GEM Services, Inc. Patent applications |
Patent application number | Title | Published |
20130105974 | SEMICONDUCTOR PACKAGE FEATURING FLIP-CHIP DIE SANDWICHED BETWEEN METAL LAYERS | 05-02-2013 |
20130017652 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE PACKAGE WITH A HEATSINK - Embodiments of the present invention relate to forming semiconductor device package with a heat sink. In one embodiment, a subassembly comprising a die attached to a lead frame is formed, a heat sink is provided in a molding cavity, and the subassembly is coupled to the heat sink while the heat sink is in the molding cavity. In certain embodiments, a second component of the lead frame can be substituted for the heat sink. Such techniques can simplify the manufacturing process for semiconductor packages having a heat sink or lead frame with a second component. | 01-17-2013 |
20130009297 | SEMICONDUCTOR DEVICE PACKAGE HAVING CONFIGURABLE LEAD FRAME FINGERS - Embodiments of the present invention relate to the use of configurable lead frame fingers in a semiconductor device package. More specifically, the lead frame of a device package can include a plurality of fingers used to support and provide electrical contact to the die. The die can include a plurality of contacts that comprise a series of parallel columns located a certain distance from one another, and the fingers of the lead frame can be configured to align with the contacts. The lead frame can have multiple terminals, each with one or more fingers and pins. As such, each lead frame configuration may be utilized with different configurations of die. | 01-10-2013 |
20130009296 | SEMICONDUCTOR DEVICE PACKAGE HAVING FEATURES FORMED BY STAMPING - Embodiments of the present invention relate to the use of stamping to form features on a lead frame of a semiconductor device package. The lead frame can include a plurality of terminals with stamped features at edges of the terminals. The stamped features can include flattened portions that are thinner than other portions of the terminals and extend laterally beyond the edges of the terminals. Such stamped features can help mechanically interlock the terminals with the plastic molding of the package body. The stamped features can include patterns and/or other features that may further increase interlocking between the terminals and the package body. | 01-10-2013 |
20120181677 | SEMICONDUCTOR DEVICE PACKAGE WITH TWO COMPONENT LEAD FRAME - Embodiments of the present invention relate to the use of stamping to form features on a lead frame of a semiconductor device package. In one embodiment, portions of the lead frame such as pins are moved out of the horizontal plane of a diepad by stamping. In certain embodiments, indentations or a complex cross-sectional profile, such as chamfered, may be imparted to portions of the pins and/or diepad by stamping. The complexity offered by such a stamped cross-sectional profile serves to enhance mechanical interlocking of the lead frame within the plastic molding of the package body. Other techniques such as selective electroplating and/or formation of a brown oxide guard band to limit spreading of adhesive material during die attach, may be employed alone or in combination to facilitate fabrication of a package having such stamped features. | 07-19-2012 |
20120056261 | BI-DIRECTIONAL, REVERSE BLOCKING BATTERY SWITCH - Embodiments of the present invention relate to an improved package for a bi-directional and reverse blocking battery switch. According to one embodiment, two switches are oriented side-by-side, rather than end-to-end, in a die package. This configuration reduces the total switch resistance for a given die area, often reducing the resistance enough to avoid the use of backmetal in order to meet resistance specifications. Elimination of backmetal reduces the overall cost of the die package and removes the potential failure modes associated with the manufacture of backmetal. Embodiments of the present invention may also allow for more pin connections and an increased pin pitch. This results in redundant connections for higher current connections, thereby reducing electrical and thermal resistance and minimizing the costs of manufacture or implementation of the die package. | 03-08-2012 |
20110291254 | SEMICONDUCTOR DEVICE PACKAGE FEATURING ENCAPSULATED LEADFRAME WITH PROJECTING BUMPS OR BALLS - Embodiments of the present invention relate to semiconductor device packages featuring encapsulated leadframes in electrical communication with at least one die through electrically conducting bumps or balls and electrically conducting ribbons. Embodiments of the present invention may permit multiple die and/or multiple passive devices to occupy space in the package previously consumed by the diepad. The result is a flexible packaging process allowing the combination of die and technologies required for complete sub-systems in a conventional small JEDEC specified footprint. | 12-01-2011 |
20110024886 | SEMICONDUCTOR DEVICE PACKAGE HAVING FEATURES FORMED BY STAMPING - Embodiments of the present invention relate to the use of stamping to form features on a lead frame of a semiconductor device package. In one embodiment, portions of the lead frame such as pins are moved out of the horizontal plane of a diepad by stamping. In certain embodiments, indentations or a complex cross-sectional profile, such as chamfered, may be imparted to portions of the pins and/or diepad by stamping. The complexity offered by such a stamped cross-sectional profile serves to enhance mechanical interlocking of the lead frame within the plastic molding of the package body. Other techniques such as selective electroplating and/or formation of a brown oxide guard band to limit spreading of adhesive material during die attach, may be employed alone or in combination to facilitate fabrication of a package having such stamped features. | 02-03-2011 |
20100140762 | INTERCONNECTION OF LEAD FRAME TO DIE UTILIZING FLIP CHIP PROCESS - Embodiments in accordance with the present invention relate to techniques which avoid the problems of deformation in the shape of a solder connection in a flip chip package, resulting from solder reflow. In one embodiment, a solder-repellent surface is created adjacent to the solder to constrain the reflow and thereby maintain the vertical profile of the solder. Examples of such a solder-repellent surface include an oxide (such as Brown Oxide) of the lead frame, or a tape (such as Kapton) which is used as a dam bar to control/constrain the solder flow on the leads prior to the encapsulation step. In another embodiment, the solder connection may be formed from at least two components. The first component may reflow at high temperatures to provide the necessary adhesion between solder ball and the die, with the second component reflowing at a lower temperature to provide the necessary adhesion between the solder ball and the leads. An example of such multi-component connections include a first high temperature reflow solder ball paired with a second low temperature reflow solder. Another example includes a solder ball with a hard core (such as Cu, stainless steel, or a plastic material stable at high temperatures) coated with a lower temperature reflow material. | 06-10-2010 |
20090283919 | SEMICONDUCTOR PACKAGE FEATURING FLIP-CHIP DIE SANDWICHED BETWEEN METAL LAYERS - Embodiments in accordance with the present invention relate to flip-chip packages for semiconductor devices, which feature a die sandwiched between metal layers. One metal layer comprises portions of the lead frame configured to be in electrical and thermal communication with various pads on a first surface of the die (e.g. IC pads or MOSFET gate or source pads) through a solder ball contact. The other metal layer is configured to be in at least thermal communication with the opposite side of the die. Embodiments of packages in accordance with the present invention exhibit superior heat dissipation qualities, while avoiding the expense of wire bonding. Embodiments of the present invention are particularly suited for packaging of power devices. | 11-19-2009 |
20090273065 | INTERCONNECTION OF LEAD FRAME TO DIE UTILIZING FLIP CHIP PROCESS - Embodiments in accordance with the present invention relate to techniques which avoid the problems of deformation in the shape of a solder connection in a flip chip package, resulting from solder reflow. In one embodiment, a solder-repellent surface is created adjacent to the solder to constrain the reflow and thereby maintain the vertical profile of the solder. Examples of such a solder-repellent surface include an oxide (such as Brown Oxide) of the lead frame, or a tape (such as Kapton) which is used as a dam bar to control/constrain the solder flow on the leads prior to the encapsulation step. In another embodiment, the solder connection may be formed from at least two components. The first component may reflow at high temperatures to provide the necessary adhesion between solder ball and the die, with the second component reflowing at a lower temperature to provide the necessary adhesion between the solder ball and the leads. An example of such multi-component connections include a first high temperature reflow solder ball paired with a second low temperature reflow solder. Another example includes a solder ball with a hard core (such as Cu, stainless steel, or a plastic material stable at high temperatures) coated with a lower temperature reflow material. | 11-05-2009 |
20090250796 | SEMICONDUCTOR DEVICE PACKAGE HAVING FEATURES FORMED BY STAMPING - Embodiments of the present invention relate to the use of stamping to form features on a lead frame of a semiconductor device package. In one embodiment, portions of the lead frame such as pins are moved out of the horizontal plane of a diepad by stamping. In certain embodiments, indentations or a complex cross-sectional profile, such as chamfered, may be imparted to portions of the pins and/or diepad by stamping. The complexity offered by such a stamped cross-sectional profile serves to enhance mechanical interlocking of the lead frame within the plastic molding of the package body. Other techniques such as selective electroplating and/or formation of a brown oxide guard band to limit spreading of adhesive material during die attach, may be employed alone or in combination to facilitate fabrication of a package having such stamped features. | 10-08-2009 |
20080217662 | Space-efficient package for laterally conducting device - Efficient utilization of space in a laterally-conducting semiconductor device package is enhanced by creating at least one supplemental downbond pad portion of the diepad for receiving the downbond wire from the ground contact of the device. The supplemental diepad portion may occupy area at the end or side of the package formerly occupied by non-integral leads. By receiving the substrate downbond wire, the supplemental diepad portion allows a greater area of the main diepad to be occupied by a die having a larger area, thereby enhancing space efficiency of the package. | 09-11-2008 |