Patent application number | Description | Published |
20090152627 | SEMICONDUCTOR DEVICE - This invention is directed to offer a MOS transistor that has a high source-drain breakdown BVds, a low on resistance and a high electric current driving capacity. On resistance is lowered by forming an N well layer for lowering on resistance in the drift region. The N well layer is disposed beneath the gate electrode and away from the N well layer with a certain space between them. This space ensures the withstand voltage at the edge of the gate electrode of the drain layer side. Also, the N well layer is formed on the surface of an epitaxial layer in the region that includes a P+L layer. The edge of the N well layer of the drain layer side is located near the edge of the P+L layer of the drain layer side and away from the N well layer. This space makes the expansion of depletion layer from the P+L layer easier, further improving the withstand voltage. | 06-18-2009 |
20090152628 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF THE SAME - It is desirable to reduce chip area, lower on resistance and improve electric current driving capacity of a DMOS transistor in a semiconductor device with a DMOS transistor. On the surface of an N type epitaxial layer, a P+W layer of the opposite conductivity type (P type) is disposed and a DMOS transistor is formed in the P+W layer. The epitaxial layer and a drain region are insulated by the P+W layer. Therefore, it is possible to form both the DMOS transistor and other device element in a single confined region surrounded by an isolation layer. An N type FN layer is disposed on the surface region of the P+W layer beneath the gate electrode. An N+D layer, which is adjacent to the edge of the gate electrode of the drain layer side, is also formed. P type impurity layers (a P+D layer and a FP layer), which are located below the drain layer, are disposed beneath the contact region of the drain layer. | 06-18-2009 |
20100193865 | DMOS TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - The invention provides a DMOS transistor in which a leakage current is decreased and the source-drain breakdown voltage of the transistor in the off state is enhanced when a body layer is formed by oblique ion implantation. After a photoresist layer | 08-05-2010 |
Patent application number | Description | Published |
20080273259 | MAGNETIC TAPE CARTRIDGE AND MAGNETIC RECORDING AND REPRODUCING APPARATUS - A magnetic tape cartridge includes a cartridge case, a pair of cylindrical hubs rotatably provided in the cartridge case, and a magnetic tape laid between the hubs and wound around outer peripheries of the hubs. Each of the hubs has an inner diameter portion provided with a height-position determining member. The height-position determining member determines a height position of the hub in the magnetic tape cartridge by contacting a driving shaft inserted in the hub when the magnetic tape cartridge is mounted in a magnetic recording and reproducing apparatus. | 11-06-2008 |
20090078810 | MAGNETIC TAPE CARTRIDGE - A magnetic tape cartridge includes a reel around which a magnetic tape is wound, a cartridge casing accommodating the reel rotatably, a reel locking member, a biasing member, a spider, and a lubricant. The reel locking member includes a convex sliding portion and engages with the reel to block a rotation thereof. The biasing member biases the reel locking member so that the reel locking member engages with the reel. The spider includes a supporting surface that comes into contact with the sliding portion and has a concave portion concaved at substantially the center thereof, and a wall portion that surrounds the supporting surface, the spider pushing and moving the reel locking member against a bias force of the biasing member to release the engagement between the reel locking member and the reel. The lubricant is applied between the sliding portion and the supporting surface. | 03-26-2009 |
20110115324 | Bearing unit, and motor using same - A bearing unit is provided which includes a shaft ( | 05-19-2011 |
20140131375 | CARTRIDGE RECEIVING CASE - Provided is a cartridge receiving case including a case section in which a cartridge is inserted and disposed, a lid section configured to be opened and closed with respect to the case section and to cover the cartridge disposed in the case section upon closing, and a rear plate section configured to connect the case section and the lid section. The case section, the lid section, and the rear plate section are integrally formed. A pair of parallel thin hinges are formed as curved portions when the lid section is opened and closed with respect to the case section. One of the thin hinges is formed at a position deviated with respect to a continuous portion between the rear plate section and the case section. The other thin hinge is formed at a position deviated with respect to a continuous portion between the rear plate section and the lid section. | 05-15-2014 |
20140133286 | DISK CARTRIDGE - There is provided a disk cartridge including a case body in which a plurality of disk-shaped recording media are configured to be able to be received in an axial direction of a central shaft in parallel, and a first shell having a base surface section parallel to a recording surface of the disk-shaped recording medium and a second shell having a basal surface section parallel to the recording surface of the disk-shaped recording medium are coupled and separated through separation and connection in the axial direction, and a presser spring having a section to be attached, which is attached to the case body, and a pressing section configured to come in contact with an outer circumferential surface of the disk-shaped recording medium and to press the disk-shaped recording medium. The presser spring is formed of a resin material. | 05-15-2014 |
20140133287 | DISK CARTRIDGE - Provided is a disk cartridge including a case body in which a plurality of disk-shaped recording media are configured to be receivable in an axial direction of a central shaft in parallel, and a first shell having a base surface section parallel to a recording surface of the disk-shaped recording media and a second shell having a basal surface section parallel to the recording surface of the disk-shaped recording media are coupled and separated through separation and connection in the axial direction. | 05-15-2014 |