| Patent application number | Description | Published |
|---|
| 20080314736 | FILLED-GAP MAGNETIC RECORDING HEAD AND METHOD OF MAKING - A filled-gap magnetic recording head is provided comprising a flat or cylindrical contour head having a row of magnetic transducers in a gap region disposed between a rowbar substrate and a closure. The gap region is intentionally recessed to have a predetermined recess profile below a tape support surface. An electrical insulation layer is deposited on the tape support surface and on the recess profile of the gap region. The insulation layer prevents electrical shorting between the magnetic transducers and other conductive elements in the gap due to accumulations of conductive debris from the magnetic recording tape. A method of making the filled-gap magnetic recording head by intentionally recessing the gap region, cleaning the recessed profile and depositing an insulator layer is provided. | 12-25-2008 |
| 20090015970 | MAGNETIC HEAD WITH PROTECTIVE FILMS - A magnetic, head according to one embodiment includes a substrate; a sensor formed above the substrate; a second shield formed above the sensor and the substrate; a first insulation layer positioned between the substrate and the sensor; a second insulation layer positioned between the sensor and the second shield; and a nonmagnetic, non-electrically insulative layer formed between the substrate and the sensor. | 01-15-2009 |
| 20090027806 | CLEANING SYSTEM FOR TAPE HEAD AND TAPE DRIVE SYSTEM IMPLEMENTING SAME - A tape drive system according to one embodiment includes a tape head; a guide mechanism for passing a magnetic recording tape over the head; and a cleaning device for cleaning the head, wherein, while the tape is adjacent the head, a relative spacing between the tape and the head is created before the cleaning device cleans the head, wherein the cleaning device does not contact the tape during cleaning of the head. Other systems and methods are also presented. | 01-29-2009 |
| 20090067097 | TAPE DRIVE SYSTEM - A tape drive system according to one embodiment includes a support for engaging a tape; and a head directly opposing the support such that a tape engaging the support is positioned between the head and the support, the head being for performing at least one of reading from a tape and writing to a tape, wherein, during an operation period when the head is reading from or writing to a tape, the head is positioned such that at least one of the following occurs: the head does not contact the tape for a majority of the operation period; the head does not contact the tape for at least a portion of the operation period; and the head engages the tape for at least a portion of the operation period, the head pressing the tape towards the support when engaging the tape. | 03-12-2009 |
| 20090174960 | METHOD AND SYSTEM FOR SECURE DATA STORAGE - A method and system for secure data storage and retrieval is provided. A sequence of data units is divided into multiple subsets of data units corresponding to multiple data channels. The multiple data channels are assigned to multiple data writers based on a key code. Then, each subset of data units is transferred to a writer via an assigned channel for writing to storage media. Thereafter, to securely retrieve the stored data, each subset of data units is read from the storage media using a data reader. The original sequence of data units can only be reassembled using the key code for properly reassembling the subsets of data units into their original sequence. | 07-09-2009 |
| 20090174963 | TAPE-BASED DATA STORAGE SYSTEM AND HEAD ENABLING COMPOUNDED READING RATE - A tape-based data storage system according to one embodiment comprises a head having at least two modules, each of the modules having an array of readers and writers, wherein at least some of the writers in a first of the modules are aligned with at least some of the readers in a second of the modules in a direction parallel to a direction of tape travel relative to the head, wherein at least some of the readers in the first module are offset laterally from the readers in the second module in a direction perpendicular to the direction of tape travel relative to the head, such that in a first readback mode, the readers from the first and second modules simultaneously read unique tracks on a tape. | 07-09-2009 |
| 20090268343 | MAGNETIC HEAD AND STORAGE SYSTEM - A magnetic head in one embodiment includes a first array of writers interleaved with readers; a second array of writers interleaved with readers, the writers of the first array being generally aligned with the writers of the second array in a direction of media travel relative thereto, the readers of the first array being generally aligned with the readers of the second array in a direction of media travel relative thereto; and a third array of writers interleaved with readers, the third array being positioned between the first and second arrays, the writers of the third array being generally aligned with the readers of the first and second arrays in a direction of media travel relative thereto, the readers of the third array being generally aligned with the writers of the first and second arrays in a direction of media travel relative thereto. Other embodiments are also presented. | 10-29-2009 |
| 20100254036 | ERROR COMPENSATION USING A RESERVE TRACK - In one embodiment, a method includes simultaneously writing tracks of data on a magnetic medium in a first direction using less than all available writers in an array of magnetic writers. The method also includes determining that an error has occurred when writing one of the tracks and terminating writing with the writer associated with the track on which the error occurred. In addition, the method includes simultaneously writing tracks of data on the magnetic medium in the first direction using a previously unused writer in the array of magnetic writers. | 10-07-2010 |
| 20100269565 | WEAR GAUGE ARRAY FOR HEAD PROTECTIVE COATING - In one embodiment, a system comprises a magnetic head, a protective coating on a media-facing side of the head, and an indentation in the protective coating having a dimension that, when the protective coating wears, is indicative of an amount of wear of the protective coating. A method, in another embodiment, comprises creating an indentation in a protective coating of a magnetic head, the indentation having a dimension that, when the protective coating wears, is indicative of an amount of wear of the protective coating. In another embodiment, a method comprises visually inspecting indentations in a protective coating of a magnetic head, wherein at least two of the indentations have differing dimensions that, when the protective coating wears, are indicative of the amount of wear of the protective coating. The method also includes estimating an amount of wear of the protective coating based on the visual inspection. | 10-28-2010 |
