Patent application number | Description | Published |
20100270660 | Semiconductor device and method for manufacturing metallic shielding plate - Provided is a semiconductor device capable of preventing a semiconductor chip from being damaged by any sharp burrs of a metallic shielding plate. The semiconductor device includes a semiconductor chip and a metallic shielding plate provided on a circuit surface of the semiconductor chip. The metallic shielding plate is disposed in such a manner that a second surface of a shielding plate body is directed towards the circuit surface of the semiconductor chip, and burrs are positioned contiguous to the second surface of the shielding plate body. At distal ends of the burrs, cutting burrs are formed in a direction orthogonal to the second surface. The sharp burrs extend in a direction opposite to the semiconductor chip, so that the sharp burrs are prevented from damaging the circuit surface of the semiconductor chip. | 10-28-2010 |
20120313131 | LED LEADFRAME OR LED SUBSTRATE, SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING LED LEADFRAME OR LED SUBSTRATE - An LED leadframe or LED substrate includes a main body portion having a mounting surface for mounting an LED element thereover. A reflection metal layer serving as a reflection layer for reflecting light from the LED element is disposed over the mounting surface of the main body portion. The reflection metal layer comprises an alloy of platinum and silver or an alloy of gold and silver. The reflection metal layer efficiently reflects light emitted from the LED element and suppresses corrosion due to the presence of a gas, thereby capable of maintaining reflection characteristics of light from the LED element. | 12-13-2012 |
20130221509 | LEAD FRAME FOR MOUNTING LED ELEMENTS, LEAD FRAME WITH RESIN, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICES, AND LEAD FRAME FOR MOUNTING SEMICONDUCTOR ELEMENTS - A lead frame for mounting LED elements includes a frame body region and a large number of package regions arranged in multiple rows and columns in the frame body region. The package regions each include a die pad on which an LED element is to be mounted and a lead section adjacent to the die pad, the package regions being further constructed to be interconnected via a dicing region. The die pad in one package region and the lead section in another package region upward or downward adjacent to the package region of interest are connected to each other by an inclined reinforcement piece positioned in the dicing region. | 08-29-2013 |
20130307000 | RESIN-ATTACHED LEAD FRAME, METHOD FOR MANUFACTURING THE SAME, AND LEAD FRAME - A resin-attached lead frame includes a lead frame main body having a plurality of die pads (LED element resting portions) and a plurality of lead portions spaced from the die pads, the lead frame main body further including LED element resting regions each formed over an area including an upper surface of each of the die pads and an upper surface of each of the lead portions. A reflecting resin section surrounds each LED element resting region of the lead frame main body. A vapor-deposited aluminum layer or a sputtered aluminum layer is provided on respective upper surfaces of the LED element resting regions of the lead frame main body. | 11-21-2013 |
20140349424 | LEAD FRAME FOR MOUNTING LED ELEMENTS, LEAD FRAME WITH RESIN, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICES, AND LEAD FRAME FOR MOUNTING SEMICONDUCTOR ELEMENTS - A lead frame for mounting LED elements includes a frame body region and a large number of package regions arranged in multiple rows and columns in the frame body region. The package regions each include a die pad on which an LED element is to be mounted and a lead section adjacent to the die pad, the package regions being further constructed to be interconnected via a dicing region. The die pad in one package region and the lead section in another package region upward or downward adjacent to the package region of interest are connected to each other by an inclined reinforcement piece positioned in the dicing region. | 11-27-2014 |
20150084177 | LEAD FRAME FOR MOUNTING LED ELEMENTS, LEAD FRAME WITH RESIN, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICES, AND LEAD FRAME FOR MOUNTING SEMICONDUCTOR ELEMENTS - A lead frame for mounting LED elements includes a frame body region and a large number of package regions arranged in multiple rows and columns in the frame body region. The package regions each include a die pad on which an LED element is to be mounted and a lead section adjacent to the die pad, the package regions being further constructed to be interconnected via a dicing region. The die pad in one package region and the lead section in another package region upward or downward adjacent to the package region of interest are connected to each other by an inclined reinforcement piece positioned in the dicing region. | 03-26-2015 |
20150325763 | LED LEADFRAME OR LED SUBSTRATE, SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING LED LEADFRAME OR LED SUBSTRATE - An LED leadframe or LED substrate includes a main body portion having a mounting surface for mounting an LED element thereover. A reflection metal layer serving as a reflection layer for reflecting light from the LED element is disposed over the mounting surface of the main body portion. The reflection metal layer comprises an alloy of platinum and silver or an alloy of gold and silver. The reflection metal layer efficiently reflects light emitted from the LED element and suppresses corrosion due to the presence of a gas, thereby capable of maintaining reflection characteristics of light from the LED element. | 11-12-2015 |
20150349227 | LEAD FRAME FOR MOUNTING LED ELEMENTS, LEAD FRAME WITH RESIN, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICES, AND LEAD FRAME FOR MOUNTING SEMICONDUCTOR ELEMENTS - A lead frame for mounting LED elements includes a frame body region and a large number of package regions arranged in multiple rows and columns in the frame body region. The package regions each include a die pad on which an LED element is to be mounted and a lead section adjacent to the die pad, the package regions being further constructed to be interconnected via a dicing region. The die pad in one package region and the lead section in another package region upward or downward adjacent to the package region of interest are connected to each other by an inclined reinforcement piece positioned in the dicing region. | 12-03-2015 |