Patent application number | Description | Published |
20080303127 | CAP-LESS PACKAGE AND MANUFACTURING METHOD THEREOF - A cap-less package comprises: a metallic die pad part; a submount mounted on the die pad part; an optical semiconductor element mounted on the submount; an insulating member fixed to the die pad part; a lead electrode inserted in the insulating member; and a wire connecting the lead electrode to the semiconductor optical element, wherein the submount, the optical semiconductor element, a portion of the lead electrode closer to the optical semiconductor element than to the insulating member, and the wire are located opposite the die pad part. | 12-11-2008 |
20090020866 | SEMICONDUCTOR DEVICES AND MANUFACTURING METHODS THEREFOR - A semiconductor device includes: a package case in which a semiconductor element is mounted, the package case having a bonding portion; a cap having a bonding portion bonded to the bonding portion of the package case so as to hermetically seal the semiconductor element; and one or more bonding/sealing wires disposed between and in contact with the bonding portion of the package case and the bonding portion of the cap such that the one or more bonding/sealing wires form a closed loop and hermetically seal the semiconductor element. | 01-22-2009 |
20100020839 | OPTICAL DEVICE PACKAGE AND OPTICAL SEMICONDUCTOR DEVICE USING THE SAME - An optical device package comprises: a metal frame including a substrate and a rectangular die pad portion integrally connected to the substrate, wherein the substrate is a metal plate, and the die pad portion is bent from the substrate such that the die pad portion extends from the substrate at an angle of 90 degrees; signal lead pins extend in the opposite direction from the die pad portion relative to the substrate such that the first lead pins intersect the principal surfaces of the substrate at a right angle and are spaced apart from the metal frame; and a molded resin member including a plate-like resin base extending across and in contact with one of the principal surfaces of the substrate, wherein the signal lead pins protrude from a surface of the resin base; surfaces of the signal lead pins are covered with the molded resin member; and the metal frame and the signal lead pins are secured in place by the molded resin member. | 01-28-2010 |
20100165597 | LASER APPARATUS AND MANUFACTURING METHOD THEREOF - A laser apparatus comprises: a lead frame comprising a first outer lead and a first inner lead connected to the first outer lead; mold resin that has a top surface, does not seal the first outer lead but does seal the first inner lead and leaves part of the first inner lead exposed on the top surface; a sub-mount comprising a mounting surface and a back surface facing each other, the mounting surface facing the top surface of the mold resin and the back surface being not covered with the mold resin; and a laser element mounted on the mounting surface of the sub-mount and electrically connected to the exposed part of the first inner lead. | 07-01-2010 |
20150061098 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes a conductive portion having semiconductor elements provided on a substrate, a case housing the conductive portion, and a lead terminal integrated into the case to be directly connected to the semiconductor elements or an interconnection of the substrate. The lead terminal has a stress relief shape for reliving stress generated in the lead terminal. | 03-05-2015 |
20160071778 | Semiconductor Device and Manufacturing Method Thereof - It is possible to provide a semiconductor device which can be obtained at a high reliability by warping an insulating substrate stably into a convex shape while ensuring a close contact between a cooling member and the insulating substrate. The semiconductor device includes an insulating substrate, a semiconductor element disposed on a first surface of the insulating substrate, a case connected to the insulating substrate, and a resin filled inside the case. Assuming that the thickness of the insulating substrate is denoted by t1, the thickness of the resin is denoted by t2, the linear expansion coefficient of the insulating substrate is denoted by α1, and the linear expansion coefficient of the resin is denoted by α2, the relationship therebetween satisfies t2≧t1 and α2≧α1, and a second surface of the insulating substrate opposite to the first surface thereof is warped into a convex shape. | 03-10-2016 |
20160099224 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device according to the present invention includes an insulating substrate having a circuit pattern, semiconductor elements bonded on the circuit pattern with a brazing material, and a wiring terminal bonded with a brazing material on an electrode provided on each of the semiconductor elements on an opposite side of the circuit pattern, in which a part of the wiring terminal is in contact with the insulating substrate, and insulated from the circuit pattern. | 04-07-2016 |
20160104651 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes an insulating substrate, a semiconductor element, a case, and a wiring member. The case forms a container body having a bottom surface defined by a surface of the insulating substrate, to which said semiconductor element is bonded. The wiring member has a bonding portion positioned above an upper surface electrode of the semiconductor element. The bonding portion of the wiring member is provided with a projection portion projecting toward the upper surface electrode of the semiconductor element and bonded to the upper surface electrode with a solder, and a through hole passing through the bonding portion in a thickness direction through the projection portion. | 04-14-2016 |