Patents by Inventor Benjamin B. Riordon
Benjamin B. Riordon 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: 8697559Abstract: One method of implanting a workpiece involves implanting the workpiece with an n-type dopant in a first region with center and a periphery. The workpiece also is implanted with a p-type dopant in a second region complementary to the first region. This second region also has a center and a periphery. The periphery of the first region and the periphery of the second region at least partially overlap. A dose at the periphery of the first region or second region is less than a dose at the center of the first region or second region. The region of overlap may function as a junction where charge carriers cannot pass.Type: GrantFiled: July 7, 2011Date of Patent: April 15, 2014Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Nicholas P. T. Bateman, Peter L. Kurunczi, Benjamin B. Riordon, John W. Graff
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Publication number: 20130288400Abstract: A system and method are disclosed for aligning substrates during successive process steps, such as ion implantation steps, is disclosed. Implanted regions are created on a substrate. After implantation, an image is obtained of the implanted regions, and a fiducial is provided on the substrate in known relation to at least one of the implanted regions. A thermal anneal process is performed on the substrate such that the implanted regions are no longer visible but the fiducial remains visible. The position of the fiducial may be used in downstream process steps to properly align pattern masks over the implanted regions. The fiducial also may be applied to the substrate before any ion implanting of the substrate is performed. The position of the fiducial with respect to an edge or a corner of the substrate may be used for aligning during downstream process steps. Other embodiments are described and claimed.Type: ApplicationFiled: April 27, 2012Publication date: October 31, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: John W. Graff, Benjamin B. Riordon, Nicholas P.T. Bateman
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Patent number: 8569157Abstract: An improved method of moving a mask to perform a pattern implant of a substrate is disclosed. The mask has a plurality of apertures, and is placed between the ion source and the substrate. After the substrate is exposed to the ion beam, the mask is indexed to a new position relative to the substrate and a subsequent implant step is performed. Through the selection of the aperture size and shape, the index distance and the number of implant steps, a variety of implant patterns may be created. In some embodiments, the implant pattern includes heavily doped horizontal stripes with lighter doped regions between the stripes. In some embodiments, the implant pattern includes a grid of heavily doped regions. In other embodiments, the implant pattern is suitable for use with a bus-bar structure.Type: GrantFiled: April 9, 2012Date of Patent: October 29, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Benjamin B. Riordon, Nicholas P. T. Bateman, Charles T. Carlson
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Patent number: 8465909Abstract: Various methods of utilizing the physical and chemical property differences between amorphized and crystalline silicon are used to create masks that can be used for subsequent implants. In some embodiments, the difference in film growth between amorphous and crystalline silicon is used to create the mask. In other embodiments, the difference in reflectivity or light absorption between amorphous and crystalline silicon is used to create the mask. In other embodiments, differences in the characteristics of doped and undoped silicon is used to create masks.Type: GrantFiled: November 1, 2010Date of Patent: June 18, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Nicholas P. T. Bateman, Helen L. Maynard, Benjamin B. Riordon, Christopher R. Hatem, Deepak Ramappa
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Patent number: 8461553Abstract: An improved method of producing solar cells utilizes a mask which is fixed relative to an ion beam in an ion implanter. The ion beam is directed through a plurality of apertures in the mask toward a substrate. The substrate is moved at different speeds such that the substrate is exposed to an ion dose rate when the substrate is moved at a first scan rate and to a second ion dose rate when the substrate is moved at a second scan rate. By modifying the scan rate, various dose rates may be implanted on the substrate at corresponding substrate locations. This allows ion implantation to be used to provide precise doping profiles advantageous for manufacturing solar cells.Type: GrantFiled: July 22, 2011Date of Patent: June 11, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Nicholas P. T. Bateman, Steven M. Anella, Benjamin B. Riordon, Atul Gupta
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Patent number: 8455847Abstract: In an ion implanter, an ion current measurement device is disposed behind a mask co-planarly with respect to a surface of a target substrate as if said target substrate was positioned on a platen. The ion current measurement device is translated across the ion beam. The current of the ion beam directed through a plurality of apertures of the mask is measured using the ion current measurement device. In this manner, the position of the mask with respect to the ion beam as well as the condition of the mask may be determined based on the ion current profile measured by the ion current measurement device.Type: GrantFiled: March 23, 2012Date of Patent: June 4, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Benjamin B. Riordon, Nicholas P. T. Bateman, William T. Weaver, Russell J. Low
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Patent number: 8372737Abstract: An improved method of implanting a solar cell is disclosed. A substrate is coated with a soft mask material. A shadow mask is used to perform a pattern ion implant and to set the soft mask material. After the soft mask material is set, the mask is removed and a blanket implant is performed.Type: GrantFiled: June 28, 2011Date of Patent: February 12, 2013Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Nicholas P. T. Bateman, Benjamin B. Riordon, Atul Gupta
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Publication number: 20130008494Abstract: One method of implanting a workpiece involves implanting the workiece with an n-type dopant in a first region with center and a periphery. The workpiece also is implanted with a p-type dopant in a second region complementary to the first region. This second region also has a center and a periphery. The periphery of the first region and the periphery of the second region at least partially overlap. A dose at the periphery of the first region or second region is less than a dose at the center of the first region or second region. The region of overlap may function as a junction where charge carriers cannot pass.Type: ApplicationFiled: July 7, 2011Publication date: January 10, 2013Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Nicholas P.T. Bateman, Peter L. Kurunczi, Benjamin B. Riordon, John W. Graff
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Publication number: 20120196430Abstract: An improved method of moving a mask to perform a pattern implant of a substrate is disclosed. The mask has a plurality of apertures, and is placed between the ion source and the substrate. After the substrate is exposed to the ion beam, the mask is indexed to a new position relative to the substrate and a subsequent implant step is performed. Through the selection of the aperture size and shape, the index distance and the number of implant steps, a variety of implant patterns may be created. In some embodiments, the implant pattern includes heavily doped horizontal stripes with lighter doped regions between the stripes. In some embodiments, the implant pattern includes a grid of heavily doped regions. In other embodiments, the implant pattern is suitable for use with a bus-bar structure.Type: ApplicationFiled: April 9, 2012Publication date: August 2, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Benjamin B. RIORDON, Nicholas P.T. BATEMAN, Charles T. CARLSON
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Publication number: 20120181443Abstract: In an ion implanter, an ion current measurement device is disposed behind a mask co-planarly with respect to a surface of a target substrate as if said target substrate was positioned on a platen. The ion current measurement device is translated across the ion beam. The current of the ion beam directed through a plurality of apertures of the mask is measured using the ion current measurement device. In this manner, the position of the mask with respect to the ion beam as well as the condition of the mask may be determined based on the ion current profile measured by the ion current measurement device.Type: ApplicationFiled: March 23, 2012Publication date: July 19, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.,Inventors: Benjamin B. RIORDON, Nicholas P.T. Bateman, William T. Weaver, Russell J. Low
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Patent number: 8173527Abstract: An improved method of moving a mask to perform a pattern implant of a substrate is disclosed. The mask has a plurality of apertures, and is placed between the ion source and the substrate. After the substrate is exposed to the ion beam, the mask is indexed to a new position relative to the substrate and a subsequent implant step is performed. Through the selection of the aperture size and shape, the index distance and the number of implant steps, a variety of implant patterns may be created. In some embodiments, the implant pattern includes heavily doped horizontal stripes with lighter doped regions between the stripes. In some embodiments, the implant pattern includes a grid of heavily doped regions. In other embodiments, the implant pattern is suitable for use with a bus-bar structure.Type: GrantFiled: October 18, 2010Date of Patent: May 8, 2012Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Benjamin B. Riordon, Nicholas P. T. Bateman, Charles T. Carlson
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Patent number: 8164068Abstract: In an ion implanter, an ion current measurement device is disposed behind a mask co-planarly with respect to a surface of a target substrate as if said target substrate was positioned on a platen. The ion current measurement device is translated across the ion beam. The current of the ion beam directed through a plurality of apertures of the mask is measured using the ion current measurement device. In this manner, the position of the mask with respect to the ion beam as well as the condition of the mask may be determined based on the ion current profile measured by the ion current measurement device.Type: GrantFiled: July 28, 2010Date of Patent: April 24, 2012Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Benjamin B. Riordon, Nicholas P. T. Bateman, William T. Weaver, Russell J. Low
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Publication number: 20120017938Abstract: To achieve cost efficiency, solar cells must be processed at a high throughput. Breakages, which may leave debris on the clamping surface of the platen, adversely affect this throughput. A plurality of embodiments are disclosed which may be used to remove debris from the clamping surface without breaking the vacuum condition within the processing station. In some embodiments, a brush is used to sweep the debris from the surface of the platen. In other embodiments, an adhesive material is used to collect the debris. In some embodiments, the automation equipment used to handle masks may also be used to handle the platen cleaning mechanisms. In still other embodiments, stream of gas or ion beams are used to clean debris from the clamping surface of the platen.Type: ApplicationFiled: July 20, 2011Publication date: January 26, 2012Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: William T. Weaver, Kevin M. Daniels, Dale K. Stone, Russell J. Low, Benjamin B. Riordon, Jeffrey Blahnik
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Publication number: 20110272602Abstract: An improved method of producing solar cells utilizes a mask which is fixed relative to an ion beam in an ion implanter. The ion beam is directed through a plurality of apertures in the mask toward a substrate. The substrate is moved at different speeds such that the substrate is exposed to an ion dose rate when the substrate is moved at a first scan rate and to a second ion dose rate when the substrate is moved at a second scan rate. By modifying the scan rate, various dose rates may be implanted on the substrate at corresponding substrate locations. This allows ion implantation to be used to provide precise doping profiles advantageous for manufacturing solar cells.Type: ApplicationFiled: July 22, 2011Publication date: November 10, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Nicholas P.T. Bateman, Steven M. Anella, Benjamin B. Riordon, Atul Gupta
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Publication number: 20110256698Abstract: An improved method of moving a mask to perform a pattern implant of a substrate is disclosed. The mask has a plurality of apertures, and is placed between the ion source and the substrate. After the substrate is exposed to the ion beam, the mask is indexed to a new position relative to the substrate and a subsequent implant step is performed. Through the selection of the aperture size and shape, the index distance and the number of implant steps, a variety of implant patterns may be created. In some embodiments, the implant pattern includes heavily doped horizontal stripes with lighter doped regions between the stripes. In some embodiments, the implant pattern includes a grid of heavily doped regions. In other embodiments, the implant pattern is suitable for use with a bus-bar structure.Type: ApplicationFiled: October 18, 2010Publication date: October 20, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Benjamin B. Riordon, Nicholas P.T. Bateman, Charles T. Carlson
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Patent number: 8008176Abstract: An improved method of producing solar cells utilizes a mask which is fixed relative to an ion beam in an ion implanter. The ion beam is directed through a plurality of apertures in the mask toward a substrate. The substrate is moved at different speeds such that the substrate is exposed to an ion dose rate when the substrate is moved at a first scan rate and to a second ion dose rate when the substrate is moved at a second scan rate. By modifying the scan rate, various dose rates may be implanted on the substrate at corresponding substrate locations. This allows ion implantation to be used to provide precise doping profiles advantageous for manufacturing solar cells.Type: GrantFiled: August 10, 2010Date of Patent: August 30, 2011Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Nicholas P. T. Bateman, Steven M. Anella, Benjamin B. Riordon, Atul Gupta
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Publication number: 20110104618Abstract: Various methods of utilizing the physical and chemical property differences between amorphized and crystalline silicon are used to create masks that can be used for subsequent implants. In some embodiments, the difference in film growth between amorphous and crystalline silicon is used to create the mask. In other embodiments, the difference in reflectivity or light absorption between amorphous and crystalline silicon is used to create the mask. In other embodiments, differences in the characteristics of doped and undoped silicon is used to create masks.Type: ApplicationFiled: November 1, 2010Publication date: May 5, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Nicholas P.T. Bateman, Helen L. Maynard, Benjamin B. Riordon, Christopher R. Hatem, Deepak Ramappa
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Publication number: 20110089343Abstract: Herein, an improved technique for processing a substrate is disclosed. In one particular exemplary embodiment, the technique may be realized as a method for processing a substrate. The method may comprise directing an ion beam comprising a plurality of ions along an ion beam path, from an ion source to the substrate; disposing at least a portion of a mask in the ion beam path, between the ion source and the substrate; and translating one of the substrate and the mask relative to other one of the substrate and the mask.Type: ApplicationFiled: April 7, 2010Publication date: April 21, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Kevin M. Daniels, Russell J. Low, Benjamin B. Riordon
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Publication number: 20110092059Abstract: Herein, an improved technique for processing a substrate is disclosed. In one particular exemplary embodiment, the technique may be achieved using a mask for processing the substrate. The mask may be incorporated into a substrate processing system such as, for example, an ion implantation system. The mask may comprise one or more first apertures disposed in a first row; and one or more second apertures disposed in a second row, each row extending along a width direction of the mask, wherein the one or more first apertures and the one or more second apertures are non-uniform.Type: ApplicationFiled: April 7, 2010Publication date: April 21, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Kevin M. Daniels, Russell J. Low, Nicholas P.T. Bateman, Benjamin B. Riordon
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Publication number: 20110089342Abstract: Herein, an improved technique for processing a substrate is disclosed. In one particular exemplary embodiment, the technique may be achieved using a mask for processing the substrate. The mask may be incorporated into a substrate processing system such as, for example, an ion implantation system. The mask may comprise a first base; and a plurality of fingers spaced apart from one another to define one or more gaps.Type: ApplicationFiled: April 7, 2010Publication date: April 21, 2011Applicant: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Kevin M. Daniels, Russell J. Low, Benjamin B. Riordon