Patent application number | Description | Published |
20090271980 | METHOD FOR CONTROLLING WARPAGE IN REDISTRIBUTED CHIP PACKAGING PANELS - A method is disclosed for controlling warpage in an integrated electronic panel assembly including a plurality of die embedded within an encapsulant. The method comprises determining a number of build-up layers required for the integrated panel assembly. Each build-up layer contributes an amount of concavity to the integrated electronic panel assembly. A level of global convex warpage on the integrated panel assembly is then predicted, wherein the global convex warpage is provided by the presence of an embedded ground plane (EGP) alone within the integrated panel assembly and in the absence of any build-up layers. The embedded ground plane includes openings therein for accepting at least one die within a corresponding opening and it contributes a fixed amount of global convex warpage. An amount of local convex warpage to be introduced into the integrated electronic panel assembly is then determined, which together with the fixed amount of global convex warpage provides a combined convex warpage to the integrated electronic panel assembly. Accordingly, the global and local convex warpage counteract the concavity to be introduced subsequently by a build-up layer processing and is sufficient to enable subsequent planar processing of a completed integrated electronic panel assembly. | 11-05-2009 |
20100148357 | METHOD OF PACKAGING INTEGRATED CIRCUIT DIES WITH THERMAL DISSIPATION CAPABILITY | 06-17-2010 |
20110217814 | METHOD FOR SINGULATING ELECTRONIC COMPONENTS FROM A SUBSTRATE - Methods for forming electronic assemblies are provided. A device substrate having a plurality of electronic components embedded therein is provided. The device substrate is attached to a carrier substrate using an adhesive material. A plurality of cuts are formed through the device substrate to divide the device substrate into a plurality of portions. Each of the plurality of portions includes at least one of the electronic components. A force is applied to each of the plurality of portions in a direction away from the carrier substrate to remove the plurality of portions from the carrier substrate. | 09-08-2011 |
20120021565 | METHOD OF FORMING A PACKAGED SEMICONDUCTOR DEVICE - A method is used to form a packaged semiconductor device. A semiconductor device, which has an active surface, is placed in an opening of a circuit board. The circuit board has a first major surface and a second major surface having the opening, first vias that extend between the first major surface and the second major surface, first contact pads terminating the vias at the first major surface, and second contact pads terminating the vias at the second major surface. A dielectric layer is applied over the semiconductor device and the second major surface of the circuit board. An interconnect layer is formed over the dielectric layer. The interconnect layer has second vias electrically connected to the second contact pads, third vias that are electrically connected to the active surface of the semiconductor device, an exposed surface, and third contact pads at the exposed surface. | 01-26-2012 |
20120329212 | RECOVERY METHOD FOR POOR YIELD AT INTEGRATED CIRCUIT DIE PANELIZATION - A method for making a packaged integrated circuit is provided. The method includes making a first panel of encapsulated die. In some embodiments, if a threshold number of die are not positioned in proper positions in the first panel, the die are separated from the first panel. The separated die are subsequently encapsulated in other panels of encapsulated die. Conductive interconnects can be formed over the other panels. The other panels are then separated into integrated circuit packages. | 12-27-2012 |
20130020674 | FUSED BUSS FOR PLATING FEATURES ON A SEMICONDUCTOR DIE - A semiconductor structure includes a semiconductor substrate; a semiconductor device formed in and over the substrate; a plurality of interconnect layers over the semiconductor device; an interconnect pad over a top surface of the plurality of interconnect layers, wherein the interconnect pad is coupled to the semiconductor device through the plurality of interconnect layers; a contiguous seal ring surrounding the semiconductor device and extending vertically from the substrate to the top surface of the plurality of interconnect layers; and a fuse coupled between the interconnect pad and the seal ring, wherein the fuse is in a non-conductive state. | 01-24-2013 |
20130023091 | FUSED BUSS FOR PLATING FEATURES ON A SEMICONDUCTOR DIE - A method for forming a semiconductor structure includes forming a plurality of fuses over a semiconductor substrate; forming a plurality of interconnect layers over the semiconductor substrate and a plurality of interconnect pads at a top surface of the plurality of interconnect layers; and forming a seal ring, wherein the seal ring surrounds active circuitry formed in and on the semiconductor substrate, the plurality of interconnect pads, and the plurality of fuses, wherein each fuse of the plurality of fuses is electrically connected to a corresponding interconnect pad of the plurality of interconnect pads and the seal ring, and wherein when each fuse of the plurality of fuses is in a conductive state, the fuse electrically connects the corresponding interconnect pad to the seal ring. | 01-24-2013 |
20140077352 | Matrix Lid Heatspreader for Flip Chip Package - A method and apparatus are provided for manufacturing a lead frame based thermally enhanced flip chip package with an exposed heat spreader lid array ( | 03-20-2014 |
20140369015 | WARP COMPENSATED ELECTRONIC ASSEMBLIES - An electronic panel assembly (EPA) includes one or more electronic devices with primary faces having electrical contacts, opposed rear faces and edges therebetween. The devices are mounted primary faces down in openings in a warp control sheet (WCS). Cured plastic encapsulation is formed at least between lateral edges of the devices and WCS openings. Undesirable panel warping during encapsulation is mitigated by choosing the WCS coefficient of thermal expansion (CTE) to be less than the encapsulation CTE. Thin film insulators and conductors couple electrical contacts on various devices to each other and to external terminals, thereby forming an integrated multi-device EPA. | 12-18-2014 |