| Patent application number | Description | Published |
|---|
| 20080203564 | Semiconductor device having stress alleviating portion positioned at outer circumference of chip, wiring substrate, and method for producing the same - A semiconductor device has a wiring substrate, a semiconductor chip, a conductive bump, and an under-fill resin. The wiring substrate has a solder resist layer, and a stress alleviating portion. The stress alleviating portion is mounted on the solder resist layer opposed to the outer circumference of the semiconductor chip. The material of the stress alleviating portion is different from that of the solder resist layer. The stress alleviating portion alleviates the stress acting on the solder resist layer and the under-fill resin. The semiconductor chip is mounted above the wiring substrate via the conductive bump. The gap between the wiring substrate and the semiconductor chip is filled with the under-fill resin. | 08-28-2008 |
| 20080258283 | WIRING BOARD AND SEMICONDUCTOR PACKAGE USING THE SAME - A wiring board has a base insulating film. The base insulating film has a thickness of 20 to 100 μm and is made of a heat-resistant resin which has a glass-transition temperature of 150° C. or higher and which contains reinforcing fibers made of glass or aramid. The base insulating film has the following physical properties (1) to (6) when an elastic modulus at a temperature of T° C. is given as D | 10-23-2008 |
| 20090017613 | METHOD OF MANUFACTURING INTERCONNECT SUBSTRATE AND SEMICONDUCTOR DEVICE - An interconnect substrate includes an interconnect, an insulating layer, a non-photosensitive resin layer, a photosensitive resin layer, a first electrode pad, and a second electrode pad. The non-photosensitive resin layer is constructed with a non-photosensitive insulating material. Also, the non-photosensitive resin layer has a first opening. The photosensitive resin layer is constructed with a photosensitive insulating material. Also, the photosensitive resin layer has a second opening. The opening area of the second opening is larger than that of the first opening. The first electrode pad is disposed on the first surface side of the insulating layer. The first electrode pad is exposed to the first opening. The second electrode pad is disposed on the second surface side of the insulating layer. The second electrode pad is exposed to the second opening. | 01-15-2009 |
| 20090046441 | WIRING BOARD FOR MOUNTING SEMICONDUCTOR DEVICE, MANUFACTURING METHOD OF THE SAME, AND WIRING BOARD ASSEMBLY - A wiring board for mounting semiconductor device, includes at least a dielectric film | 02-19-2009 |
| 20090315190 | WIRING BOARD, SEMICONDUCTOR DEVICE USING WIRING BOARD AND THEIR MANUFACTURING METHODS - A wiring board has an insulating layer, a plurality of wiring layers formed in such a way as to be insulated from each other by the insulating layer, and a plurality of vias formed in the insulating layer to connect the wiring layers. Of the wiring layers, a surface wiring layer formed in one surface of the insulating layer include a first metal film exposed from the one surface and a second metal film embedded in the insulating layer and stacked on the first metal film. Edges of the first metal film project from edges of the second metal film in the direction in which the second metal film spreads. By designing the shape of the wiring layers embedded in the insulating layer in this manner, it is possible to obtain a highly reliable wiring board that can be effectively prevented from side etching in the manufacturing process and can adapt to miniaturization and highly dense packaging of wires. | 12-24-2009 |
| 20110003472 | WIRING SUBSTRATE FOR MOUNTING SEMICONDUCTORS, METHOD OF MANUFACTURING THE SAME, AND SEMICONDUCTOR PACKAGE - A wiring substrate for mounting semiconductors is provided with an insulation film, wires formed in the insulation film, and a plurality of electrode pads that electrically connect to the wires through vias. The electrode pads are provided to have their surfaces exposed to both of the front surface and the rear surface of the insulation film, and at least a part of the side surface of the electrode pads is buried in the insulation film. The insulation film is formed by forming electrode pads on the respective two metallic plates, thereafter, laminating an insulation layer and wires on the respective metallic plates to cover the electrode pad, and adhering the insulation layers to each other for integration, and thereafter, removing the metallic plates. | 01-06-2011 |
| 20110136298 | METHOD OF MANUFACTURING A WIRING BOARD - A wiring board has an insulating layer, a plurality of wiring layers formed in such a way as to be insulated from each other by the insulating layer, and a plurality of vias formed in the insulating layer to connect the wiring layers. Of the wiring layers, a surface wiring layer formed in one surface of the insulating layer include a first metal film exposed from the one surface and a second metal film embedded in the insulating layer and stacked on the first metal film. Edges of the first metal film project from edges of the second metal film in the direction in which the second metal film spreads. By designing the shape of the wiring layers embedded in the insulating layer in this manner, it is possible to obtain a highly reliable wiring board that can be effectively prevented from side etching in the manufacturing process and can adapt to miniaturization and highly dense packaging of wires. | 06-09-2011 |
| 20120025371 | SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor chip, wiring formed thereon, a first insulating film formed on the wiring, provided with a first opening, a pad electrode formed so as to be in contact with the wiring, a second insulating film formed on the pad electrode film, provided with a second opening, and a flip chip bump formed so as to be in contact with the pad electrode film. In this case, the second insulating film exists between the flip chip bump and the pad electrode film, in a region directly underneath the outer edge of the flip chip bump, as seen in a plan view, and the outer edge of the flip chip bump is formed in a region inside the outer edge of the pad electrode film. | 02-02-2012 |
