Patent application number | Description | Published |
20130007692 | TOOL AND METHOD FOR MODELING INTERPOSER RC COUPLINGS - A method comprises analyzing front side conductive patterns and back side conductive patterns on a semiconductor interposer using a machine implemented RC extraction tool, and outputting data representing a plurality of respective RC nodes from the RC extraction tool to a tangible persistent machine readable storage medium. A substrate mesh model of the semiconductor interposer is generated, having a plurality of substrate mesh nodes. Each substrate mesh node is connected to adjacent ones of the plurality of substrate mesh nodes by respective substrate impedance elements. A set of inputs to a timing analysis tool is formed. The plurality of RC nodes are connected to ones of the plurality of substrate mesh nodes of the substrate mesh model. The set of inputs is stored in a tangible machine readable storage medium. | 01-03-2013 |
20130038418 | CONTACTLESS COMMUNICATIONS USING FERROMAGNETIC MATERIAL - A communications structure comprises a first semiconductor substrate having a first coil, and a second semiconductor substrate having a second coil above the first semiconductor substrate. Inner edges of the first and second coils define a boundary of a volume that extends below the first coil and above the second coil. A ferromagnetic core is positioned at least partially within the boundary, such that a mutual inductance is provided between the first and second coils for wireless transmission of signals or power between the first and second coils. | 02-14-2013 |
20130161811 | 3D IC CONFIGURATION WITH CONTACTLESS COMMUNICATION - A package comprises a die stack having at least two stacked dies coupled for contactless communications with each other. At least one of the stacked dies has a substrate joined to its major face. The substrate has a plurality of conductive traces in or on the substrate for conducting power to the dies and for conducting heat from the dies. At least one conductive pillar is joined to at least one of the conductive traces on at least a first edge of the substrate, for conducting power to the at least one die and for conducting heat from the at least one die. | 06-27-2013 |
20130302942 | 3D IC CONFIGURATION WITH CONTACTLESS COMMUNICATION - A package comprises a die stack having at least two stacked dies coupled for contactless communications with each other. At least one of the stacked dies has a substrate joined to its major face. The substrate has a plurality of conductive traces in or on the substrate for conducting power to the dies and for conducting heat from the dies. At least one conductive pillar is joined to at least one of the conductive traces on at least a first edge of the substrate, for conducting power to the at least one die and for conducting heat from the at least one die. | 11-14-2013 |
20140256063 | CONTACTLESS COMMUNICATIONS USING FERROMAGNETIC MATERIAL - A communications structure comprises a first semiconductor substrate having a first coil, and a second semiconductor substrate having a second coil above the first semiconductor substrate. Inner edges of the first and second coils define a boundary of a volume that extends below the first coil and above the second coil. A ferromagnetic core is positioned at least partially within the boundary, such that a mutual inductance is provided between the first and second coils for wireless transmission of signals or power between the first and second coils. | 09-11-2014 |
20150084158 | THREE DIMENSIONAL CIRCUIT INCLUDING SHIELDED INDUCTOR AND METHOD OF FORMING SAME - The three dimensional (3D) circuit includes a first tier including a semiconductor substrate, a second tier disposed adjacent to the first tier, a three dimensional inductor including an inductive element portion, the inductive element portion including a conductive via extending from the first tier to a dielectric layer of the second tier. The 3D circuit includes a ground shield surrounding at least a portion of the conductive via. In some embodiments, the ground shield includes a hollow cylindrical cage. In some embodiments, the 3D circuit is a low noise amplifier. | 03-26-2015 |
20150249051 | THREE DIMENSIONAL CIRCUIT INCLUDING SHIELDED INDUCTOR AND METHOD OF FORMING SAME - The three dimensional (3D) circuit includes a first tier including a semiconductor substrate, a second tier disposed adjacent to the first tier, a three dimensional inductor including an inductive element portion, the inductive element portion including a conductive via extending from the first tier to a dielectric layer of the second tier. The 3D circuit includes a ground shield surrounding at least a portion of the conductive via. In some embodiments, the ground shield includes a hollow cylindrical cage. In some embodiments, the 3D circuit is a low noise amplifier. | 09-03-2015 |
20150311159 | ELECTROMAGNETIC BANDGAP STRUCTURE FOR THREE DIMENSIONAL ICS - An electromagnetic bandgap (EBG) cell comprises a plurality of first conductive line layers beneath a first integrated circuit (IC) die, wherein wires on at least one of the first conductive line layers are each connected to one of a high voltage source and a low voltage source and are oriented to form a first mesh structure at a bottom of the EBG cell. The EBG cell further comprises a pair of through-substrate-vias (TSVs) above the plurality of first conductive line layers, wherein the pair of TSVs penetrate the first IC die and are connected to a high voltage source and a low voltage source, respectively, and a pair of micro bumps above a dielectric layer above the pair of TSVs, wherein the micro bumps connect the TSVs of the first IC die with a plurality of second conductive line layers formed on a second IC die. | 10-29-2015 |