Patent application number | Description | Published |
20090134498 | SEMICONDUCTOR APPARATUS - The present invention includes a semiconductor element provided with an electrode passing through front and back sides. The electrode is formed as a cylinder including a hollow portion, and stress relaxing material is provided in the hollow portion, which is used to reduce stress that is induced between the semiconductor element and the electrode. The stress relaxing material is an elastic body made of resin material. | 05-28-2009 |
20090134506 | SEMICONDUCTOR DEVICE, METHOD FOR MANUFACTURING THE SAME, AND FLEXIBLE SUBSTRATE FOR MOUNTING SEMICONDUCTOR - A semiconductor device includes a second semiconductor package, which includes a substrate and at least one semiconductor package. The substrate includes a terminal group formed on a surface thereof. At least one first semiconductor package is stacked on the substrate, and includes a plurality of flexible substrates, each of which includes a wiring group on a surface thereof and each of which is bending-deformable. At least one first semiconductor package includes a plurality of semiconductor elements mounted on a plurality of flexible substrates. Electric conduction through the second semiconductor package is established by connecting the wiring group on each of a plurality of flexible substrates to the terminal group on the substrate. Further, at least one terminal of the terminal group on the substrate is electrically connected to all of the plurality of semiconductor elements on at least one first semiconductor package, and at least one other terminal of the terminal group is electrically connected only to particular semiconductor elements of the plurality of semiconductor elements. | 05-28-2009 |
20100224984 | SEMICONDUCTOR DEVICE AND STACKED SEMICONDUCTOR DEVICE IN WHICH CIRCUIT BOARD AND SEMICONDUCTOR CHIP ARE CONNECTED BY LEADS - A semiconductor device according to one embodiment has a wiring circuit board, a semiconductor chip, a die attach material and bumps. The semiconductor chip is mounted on the wiring circuit board. The die attach material is provided between the wiring circuit board and the semiconductor chip. A wiring layer is provided on one surface of the wiring circuit board. Leads are extended from the wiring layer and connected to the semiconductor chip. The bumps are provided at outer positions relative to the region where the semiconductor chip of the wiring circuit board is mounted. The wiring layer in the wiring circuit board is formed on the surface opposite from the surface on which the semiconductor chip is mounted. | 09-09-2010 |
20100295162 | Semiconductor device - Portions of a wiring layer extending like cantilevers from an inner peripheral edge of an opening in a substrate are joined to respective terminals of a semiconductor chip mounted on the substrate. A junction portion between each portion of the wiring layer and the corresponding terminal is sealed with resin. | 11-25-2010 |
20120302007 | SEMICONDUCTOR DEVICE INCLUDING SEMICONDUCTOR CHIPS WITH DIFFERENT THICKNESS - In a stacked-type semiconductor device, a first semiconductor device and at least one second semiconductor device are stacked. The first semiconductor device includes a wiring board and a first semiconductor chip mounted on the wiring board. The second semiconductor device includes a wiring board and a second semiconductor chip mounted on the wiring board. The thickness of the second semiconductor chip of each second semiconductor device is thicker than the thickness of the first semiconductor chip. | 11-29-2012 |
20130093083 | SEMICONDUCTOR DEVICE AND STACKED SEMICONDUCTOR DEVICE - A semiconductor device according to one embodiment has a wiring circuit board, a semiconductor chip, a die attach material and bumps. The semiconductor chip is mounted on the wiring circuit board. The die attach material is provided between the wiring circuit board and the semiconductor chip. A wiring layer is provided on one surface of the wiring circuit board. Leads are extended from the wiring layer and connected to the semiconductor chip. The bumps are provided at outer positions relative to the region where the semiconductor chip of the wiring circuit board is mounted. The wiring layer in the wiring circuit board is formed on the surface opposite from the surface on which the semiconductor chip is mounted. | 04-18-2013 |
20140252576 | Semiconductor Device and Manufacturing Method Thereof - A semiconductor device has a packaging structure in which a top surface of a semiconductor chip | 09-11-2014 |
Patent application number | Description | Published |
20100171209 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device having stacked semiconductor chips is provided wherein alignment of even thin semiconductor chips of a large warpage is easy and thus high assembling accuracy and high reliability are ensured. Semiconductor chips having hollow through-silicon via electrodes each formed with a tapered portion are melt-joined using solder balls each having a core of a material higher in melting point than solder. When melt-joining the semiconductor chips, the temperature is raised while imparting an urging load to stacked semiconductor chips, thereby correcting warpage of the semiconductor chips. In each chip-to-chip connection thus formed, if the connection is to prevent the occurrence of stress around the electrode due to the urging load, a solder ball having a core of a smaller diameter than in the other connections is used in the connection. | 07-08-2010 |
20100193936 | SEMICONDUCTOR DEVICE - A novel structure capable of reducing the stress in the insulating layer in the semiconductor element and thereby securing reliability is provided. When the semiconductor element and the substrate are connected with a solder, the stress generated in the insulating layer is reduced by placing a spherical core made of a material having a greater rigidity inside the solder and satisfying the following inequalities: 1 GPa<(Young's modulus of a encapsulation resin)<30 GPa, 20 ppm/k<(linear coefficient of expansion of the encapsulation resin)<200 ppm/k, and 10 MPa<(yield stress of the solder at room temperature)<30 MPa. At the time of connection, the thickness of the solder to be placed between the land on the surface of the semiconductor element and the core is adjusted to 1/10 or less of the terminal pitch. | 08-05-2010 |
20130067424 | LIFE PREDICTION METHOD OF ELECTRONIC DEVICE AND DESIGN METHOD OF ELECTRONIC DEVICE USING THE METHOD - A life prediction method of an electronic device in which the life prediction accuracy is more improved than that in a related art technique, and a design method of an electronic device based on the above method, are established. Life prediction is performed by incorporating either of a change in a physical property of a solder joint portion and a change in the fatigue life of a solder, the changes occurring when left at a high temperature. The change in a physical property of the solder joint portion or the change in the fatigue life of the solder is determined from the relationship between a heat treatment temperature and a heat treatment time. These changes are then formulated to be incorporated into the life prediction. | 03-14-2013 |