Patent application number | Description | Published |
20080218900 | MULTI-CHANNEL THIN-FILM MAGNETIC HEAD AND MAGNETIC TAPE DRIVE APPARATUS WITH THE MULTI-CHANNEL THIN-FILM MAGNETIC HEAD - A multi-channel thin-film magnetic head has magnetic read head elements, magnetic write head elements, servo magnetic head elements, a plurality of pairs of external connection pads for reading connected with magnetic read head elements, a plurality of pairs of external connection pads for writing connected with magnetic write head elements, a plurality of pairs of external connection pads for servo connected with servo magnetic head elements, and a plurality of connection pads for body grounding or other functions. The connection pads for reading, writing, servo and body grounding or other functions are arranged in lines on a surface of the multi-channel thin-film magnetic head, and lead conductors which are electrically connected with connection pads for reading, writing, servo and body grounding or other functions are different each other in terms of widths, shapes, connection points or existence of a connector among at least two types of connection pads. | 09-11-2008 |
20090059439 | MULTICHANNEL THIN-FILM MAGNETIC HEAD WITH DUMMY SHIELDS - Provided is a multichannel thin-film magnetic head having a plurality of read head elements neighboring with each other, each of which includes shield layers having a desired stable magnetic-domain structure. The head comprises at least one read head part comprising a plurality of read head elements aligned in the track width direction, wherein each of the plurality of read head elements comprises a lower shield layer and an upper shield layer, and the at least one read head part comprises: a lower shield part comprising a plurality of the lower shield layers aligned in the track width direction; and an upper shield part comprising a plurality of the upper shield layers aligned in the track width direction, and wherein dummy shield layers are provided respectively on both sides of at least the lower shield part. | 03-05-2009 |
20090135520 | Magnetic tape head - A magnetic tape head has a base substrate, a magnetic head layer formed on the base substrate, and a closure piece formed on the magnetic head layer. The distance from a first plane comprising a point on the tape bearing surface of the base substrate to a third plane comprising a point on the tape bearing surface of the closure piece is equal to or greater than the distance from the first plane to a second plane comprising a point on the tape bearing surface of the magnetic head layer. | 05-28-2009 |
20090154024 | THIN-FILM MAGNETIC HEAD WITH THROUGH HOLES REACHING MEDIUM-OPPOSED SURFACE - Provided is a thin-film magnetic head for reading data from a magnetic recording medium and/or writing data to a magnetic recording medium, in which the magnetic spacing can be controlled appropriately by stably adjusting the pressure working between the thin-film magnetic head and the magnetic recording medium according to the change of conditions such as the change over time. This thin-film magnetic head comprises at least one through hole reaching a surface opposed to the magnetic recording medium of the thin-film magnetic head, for adjusting a pressure working between the thin-film magnetic head and the magnetic recording medium. Preferably, the head further comprises at least one flow-amount control means for controlling the flow amount of gas that flows via the at least one through hole. | 06-18-2009 |
20090185314 | THIN-FILM MAGNETIC HEAD WITH GROOVES ON MEDIUM-OPPOSED SURFACE AND MANUFACTURING METHOD OF THE HEAD - Provided is a thin-film magnetic head that can be adequately contacted with the magnetic recording medium, and thus, can perform read and write operations sufficiently and stably. This head comprises: at least one magnetic head element for reading and/or writing data, formed on/above an element formation surface of a substrate; an overcoat layer formed so as to cover the at least one magnetic head element; and a closure adhered on at least a portion of an upper surface of the overcoat layer, wherein a groove, extending in a track width direction, is provided on a medium-opposed surface: in an area on an end surface of the substrate, the area being on a boundary between the substrate and the overcoat layer; or in an area covering end surface portions of the substrate and the overcoat layer, the area thus overlapping the boundary between the substrate and the overcoat layer. | 07-23-2009 |
20090237833 | MAGNETIC TAPE APPARATUS USING PERPENDICULAR MAGNETIC RECORDING - Provided is a magnetic tape apparatus using perpendicular magnetic recording, which has the function corresponding to an soft-magnetic under layer with sufficiently large thickness and enables the magnetic tape to maintain life sufficiently. This magnetic tape apparatus comprises: a tape head comprising at least one write head element for perpendicular magnetic recording; and a soft-magnetic capstan belt having a surface contact with the magnetic tape and pressing the magnetic tape to the tape head at least during recording, for controlling running speed of the magnetic tape by causing the magnetic tape to run together with the soft-magnetic capstan belt. Further it is preferable that at least two capstan-belt axes are further provided, and the soft-magnetic capstan belt is a loop running among the at least two capstan-belt axes. | 09-24-2009 |
20090257143 | THIN-FILM MAGNETIC HEAD HAVING FUNCTION OF ADJUSTING CLOSURE HEIGHT - Provided is a thin-film magnetic head, in which the magnetic spacing can be controlled appropriately, regardless of the presence of the variation in height of the medium-opposed surface of the closure. The thin-film magnetic head comprises: at least one head element formed on or above an element-formation surface of a substrate, for reading data from a magnetic recording medium and/or writing data to a magnetic recording medium; an overcoat layer formed on the element-formation surface so as to cover the at least one head element; and at least one closure adhered to at least a portion of an upper surface of the overcoat layer. Here, at least one of the at least one closure comprises at least one height-adjusting means for adjusting the height of a medium-opposed surface of the closure. The height-adjusting means is preferably a heating means provided within the closure. | 10-15-2009 |
20090310248 | THIN-FILM MAGNETIC HEAD WITH VARIABLE-VOLUME CAVITY IN MEDIUM-OPPOSED SURFACE - Provided is a thin-film magnetic head in which the magnetic spacing can be appropriately controlled by dynamically and accordingly, by adjusting the pressure working between the thin-film magnetic head and the magnetic recording medium according to the change of conditions such as the change over time. The thin-film magnetic head comprises at least one cavity for adjusting a pressure working between the thin-film magnetic head and the magnetic recording medium, provided in a surface of the head opposed to the magnetic recording medium, and a volume of the at least one cavity being variable. When the magnetic recording medium passes through near the cavity, the cavity generates a (negative) pressure that attracts the head and the medium toward each other. The amount of the negative pressure depends on the volume of the cavity; thus, a magnetic spacing d | 12-17-2009 |
20100110582 | MULTI-CHANNEL THIN-FILM MAGNETIC HEAD AND MAGNETIC TAPE DRIVE APPARATUS WITH THE MULTI-CHANNEL THIN-FILM MAGNETIC HEAD - A multi-channel thin-film magnetic head includes a substrate, a plurality of MR read head elements, a plurality of first resistive elements, and a plurality of second resistive elements. Each MR read head element includes a lower magnetic shield layer, an upper magnetic shield layer, and an MR layer arranged between the lower magnetic shield layer and the upper magnetic shield layer. Each first resistive element has a first resistance value. One ends of the plurality of first resistive elements are connected to the lower magnetic shield layers or the upper magnetic shield layers of the plurality of MR read head elements, respectively. Each second resistive element has a second resistance value that is higher than the first resistance value. One ends of the plurality of second resistive elements are commonly connected to the other ends of the plurality of first resistive elements. The other ends of the plurality of second resistive elements are grounded. | 05-06-2010 |
20100149685 | MULTI-CHANNEL THIN-FILM MAGNETIC HEAD, MAGNETIC TAPE DRIVE APPARATUS WITH THE MULTI-CHANNEL THIN-FILM MAGNETIC HEAD AND MANUFACTURING METHOD OF MULTI-CHANNEL THIN-FILM MAGNETIC HEAD - A multi-channel thin-film magnetic head includes a substrate, a plurality of thin-film magnetic head elements formed on the substrate, a closure fixed onto the plurality of thin-film magnetic head elements, a protection film laminated on a whole area of a TBS of the plurality of thin-film magnetic head elements and the closure, and many micro-grooves formed in a surface of the protection film. | 06-17-2010 |
20100196739 | MAGNETIC HEAD, MANUFACTURING METHOD THEREFOR AND MAGNETIC TAPE DEVICE - The present invention relates to a magnetic head which can be kept in stable contact with a magnetic tape and has improved production efficiency, a manufacturing method therefor, and a magnetic tape device. The magnetic head according to the present invention includes a substrate and two auxiliary members, having a tape bearing surface to be in sliding contact with a magnetic tape. Reproducing and recording elements in alignment with each other along a tape running direction are arranged in the substrate along a tape width direction. The two auxiliary members are joined to two ends, respectively, of the substrate, constituting the tape bearing surface together with the substrate. The substrate or the two auxiliary members are formed with slopes extending from join-faces between the substrate and the two auxiliary members to the tape bearing surface to make clearances for the magnetic tape. Since the running magnetic tape can be drawn to the clearances by negative pressure generated at the clearances, it can be held in parallel with the tape bearing surface. | 08-05-2010 |
20100237345 | WAFER AND MANUFACTURING METHOD OF ELECTRONIC COMPONENT - The present invention relates to a wafer formed with an evaluation element and capable of improving productivity and a manufacturing method of an electronic component using the same. In a wafer according to the present invention, a plurality of elements connected to electrode films through lead-out conductive films are arranged and a chip area is defined for cutting out the plurality of elements in a given number. In the wafer, at least one evaluation element is formed in an area outside the chip area. The lead-out conductive films extend to the outside area and are connected to the evaluation elements. With this wafer, since the lead-out conductor is shared between the element and the evaluation element, the electrode film connected therewith can be shared, too. Accordingly, evaluation can be performed by using the evaluation element without the need of providing the wafer with a lead-out conductor and an electrode film exclusively for the evaluation element, so that the chip area to be cut out from the wafer can be made larger than before. | 09-23-2010 |
20150054498 | MAGNETIC SENSOR - The magnetic sensor of the invention comprises a base portion, a sensor chip positioned on the base portion, a wiring portion adapted to electrically connect a terminal of the sensor chip to a connecting lead, a resin having a low elastic modulus for coating at least the sensor chip, and a resin having a high elastic modulus for coating at least the low elastic-modulus resin and the wiring portion, wherein the sensor chip includes a magneto-resistive effect device, and the low elastic-modulus resin has an elastic modulus ranging from 10 kPa to 80 MPa while the high elastic-modulus resin has an elastic modulus of 1 GPa or more, and enables the sensor chip to perform well in a good state although having a structure of sealing up the sensor chip with the resin member. | 02-26-2015 |