Patent application number | Description | Published |
20080237888 | Multichip semiconductor device, chip therefor and method of formation thereof - A multichip semiconductor device is disclosed in which chips are stacked each of which comprises a semiconductor substrate formed on top with circuit components and an interlayer insulating film formed on the top of the semiconductor substrate. At least one of the chips has a connect plug of a metal formed in a through hole that passes through the semiconductor substrate and the interlayer insulating film. The chip with the connect plug is electrically connected with another chip by that connect plug. | 10-02-2008 |
20090003103 | SEMICONDUCTOR DEVICE AND SEMICONDUCTOR MEMORY TESTER - A semiconductor device, a semiconductor memory tester, and a multi-chip package are provided. The semiconductor device includes a plurality of nonvolatile semiconductor memories; a boosting circuit which generates a boosted voltage for operating the plurality of nonvolatile semiconductor memories; and a boosting circuit controller which controls the operation of the boosting circuit to generate the boosted voltage on the basis of an operation sequence of the plurality of nonvolatile semiconductor memories. | 01-01-2009 |
20090014762 | BACK-ILLUMINATED TYPE SOLID-STATE IMAGE PICKUP DEVICE AND CAMERA MODULE USING THE SAME - The present invention provides a solid-state image pickup device including an image pickup pixel section which is provided on a semiconductor substrate and in which a plurality of pixels each having a photoelectric conversion element and a field-effect transistor are arranged, and a peripheral circuit section for the image pickup pixel section. An interconnect layer driving the field-effect transistor in the image pickup pixel section is formed on a first surface side of the semiconductor substrate. A light receiving surface of the photoelectric conversion element is located on a second surface side of the semiconductor substrate. The solid-state image pickup device includes a first terminal exposed from the second surface side of the semiconductor substrate, and a second terminal electrically connected to the first terminal and connectable to an external device on the first surface side of the semiconductor substrate. | 01-15-2009 |
20090283847 | SEMICONDUCTOR PACKAGE INCLUDING THROUGH-HOLE ELECTRODE AND LIGHT-TRANSMITTING SUBSTRATE - An imaging element is formed on the first main surface of a semiconductor substrate. An external terminal is formed on the second main surface of the semiconductor substrate. A through-hole electrode is formed in a through hole formed in the semiconductor substrate. A first electrode pad is formed on the through-hole electrode in the first main surface. An interlayer insulating film is formed on the first electrode pad and on the first main surface. A second electrode pad is formed on the interlayer insulating film. A passivation film is formed on the second electrode pad and the interlayer insulating film, and has an opening which exposes a portion of the second electrode pad. A contact plug is formed between the first and second electrode pads in a region which does not overlap the opening when viewed in a direction perpendicular to the surface of the semiconductor substrate. | 11-19-2009 |
20090284631 | SEMICONDUCTOR PACKAGE AND CAMERA MODULE - A semiconductor package includes a solid-state imaging element, electrode pad, through-hole electrode, and light-transmitting substrate. The solid-state imaging element is formed on the first main surface of a semiconductor substrate. The electrode pad is formed on the first main surface of the semiconductor substrate. The through-hole electrode is formed to extend through the semiconductor substrate between the first main surface and a second main surface opposite to the electrode pad formed on the first main surface. The light-transmitting substrate is placed on a patterned adhesive to form a hollow on the solid-state imaging element. The thickness of the semiconductor substrate below the hollow when viewed from the light-transmitting substrate is larger than that of the semiconductor substrate below the adhesive. | 11-19-2009 |
20100311630 | SURFACE TREATMENT COMPOSITION, SURFACE TREATMENT METHOD, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A surface treatment composition of this invention is a composition for treating a metal wiring-including surface of a semiconductor substrate, which includes a compound (A) represented by a specific structural formula and a solvent (B) having a boiling point at one atmospheric pressure of 50 to 300° C., and has a pH of 4 to 11. | 12-09-2010 |
20110068476 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - According to one embodiment, a manufacturing method of a semiconductor device is disclosed. The semiconductor device includes a semiconductor substrate having first and second main surfaces, and a through hole passing through between the first and second main surfaces, a pad on the first main surface, a through electrode in the through hole, and a connection structure including a connection portion to directly connect the pad and the through electrode, and another connection portion to indirectly connect the pad and the through electrode. The method includes forming an isolation region in the first main surface, the isolation region being in a region where the through electrode is to be formed and being in a region other than the region where the through hole is to be formed, forming the pad, and forming the through hole by processing the substrate to expose a part of the pad. | 03-24-2011 |
20110074494 | SEMICONDUCTOR DEVICE AND SEMICONDUCTOR MEMORY TESTER - A semiconductor device, a semiconductor memory tester, and a multi-chip package are provided. The semiconductor device includes a plurality of nonvolatile semiconductor memories; a boosting circuit which generates a boosted voltage for operating the plurality of nonvolatile semiconductor memories; and a boosting circuit controller which controls the operation of the boosting circuit to generate the boosted voltage on the basis of an operation sequence of the plurality of nonvolatile semiconductor memories. | 03-31-2011 |
20110101522 | Multichip semiconductor device, chip therefor and method of formation thereof - A multichip semiconductor device is disclosed in which chips are stacked each of which comprises a semiconductor substrate formed on top with circuit components and an interlayer insulating film formed on the top of the semiconductor substrate. At least one of the chips has a connect plug of a metal formed in a through hole that passes through the semiconductor substrate and the interlayer insulating film. The chip with the connect plug is electrically connected with another chip by that connect plug. | 05-05-2011 |
20110215443 | Multichip semiconductor device, chip therefor and method of formation thereof - A multichip semiconductor device is disclosed in which chips are stacked each of which comprises a semiconductor substrate formed on top with circuit components and an interlayer insulating film formed on the top of the semiconductor substrate. At least one of the chips has a connect plug of a metal formed in a through hole that passes through the semiconductor substrate and the interlayer insulating film. The chip with the connect plug is electrically connected with another chip by that connect plug. | 09-08-2011 |