Patent application number | Description | Published |
20080265443 | Semiconductor device and method of manufacturing the same - A semiconductor device is disclosed, which comprises a semiconductor element in which a laminated film composed of a plurality of layers including an insulating film is formed on a surface of a semiconductor substrate, and a portion of the laminated film is removed from the surface of the semiconductor substrate so that the semiconductor substrate is exposed at the portion, a mounting substrate on which the semiconductor element is mounted, and a resin layer which seals at least a surface side of the semiconductor element with resin. | 10-30-2008 |
20090096110 | METHOD FOR MANUFACTURING A STACKED SEMICONDUCTOR PACKAGE, AND STACKED SEMICONDUCTOR PACKAGE - A method for manufacturing a stacked semiconductor package where a plurality of semiconductor chips are stacked on a substrate, including: forming insulating layers at portions of a wafer corresponding to sides of the plurality of semiconductor chips when the plurality of semiconductor chips are in the wafer; processing the wafer so as to obtain the plurality of semiconductor chips; subsequently stacking the plurality of semiconductor chips on the substrate such that the insulating layers formed at the sides of the plurality of semiconductor chips are respectively positioned at the same side as one another; and forming a wiring over the insulating layers formed at the sides of the plurality of semiconductor chips so that the plurality of semiconductor chips are electrically connected with one another and one or more of the plurality of semiconductor chips are electrically connected with the substrate. | 04-16-2009 |
20100112755 | SEMICONDUCTOR DEVICE HAVING SEMICONDUCTOR CHIPS STACKED AND MOUNTED THEREON AND MANUFACTURING METHOD THEREOF - Chips are stacked and mounted on a circuit board having external connection electrodes and mounted thereon by wire bonding. At least one of the chips stacked on the chip includes overhung portions each of which has a start point inside bonding pads, is made thinner in a direction towards the outer periphery to an end point reaching the side wall and forms a space used to accommodate ball bonding portions between the overhung portion and the main surface of the chip arranged in the lower stage on a backside corresponding in position to the bonding pads, and insulating members formed to cover the overhung portions and prevent bonding wires of the chip arranged in the lower stage from being brought into contact with the upper-stage chip. | 05-06-2010 |
20100311224 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - According to one embodiment, a manufacturing method of a semiconductor device includes forming a plurality of first trenches in a semiconductor substrate, forming an insulating member in the first trenches, removing a part of a portion of the insulating member, forming second trenches in the insulating member, and attaching a protection film. The semiconductor substrate has a first and a second main surface. The insulating member has an upper face located higher than the first main surface. The portion is located higher than the first main surface. | 12-09-2010 |
20110068480 | SEMICONDUCTOR DEVICE AND ADHESIVE SHEET - The present invention provides a semiconductor device which comprises a substrate, a first semiconductor chip on a substrate, a second semiconductor chip on the first semiconductor chip, and an adhesive sheet between the first and second semiconductor chips. The second semiconductor chip has a mirrored back surface, and the adhesive sheet contains a metal impurity ion trapping agent. | 03-24-2011 |
20110163459 | METHOD FOR MANUFACTURING A STACKED SEMICONDUCTOR PACKAGE, AND STACKED SEMICONDUCTOR PACKAGE - A method for manufacturing a stacked semiconductor package where a plurality of semiconductor chips are stacked on a substrate, including: forming insulating layers at portions of a wafer corresponding to sides of the plurality of semiconductor chips when the plurality of semiconductor chips are in the wafer; processing the wafer so as to obtain the plurality of semiconductor chips; subsequently stacking the plurality of semiconductor chips on the substrate such that the insulating layers formed at the sides of the plurality of semiconductor chips are respectively positioned at the same side as one another; and forming a wiring over the insulating layers formed at the sides of the plurality of semiconductor chips so that the plurality of semiconductor chips are electrically connected with one another and one or more of the plurality of semiconductor chips are electrically connected with the substrate. | 07-07-2011 |
20120187542 | SEMICONDUCTOR DEVICE, AND MANUFACTURING METHOD AND MANUFACTURING APPARATUS OF THE SAME - According to one embodiment, a manufacturing method of a semiconductor device is disclosed. The method includes: (a) forming cutting grooves in an element formation surface of a semiconductor wafer on which semiconductor elements are formed; (b) applying a protection tape on the element formation surface of the semiconductor wafer; (c) grinding a rear surface of the semiconductor wafer to thin the semiconductor wafer and to divide the semiconductor wafer into a plurality of semiconductor chips on which the semiconductor elements are formed; (d) forming an adhesive layer on the rear surface of the semiconductor wafer; (e) separating and cutting the adhesive layer for each of the semiconductor chips; and (f) removing the protection tape. The (e) is performed by spraying a high-pressure air to the adhesive layer formed on the rear surface of the semiconductor wafer while melting or softening the adhesive layer by heating. | 07-26-2012 |
20120235282 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device manufacturing method is disclosed. The method comprises (a) forming cut grooves in a front surface of a semiconductor wafer on which semiconductor elements are formed to partition the front surface into a plurality of regions, (b) disposing partly a resin in the cut grooves, (c) adhering a protection tape on the front surface of the semiconductor wafer, (d) thinning the semiconductor wafer by grinding a rear surface of the semiconductor wafer to reach the cut grooves, (e) forming an adhesive agent layer on the rear surface of the semiconductor wafer, and (f) dividing the semiconductor wafer into a plurality of semiconductor chips by cutting the adhesive agent layer together with the disposed resin along the cut grooves. | 09-20-2012 |