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Kee, MY

Cheng Sim Kee, Penang MY

Patent application number	Description	Published
20080308947	Die offset die to die bonding - A semiconductor die is provided on a spacer, the die having first and second opposite edges which extend beyond respective first and second opposite edges of the spacer, the first edge of the die extending beyond the first edge of the spacer to a lesser extent than the second edge of the die extends beyond the second edge of the spacer. Furthermore, a first semiconductor die has a plurality of bond pads thereon, a second semiconductor die has a plurality of bond pads thereon, and a substrate has a plurality of bond pads thereon. Each of a first plurality of wires connects a bond pad on the first semiconductor die with a bond pad on the second semiconductor die, and each of a second plurality of wires connects a bond pad on the second semiconductor die with a bond pad on the substrate.	12-18-2008
20080318364	PROCESS APPLYING DIE ATTACH FILM TO SINGULATED DIE - Methods and systems of applying a plurality of pieces of die attach film to a plurality of singulated dice are provided. The method can involve making intervals between rows and columns of a plurality of pieces of die attach film. The interval can be made by expanding an underlaid expandable film on which the plurality of pieces of die attach film are placed or by removing portions of the die attach film between rows and columns of the plurality of pieces of die attach film. The method can further involve placing a plurality of singulated dice back side down on the plurality of pieces of die attach film.	12-25-2008
20090051043	DIE STACKING IN MULTI-DIE STACKS USING DIE SUPPORT MECHANISMS - Systems, methods, and devices that facilitate stacking dies in a multi-die stack using die support mechanisms (DSMs) are presented. DSMs are employed to place a smaller die and attached wires underneath a larger die. DSMs can be placed on each side of the smaller die where the larger die overhangs when placed above the smaller die. The DSMs can be optimally sized to provide support to the larger die to reduce overhang and sagging, while providing a buffer region to protect the smaller die and associated wires. DSMs are employed to facilitate stacking dies that are the same or similar in size by placing a DSM between the dies. The DSM can be optimally sized to provide a buffer region to protect the wires bonded to the top side of the lower die from the upper die, while minimizing overhang to provide support to the upper die.	02-26-2009
20090091043	Die offset die to die bonding - A semiconductor die is provided on a spacer, the die having first and second opposite edges which extend beyond respective first and second opposite edges of the spacer, the first edge of the die extending beyond the first edge of the spacer to a lesser extent than the second edge of the die extends beyond the second edge of the spacer. Furthermore, a first semiconductor die has a plurality of bond pads thereon, a second semiconductor die has a plurality of bond pads thereon, and a substrate has a plurality of bond pads thereon. Each of a first plurality of wires connects a bond pad on the first semiconductor die with a bond pad on the second semiconductor die, and each of a second plurality of wires connects a bond pad on the second semiconductor die with a bond pad on the substrate.	04-09-2009
20090093084	Die offset die to bonding - A semiconductor die is provided on a spacer, the die having first and second opposite edges which extend beyond respective first and second opposite edges of the spacer, the first edge of the die extending beyond the first edge of the spacer to a lesser extent than the second edge of the die extends beyond the second edge of the spacer. Furthermore, a first semiconductor die has a plurality of bond pads thereon, a second semiconductor die has a plurality of bond pads thereon, and a substrate has a plurality of bond pads thereon. Each of a first plurality of wires connects a bond pad on the first semiconductor die with a bond pad on the second semiconductor die, and each of a second plurality of wires connects a bond pad on the second semiconductor die with a bond pad on the substrate.	04-09-2009

Cheng Sim Kee, Bayan Lepas MY

Patent application number	Description	Published
20090001599	DIE ATTACHMENT, DIE STACKING, AND WIRE EMBEDDING USING FILM - Systems, methods, and/or devices that facilitate stacking dies in a multi-die stack using film over wire and attaching a die to a substrate are presented. Film over wire (FOW) techniques can be employed to facilitate stacking dies that are the same or similar in size such that the wires bonded onto the lower die can be embedded in film used to attach the two dies. FOW techniques can also be employed to embed a smaller die and wires attached thereto in film underneath a larger die stacked on top of the lower die such that the larger die can be supported by the film in areas where the larger die would otherwise overhang. Die attach film can be utilized to facilitate attaching a die to a substrate such that all areas between the die and substrate are filled thereby reducing or eliminating delamination.	01-01-2009

Kia Yaw Kee, Sarawak MY

Patent application number	Description	Published
20100213545	MOS TRANSISTOR WITH A P-FIELD IMPLANT OVERLYING EACH END OF A GATE THEREOF - The present invention provides a method for fabricating a MOS transistor (	08-26-2010

Kia Yaw Kee, Kuching MY

Patent application number	Description	Published
20110198690	TRANSISTOR - A Metal Oxide Semiconductor (MOS) transistor comprising: a source; a gate; and a drain, the source, gate and drain being located in or on a well structure of a first doping polarity located in or on a substrate; wherein at least one of the source and the drain comprises a first structure comprising: a first region forming a first drift region, the first region being of a second doping polarity opposite the first doping polarity; a second region of the second doping polarity in or on the first region, the second region being a well region and having a doping concentration which is higher than the doping concentration of the first region; and a third region of the second doping polarity in or on the second region. Due to the presence of the second region the transistor may have a lower ON resistance when compared with a similar transistor which does not have the second region. The breakdown voltage may be influenced only to a small extent.	08-18-2011

Kia Yaw Kee, Kota Samarahan MY

Patent application number	Description	Published
20120126377	SEMICONDUCTOR DEVICE - A semiconductor device comprising: a p or p+ doped portion; an n or n+ doped portion separated from the p or p+ doped portion by a semiconductor drift portion; an insulating portion provided adjacent the drift portion and at least one of the doped portions in a region where the drift portion and said at least one doped portion meet; and at least one additional portion which is arranged for significantly reducing the variation of the electric field strength in said region when a voltage difference is applied between the doped portions.	05-24-2012

Kim Seng Kee, Kuala Lumpur MY

Patent application number	Description	Published
20100198881	METHOD OF DATA STORAGE AND MANAGEMENT - The present invention relates to a method of electronic data storage, integration, management, retrieval and organization that mimics the physical filing system through the use of account-centric non-table driven methodologies. The method of the present invention stores data related to the same account in an account-centric ledger file, where such ledger is a virtual folder that is being implemented using DBMS as the filing apparatus. The data as stored in the ledger can be retrieved as a whole when requested. Another embodiment of the present invention relates to a computer program having a module where execution of said module generates the method for storing, integrating, managing, retrieving and organizing data in accordance with the present invention.	08-05-2010