Patents by Inventor Bosco Lan

Bosco Lan 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: 7521360
    Abstract: A through hole (114) is formed in a wafer (104) comprising a semiconductor substrate (110). A seed layer (610) is sputtered on the bottom surface of the wafer. The seed is not deposited over the through hole's sidewalls adjacent the top surface of the wafer. A conductor (810) is electroplated into the through hole. In another embodiment, a seed is deposited into an opening in a wafer through a dry film resist mask (1110). The dry film resist overhangs the edges of the opening, so the seed is not deposited over the opening's sidewalls adjacent the top surface of the wafer. In another embodiment, a dielectric (120) is formed in an opening in a semiconductor substrate (110) by a non-conformal physical vapor deposition (PVD) process that deposits the dielectric on the sidewalls but not the bottom of the opening. A seed (610) is formed on the bottom by electroless plating. A conductor (810) is electroplated on the seed.
    Type: Grant
    Filed: October 10, 2006
    Date of Patent: April 21, 2009
    Assignee: Tru-Si Technologies, Inc.
    Inventors: Patrick A. Halahan, Sam Kao, Bosco Lan, Sergey Savastiouk, Oleg Siniaguine
  • Publication number: 20070128868
    Abstract: A through hole (114) is formed in a wafer (104) comprising a semiconductor substrate (110). A seed layer (610) is sputtered on the bottom surface of the wafer. The seed is not deposited over the through hole's sidewalls adjacent the top surface of the wafer. A conductor (810) is electroplated into the through hole. In another embodiment, a seed is deposited into an opening in a wafer through a dry film resist mask (1110). The dry film resist overhangs the edges of the opening, so the seed is not deposited over the opening's sidewalls adjacent the top surface of the wafer. In another embodiment, a dielectric (120) is formed in an opening in a semiconductor substrate (110) by a non-conformal physical vapor deposition (PVD) process that deposits the dielectric on the sidewalls but not the bottom of the opening. A seed (610) is formed on the bottom by electroless plating. A conductor (810) is electroplated on the seed.
    Type: Application
    Filed: October 10, 2006
    Publication date: June 7, 2007
    Inventors: Patrick Halahan, Sam Kao, Bosco Lan, Sergey Savastiouk, Oleg Siniaguine
  • Publication number: 20050170647
    Abstract: A through hole (114) is formed in a wafer (104) comprising a semiconductor substrate (110). A seed layer (610) is sputtered on the bottom surface of the wafer. The seed is not deposited over the through hole's sidewalls adjacent the top surface of the wafer. A conductor (810) is electroplated into the through hole. In another embodiment, a seed is deposited into an opening in a wafer through a dry film resist mask (1110). The dry film resist overhangs the edges of the opening, so the seed is not deposited over the opening's sidewalls adjacent the top surface of the wafer. In another embodiment, a dielectric (120) is formed in an opening in a semiconductor substrate (110) by a non-conformal physical vapor deposition (PVD) process that deposits the dielectric on the sidewalls but not the bottom of the opening. A seed (610) is formed on the bottom by electroless plating. A conductor (810) is electroplated on the seed.
    Type: Application
    Filed: February 10, 2005
    Publication date: August 4, 2005
    Inventors: Patrick Halahan, Sam Kao, Bosco Lan, Sergey Savastiouk, Oleg Siniaguine
  • Patent number: 6897148
    Abstract: A through hole (114) is formed in a wafer (104) comprising a semiconductor substrate (110). A seed layer (610) is sputtered on the bottom surface of the wafer. The seed is not deposited over the through hole's sidewalls adjacent the top surface of the wafer. A conductor (810) is electroplated into the through hole. In another embodiment, a seed is deposited into an opening in a wafer through a dry film resist mask (1110). The dry film resist overhangs the edges of the opening, so the seed is not deposited over the opening's sidewalls adjacent the top surface of the wafer. In another embodiment, a dielectric (120) is formed in an opening in a semiconductor substrate (110) by a non-conformal physical vapor deposition (PVD) process that deposits the dielectric on the sidewalls but not the bottom of the opening. A seed (610) is formed on the bottom by electroless plating. A conductor (810) is electroplated on the seed.
    Type: Grant
    Filed: April 9, 2003
    Date of Patent: May 24, 2005
    Assignee: Tru-Si Technologies, Inc.
    Inventors: Patrick A. Halahan, Sam Kao, Bosco Lan, Sergey Savastiouk, Oleg Siniaguine
  • Publication number: 20040203224
    Abstract: A through hole (114) is formed in a wafer (104) comprising a semiconductor substrate (110). A seed layer (610) is sputtered on the bottom surface of the wafer. The seed is not deposited over the through hole's sidewalls adjacent the top surface of the wafer. A conductor (810) is electroplated into the through hole. In another embodiment, a seed is deposited into an opening in a wafer through a dry film resist mask (1110). The dry film resist overhangs the edges of the opening, so the seed is not deposited over the opening's sidewalls adjacent the top surface of the wafer. In another embodiment, a dielectric (120) is formed in an opening in a semiconductor substrate (110) by a non-conformal physical vapor deposition (PVD) process that deposits the dielectric on the sidewalls but not the bottom of the opening. A seed (610) is formed on the bottom by electroless plating. A conductor (810) is electroplated on the seed.
    Type: Application
    Filed: April 9, 2003
    Publication date: October 14, 2004
    Inventors: Patrick A. Halahan, Sam Kao, Bosco Lan, Sergey Savastiouk, Oleg Siniaguine
  • Patent number: 6392290
    Abstract: In a semiconductor package for a chip having terminals on both sides, for example, a power MOSFET in which the gate and source terminals are on the front side and the drain terminal is on the back side, electrical contact is made with the back side terminal by extending vias, which can take the form of trenches, holes or other cavities, either entirely or patrially through the chip. The vias are filled with a metal or other electrically conductive material. The process is performed on the chips in a wafer simultaneously. The resulting package is compact and economical to manufacture and can readily be mounted, flip-chip style, on a printed circuit board.
    Type: Grant
    Filed: April 7, 2000
    Date of Patent: May 21, 2002
    Assignee: Siliconix Incorporated
    Inventors: Y. Mohammed Kasem, Yueh-Se Ho, Lee Shawn Luo, Chang-Sheng Chen, Eddy Tjhia, Bosco Lan, Jacek Korec, Anup Bhalla
  • Patent number: 5904525
    Abstract: A method for forming a trenched DMOS transistor with deep body regions that occupy minimal area on an epitaxial layer formed on a semiconductor substrate. A first oxide layer is formed over the epitaxial layer and patterned to define deep-body areas beneath which the deep body regions are to be formed. Next, diffusion-inhibiting regions of the first conductivity type are formed in each of the deep-body areas before forming a second oxide layer covering the deep-body areas and the remaining portion of the first oxide layer. Portions of the second oxide layer are then removed to expose the centers of the diffusion inhibiting regions, leaving the first oxide layer and oxide sidewall spacers from the second oxide layer to cover the peripheries of the diffusion-inhibiting regions. A deep-body diffusion of a second conductivity type is then performed, resulting in the formation of deep body regions in the epitaxial layer between the sidewall spacers.
    Type: Grant
    Filed: May 8, 1996
    Date of Patent: May 18, 1999
    Assignee: Siliconix incorporated
    Inventors: Fwu-Iuan Hshieh, Yueh-Se Ho, Bosco Lan, Jowei Dun