| Patent application number | Description | Published |
|---|
| 20090133254 | Components with posts and pads - A packaged microelectronic element includes connection component incorporating a dielectric layer ( | 05-28-2009 |
| 20100001410 | FLIP CHIP OVERMOLD PACKAGE - An integrated circuit (IC) package having a packaging substrate, an IC disposed onto the packaging substrate, and a rigid support member attached to the substrate layer through an adhesive spacer is provided. The packaging substrate includes multiple decoupling capacitors positioned thereon around the IC. A heat sink is placed over the IC. The rigid support member provides enhanced structural support for the IC packaging and there is ample space between a bottom surface of the rigid support member and the packaging substrate to allow the placement of the decoupling capacitors underneath the rigid support member. | 01-07-2010 |
| 20100193970 | MICRO PIN GRID ARRAY WITH PIN MOTION ISOLATION - A microelectronic package includes a microelectronic element having faces and contacts, a flexible substrate overlying and spaced from a first face of the microelectronic element, and a plurality of conductive terminals exposed at a surface of the flexible substrate. The conductive terminals are electrically interconnected with the microelectronic element and the flexible substrate includes a gap extending at least partially around at least one of the conductive terminals. In certain embodiments, the package includes a support layer, such as a compliant layer, disposed between the first face of the microelectronic element and the flexible substrate. In other embodiments, the support layer includes at least one opening that is at least partially aligned with one of the conductive terminals. | 08-05-2010 |
| 20100232129 | MICROELECTRONIC PACKAGES AND METHODS THEREFOR - A method of making a microelectronic assembly includes providing a microelectronic package having a substrate, a microelectronic element overlying the substrate and at least two conductive elements projecting from a surface of the substrate, the at least two conductive elements having surfaces remote from the surface of the substrate. The method includes compressing the at least two conductive elements so that the remote surfaces thereof lie in a common plane, and after the compressing step, providing an encapsulant material around the at least two conductive elements for supporting the microelectronic package and so that the remote surfaces of the at least two conductive elements remain accessible at an exterior surface of the encapsulant material. | 09-16-2010 |
| 20100258956 | MICROELECTRONIC PACKAGES AND METHODS THEREFOR - A microelectronic package includes a microelectronic element having faces and contacts, the microelectronic element having an outer perimeter, and a substrate overlying and spaced from a first face of the microelectronic element, whereby an outer region of the substrate extends beyond the outer perimeter of the microelectronic element. The microelectronic package includes a plurality of etched conductive posts exposed at a surface of the substrate and being electrically interconnected with the microelectronic element, whereby at least one of the etched conductive posts is disposed in the outer region of the substrate. The package includes an encapsulating mold material in contact with the microelectronic element and overlying the outer region of the substrate, the encapsulating mold material extending outside of the etched conductive posts for defining an outermost edge of the microelectronic package. | 10-14-2010 |
| 20110165733 | MICROELECTRONIC PACKAGES AND METHODS THEREFOR - A method of making a microelectronic assembly can include molding a dielectric material around at least two conductive elements which project above a height of a substrate having a microelectronic element mounted thereon, so that remote surfaces of the conductive elements remain accessible and exposed within openings extending from an exterior surface of the molded dielectric material. The remote surfaces can be disposed at heights from said surface of said substrate which are lower or higher than a height of the exterior surface of the molded dielectric material from the substrate surface. The conductive elements can be arranged to simultaneously carry first and second different electric potentials: e.g., power, ground or signal potentials. | 07-07-2011 |
| 20110204476 | Electronic Package with Fluid Flow Barriers - The present invention is directed to a method and electronic computer package that is formed by placing an integrated circuit, having a plurality of bonding pads with solder bumps deposited thereon, in contact with the substrate so that one of the plurality of solder bumps is in superimposition with respect to one of the contacts and one of the plurality of bonding pads, with a volume being defined between region of the substrate in superimposition with the integrated circuit. A portion of the volume is filled with a quantity of underfill. A fluid flow bather is formed on the substrate and defines a perimeter of the volume, defining a flow restricted region. The fluid flow barrier has dimensions sufficient to control the quantity of underfill egressing from the flow restricted region. | 08-25-2011 |
| 20110260320 | METHOD OF MAKING A CONNECTION COMPONENT WITH POSTS AND PADS - A packaged microelectronic element includes connection component incorporating a dielectric layer ( | 10-27-2011 |
