Patent application number | Description | Published |
20080266498 | Liquid crystal display device and method for manufacturing the same - Provided are an LCD device and a method for manufacturing the same. The LCD device includes a first substrate, a second substrate, a spacer interposed between the first substrate and the second substrate, and a barrier. The barrier is disposed at least one of the first substrate and the second substrate to control the movement of the spacer. In the method, the first substrate is formed. The second substrate is formed. The barrier is formed on at least one of the first substrate and the second substrate. The spacer is disposed within the barrier. Since the LCD device controls the movement of the spacer, a high aperture ratio is realized. | 10-30-2008 |
20080318361 | METHOD FOR MANUFACTURING SEMICONDUCTOR PACKAGE - A method for manufacturing a semiconductor package includes forming a groove in the portion outside of the bonding pad of a semiconductor chip provided with the bonding pad on an upper surface thereof; forming an insulation layer on the side wall of the groove; forming a metal layer over the semiconductor chip so as to fill the groove formed with the insulation layer; etching the metal layer to simultaneously form a through silicon via for filling the groove and a distribution layer for connecting the through silicon via and the bonding pad; and removing a rear surface of the semiconductor chip such that the lower surface of the through silicon via protrudes from the semiconductor chip. | 12-25-2008 |
20090026591 | SEMICONDUCTOR PACKAGE ADAPTED FOR HIGH-SPEED DATA PROCESSING AND DAMAGE PREVENTION OF CHIPS PACKAGED THEREIN AND METHOD FOR FABRICATING THE SAME - A semiconductor package includes a semiconductor chip provided with a first surface having a bonding pad, a second surface opposing to the first surface and side surfaces; a first redistribution pattern connected with the bonding pad and extending along the first surface from the bonding pad to an end portion of the side surface which meets with the second surface; and a second redistribution pattern disposed over the first redistribution pattern and extending from the side surfaces to the first surface. In an embodiment of the present invention, in which the first redistribution pattern connected with the bonding pad is formed over the semiconductor chip and the second redistribution pattern is formed over the first redistribution pattern, it is capable of reducing a length for signal transfer since the second redistribution pattern is used as an external connection terminal. It is also capable of processing data with high speed, as well as protecting the semiconductor chip having weak brittleness, since the semiconductor package is connected to the substrate without a separate solder ball. | 01-29-2009 |
20090121326 | SEMICONDUCTOR PACKAGE MODULE - A semiconductor package module includes a circuit board including a board body having a receiving portion and conductive patterns formed on the board body; a semiconductor package received in the receiving portion and having conductive terminals electrically connected to the conductive patterns and an s semiconductor chip electrically connected to the conductive terminals; and a connection member electrically connecting the conductive patterns and the conductive terminals. In the present invention, after a receiving portion having a receiving space is formed in the board body of a circuit board and a semiconductor package is received in the receiving portion, and a connection terminal of the semiconductor package and a conductive pattern of the board body are electrically connected using a connection member, a plurality of semiconductor packages can be stacked in a single circuit board without increasing the thickness thereby significantly improving data storage capacity and data processing speed of the semiconductor package module. | 05-14-2009 |
20090152708 | SUBSTRATE FOR HIGH SPEED SEMICONDUCTOR PACKAGE AND SEMICONDUCTOR PACKAGE HAVING THE SAME - The substrate for a semiconductor package includes a substrate body having a first surface and a second surface opposite to the first surface. Connection pads are formed near an edge of the first surface. Signal lines having conductive vias and first, second, and third line parts are formed. The first line parts are formed on the first surface and are connected to the connection pads and the conductive vias, which pass through the substrate body. The second line parts are formed on the first surface and connect to the conductive vias. The third line parts are formed on the second surface and connect to the conductive vias. The second and third line parts are formed to have substantially the same length. The semiconductor package utilizes the above substrate for processing data at a high speed. | 06-18-2009 |
20090166836 | STACKED WAFER LEVEL PACKAGE HAVING A REDUCED SIZE - A stacked wafer level package includes a first semiconductor chip having a first bonding pad and a second semiconductor chip having a second bonding pad. Both bonding pads of the semiconductor chips face the same direction. The second semiconductor chip is disposed in parallel to the first semiconductor chip. A third semiconductor chip is disposed over the first and second semiconductor chips acting as a supporting substrate. The third semiconductor chip has a third bonding pad that is exposed between the first and the second semiconductor chips upon attachment. Finally, a redistribution structure is electrically connected to the first, second, and third bonding pads. | 07-02-2009 |
20090230565 | SEMICONDUCTOR PACKAGE AND METHOD FOR MANUFACTURING THE SAME - A stacked semiconductor package and a method for manufacturing the same are presented which exhibit a reduced electrical resistance and an increased junction force. The semiconductor package includes at least two semiconductor chips stacked upon each other. Each semiconductor chip has a plurality of bonding pads formed on upper surfaces and has via-holes. First wiring lines are located on the upper surfaces of the semiconductor chips, on the surfaces of the via-holes, and respectively connected onto their respective bonding pads. Second wiring lines are located on lower surfaces of the semiconductor chips and on the surfaces of the respective via-holes which connect to their respective first wiring lines. The semiconductor chips are stacked so that the first wiring lines on an upper surface of an upwardly positioned semiconductor chip are respectively joined with corresponding second wiring lines formed on a lower surface of a downwardly positioned semiconductor chip. | 09-17-2009 |
20100187676 | CUBE SEMICONDUCTOR PACKAGE COMPOSED OF A PLURALITY OF STACKED TOGETHER AND INTERCONNECTED SEMICONDUCTOR CHIP MODULES - A cube semiconductor package includes one or more stacked together and interconnected semiconductor chip modules. The cube semiconductor package includes a semiconductor chip module and connection members. The semiconductor chip module includes a semiconductor chip which has a first and second surface, side surfaces, bonding pads, through-electrodes and redistribution lines. The second surface faces away from the first surface. The side surfaces connect to the first and second surfaces. The bonding pads are placed on the first surface. The through-electrodes pass through the first and second surfaces. The redistribution lines are placed at least on one of the first and second surfaces and are electrically connected to the through-electrodes and the bonding pads, and have ends flush with the side surfaces. The connection members are placed on the side surfaces and electrically connected with the ends of the redistribution lines. | 07-29-2010 |
20100197077 | SEMICONDUCTOR PACKAGE ADAPTED FOR HIGH-SPEED DATA PROCESSING AND DAMAGE PREVENTION OF CHIPS PACKAGED THEREIN AND METHOD FOR FABRICATING THE SAME - A semiconductor package includes a semiconductor chip provided with a first surface having a bonding pad, a second surface opposing to the first surface and side surfaces; a first redistribution pattern connected with the bonding pad and extending along the first surface from the bonding pad to an end portion of the side surface which meets with the second surface; and a second redistribution pattern disposed over the first redistribution pattern and extending from the side surfaces to the to first surface. In an embodiment of the present invention, in which the first redistribution pattern connected with the bonding pad is formed over the semiconductor chip and the second redistribution pattern is formed over the first redistribution pattern, it is capable of reducing a length for signal transfer since the second redistribution pattern is used as an external connection terminal. It is also capable of processing data with high speed, as well as protecting the semiconductor chip having weak brittleness, since the semiconductor package is connected to the substrate without a separate solder ball. | 08-05-2010 |
20100259657 | IMAGE SENSOR MODULE - An image sensor module is presented which includes a semiconductor chip, a holder and a coupling member. The semiconductor chip has a semiconductor chip body; an image sensing section over the semiconductor chip body; and bonding pads on the semiconductor chip body. The holder is mounted over the semiconductor chip and has an insulation section over the semiconductor chip body; connection patterns on the insulation section which are electrically coupled to the bonding pads; and a transparent cover over the image sensing section which is connected to the insulation section. The coupling member is interposed between the holder and the semiconductor chip for coupling together the holder to the semiconductor chip. | 10-14-2010 |
20110233795 | STACKED WAFER LEVEL PACKAGE HAVING A REDUCED SIZE - A stacked wafer level package includes a first semiconductor chip having a first bonding pad and a second semiconductor chip having a second bonding pad. Both bonding pads of the semiconductor chips face the same direction. The second semiconductor chip is disposed in parallel to the first semiconductor chip. A third semiconductor chip is disposed over the first and second semiconductor chips acting as a supporting substrate. The third semiconductor chip has a third bonding pad that is exposed between the first and the second semiconductor chips upon attachment. Finally, a redistribution structure is electrically connected to the first, second, and third bonding pads. | 09-29-2011 |
20110287584 | SEMICONDUCTOR PACKAGE HAVING SIDE WALLS AND METHOD FOR MANUFACTURING THE SAME - A semiconductor package includes a semiconductor chip having an upper surface, side surfaces connected with the upper surface, and bonding pads formed on the upper surface. A first insulation layer pattern is formed to cover the upper surface and the side surfaces of the semiconductor chip and expose the bonding pads. Re-distribution lines are placed on the first insulation layer pattern and include first re-distribution line parts and second re-distribution line parts. The first re-distribution line parts have an end connected with the bonding pads and correspond to the upper surface of the semiconductor chip and the second re-distribution line parts extend from the first re-distribution line parts beyond the side surfaces of the semiconductor chip. A second insulation layer pattern is formed over the semiconductor chip and exposes portions of the first re-distribution line parts and the second re-distribution line parts. | 11-24-2011 |
20120009736 | SEMICONDUCTOR PACKAGE AND METHOD FOR MANUFACTURING THE SAME - A stacked semiconductor package and a method for manufacturing the same are presented which exhibit a reduced electrical resistance and an increased junction force. The semiconductor package includes at least two semiconductor chips stacked upon each other. Each semiconductor chip has a plurality of bonding pads formed on upper surfaces and has via-holes. First wiring lines are located on the upper surfaces of the semiconductor chips, on the surfaces of the via-holes, and respectively connected onto their respective bonding pads. Second wiring lines are located on lower surfaces of the semiconductor chips and on the surfaces of the respective via-holes which connect to their respective first wiring lines. The semiconductor chips are stacked so that the first wiring lines on an upper surface of an upwardly positioned semiconductor chip are respectively joined with corresponding second wiring lines formed on a lower surface of a downwardly positioned semiconductor chip. | 01-12-2012 |
20120217637 | SUBSTRATE FOR HIGH SPEED SEMICONDUCTOR PACKAGE AND SEMICONDUCTOR PACKAGE HAVING THE SAME - The substrate for a semiconductor package includes a substrate body having a first surface and a second surface opposite to the first surface. Connection pads are formed near an edge of the first surface. Signal lines having conductive vias and first, second, and third line parts are formed. The first line parts are formed on the first surface and are connected to the connection pads and the conductive vias, which pass through the substrate body. The second line parts are formed on the first surface and connect to the conductive vias. The third line parts are formed on the second surface and connect to the conductive vias. The second and third line parts are formed to have substantially the same length. The semiconductor package utilizes the above substrate for processing data at a high speed. | 08-30-2012 |
20120299169 | STACKED WAFER LEVEL PACKAGE HAVING A REDUCED SIZE - A stacked wafer level package includes a first semiconductor chip having a first bonding pad and a second semiconductor chip having a second bonding pad. Both bonding pads of the semiconductor chips face the same direction. The second semiconductor chip is disposed in parallel to the first semiconductor chip. A third semiconductor chip is disposed over the first and second semiconductor chips acting as a supporting substrate. The third semiconductor chip has a third bonding pad that is exposed between the first and the second semiconductor chips upon attachment. Finally, a redistribution structure is electrically connected to the first, second, and third bonding pads. | 11-29-2012 |
20120299199 | STACKED WAFER LEVEL PACKAGE HAVING A REDUCED SIZE - A stacked wafer level package includes a first semiconductor chip having a first bonding pad and a second semiconductor chip having a second bonding pad. Both bonding pads of the semiconductor chips face the same direction. The second semiconductor chip is disposed in parallel to the first semiconductor chip. A third semiconductor chip is disposed over the first and second semiconductor chips acting as a supporting substrate. The third semiconductor chip has a third bonding pad that is exposed between the first and the second semiconductor chips upon attachment. Finally, a redistribution structure is electrically connected to the first, second, and third bonding pads. | 11-29-2012 |
20130120674 | DISPLAY DEVICE OF ELECTRONIC APPLIANCE - A display device for an electronic appliance includes: a touch screen panel; an LCD panel; and an intermediate member provided between the touch screen panel and the LCD panel. The intermediate member has an air passage for allowing air to flow into and out of an interior space defined by the intermediate member between the touch screen panel and the LCD panel. The air passage has a plurality of paths oriented in different directions. | 05-16-2013 |
20140212816 | PHOTOLITHOGRAPHIC METHODS - Provided are photoresist overcoat compositions, substrates coated with the overcoat compositions and methods of forming electronic devices by a negative tone development process. The compositions, coated substrates and methods find particular applicability in the manufacture of semiconductor devices. | 07-31-2014 |
20150064956 | CONNECTOR DEVICE - A connector device includes one or more connection terminals, and a shell housing provided with a body receiving one or more connection terminals, and fixing portions formed as one piece with the body and fixed to a substrate. A standard mode typed connector device includes the connection terminals mounted to be close to an upper surface in the body. A reverse mode typed connector device includes the connection terminals mounted to be close to a bottom surface of the body. Also other embodiments of the connector device are disclosed. | 03-05-2015 |