Patents by Inventor Daniel J. Woodruff
Daniel J. Woodruff 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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Publication number: 20130299343Abstract: An electroplating processor includes an electrode plate having a continuous flow path formed in a channel. The flow path may optionally be a coiled flow path. One or more electrodes are positioned in the channel. A membrane plate is attached to the electrode plate with a membrane in between them. Electrolyte moves through the flow path at a high velocity, preventing bubbles from sticking to the bottom surface of membrane. Any bubbles in the flow path are entrained in the fast moving electrolyte and carried away from the membrane. The electroplating processor may alternatively have a wire electrode extending through a tubular membrane formed into a coil or other shape, optionally including shapes having straight segments.Type: ApplicationFiled: May 10, 2012Publication date: November 14, 2013Applicant: APPLIED MATERIALS, INC.Inventors: Randy A. Harris, Daniel J. Woodruff, Jeffrey I. Turner, Gregory J. Wilson, Paul R. McHugh
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Patent number: 8562752Abstract: A process chamber for processing semi-conductor wafers. The chamber includes at least one rotor within the process chamber. The rotor is adapted to receive and/or process semi-conductor wafers. The top of the process chamber also includes a tiltable rim. This rim tilts from a non-inclined position to an inclined position. The wafers may be loaded into and unloaded from the process chamber when the rim is in its inclined position.Type: GrantFiled: November 17, 2011Date of Patent: October 22, 2013Assignee: APPLIED Materials, Inc.Inventor: Daniel J. Woodruff
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Patent number: 8500968Abstract: An electroplating apparatus having improved contact deplating features includes a bowl assembly having a bowl for holding an electroplating solution. A head having a rotor including a contact ring and a head motor for rotating the rotor cooperates with the bowl assembly during plating operations. A lift/rotate actuator may be used to move the head to position a sector of the contact ring in a ring slot or opening of a deplating module. Since the deplating is performed within the deplating module, and not within the bowl assembly, the electroplating solution in the bowl assembly is not affected by the deplating process.Type: GrantFiled: August 13, 2010Date of Patent: August 6, 2013Assignee: Applied Materials, Inc.Inventors: Daniel J. Woodruff, Nolan L. Zimmerman, John L. Klocke, Klaus H. Pfeifer, Kyle M. Hanson, Matthew Herset
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Publication number: 20130061875Abstract: A plating apparatus includes a vessel for holding a bath of plating liquid. A head is adapted to hold a work piece, such as a silicon wafer, in the vessel, with a seal on the head sealing against the work piece. A component cleaner assembly may be used to automatically clean a component of the plating apparatus, such as a seal or a contact ring. The cleaner assembly has a component contactor, such as a brush, on an arm. An arm actuator is linked to the arm for moving the arm from a retracted position, to a deployed position, where the contactor is in physical contact with the component. A method for cleaning a component of a plating apparatus includes moving a scrubber or contactor into contact with the component and applying a cleaning liquid onto the component adjacent to the contactor.Type: ApplicationFiled: September 14, 2011Publication date: March 14, 2013Inventor: Daniel J. Woodruff
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Patent number: 8313631Abstract: Apparatus and methods for electrochemically processing microfeature wafers. The apparatus can have a vessel including a processing zone in which a microfeature wafer is positioned for electrochemical processing. The apparatus further includes at least one counter electrode in the vessel that can operate as an anode or a cathode depending upon the particular plating or electropolishing application. The apparatus further includes a supplementary electrode and a supplementary virtual electrode. The supplementary electrode is configured to operate independently from the counter electrode in the vessel, and it can be a thief electrode and/or a de-plating electrode depending upon the type of process. The supplementary electrode can further be used as another counter electrode during a portion of a plating cycle or polishing cycle.Type: GrantFiled: November 2, 2010Date of Patent: November 20, 2012Assignee: Applied Materials Inc.Inventors: Paul R. McHugh, Gregory J. Wilson, Daniel J. Woodruff
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Publication number: 20120060869Abstract: A process chamber for processing semi-conductor wafers. The chamber includes at least one rotor within the process chamber. The rotor is adapted to receive and/or process semi-conductor wafers. The top of the process chamber also includes a tiltable rim. This rim tilts from a non-inclined position to an inclined position. The wafers may be loaded into and unloaded from the process chamber when the rim is in its inclined position.Type: ApplicationFiled: November 17, 2011Publication date: March 15, 2012Inventor: Daniel J. Woodruff
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Patent number: 8118044Abstract: A process chamber for processing semi-conductor wafers. The chamber includes at least one rotor within the process chamber. The rotor is adapted to receive and/or process semi-conductor wafers. The top of the process chamber also includes a tiltable rim. This rim tilts from a non-inclined position to an inclined position. The wafers may be loaded into and unloaded from the process chamber when the rim is in its inclined position.Type: GrantFiled: March 8, 2005Date of Patent: February 21, 2012Assignee: Applied Materials, Inc.Inventor: Daniel J. Woodruff
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Publication number: 20120037495Abstract: An electroplating apparatus having improved contact deplating features includes a bowl assembly having a bowl for holding an electroplating solution. A head having a rotor including a contact ring and a head motor for rotating the rotor cooperates with the bowl assembly during plating operations. A lift/rotate actuator may be used to move the head to position a sector of the contact ring in a ring slot or opening of a deplating module. Since the deplating is performed within the deplating module, and not within the bowl assembly, the electroplating solution in the bowl assembly is not affected by the deplating process.Type: ApplicationFiled: August 13, 2010Publication date: February 16, 2012Inventors: Daniel J. Woodruff, Nolan L. Zimmerman, John L. Klocke, Klaus H. Pfeifer, Kyle M. Hanson
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Patent number: 8104488Abstract: A centrifugal workpiece processor for processing semiconductor wafers and similar workpieces includes a head which holds and spins the workpiece. The head includes a rotor having a gas system. Gas or air is sprayed or jetted from inlets in the rotor to create a rotational gas flow. The rotational gas flow causes pressure conditions which hold the edges of a first side of the workpiece against an angled annular surface on the rotor. The rotor and the workpiece rotate together. Guide pins adjacent to a perimeter may help to align the workpiece with the rotor. Outlets through the rotor allow gas to flow out of the rotor.Type: GrantFiled: July 24, 2007Date of Patent: January 31, 2012Assignee: Applied Materials, Inc.Inventors: Jason A. Rye, Kyle M. Hanson, Daniel J. Woodruff
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Patent number: 8082932Abstract: A centrifugal workpiece processor for processing semiconductor wafers and similar workpieces includes a head which holds and spins the workpiece. The head includes a rotor having a gas system. Gas is sprayed or jetted from inlets in the rotor to create a rotational gas flow. The rotational gas flow causes pressure conditions which hold the edges of a first side of the workpiece against contact pins on the rotor. The rotor and the workpiece rotate together. Guide pins adjacent to a perimeter may help to align the workpiece with the rotor. The rotor may have cylindrical side walls joined to a top plate, and with the gas inlets located in the cylindrical sidewalls. The head is moveable into engagement with a bowl. Spray nozzles in the bowl spray a process liquid onto the second side of the workpiece, as the workpiece is spinning, to process the workpiece.Type: GrantFiled: February 22, 2006Date of Patent: December 27, 2011Assignee: Applied Materials, Inc.Inventors: Jason Rye, Daniel J. Woodruff
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Patent number: 7935230Abstract: A processor for making porous silicon or processing other substrates has first and second chamber assemblies. The first and second chamber assemblies include first and second seals for sealing against a wafer, and first and second electrodes, respectively. The first and/or second seal is moveable towards and away from a wafer in the processor, to move between a wafer load/unload position, and a wafer process position. The first electrode may move along with the first seal, and the second electrode may move along with the second seal. A light source shines light onto the first side of the wafer. The processor may be pivotable from a substantially horizontal orientation, for loading and unloading a wafer, to a substantially vertical orientation, for processing a wafer.Type: GrantFiled: December 7, 2006Date of Patent: May 3, 2011Assignee: Semitool, Inc.Inventors: Daniel J. Woodruff, Paul R. McHugh, Gregory J. Wilson, Kyle M. Hanson, Nigel Stewart, Erik Lund, Steven L. Peace
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Patent number: 7931786Abstract: Reactors with agitators and methods for processing microfeature workpieces with such reactors. The agitators are capable of obtaining high, controlled mass-transfer rates that result in high quality surfaces and efficient wet chemical processes. The agitators generate high flow velocities in the fluid and contain the high energy fluid proximate to the surface of the workpiece to form high quality surfaces when cleaning, etching and/or depositing materials to/from a workpiece. The agitators also have short stroke lengths so that the footprints of the reactors are relatively small. As a result, the reactors are efficient and cost effective to operate. The agitators are also designed so that electrical fields in the processing solution can effectively operate at the surface of the workpiece.Type: GrantFiled: November 22, 2006Date of Patent: April 26, 2011Assignee: Semitool, Inc.Inventors: Gregory J. Wilson, Paul R. McHugh, Daniel J. Woodruff
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Patent number: 7927469Abstract: A processor for making porous silicon or processing other substrates has first and second chamber assemblies. The first and second chamber assemblies include first and second seals for sealing against a wafer, and first and second electrodes, respectively. The second seal is moveable towards and away from a wafer in the processor, to move between a wafer load/unload position, and a wafer process position. The second electrode may move with the second seal. A light source shines light onto the first side of the wafer. The processor may be pivotable from a substantially horizontal orientation, for loading and unloading a wafer, to a substantially vertical orientation, for processing a wafer.Type: GrantFiled: August 25, 2006Date of Patent: April 19, 2011Assignee: Semitool, Inc.Inventors: Nigel Stewart, Daniel J. Woodruff, Paul R. McHugh, Gregory J. Wilson, Kyle M. Hanson, Erik Lund, Steven L. Peace
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Patent number: 7909967Abstract: An electro-chemical processor for making porous silicon or processing other substrates has first and second chamber assemblies. The first and second chamber assemblies include first and second seals for sealing against a wafer, and first and second electrodes, respectively. The first seal is moveable towards and away from a wafer in the processor, to move between a wafer load/unload position, and a wafer process position. The first electrode may move along with the first seal. The processor may be pivotable from a substantially horizontal orientation, for loading and unloading a wafer, to a substantially vertical orientation, for processing a wafer.Type: GrantFiled: July 13, 2006Date of Patent: March 22, 2011Assignee: Semitool, Inc.Inventors: Daniel J. Woodruff, Paul R. McHugh, Gregory J. Wilson, Kyle M. Hanson, Erik Lund, Steven L. Peace
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Publication number: 20110042224Abstract: Apparatus and methods for electrochemically processing microfeature wafers. The apparatus can have a vessel including a processing zone in which a microfeature wafer is positioned for electrochemical processing. The apparatus further includes at least one counter electrode in the vessel that can operate as an anode or a cathode depending upon the particular plating or electropolishing application. The apparatus further includes a supplementary electrode and a supplementary virtual electrode. The supplementary electrode is configured to operate independently from the counter electrode in the vessel, and it can be a thief electrode and/or a de-plating electrode depending upon the type of process. The supplementary electrode can further be used as another counter electrode during a portion of a plating cycle or polishing cycle.Type: ApplicationFiled: November 2, 2010Publication date: February 24, 2011Applicant: SEMITOOL, INC.Inventors: Paul R. McHugh, Gregory J. Wilson, Daniel J. Woodruff
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Patent number: 7842173Abstract: Apparatus and methods for electrochemically processing microfeature wafers. The apparatus can have a vessel including a processing zone in which a microfeature wafer is positioned for electrochemical processing. The apparatus further includes at least one counter electrode in the vessel that can operate as an anode or a cathode depending upon the particular plating or electropolishing application. The apparatus further includes a supplementary electrode and a supplementary virtual electrode. The supplementary electrode is configured to operate independently from the counter electrode in the vessel, and it can be a thief electrode and/or a de-plating electrode depending upon the type of process. The supplementary electrode can further be used as another counter electrode during a portion of a plating cycle or polishing cycle.Type: GrantFiled: January 29, 2007Date of Patent: November 30, 2010Assignee: Semitool, Inc.Inventors: Paul R. McHugh, Gregory J. Wilson, Daniel J. Woodruff
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Publication number: 20100078334Abstract: An electro-chemical processor for making porous silicon or processing other substrates has first and second chamber assemblies. The first and second chamber assemblies include first and second seals for sealing against a wafer, and first and second electrodes, respectively. The first seal is moveable towards and away from a wafer in the processor, to move between a wafer load/unload position, and a wafer process position. The first electrode may move along with the first seal. The processor may be pivotable from a substantially horizontal orientation, for loading and unloading a wafer, to a substantially vertical orientation, for processing a wafer.Type: ApplicationFiled: July 13, 2006Publication date: April 1, 2010Inventors: Daniel J. Woodruff, Paul R. McHugh, Gregory J. Wilson, Kyle M. Hanson, Erik Lund, Steven L. Peace
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Patent number: 7531060Abstract: An intermediate module comprising a dimensionally stable mounting module and a first device attached to the dimensionally stable mounting module. The dimensionally stable mounting module can include a front docking unit with front alignment elements for connecting the mounting module to a load/unload module, and a rear docking unit with rear alignment elements for connecting the mounting module to a main processing unit. The mounting module can further include a deck between the front docking unit and the rear docking unit, positioning elements at the deck, and attachment elements at the deck. The first device can be a processing chamber, an annealing station, a metrology station, a buffer station, or another type of component for holding or otherwise performing a function on a workpiece.Type: GrantFiled: July 7, 2005Date of Patent: May 12, 2009Assignee: Semitool, Inc.Inventors: Paul Wirth, Daniel J. Woodruff
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Patent number: 7420690Abstract: In a workpiece process end point detection system, light is diffused and then light intensity or color is sensed. Optical noise is greatly reduced and more accurate end point detection can be made. A light emitter and a light sensor may be located within a workpiece process chamber. A housing around the light emitter and the light sensor seals out process fluids and also diffuses light passing through. The diffused light may be optically filtered before reaching the light sensor.Type: GrantFiled: November 28, 2005Date of Patent: September 2, 2008Assignee: Semitool, Inc.Inventors: Daniel J. Woodruff, Marvin Louis Bernt
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Publication number: 20080178460Abstract: Protected magnets and magnet shielding for processing microfeature workpieces, and associated systems and methods are disclosed. A tool in accordance with one embodiment includes a process chamber having a process location for processing microfeature workpieces, a support positioned to carry a microfeature workpiece at the process location, a transfer device movable relative to the support to move the microfeature workpieces to and from the support, and a magnet positioned adjacent to the process chamber to magnetically orient materials applied to the microfeature workpieces. The tool can include other features, including an enclosure positioned around the magnet to chemically isolate the magnet from chemicals delivered to and carried in the process chamber, a shield positioned between the magnet and the motion path of the transfer device, magnetically conductive return paths positioned proximate to the magnet, and/or shields positioned around the motors carried by the tool.Type: ApplicationFiled: January 29, 2007Publication date: July 31, 2008Inventors: Daniel J. Woodruff, James J. Erickson