Patent application number | Description | Published |
20080230877 | SEMICONDUCTOR PACKAGE HAVING WIRE REDISTRIBUTION LAYER AND METHOD OF FABRICATING THE SAME - A semiconductor package and a method of fabricating the same. The method includes providing a semiconductor substrate on which a chip pad is formed. A wire redistribution layer connected to the chip pad is formed. An insulating layer which includes an opening exposing a portion of the wire redistribution layer is formed. A metal ink is applied within the opening to thereby form a bonding pad. The applied metal ink within the opening and the insulating layer can be cured simultaneously. | 09-25-2008 |
20090184411 | SEMICONDUCTOR PACKAGES AND METHODS OF MANUFACTURING THE SAME - Provided are semiconductor packages and methods of manufacturing the semiconductor package. The semiconductor packages may include a substrate including a chip pad, a redistributed line which is electrically connected to the chip pad and includes an opening. The semiconductor packages may also include an external terminal connection portion, and an external terminal connection pad which is disposed at an opening and electrically connected to the redistributed line. The present general inventive concept can solve the problem where an ingredient of gold included in a redistributed line may be prevented from being diffused into an adjacent bump pad to form a void or an undesired intermetallic compound. In a chip on chip structure, a plurality of bumps of a lower chip are connected to an upper chip to improve reliability, diversity and functionality of the chip on chip structure. | 07-23-2009 |
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 |
20090215229 | Board on chip package and method of manufacturing the same - A ball grid array type board on chip package may include an integrated circuit chip having an active surface that supports a plurality of contact pads. An interposer may be adhered to the active surface of the integrated circuit chip. At least one hole may be provided through the interposer to expose the contact pads. A board, which may have a first surface supporting a plurality of metal lines, may have a second surface adhered to the interposer. The board may have an opening through which the contact pads may be exposed. A plurality of bonding wires may connect the contact pads to the metal lines through the opening. | 08-27-2009 |
20090302418 | FUSE STRUCTURE OF A SEMICONDUCTOR DEVICE - Provided is a fuse structure of a semiconductor device. The fuse structure may include an insulating layer pattern structure, a fuse and a protecting layer pattern. The insulating layer pattern structure may be formed on a substrate. The insulating layer pattern structure may have an opening. The fuse may be formed in the opening. The protecting layer pattern may be formed in the opening of the insulating layer pattern structure to cover the fuse. | 12-10-2009 |
20100032807 | Wafer level semiconductor module and method for manufacturing the same - A wafer level semiconductor module may include a module board and an IC chip set mounted on the module board. The IC chip set may include a plurality of IC chips having scribe lines areas between the adjacent IC chips. Each IC chip may have a semiconductor substrate having an active surface with a plurality of chip pads and a back surface. A passivation layer may be provided on the active surface of the semiconductor substrate of each IC chip and may having openings through which the chip pads may be exposed. Sealing portions may be formed in scribe line areas. | 02-11-2010 |
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 |
20120129334 | SEMICONDUCTOR PACKAGES AND METHODS OF MANUFACTURING THE SAME - Provided are semiconductor packages and methods of manufacturing the semiconductor package. The semiconductor packages may include a substrate including a chip pad, a redistributed line which is electrically connected to the chip pad and includes an opening. The semiconductor packages may also include an external terminal connection portion, and an external terminal connection pad which is disposed at an opening and electrically connected to the redistributed line. The present general inventive concept can solve the problem where an ingredient of gold included in a redistributed line may be prevented from being diffused into an adjacent bump pad to form a void or an undesired intermetallic compound. In a chip on chip structure, a plurality of bumps of a lower chip are connected to an upper chip to improve reliability, diversity and functionality of the chip on chip structure. | 05-24-2012 |