Patents by Inventor Rodney S. Ridley
Rodney S. Ridley 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: 20150069567Abstract: A power device includes a semiconductor region which in turn includes a plurality of alternately arranged pillars of first and second conductivity type. Each of the plurality of pillars of second conductivity type further includes a plurality of implant regions of the second conductivity type arranged on top of one another along the depth of pillars of second conductivity type, and a trench portion filled with semiconductor material of the second conductivity type directly above the plurality of implant regions of second conductivity type.Type: ApplicationFiled: September 19, 2014Publication date: March 12, 2015Inventors: Joseph A. Yedinak, Christopher L. Rexer, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Jaegil Lee, Hamza Yilmaz, Chongman Yun, Dwayne S. Reichl, James Pan, Rodney S. Ridley, Harold Heidenreich
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Patent number: 8884365Abstract: A field effect transistor (FET) includes a body region of a first conductivity type disposed within a semiconductor region of a second conductivity type and a gate trench extending through the body region and terminating within the semiconductor region. The FET also includes a flared shield dielectric layer disposed in a lower portion of the gate trench, the flared shield dielectric layer including a flared portion that extends under the body region. The FET further includes a conductive shield electrode disposed in the trench and disposed, at least partially, within the flared shield dielectric.Type: GrantFiled: May 10, 2013Date of Patent: November 11, 2014Assignee: Fairchild Semiconductor CorporationInventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Patent number: 8772868Abstract: A power device includes a semiconductor substrate having a plurality of alternately arranged pillars of first and second conductivity types. At least one of the plurality of pillars of second conductivity type includes a first trench epitaxial layer of the second conductivity type disposed on a trench sidewall of the second trench and a trench bottom surface of the second trench, a second trench epitaxial layer of the second conductivity type disposed on the first trench epitaxial layer of the second conductivity type, and an insulating material layer disposed on the second trench epitaxial layer of the second conductivity type.Type: GrantFiled: April 27, 2011Date of Patent: July 8, 2014Assignee: Fairchild Semiconductor CorporationInventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Hamza Yilmaz, James Pan, Rodney S. Ridley, Sr.
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Publication number: 20130248991Abstract: A field effect transistor (FET) includes a body region of a first conductivity type disposed within a semiconductor region of a second conductivity type and a gate trench extending through the body region and terminating within the semiconductor region. The FET also includes a flared shield dielectric layer disposed in a lower portion of the gate trench, the flared shield dielectric layer including a flared portion that extends under the body region. The FET further includes a conductive shield electrode disposed in the trench and disposed, at least partially, within the flared shield dielectric.Type: ApplicationFiled: May 10, 2013Publication date: September 26, 2013Applicant: Fairchild Semiconductor CorporationInventors: Hamza YILMAZ, Daniel CALAFUT, Christopher Boguslaw KOCON, Steven P. SAPP, Dean E. PROBST, Nathan L. KRAFT, Thomas E. GREBS, Rodney S. RIDLEY, Gary M. DOLNY, Bruce D. MARCHANT, Joseph A. YEDINAK
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Patent number: 8461040Abstract: A method of forming a shielded gate field effect transistor includes: forming a plurality of active gate trenches in a silicon region; lining lower sidewalls and bottom of the active gate trenches with a shield dielectric; using a CMP process, filling a bottom portion of the active gate trenches with a shield electrode comprising polysilicon; forming an interpoly dielectric (IPD) over the shield electrode in the active gate trenches; lining upper sidewalls of the active gate trenches with a gate dielectric; and forming a gate electrode over the IPD in an upper portion of the active gate trenches.Type: GrantFiled: March 7, 2011Date of Patent: June 11, 2013Assignee: Fairchild Semiconductor CorporationInventors: Thomas E. Grebs, Rodney S. Ridley, Nathan Lawrence Kraft
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Patent number: 8441069Abstract: A field effect transistor includes a gate trench extending into a semiconductor region. The gate trench has a recessed gate electrode disposed therein. A source region in the semiconductor region flanks each side of the gate trench. A conductive material fills an upper portion of the gate trench so as to make electrical contact with the source regions along upper sidewalls of the gate trench. The conductive material is insulated from the recessed gate electrode.Type: GrantFiled: October 21, 2011Date of Patent: May 14, 2013Assignee: Fairchild Semiconductor CorporationInventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Publication number: 20120273875Abstract: A power device includes a semiconductor region which in turn includes a plurality of alternately arranged pillars of first and second conductivity type. Each of the plurality of pillars of second conductivity type further includes a plurality of implant regions of the second conductivity type arranged on top of one another along the depth of pillars of second conductivity type, and a trench portion filled with semiconductor material of the second conductivity type directly above the plurality of implant regions of second conductivity type.Type: ApplicationFiled: April 27, 2011Publication date: November 1, 2012Inventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Hamza Yilmaz, James Pan, Rodney S. Ridley
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Publication number: 20120273916Abstract: A power device includes a semiconductor region which in turn includes a plurality of alternately arranged pillars of first and second conductivity type. Each of the plurality of pillars of second conductivity type further includes a plurality of implant regions of the second conductivity type arranged on top of one another along the depth of pillars of second conductivity type, and a trench portion filled with semiconductor material of the second conductivity type directly above the plurality of implant regions of second conductivity type.Type: ApplicationFiled: April 27, 2011Publication date: November 1, 2012Inventors: Joseph A. Yedinak, Christopher L. Rexer, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Jaegil Lee, Hamza Yilmaz, Chongman Yun, Dwayne S. Reichl, James Pan, Rodney S. Ridley, SR., Harold Heidenreich
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Publication number: 20120273884Abstract: A power device includes a semiconductor region which in turn includes a plurality of alternately arranged pillars of first and second conductivity type. Each of the plurality of pillars of second conductivity type further includes a plurality of implant regions of the second conductivity type arranged on top of one another along the depth of pillars of second conductivity type, and a trench portion filled with semiconductor material of the second conductivity type directly above the plurality of implant regions of second conductivity type.Type: ApplicationFiled: April 27, 2011Publication date: November 1, 2012Inventors: Joseph A. Yedinak, Christopher L. Rexer, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Jaegil Lee, Hamza Yilmaz, Chongman Yun, Dwayne S. Reichl, James Pan, Rodney S. Ridley, SR., Harold Heidenreich
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Publication number: 20120220091Abstract: A method for forming thick oxide at the bottom of a trench formed in a semiconductor substrate includes forming a conformal oxide film by a sub-atmospheric chemical vapor deposition process that fills the trench and covers a top surface of the substrate. The method also includes etching the oxide film off the top surface of the substrate and inside the trench to leave a substantially flat layer of oxide having a target thickness at the bottom of the trench.Type: ApplicationFiled: March 12, 2012Publication date: August 30, 2012Inventors: Ashok Challa, Alan Elbanhawy, Thomas E. Grebs, Nathan L. Kraft, Dean E. Probst, Rodney S. Ridley, Steven P. Sapp, Qi Wang, Chongman Yun, J.G. Lee, Peter H. Wilson, Joseph A. Yedinak, J.Y. Jung, H.C. Jang, Babak S. Sani, Richard Stokes, Gary M. Dolny, John Mytych, Becky Losee, Adam Selsley, Robert Herrick, James J. Murphy, Gordon K. Madson, Bruce D. Marchant, Christopher L. Rexer, Christopher B. Kocon, Debra S. Woolsey
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Publication number: 20120104490Abstract: A field effect transistor includes a body region of a first conductivity type over a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminates within the semiconductor region. At least one conductive shield electrode is disposed in the gate trench. A gate electrode is disposed in the gate trench over but insulated from the at least one conductive shield electrode. A shield dielectric layer insulates the at lease one conductive shield electrode from the semiconductor region. A gate dielectric layer insulates the gate electrode from the body region. The shield dielectric layer is formed such that it flares out and extends directly under the body region.Type: ApplicationFiled: October 21, 2011Publication date: May 3, 2012Inventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Patent number: 8143123Abstract: A method for forming power semiconductor devices having an inter-electrode dielectric (IPD) layer inside a trench includes providing a semiconductor substrate with a trench, lining the sidewalls and bottom of the trench with a first layer of dielectric material, filling the trench with a first layer of conductive material to form a first electrode, recessing the first layer of dielectric material and the first layer of conductive material to a first depth inside the trench, forming a layer of polysilicon material on a top surface of the dielectric material and conductive material inside the trench, oxidizing the layer of polysilicon material, and forming a second electrode inside the trench atop the oxidized layer and isolated from trench sidewalls by a second dielectric layer. The oxidation step can be enhanced by either chemically or physically altering the top portion polysilicon such as by implanting impurities.Type: GrantFiled: March 3, 2008Date of Patent: March 27, 2012Assignee: Fairchild Semiconductor CorporationInventors: Thomas E. Grebs, Rodney S. Ridley, Steven P. Sapp, Peter H. Wilson, Babak S. Sani, Gary M. Dolny, John Mytych, Becky Losee, Adam Selsley, Christopher B. Kocon
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Publication number: 20120058615Abstract: A method of forming a shielded gate field effect transistor includes: forming a plurality of active gate trenches in a silicon region; lining lower sidewalls and bottom of the active gate trenches with a shield dielectric; using a CMP process, filling a bottom portion of the active gate trenches with a shield electrode comprising polysilicon; forming an interpoly dielectric (IPD) over the shield electrode in the active gate trenches; lining upper sidewalls of the active gate trenches with a gate dielectric; and forming a gate electrode over the IPD in an upper portion of the active gate trenches.Type: ApplicationFiled: March 7, 2011Publication date: March 8, 2012Inventors: Bruce Douglas Marchant, Thomas E. Grebs, Rodney S. Ridley, Nathan Lawrence Kraft
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Patent number: 8043913Abstract: A method of forming a field effect transistor includes: forming a trench in a semiconductor region; forming a shield electrode in the trench; performing an angled sidewall implant of impurities of the first conductivity type to form a channel enhancement region adjacent the trench; forming a body region of a second conductivity type in the semiconductor region; and forming a source region of the first conductivity type in the body region, the source region and an interface between the body region and the semiconductor region defining a channel region therebetween, the channel region extending along the trench sidewall. The channel enhancement region partially extends into a lower portion of the channel region to thereby reduce a resistance of the channel region.Type: GrantFiled: March 29, 2011Date of Patent: October 25, 2011Assignee: Fairchild Semiconductor CorporationInventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Publication number: 20110177662Abstract: A method of forming a field effect transistor includes: forming a trench in a semiconductor region; forming a shield electrode in the trench; performing an angled sidewall implant of impurities of the first conductivity type to form a channel enhancement region adjacent the trench; forming a body region of a second conductivity type in the semiconductor region; and forming a source region of the first conductivity type in the body region, the source region and an interface between the body region and the semiconductor region defining a channel region therebetween, the channel region extending along the trench sidewall. The channel enhancement region partially extends into a lower portion of the channel region to thereby reduce a resistance of the channel region.Type: ApplicationFiled: March 29, 2011Publication date: July 21, 2011Inventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Patent number: 7923776Abstract: A field effect transistor includes a body region of a first conductivity type in a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminating within the semiconductor region. A source region of the second conductivity type extends in the body region adjacent the gate trench. The source region and an interface between the body region and the semiconductor region define a channel region therebetween which extends along the gate trench sidewall. A channel enhancement region of the second conductivity type is formed adjacent the gate trench. The channel enhancement region partially extends into a lower portion of the channel region to thereby reduce a resistance of the channel region.Type: GrantFiled: February 2, 2010Date of Patent: April 12, 2011Assignee: Fairchild Semiconductor CorporationInventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Publication number: 20100258862Abstract: A field effect transistor includes a body region of a first conductivity type in a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminating within the semiconductor region. A source region of the second conductivity type extends in the body region adjacent the gate trench. The source region and an interface between the body region and the semiconductor region define a channel region therebetween which extends along the gate trench sidewall. A channel enhancement region of the second conductivity type is formed adjacent the gate trench. The channel enhancement region partially extends into a lower portion of the channel region to thereby reduce a resistance of the channel region.Type: ApplicationFiled: February 2, 2010Publication date: October 14, 2010Inventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Publication number: 20090230465Abstract: A field effect transistor includes a body region of a first conductivity type over a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminates within the semiconductor region. At least one conductive shield electrode is disposed in the gate trench. A gate electrode is disposed in the gate trench over but insulated from the at least one conductive shield electrode. A shield dielectric layer insulates the at lease one conductive shield electrode from the semiconductor region. A gate dielectric layer insulates the gate electrode from the body region. The shield dielectric layer is formed such that it flares out and extends directly under the body region.Type: ApplicationFiled: March 16, 2009Publication date: September 17, 2009Inventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Patent number: 7504303Abstract: A method for forming a shielded gate field effect transistor includes the following steps. Trenches extending into a silicon region are formed using a mask that includes a protective layer. A shield dielectric layer lining sidewalls and bottom of each trench is formed. A shield electrode is formed in a bottom portion of each trench. Protective spacers are formed along upper sidewalls of each trench. An inter-electrode dielectric is formed over the shield electrode. The protective spacers and the protective layer of the mask prevent formation of inter-electrode dielectric along the upper sidewalls of each trench and over mesa surfaces adjacent each trench. A gate electrode is formed in each trench over the inter-electrode dielectric.Type: GrantFiled: May 24, 2006Date of Patent: March 17, 2009Assignee: Fairchild Semiconductor CorporationInventors: Hamza Yilmaz, Daniel Calafut, Christopher Boguslaw Kocon, Steven P. Sapp, Dean E. Probst, Nathan L. Kraft, Thomas E. Grebs, Rodney S. Ridley, Gary M. Dolny, Bruce D. Marchant, Joseph A. Yedinak
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Patent number: 7449354Abstract: A trench-gated field effect transistor (FET) is formed as follows. Using one mask, a plurality of active gate trenches and at least one gate runner trench are defined and simultaneously formed in a silicon region such that (i) the at least one gate runner trench has a width greater than a width of each of the plurality of active gate trenches, and (ii) the plurality of active gate trenches are contiguous with the at least one gate runner trench.Type: GrantFiled: January 5, 2006Date of Patent: November 11, 2008Assignee: Fairchild Semiconductor CorporationInventors: Bruce Douglas Marchant, Thomas E. Grebs, Rodney S. Ridley, Nathan Lawrence Kraft