Patent application number | Description | Published |
20080315242 | System, apparatus and method of selective laser repair for metal bumps of semiconductor device stack - Exemplary embodiments of the selective laser repair apparatus and method may allow the repair of metal bumps in a semiconductor device stack by applying a laser beam to a damaged and/or defective bump. Metal bumps may be repaired and individual chips and/or packages forming a device stack need not be separated. The operation of a control unit and a driving unit may position a laser unit such that a laser beam may be irradiated at the damaged and/or defective metal bump. An X-ray inspection unit may obtain information about the damaged and/or defective metal bump. | 12-25-2008 |
20080318363 | Stack circuit member and method - A stack circuit member may include a first circuit member and a second circuit member. The first and the second circuit members may be electrically and mechanically connected together using a thermocompression bonding method. A photosensitive polymer layer may be interposed between the first circuit member and the second circuit member. A gap fill process and an electrical connection process may be performed at the same time. | 12-25-2008 |
20090124072 | SEMICONDUCTOR DEVICE HAVING THROUGH ELECTRODE AND METHOD OF FABRICATING THE SAME - A semiconductor device includes a substrate, and a through electrode passing through the substrate. The semiconductor device has a pad region and a through electrode region. A pad covers the pad region, extends into the through electrode region, and delimits an opening in the through electrode region. A through electrode extends through the semiconductor substrate below the hole in the pad in the through region. | 05-14-2009 |
20090209063 | Chipstack package and manufacturing method thereof - A method for manufacturing chip stack packages may include: providing at least two wafers, each wafer having a plurality of chips, and scribe lanes formed between and separating adjacent chips; forming a plurality of via holes in peripheral portions of the scribe lanes; forming connection vias by filling the via holes; establishing electrical connections between the chip pads and corresponding connection vias; removing material from the back sides of the wafers to form thinned wafers; separating the thinned wafers into individual chips by removing a central portion of each scribe lane; attaching a first plurality of individual chips to a test wafer; attaching a second plurality of individual chips to the first plurality of individual chips to form a plurality of chip stack structures; encapsulating the plurality of chip stack structures; and separating the plurality of chip stack structures to form individual chip stack packages. | 08-20-2009 |
20100001379 | Multi-chip package (MCP) having three dimensional mesh-based power distribution network, and power distribution method of the MCP - A MCP includes a plurality of semiconductor memory devices, the plurality of semiconductor memory devices being stacked to define a three-dimensional (3D) structure, and a mesh structure, the mesh structure interconnecting the plurality of semiconductor memory devices to define a 3D mesh-based power distribution network. | 01-07-2010 |
20100320597 | Wafer level stack structure for system-in-package and method thereof - A system-in-package, comprising a wafer level stack structure, including at least one first device chip including a first device region having a plurality of input/output(I/O) pads, and at least one second device chip including a second device region having a plurality of input/output(I/O) pads and a second peripheral region surrounding the second device region, wherein the size of the second device region is different from the size of the first device region, wherein the at least one first device chip and the at least one second device chip have approximately equal size; and a common circuit board to which the wafer level stack structure is connected. | 12-23-2010 |
20110237004 | CHIPSTACK PACKAGE AND MANUFACTURING METHOD THEREOF - A method for manufacturing chip stack packages may include: providing at least two wafers, each wafer having a plurality of chips, and scribe lanes formed between and separating adjacent chips; forming a plurality of via holes in peripheral portions of the scribe lanes; forming connection vias by filling the via holes; establishing electrical connections between the chip pads and corresponding connection vias; removing material from the back sides of the wafers to form thinned wafers; separating the thinned wafers into individual chips by removing a central portion of each scribe lane; attaching a first plurality of individual chips to a test wafer; attaching a second plurality of individual chips to the first plurality of individual chips to form a plurality of chip stack structures; encapsulating the plurality of chip stack structures; and separating the plurality of chip stack structures to form individual chip stack packages. | 09-29-2011 |
20130015588 | SEMICONDUCTOR DEVICE HAVING THROUGH ELECTRODE AND METHOD OF FABRICATING THE SAME - A semiconductor device includes a substrate, and a through electrode passing through the substrate. The semiconductor device has a pad region and a through electrode region. A pad covers the pad region, extends into the through electrode region, and delimits an opening in the through electrode region. A through electrode extends through the semiconductor substrate below the hole in the pad in the through region. | 01-17-2013 |
20130077374 | STACKED SEMICONDUCTOR APPARATUS, SYSTEM AND METHOD OF FABRICATION - A stacked semiconductor apparatus and method of fabricating same are disclosed. The apparatus includes upper and lower semiconductor devices having a similar pattern of connection elements. When stacked connected the resulting plurality of semiconductor devices includes a serial connection path traversing the stack, and may also include parallel connection paths, back-side mounted large components, and vertical thermal conduits. | 03-28-2013 |
20140124901 | INTEGRATED CIRCUIT CHIPS HAVING VERTICALLY EXTENDED THROUGH-SUBSTRATE VIAS THEREIN - Methods of forming an integrated circuit device include forming an interlayer dielectric layer on a first surface of a semiconductor substrate and then forming an interconnect hole that extends through the interlayer dielectric layer and into the semiconductor substrate. A first sidewall spacer layer is formed on a sidewall of the interconnect hole. The semiconductor substrate at a bottom of the interconnect hole is isotropically etched to define an undercut recess in the semiconductor substrate. This etching step is performed using the first sidewall spacer layer as an etching mask. The interconnect hole and the uncut recess are then filled with a through-via electrode. A second surface of the semiconductor substrate is removed for a sufficient duration to expose the uncut recess containing the through-via electrode. | 05-08-2014 |
20140167289 | SEMICONDUCTOR DEVICE HAVING THROUGH ELECTRODE AND METHOD OF FABRICATING THE SAME - A semiconductor device includes a substrate, and a through electrode passing through the substrate. The semiconductor device has a pad region and a through electrode region. A pad covers the pad region, extends into the through electrode region, and delimits an opening in the through electrode region. A through electrode extends through the semiconductor substrate below the hole in the pad in the through region. | 06-19-2014 |