Patents by Inventor David Laudick

David Laudick 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).

  • Publication number: 20070023488
    Abstract: A method of making an electronic assembly comprising an electronic component that is attached to a circuit board by protruding solder bumps of the electronic component places the electronic component on a surface of the circuit board so that solder bumps on the bottom of the electronic component engage contact pads on the top of the circuit board. The solder bumps are then reflowed to attach the electronic component to the circuit board after which the electronic component is underfilled by providing a mold die having a mold cavity, a gate leading into the mold cavity and a vent leading out of the mold cavity. The mold die is placed over the electronic component and onto the surface of the circuit board so that the electronic component is inside the mold cavity and the mold cavity is sealed.
    Type: Application
    Filed: July 26, 2005
    Publication date: February 1, 2007
    Inventors: Daniel Lawlyes, David Laudick
  • Publication number: 20060292751
    Abstract: A technique for manufacturing an electronic assembly uses a mold that has a first mold portion and a second mold portion. The first mold portion includes a plurality of spaced mold pins extending from an inner surface. A cavity of the first and second mold portions provides a mold cavity, when joined. A backplate is also provided that includes a plurality of support pedestals and an integrated heatsink extending from a first side of the backplate. A substrate includes a first side of an integrated circuit (IC) die mounted to a first side of the substrate. The backplate and the substrate are placed within the cavity of the second mold portion and the support pedestals are in contact with the first side of the substrate. The first and second mold portions are joined and the mold pins contact a second surface of the substrate during an overmolding process.
    Type: Application
    Filed: June 27, 2005
    Publication date: December 28, 2006
    Inventors: Scott Brandenburg, David Laudick, Thomas Degenkolb, Matthew Walsh, Jeenhuei Tsai
  • Publication number: 20060281230
    Abstract: A technique for manufacturing an electronic assembly includes a number of steps. Initially, a backplate with a cavity formed into a first side of the backplate is provided. Next, a substrate with a first side of an integrated circuit (IC) die mounted to a first side of the substrate is provided. The IC die is electrically connected to one or more of a plurality of electrically conductive traces formed on the first side of the substrate. The substrate includes a hole approximate an outer edge of the IC die. The first side of the substrate is then positioned in contact with at least a portion of the first side of the backplate. The IC die is positioned within the cavity with a second side of the IC die in thermal contact with the backplate. The substrate and at least a portion of the backplate are overmolded with an overmold material, which enters the cavity through the hold to substantially underfill the IC die and substantially fill an unoccupied portion of the cavity.
    Type: Application
    Filed: June 13, 2005
    Publication date: December 14, 2006
    Inventors: Scott Brandenburg, David Laudick
  • Publication number: 20060171120
    Abstract: An overmolded electronic assembly includes a substrate, a plurality of surface mount technology (SMT) integrated circuit (IC) chips, a plurality of heat sinks, a backplate and an overmold material. The substrate includes a plurality of conductive traces formed on a first surface of the substrate. The IC chips each include an active front side and a backside and the IC chips are electrically coupled to one or more of the traces. The heat sinks are each in thermal contact with the backside of a different one of the IC chips and are independent of each other. The backplate is attached to a second surface of the substrate, which is opposite the first surface of the substrate. The overmold material covers the first surface of the substrate and maintains the heat sinks in thermal contact with an associated one of the IC chips.
    Type: Application
    Filed: January 28, 2005
    Publication date: August 3, 2006
    Inventors: Larry Mandel, David Laudick
  • Publication number: 20060083869
    Abstract: This invention generally relates to decorative spinners. More specifically, this invention relates to a spinner apparatus rotated about its vertical axis, either by wind blowing across its face or in a second embodiment, spun by a motor drive unit. The spinner apparatus consists of a number or set of letters or other decorative symbol or logo on or in a pad centered between concentric bands of tinted transparent material coated metal which are connected at the top and bottom and progressively radially displaced about their vertical axis as they approach the inner band. When the device is spun either by the wind blowing it or by an electric motor, the numbers, letters or symbols stand out and appear to be stationary in the line of sight of the viewer and the bands progressively rotated off the plane of the outside band and the center detail provide an interesting wind catching and light reflecting three dimensional shape.
    Type: Application
    Filed: October 15, 2004
    Publication date: April 20, 2006
    Inventor: David Laudick
  • Publication number: 20050014312
    Abstract: A thermally conductive film is attached to an integrated circuit (IC) wafer through a number of steps. Initially, a thermally conductive film is positioned on a first side of a block. Next, an IC wafer that includes a plurality of chips is positioned with its non-active side in contact with the film. Then, a first surface of an elastomer pad is positioned in contact with an active side of the wafer. Next, a predetermined pressure is applied between a second side of the block that is opposite the first side and a second surface of the elastomer pad that is opposite the first surface. Finally, the film, the block, the wafer and the elastomer pad are heated to a predetermined temperature for a predetermined time while a predetermined pressure is applied to bond the film to the wafer without bonding the film to the block.
    Type: Application
    Filed: July 14, 2003
    Publication date: January 20, 2005
    Inventors: Scott Brandenburg, David Laudick