Patent application number | Description | Published |
20080258291 | Semiconductor Packaging With Internal Wiring Bus - A packaged semiconductor includes inner bond fingers, at least first and second semiconductor dies, and an interposer. The packaged semiconductor further includes wiring between the first and second semiconductor dies and the inner bond fingers, wiring between the interposer and the inner bond fingers, and wiring between the interposer and the first and second semiconductor dies. The wiring between the interposer and the first and second semiconductor dies thereby reduces the count of inner bond fingers needed for the wiring between the first and second semiconductor dies and the inner bond fingers. The interposer further provides indirect access to the inner bond fingers when the inner bond fingers are inaccessible by the first and second semiconductor dies. | 10-23-2008 |
20090269891 | THERMAL ENHANCED PACKAGE - A method of manufacturing an integrated circuit package. The method includes attaching a first surface of a semiconductor die to a thermally and/or electrically conductive substrate, forming a plurality of die connectors on a second surface of the semiconductor die, and encapsulating the semiconductor die and the plurality of die connectors in an encapsulant material. The method also includes removing a portion of the encapsulant material to expose one or more of the plurality of die connectors, thereby forming a routing surface. The method further includes forming a plurality of conductive traces on the routing surface. Each of the plurality of conductive traces is characterized by a first portion in electrical communication with one of the plurality of die connectors and a second portion in electrical communication with a package connector. | 10-29-2009 |
20100283143 | Die Exposed Chip Package - This disclosure describes a chip package. In one embodiment, a semiconductor chip package includes a thermal dissipater placed on top of an integrated-circuit die, the thermal dissipater having a same or similar coefficient of thermal expansion as that of the integrated-circuit die. | 11-11-2010 |
20110012240 | Multi-Connect Lead - This disclosure describes a multi-connect lead providing multiple connections using one external pin. In one embodiment, a lead frame for a lead-frame-based chip package includes a multi-connect lead that uses one external pin and enables multiple electrical connections to an integrated circuit die. | 01-20-2011 |
20130011964 | THERMAL ENHANCED PACKAGE - A method of manufacturing an integrated circuit package. The method includes attaching a first surface of a semiconductor die to a thermally and/or electrically conductive substrate, forming a plurality of die connectors on a second surface of the semiconductor die, and encapsulating the semiconductor die and the plurality of die connectors in an encapsulant material. The method also includes removing a portion of the encapsulant material to expose one or more of the plurality of die connectors, thereby forming a routing surface. The method further includes forming a plurality of conductive traces on the routing surface. Each of the plurality of conductive traces is characterized by a first portion in electrical communication with one of the plurality of die connectors and a second portion in electrical communication with a package connector. | 01-10-2013 |
20130045573 | CHIP ON LEADS - Described herein are microelectronic packages including a plurality of bonding fingers and multiple integrated circuit chips, at least one integrated circuit chip being mounted onto the bonding fingers. According to various embodiments of the present invention, mounting the integrated circuit chip onto the bonding fingers may reduce the pin-out count by allowing multiple integrated circuit chips to be interconnected within the same microelectronic package. Other embodiments may be described and claimed. | 02-21-2013 |
20130193572 | BALL GRID ARRAY PACKAGE SUBSTRATE WITH THROUGH HOLES AND METHOD OF FORMING SAME - In accordance with an embodiment, there is provided a substrate of a ball grid array package that includes a first layer including reinforcement fibers. The reinforcement fibers reinforce the first layer such that the first layer has a higher tensile strength relative to a layer in the ball grid array package that is free of reinforcement fibers. In an embodiment, the substrate comprises a second layer disposed adjacent to the first layer with the second layer being free of reinforcement fibers. In an embodiment, the substrate also includes a through hole penetrating each of the first layer and the second layer. The through hole penetrates each of the first layer and the second layer based on each of the first layer and the second layer having been drilled in accordance with a mechanical drilling process. | 08-01-2013 |
20140069703 | DUAL ROW QUAD FLAT NO-LEAD SEMICONDUCTOR PACKAGE - Some of the embodiments of the present disclosure provide a Quad Flat No-Lead package comprising: an outer row of outer peripheral leads disposed on an outer periphery of a bottom surface of the Quad Flat No-Lead package; and an inner row of inner peripheral leads disposed on an inner periphery of the bottom surface of the Quad Flat No-Lead package, wherein each of the inner peripheral leads has a substantially rectangular shape, and wherein the substantially rectangular shape has two rounded corners adjacent to the outer row of outer peripheral leads. | 03-13-2014 |