Patents by Inventor Fu-Yuan Hsieh

Fu-Yuan Hsieh 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: 7626231
    Abstract: A trench MOSFET in parallel with trench junction barrier Schottky rectifier with trench contact structures is formed in single chip. The present invention solves the drawback brought by some prior arts, for example, the large area occupied by planar contact structure and high gate-source capacitance. As the electronic devices become more miniaturized, the trench contact structures of this invention are able to be shrunk to achieve low specific on-resistance of Trench MOSFET, and low Vf and reverse leakage current of the Schottky Rectifier.
    Type: Grant
    Filed: June 23, 2008
    Date of Patent: December 1, 2009
    Assignee: Force Mos Technology Co., Ltd.
    Inventor: Fu-Yuan Hsieh
  • Publication number: 20090267140
    Abstract: A trench Metal-Oxide-Semiconductor Field Effect Transistor (MOSFET) structure with guard ling, includes: a substrate including an epi layer region on the top thereof a plurality of source and body regions formed in the epi layer; a metal layer including a plurality of metal layer regions which are connected to respective source and body regions forming metal connections of the MOSFET; a plurality of contact metal plugs connected to respective metal layer regions; a plurality of gate structure filled with polysilicon to be formed on top of the epi layer; an insulating layer deposited on the epi layer formed underneath the metal layer with a plurality of metal contact holes therein for contacting respective source and body regions; and a guard ring wrapping around the trench gates with contact metal plug underneath the gate metal layer
    Type: Application
    Filed: April 29, 2008
    Publication date: October 29, 2009
    Inventor: Fu-Yuan HSIEH
  • Publication number: 20090267143
    Abstract: A trenched MOSFET (Metal-Oxide-Semiconductor Field Effect Transistor) with a guard ring and a channel stop, including: a substrate including an epi layer region on the top thereof; a plurality of source and body regions formed in the epi layer; a metal layer including a plurality of metal layer regions which are connected to respective source and body, and gate regions forming metal connections of the MOSFET; a plurality of metal contact plugs connected to respective metal layer regions; a plurality of gate structure filled with polysilicon to form a plurality of trenched gates on top of epi layer; an insulating layer deposited on the epi layer formed underneath the metal layer with a plurality of metal contact holes therein for contacting respective source and body regions; a guard ring wrapping around the metal layer corresponding to the gate region at the termination; and a channel stop which is a heavier N-type doping region aside the guard ring at the termination; Wherein the contact plugs connecting to
    Type: Application
    Filed: April 29, 2008
    Publication date: October 29, 2009
    Inventor: Fu-Yuan HSIEH
  • Publication number: 20090212359
    Abstract: A trenched MOSFET with trenched source contact, comprising: a semiconductor region, further comprising a silicon substrate, a epitaxial layer corresponding to the drain region of the trenched MOSFET, a base layer corresponding to the body region of the trenched MOSFET, and a source layer corresponding to the source region of the trenched MOSFET; an interlayer oxide film formed on the source layer; a front metal layer formed on a upper surface of the semiconductor region; a back metal layer formed on a lower surface of the semiconductor region; a plurality of trenched gates formed to reach the epitaxial layer through the source layer and the base layer, and is covered by the interlayer oxide film; and a plurality of source contact trenches formed to reach the base layer through the interlayer oxide film and the source layer, and is covered by the front metal layer; wherein the silicon substrate, the epitaxial layer, the base layer, and the source layer are stacked in sequence; and each of the source contact tr
    Type: Application
    Filed: February 23, 2008
    Publication date: August 27, 2009
    Applicant: FORCE MOS TECHNOLOGY CO. LTD.
    Inventor: Fu-Yuan Hsieh
  • Publication number: 20090212321
    Abstract: A trench PT IGBT (or NPT IGBT) having clamp diodes for ESD protection and prevention of shortage among gate, emitter and collector. The clamp diodes comprise multiple back-to-back Zener Diode composed of doped regions in a polysilicon layer doped with dopant ions of a first conductivity type next to a second conductivity type disposed on an insulation layer above said semiconductor power device. Trench gates are formed underneath the contact areas of the clamp diodes as the buffer layer for prevention of shortage.
    Type: Application
    Filed: April 15, 2009
    Publication date: August 27, 2009
    Applicant: FORCE MOS TECHNOLOGY CO. LTD.
    Inventor: FU-YUAN HSIEH
  • Publication number: 20090212354
    Abstract: A trench DMOS transistor having overvoltage protection and prevention for shortage between gate and source when contact trenches are applied includes a substrate of a first conductivity type and a body region of a second conductivity type formed over the substrate. Trench gates extend through the body region and the substrate. An insulating oxide layer lines the trench and overlies the body region. A conductive electrode is deposited in the trench so that it overlies the insulating layer. A source region of the first conductivity type is formed in the body region adjacent to the trench. An undoped polysilicon layer overlies a portion of the insulating layer defining the Zener diode region. A plurality of cathode regions of the first conductivity type is formed in undoped polysilicon layer. At least one anode region is in contact with adjacent ones of the plurality of cathode regions. Trench gates underneath the Zener diode act as the buffer layer for prevention of shortage between gate and source.
    Type: Application
    Filed: February 23, 2008
    Publication date: August 27, 2009
    Applicant: FORCE MOS TECHNOLOGY CO. LTD
    Inventor: Fu-Yuan Hsieh
  • Publication number: 20080169505
    Abstract: A trench MOSFET with copper metal connections is disclosed. A substrate is provided with a plurality of trenches. A gate oxide layer is formed on the sidewalls and bottoms of the trenches. A conductive layer is filled in the trenches to be used as a gate of the MOSFET. A plurality of source and body regions are formed in an epi layer. An insulating layer is formed on the epi layer and formed with a plurality of metal contact holes therein for contacting respective source and body regions. A barrier metal layer is formed on the sidewalls and bottoms of the metal contact holes in direct contact with respective source and body regions. A metal contact layer is filled in the metal contact holes. A copper metal layer is formed on another barrier metal layer on the insulating layer connected to respective source regions through the metal contact layer to form metal connections of the MOSFET.
    Type: Application
    Filed: August 30, 2007
    Publication date: July 17, 2008
    Inventor: Fu-Yuan Hsieh