摘要:
A method is provided for cleaning a transducer head in a tape drive. The method includes the steps of: providing a tape drive with a head cleaning device, a data tape cartridge having data tape, and a cleaning tape cartridge having cleaning tape; detecting error rate for the transducer head with the data tape; determining when the detected error rate exceeds a specified level; and when the detected error rate exceeds a specified level, loading the cleaning tape cartridge into the tape drive and running cleaning media on the cleaning tape over the transducer head to clean the transducer head. Another method includes using a head cleaning device to clean the transducer head when there is an identified need, or as a preventative measure.
摘要:
This invention is a tape drive which includes a transducer head, a tape carrier, and a tape displacement structure. The tape carrier is provided in association with the transducer head, and is configured to support and move a tape along a tape travel path within the tape drive. The tape carrier moves the tape in contact with the transducer head along the tape travel path during at least one of a read operation and a write operation. The tape displacement structure is provided in association with the transducer head, and is configured to engage and bias a received tape from the tape travel path to a retracted tape travel path. The retracted tape travel path is spaced apart from the transducer head. The tape carrier is operative to move the retracted tape across the tape displacement structure, spaced apart from the transducer head. The tape carrier prevents at least one of transducer wear and transducer contamination caused by contact of the tape moving against the transducer head. A method is also provided.
摘要:
A head cleaning device that utilizes a cleaning pad in which a multiplicity of fibers are integrated into and project from a backing by, for example, sewing or weaving the fibers into the backing. Preferably, the fibers and backing are made from an electrically conductive or statically dissipative material to minimize electro-static charge build up. The cleaning device may be incorporated into a tape drive that includes a transducer head, tape guides configured to guide the tape over the head and a cleaning mechanism. The cleaning mechanism, which is configured to engage the head, includes the cleaning pad mounted to a carrier disposed near the head. The cleaning pad is constructed of a multiplicity of fibers integrated into and projecting from the backing.
摘要:
A magnetic recording disk has a layered structure comprising a metal substrate, a layer of NiP atop the metal substrate, the NiP layer having a surface roughness of less than 2.0 nanometers RMS, a metal layer over the polished NiP layer, the metal layer having a desired textured outer surface as a result of the sputter deposition, the textured outer surface being characterized by a cobblestone-like metallic grain structure with between 10 and 100 grains per square micron, an RMS surface roughness of between 1.0 and 8.0 nanometers, and with peak heights as measured from the mean plane of the surface over a 10 micron square area of between 2.0 and 20.0 nanometers, a magnetic layer atop the metal layer.
摘要:
A memory cell includes a magnetic data storage layer, a magnetic reference layer, and an insulating layer between the data storage layer and the reference layer. A resistive layer having a known electrical resistance is positioned adjacent the insulating layer.
摘要:
A read-only memory device is described having non-volatile memory cells that include a memory component connected between electrically conductive traces. A memory component is formed to include a resistor that indicates a resistance value when a potential is applied to a selected memory cell. The resistance value of a memory component in an individual memory cell corresponds to multiple logical bits. The resistance value of a memory component corresponding to a set of logical bits can be based on a thickness and/or an area of electrically resistive material that forms the memory component, and/or based on the geometric shape of the memory component, where different geometric shapes of the electrically resistive material have different resistance values that correspond to different sets of logical bits.
摘要:
An inexpensive, vertically oriented multiple substrate carrier is disclosed for high-temperature, high vacuum film deposition systems. In one embodiment, the substrates have central circular openings and the carrier includes a plurality of supports on which the substrates hang, with each support, such as a vertically oriented sheave, engaging the perimeter of a substrate opening. As the carrier is rotated, planetary motion is imparted to the substrates to facilitate simultaneous, two-sided, substantially uniform deposition of a film. In another embodiment, the substrates are circular and are each supported for planetary motion and two sided deposition in a respective circular groove which bounds an opening through the carrier.
摘要:
Methods for creating a memory device can include depositing a sense layer, patterning the sense layer to form a plurality of magnetic data cells, depositing a separation layer over the plurality of data cells, depositing a reference layer over the separation layer, and patterning the reference layer to form an elongated magnetic reference cell wherein the elongated magnetic reference cell extends uninterrupted along more than one of the plurality of magnetic data cells.
摘要:
A magnetic memory includes a circuit configured to apply a reverse magnetic field to one or more half-selected magnetic memory cells to improve half-select margin in the magnetic memory.
摘要:
Magnetic tape (13) on a supply reel (11) is provided with a trailing end leader (27) which has an abrasive cleaning characteristic. In order to effectively use the leader with the cleaning characteristic, the tape is fully unreeled to expose the abrasive leader (27) only when a requirement to clean the tape head transducers is sensed. During normal operation, the trailing leader (25) which includes the cleaning leader (27) is not exposed to the tape transducer head, but instead remains on the supply reel.