Patents by Inventor Praveen MurAleedharan

Praveen MurAleedharan 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).

  • Patent number: 9595596
    Abstract: In one general aspect, a power device can include an active region having a plurality of pillars of a first conductivity type alternately arranged with a plurality of pillars of a second conductivity type. The power device can include a termination region surrounding at least a portion of the active region and can have a plurality of pillars of the first conductivity type alternately arranged with a plurality of pillars of the second conductivity type. Each of the plurality of pillars of the first conductivity type in the active region and the termination region can be defined by a trench. The power device can include an enrichment region at a bottom portion of one of the plurality of pillars of the first conductivity type in the active region.
    Type: Grant
    Filed: January 5, 2015
    Date of Patent: March 14, 2017
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Joseph A. Yedinak, Jaegil Lee, Chongman Yun, Praveen Muraleedharan Shenoy, Christopher L. Rexer
  • Patent number: 9368587
    Abstract: An accumulation-mode field effect transistor including a plurality of gates. The accumulation-mode field effect transistor including a semiconductor region including a channel region adjacent to but insulated from each of the plurality of gates.
    Type: Grant
    Filed: May 31, 2014
    Date of Patent: June 14, 2016
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Christopher Boguslaw Kocon, Praveen Muraleedharan Shenoy
  • Publication number: 20150187873
    Abstract: A power device includes an active region and a termination region surrounding the active region. A plurality of pillars of first and second conductivity type are alternately arranged in each of the active and termination regions. The pillars of first conductivity type in the active and termination regions have substantially the same width, and the pillars of second conductivity type in the active region have a smaller width than the pillars of second conductivity type in the termination region so that a charge balance condition in each of the active and termination regions results in a higher breakdown voltage in the termination region than in the active region.
    Type: Application
    Filed: January 5, 2015
    Publication date: July 2, 2015
    Inventors: Joseph A. Yedinak, Jaegil Lee, Hocheol Jang, Chongman Yun, Praveen Muraleedharan Shenoy, Christopher L. Rexer, Changwook Kim, Jonghun Lee, Jasong M. Higgs, Dwayne S. Reichl, Joelle Sharp, Qi Wang, Yongsub Kim, Jungkil Lee, Mark L. Rinehimer, Jinyoung Jung
  • Publication number: 20150069567
    Abstract: 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: Application
    Filed: September 19, 2014
    Publication date: March 12, 2015
    Inventors: 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
  • Patent number: 8928077
    Abstract: In one general aspect, a power device includes an active region having a plurality of pillars of a first conductivity type alternately arranged with a plurality of pillars of a second conductivity type where the plurality of pillars of the second conductivity type in the active region each have substantially the same width. The power device includes a termination region surrounding at least a portion of the active region and having a plurality of pillars of the first conductivity type alternately arranged with a plurality of pillars of the second conductivity type where the plurality of pillars of the second conductivity type in the active region each have substantially the same width and are smaller than each width of the pillars of the second conductivity type in the termination region. The power device includes a transition region disposed between the active region and the termination region.
    Type: Grant
    Filed: September 19, 2008
    Date of Patent: January 6, 2015
    Assignee: Fairchild Semiconductor Corporation
    Inventors: JaeGil Lee, Chongman Yun, Hocheol Jang, Christopher L. Rexer, Praveen Muraleedharan Shenoy, Dwayne S. Reichl, Joseph A. Yedinak
  • Publication number: 20140264573
    Abstract: An accumulation-mode field effect transistor including a plurality of gates. The accumulation-mode field effect transistor including a semiconductor region including a channel region adjacent to but insulated from each of the plurality of gates.
    Type: Application
    Filed: May 31, 2014
    Publication date: September 18, 2014
    Applicant: Fairchild Semiconductor Corporation
    Inventors: Christopher Boguslaw KOCON, Praveen Muraleedharan SHENOY
  • Patent number: 8836028
    Abstract: In a general aspect, a power device can include at least one N-type epitaxial layer disposed on a substrate and a plurality of N-pillars and P-pillars that define alternating P-N-pillars in the at least one N-type epitaxial layer. The power device can also include an active region and a termination region, where the termination region surrounds the active region. The alternating P-N-pillars can be disposed in both the active region and the termination region, where the termination region can include a predetermined number of floating P-pillars.
    Type: Grant
    Filed: April 27, 2011
    Date of Patent: September 16, 2014
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Jaegil Lee, Dwayne S. Reichl, Harold Heidenreich
  • Patent number: 8772868
    Abstract: 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: Grant
    Filed: April 27, 2011
    Date of Patent: July 8, 2014
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Hamza Yilmaz, James Pan, Rodney S. Ridley, Sr.
  • Patent number: 8673700
    Abstract: 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: Grant
    Filed: April 27, 2011
    Date of Patent: March 18, 2014
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy
  • Patent number: 8518777
    Abstract: A method of forming an accumulation-mode field effect transistor includes forming a channel region of a first conductivity type in a semiconductor region of the first conductivity type. The channel region may extend from a top surface of the semiconductor region to a first depth within the semiconductor region. The method also includes forming gate trenches in the semiconductor region. The gate trenches may extend from the top surface of the semiconductor region to a second depth within the semiconductor region below the first depth. The method also includes forming a first plurality of silicon regions of a second conductivity type in the semiconductor region such that the first plurality of silicon regions form P-N junctions with the channel region along vertical walls of the first plurality of silicon regions.
    Type: Grant
    Filed: April 8, 2011
    Date of Patent: August 27, 2013
    Assignee: Fairchild Semiconductor Corporation
    Inventor: Praveen Muraleedharan Shenoy
  • Publication number: 20120276701
    Abstract: 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: Application
    Filed: April 27, 2011
    Publication date: November 1, 2012
    Inventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy
  • Publication number: 20120273916
    Abstract: 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: Application
    Filed: April 27, 2011
    Publication date: November 1, 2012
    Inventors: 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
  • Publication number: 20120273884
    Abstract: 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: Application
    Filed: April 27, 2011
    Publication date: November 1, 2012
    Inventors: 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
  • Publication number: 20120273875
    Abstract: 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: Application
    Filed: April 27, 2011
    Publication date: November 1, 2012
    Inventors: Joseph A. Yedinak, Mark L. Rinehimer, Praveen Muraleedharan Shenoy, Hamza Yilmaz, James Pan, Rodney S. Ridley
  • Publication number: 20120178228
    Abstract: A method of forming an accumulation-mode field effect transistor includes forming a channel region of a first conductivity type in a semiconductor region of the first conductivity type. The channel region may extend from a top surface of the semiconductor region to a first depth within the semiconductor region. The method also includes forming gate trenches in the semiconductor region. The gate trenches may extend from the top surface of the semiconductor region to a second depth within the semiconductor region below the first depth. The method also includes forming a first plurality of silicon regions of a second conductivity type in the semiconductor region such that the first plurality of silicon regions form P-N junctions with the channel region along vertical walls of the first plurality of silicon regions.
    Type: Application
    Filed: April 8, 2011
    Publication date: July 12, 2012
    Inventors: Christopher Boguslaw Koon, Praveen Muraleedharan Shenoy
  • Patent number: 7936008
    Abstract: An accumulation-mode field effect transistor includes a drift region of a first conductivity type, channel regions of the first conductivity type over and in contact with the drift region, and gate trenches having sidewalls abutting the channel regions. The gate trenches extend into and terminate within the drift region. The transistor further includes a first plurality of silicon regions of a second conductivity type forming P-N junctions with the channel regions along vertical walls of the first plurality of silicon regions. The first plurality of silicon regions extend into the drift region and form P-N junctions with the drift region along bottoms of the first plurality of silicon regions.
    Type: Grant
    Filed: May 2, 2008
    Date of Patent: May 3, 2011
    Assignee: Fairchild Semiconductor Corporation
    Inventor: Praveen Muraleedharan Shenoy
  • Publication number: 20110089432
    Abstract: An electrical device on a single semiconductor substrate includes: an open base vertical PNP transistor placed in parallel with a wide bandgap, high voltage diode wherein the PNP transistor has a P doped collector region, an N-doped base layer, an N doped buffer layer, and a P doped emitter layer.
    Type: Application
    Filed: December 21, 2010
    Publication date: April 21, 2011
    Applicant: Fairchild Semiconductor Corporation
    Inventors: Joseph A. Yedinak, Richard L. Woodin, Christopher Lawrence Rexer, Praveen Muraleedharan Shenoy, Kwanghoon Oh, Chongman Yun
  • Publication number: 20090315040
    Abstract: A method and device for protecting wide bandgap devices from failing during suppression of voltage transients. An improvement in avalanche capability is achieved by placing one or more diodes, or a PNP transistor, across the blocking junction of the wide bandgap device.
    Type: Application
    Filed: August 6, 2009
    Publication date: December 24, 2009
    Inventors: Joseph A. Yedinak, Richard L. Woodin, Christopher Lawrence Rexer, Praveen Muraleedharan Shenoy, Kwanghoon Oh, Chongman Yun
  • Patent number: 7586156
    Abstract: A wide bandgap device in parallel with a device having a lower avalanche breakdown voltage and a higher forward voltage drop than the wide bandgap device.
    Type: Grant
    Filed: July 25, 2007
    Date of Patent: September 8, 2009
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Joseph A. Yedinak, Richard L. Woodin, Christopher Lawrence Rexer, Praveen Muraleedharan Shenoy, Kwanghoon Oh, Chongman Yun
  • Patent number: 7534683
    Abstract: A trench MOS-gated transistor is formed as follows. A first region of a first conductivity type is provided. A well region of a second conductivity type is then formed in an upper portion of the first region. A trench is formed which extends through the well region and terminates within the first region. Dopants of the second conductivity type are implanted along predefined portions of the bottom of the trench to form regions along the bottom of the trench which are contiguous with the well region such that when the transistor is in an on state the deeper portion of the well region prevents a current from flowing through those channel region portions located directly above the deeper portion of the well region.
    Type: Grant
    Filed: July 27, 2007
    Date of Patent: May 19, 2009
    Assignee: Fairchild Semiconductor Corporation
    Inventors: Praveen Muraleedharan Shenoy, Christopher Boguslaw Kocon