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Author

Tan Hien Boon

Bio: Tan Hien Boon is an academic researcher. The author has contributed to research in topics: Paddle. The author has an hindex of 1, co-authored 1 publications receiving 139 citations.
Topics: Paddle

Papers
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Patent
02 Aug 2001
TL;DR: In this paper, a new design for the die-paddle that is used as part of a package for packaging semiconductor devices is presented, which creates a space between the ground ring of the diepaddle and the surface over which the ground paddle is mounted.
Abstract: A new design is provided for the die-paddle that is used as part of a package for packaging semiconductor devices. The new design of the invention creates a space between the ground ring of the die-paddle and the surface over which the ground paddle is mounted. The new design further comprises an S-shaped segment between the ground ring and the center of the die-paddle, the S-shaped segment provides stress relieve between the ground ring and the center of the die-paddle.

139 citations


Cited by
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Patent
01 Aug 2008
TL;DR: In this article, the oxide semiconductor film has at least a crystallized region in a channel region, which is defined as a region of interest (ROI) for a semiconductor device.
Abstract: An object is to provide a semiconductor device of which a manufacturing process is not complicated and by which cost can be suppressed, by forming a thin film transistor using an oxide semiconductor film typified by zinc oxide, and a manufacturing method thereof. For the semiconductor device, a gate electrode is formed over a substrate; a gate insulating film is formed covering the gate electrode; an oxide semiconductor film is formed over the gate insulating film; and a first conductive film and a second conductive film are formed over the oxide semiconductor film. The oxide semiconductor film has at least a crystallized region in a channel region.

1,501 citations

Patent
01 Oct 2007
TL;DR: In this paper, a semiconductor package comprising a bottom semiconductor substrate and a top semiconductor top substrate is mounted to the package body and electrically connected to the conductive metal within the via(s) of the package.
Abstract: The present invention comprises a semiconductor package comprising a bottom semiconductor package substrate which is populated with one or more electronic components. The electronic component(s) of the bottom substrate are covered or encapsulated with a suitable mold compound which hardens into a package body of the semiconductor package. The package body is provided with one or more vias through the completion of laser drilling process, such via(s) providing access to one or more corresponding conductive contacts of the bottom substrate. These vias are either lined or partially filled with a conductive metal material. Subsequently, a top semiconductor package substrate (which may optionally be populated with one or more electronic components) is mounted to the package body and electrically connected to the conductive metal within the via(s) of the package body.

235 citations

Patent
13 Oct 2000
TL;DR: The Micro Lead Frame (MLF) as discussed by the authors allows the semiconductor packages to be stacked on top of each other, and the protruding parts of the leads form a space between the stacked semiconductor package for improved heat dissipation.
Abstract: Micro lead frame (MLF)-type semiconductor packages that allow the semiconductor packages to be stacked on top of each other. One aspect of the semiconductor package includes a leadframe, a plurality of electrical connectors, a semiconductor chip, and a sealing material for encapsulating the above components. The leadframe has a plurality of leads, with each one of the plurality of leads running from the top of the semiconductor package to the bottom of the semiconductor package. Each one of the plurality of leads has a top portion protruding from the top surface of the semiconductor package and a bottom portion protruding from the bottom surface of the semiconductor package. The leads allow for electrical connection of a second semiconductor package placed on top of the first semiconductor package. Further, the protruding parts of the leads form a space between the stacked semiconductor packages for improved heat dissipation.

229 citations

Patent
01 Mar 2006
TL;DR: In this article, a lead frame for making a semiconductor package is described, which includes a lead lock provided at a free end of each inner lead that is adapted to increase a bonding force of the inner lead to a resin encapsulate.
Abstract: A lead frame for making a semiconductor package is disclosed. The leadframe's leads include a lead lock provided at a free end of each inner lead that is adapted to increase a bonding force of the inner lead to a resin encapsulate, thereby effectively preventing a separation of the inner lead from occurring in a singulation process involved in the fabrication of the semiconductor package. A semiconductor package fabricated using the lead frame and a fabrication method for the semiconductor package are also disclosed. The lead frame includes a paddle, a plurality of tie bars for supporting the corners of the paddle, a plurality of leads arranged at each of four sides or two facing sides of the paddle in such a fashion that they are spaced apart from an adjacent side of the paddle while extending perpendicularly to the associated side of the paddle, each of the leads having lead separation preventing means adapted to increase a bonding force of the lead to a resin encapsulate subsequently molded to encapsulate the lead frame for fabrication of the semiconductor package, and dam bars for supporting the leads and the tie bars. Additional package embodiments include exposed protrusions extending downward from the leads. The exposed protrusions are irradiated with a laser to remove set resin prior to a solder ball attachment step.

178 citations

Patent
10 Jan 2003
TL;DR: In this paper, a mounting for a package containing a semiconductor chip is described, along with methods of making such a mounting, and the package is mounted on the substrate so that the cap is in the aperture, and a peripheral portion of the first side of the base is over the mounting surface so as to support the package in an aperture and allow the input/output terminals of the package to be juxtaposed with to the circuit patterns of the substrate.
Abstract: A mounting for a package containing a semiconductor chip is disclosed, along with methods of making such a mounting. The mounting includes a substrate having a mounting surface with conductive traces thereon, and an aperture extending through the substrate. The package includes a base, such as a leadframe or a laminate sheet, and input/output terminals. A chip is on a first side of the base and is electrically connected (directly or indirectly) to the input/output terminals. A cap, which may be a molded encapsulant, is provided on the first side of the base over the chip. The package is mounted on the substrate so that the cap is in the aperture, and a peripheral portion of the first side of the base is over the mounting surface so as to support the package in the aperture and allow the input/output terminals of the package to be juxtaposed with to the circuit patterns of the mounting surface. Because the cap is within the aperture, a height of the package above the mounting surface is minimized.

149 citations