Patent application number | Description | Published |
20120313217 | SEAL RING STRUCTURE WITH CAPACITOR - A semiconductor device is disclosed. The semiconductor device includes a semiconductor substrate of a conductivity type having a chip region enclosed by a seal ring region. An insulating layer is on the semiconductor substrate. A seal ring structure is embedded in the insulating layer corresponding to the seal ring region. A capacitor is disposed under the seal ring structure and is electrically connected thereto, wherein the capacitor includes a body of the semiconductor substrate. | 12-13-2012 |
20120326263 | SEMICONDUCTOR DIODE - A semiconductor diode includes a semiconductor substrate having a lightly doped region with a first conductivity type therein. A first heavily doped region with a second conductivity type opposite to the first conductivity type is in the lightly doped region. A second heavily doped region with the first conductivity type is in the lightly doped region and is in direct contact with the first heavily doped region. A first metal silicide layer is on the semiconductor substrate and is in direct contact with the first heavily doped region. A second metal silicide layer is on the semiconductor substrate and is in direct contact with the second heavily doped region. The second metal silicide layer is spaced apart from the first metal silicide layer. | 12-27-2012 |
20130001734 | SCHOTTKY DIODE STRUCTURE - A Schottky diode structure includes a semiconductor substrate having an anode region and a cathode region. A lightly doped region with a predetermined conductivity type is in the semiconductor substrate. A metal contact overlies the lightly doped region and corresponds to the cathode region to serve as a cathode. A metal silicide layer is beneath and electrically connected to the metal contact, wherein the metal silicide layer, directly under the metal contact, is in direct contact with the lightly doped region. A heavily doped region with the predetermined conductivity type is in the lightly doped region and corresponds to the anode region to serve as an anode. | 01-03-2013 |
20130002375 | TRANSMISSION LINE STRUCTURE WITH LOW CROSSTALK - A transmission line structure is disclosed. The structure includes at least one signal transmission line and a pair of ground transmission lines embedded in a first level of a dielectric layer on a substrate, wherein the pair of ground transmission lines are on both sides of the signal transmission line. A first ground layer is embedded in a second level lower than the first level of the dielectric layer and a second ground layer is embedded in a third level higher than the first level of the dielectric layer. First and second pairs of via connectors are embedded in the dielectric layer, wherein the first pair of via connectors electrically connects the pair of ground transmission lines to the first ground layer and the second pair of via connectors electrically connects the pair of ground transmission lines to the second ground layer. | 01-03-2013 |
20130037937 | BUMP PAD STRUCTURE - A bump pad structure for a semiconductor package is disclosed. A bump pad structure includes a conductive pad disposed on an insulating layer. A ring-shaped conductive layer is embedded in the insulating layer and is substantially under and along an edge of the conductive pad. At least one conductive via plug is embedded in the insulating layer and between the conductive pad and the ring-shaped conductive layer, such that the conductive pad is electrically connected to the ring-shaped conductive layer. | 02-14-2013 |
20130249055 | SEMICONDUCTOR CAPACITOR - A capacitor structure is provided. The capacitor structure includes a plurality of first conductive lines paralleled disposed in a conductive layer on a substrate, wherein the first conductive lines are isolated to each other in the conductive layer and are grouped into a first electrode group and a second electrode group, an insulating layer formed on the first conductive lines and in the space between the first conductive lines, a second conductive line formed on the insulating layer electrically connected to the first conductive lines of the first electrode group, and a third conductive line formed on the insulating layer electrically connected to the first conductive lines of the second electrode group. | 09-26-2013 |
20130264676 | SEMICONDUCTOR PACKAGE WITH THROUGH SILICON VIA INTERCONNECT AND METHOD FOR FABRICATING THE SAME - The invention provides a semiconductor package with a through silicon via (TSV) interconnect and a method for fabricating the same. An exemplary embodiment of the semiconductor package with a TSV interconnect includes a semiconductor substrate. A through hole is formed through the semiconductor substrate. A TSV interconnect is disposed in a through hole. A conductive layer lines a sidewall of the through hole, surrounding the TSV interconnect. | 10-10-2013 |
20130265121 | PASSIVE DEVICE CELL AND FABRICATION PROCESS THEREOF - An embodiment of the invention provides a passive device cell. The passive device cell has a substrate layer, a passive device, and an intermediary layer formed between the substrate layer and the passive device. The intermediary layer includes a plurality of LC resonators. | 10-10-2013 |
20130270670 | SEMICONDUCTOR PACKAGE WITH THROUGH SILICON VIA INTERCONNECT - The invention provides a semiconductor package with a through silicon via (TSV) interconnect. An exemplary embodiment of the semiconductor package with a TSV interconnect includes a semiconductor substrate, having a front side and a back side. A contact array is disposed on the front side of the semiconductor substrate. An isolation structure is disposed in the semiconductor substrate, underlying the contact array. The TSV interconnect is formed through the semiconductor substrate, overlapping with the contact array and the isolation structure. | 10-17-2013 |
20140070346 | RADIO-FREQUENCY DEVICE PACKAGE AND METHOD FOR FABRICATING THE SAME - The invention provides a radio-frequency (RF) device package and a method for fabricating the same. An exemplary embodiment of a radio-frequency (RF) device package includes a base, wherein a radio-frequency (RF) device chip is mounted on the base. The RF device chip includes a semiconductor substrate having a front side and a back side. A radio-frequency (RF) component is disposed on the front side of the semiconductor substrate. An interconnect structure is disposed on the RF component, wherein the interconnect structure is electrically connected to the RF component, and a thickness of the semiconductor substrate is less than that of the interconnect structure. A through hole is formed through the semiconductor substrate from the back side of the semiconductor substrate, and is connected to the interconnect structure. A TSV structure is disposed in the through hole. | 03-13-2014 |
20140312470 | SEAL RING STRUCTURE WITH CAPACITOR - A semiconductor device includes a semiconductor substrate of a first conductivity type having a chip region enclosed by a seal ring region. An insulating layer is on the semiconductor substrate. A seal ring structure is embedded in the insulating layer corresponding to the seal ring region. And, a plurality of doping regions are located beneath the first seal ring structure. | 10-23-2014 |