperature control ring which divide the chamber into upper and lower regions. Improvement to the lifetime of CVD process components and related throughput improvements are disclosed. A getter plate for attracting some of the unused reactant gas is positioned downstream from the susceptor extending generally parallel to and spaced between the divider plate and the upper chamber wall. This getter plate also minimizes deposition on the chamber walls and improves the efficiency of a cleaning step. Reradiating elements are also located adjacent side walls of the chamber to heat cooler chamber wall areas. The getter plate and the reradiating elements plus the susceptor and surrounding ring are all made of solid chemical vapor deposited SiC to improve the life of the chamber.Type: GrantFiled: November 2, 1998Date of Patent: December 4, 2001Assignee: ASM America, Inc.Inventors: John F. Wengert, Ivo Raaijmakers, Mike Halpin, Loren Jacobs, Michael J. Meyer, Frank van Bilsen, Matt Goodman, Eric Barrett, Eric Wood, Blake Samuels
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Patent number: 6203622Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support wafers in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The susceptor support arms are hollow and conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages within the segmented susceptor are arranged to provide even heat distribution from the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: January 11, 2000Date of Patent: March 20, 2001Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs
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Patent number: 6113702Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support a wafer in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The support arms conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages are arranged to heat the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: September 4, 1997Date of Patent: September 5, 2000Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs, Frank B. M. Van Bilsen, Matthew Goodman, Hartmann Glenn, Jason M. Layton
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Patent number: 6093252Abstract: An improved chemical vapor deposition reaction chamber having an internal support plate to enable reduced pressure processing. The chamber has a vertical-lateral lenticular cross-section with a wide horizontal dimension and a shorter vertical dimension between bi-convex upper and lower walls. A central horizontal support plate is provided between two lateral side rails of the chamber. A large rounded rectangular aperture is formed in the support plate for positioning a rotatable susceptor on which a wafer is placed. The shaft of the susceptor extends downward through the aperture and through a lower tube depending from the chamber. The support plate segregates the reaction chamber into an upper region and a lower region, with purge gas being introduced through the lower tube into the lower region to prevent unwanted deposition therein. A temperature compensation ring is provided surrounding the susceptor and supported by fingers connected to the support plate.Type: GrantFiled: April 25, 1996Date of Patent: July 25, 2000Assignee: ASM America, Inc.Inventors: John F. Wengert, Loren R. Jacobs, Michael W. Halpin, Derrick W. Foster, Cornelius A. van der Jeugd, Robert M. Vyne, Mark R. Hawkins
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Patent number: 6086680Abstract: A wafer susceptor for semiconductor processing devices, having a thermal mass which is close to that of the wafer. The similarity between the thermal masses of the susceptor and wafer enables a higher throughput and reduces temperature uniformities across the wafer. The low-mass susceptor may be made of a solid, thin disk with or without a central wafer support recess. A wafer temperature sensing aperture may be provided in the center of the susceptor. Alternatively, a low-mass susceptor is formed with an open-celled silicon carbide foam, with or without a thin skin of solid silicon carbide on the top forming a wafer support surface, or completely encapsulating the open-celled foam. The wafer is preferably supported on a plurality of pins extending upward from the susceptor. In a third embodiment, an ultra low-mass susceptor is formed as a ring with a central throughbore and a surrounding wafer support shelf below an outer ledge.Type: GrantFiled: March 26, 1996Date of Patent: July 11, 2000Assignee: ASM America, Inc.Inventors: Derrick W. Foster, Cornelius A. van der Jeugd, John F. Wengert
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Patent number: 6053982Abstract: A wafer support system comprising a segmented susceptor having top and bottom sections and gas flow passages therethrough. A plurality of spacers projecting from a recess formed in the top section of the susceptor support wafers in spaced relationship with respect to the recess. A sweep gas is introduced to the bottom section of the segmented susceptor and travels through the gas flow passages to exit in at least one circular array of outlets in the recess and underneath the spaced wafer. The sweep gas travels radially outward between the susceptor and wafer to prevent back-side contamination of the wafer. The gas is delivered through a hollow drive shaft and into a multi-armed susceptor support underneath the susceptor. The susceptor support arms are hollow and conduct the sweep gas from the drive shaft to the gas passages in the segmented susceptor. The gas passages within the segmented susceptor are arranged to provide even heat distribution from the sweep gas prior to delivery underneath the wafer.Type: GrantFiled: August 30, 1996Date of Patent: April 25, 2000Assignee: ASM America, Inc.Inventors: Michael W. Halpin, Mark R. Hawkins, Derrick W. Foster, Robert M. Vyne, John F. Wengert, Cornelius A. van der Jeugd, Loren R. Jacobs