The present disclosure generally relates to tape assembly implementations for magnetic recording devices, such as tape embedded drives (TEDs). In one or more embodiments, one or more of a first reel and/or a second reel is laterally movable relative to a side wall of a casing of the tape assembly. In one or more embodiments, a drive assembly laterally moves the first reel and the second reel substantially simultaneously such that a spindle distance between a first spindle and a second spindle is substantially constant.

The present disclosure generally relates to a head positioning assembly in a tape embedded drive. The tape embedded drive has two reels as well as four guide rollers. The reels and guide rollers are arranged within the tape embedded drive so as to position the head positioning assembly as close to the center of the tape embedded drive as possible. In so doing, the reels, guide rollers, and head assembly are more stable which reduces or even eliminates shock and vibration to the tape embedded drive.

An apparatus, in accordance with one approach, includes a receiving area configured to receive a plurality of mounts, each mount being configured to support at least one tape spool pair thereon. A magnetic head is configured to perform data operations on magnetic recording tapes of the tape spool pairs. A positioning mechanism is configured to selectively align the magnetic head to a selected one of the tape spool pairs. A product apparatus, in accordance with another approach, includes a mount having a tape spool pair thereon. The mount is configured to be inserted in a receiving area of an apparatus configured to receive a plurality of mounts.

The present disclosure generally relate to tape assembly implementations for magnetic recording devices, such as tape embedded drives (TEDs). In one or more embodiments, a first reel and a second reel are mounted at stationary positions. One or more of the first reel and/or the second reel includes a hub mounted to a spindle, and a single flange extending relative to the hub. In one or more embodiments, one or more of a first reel and/or a second reel each includes a flangeless hub mounted to a spindle.

The present disclosure generally relates to a head positioning assembly in a tape embedded drive. The tape embedded drive has two reels as well as four guide rollers. The reels and guide rollers are arranged within the tape embedded drive so as to position the head positioning assembly as close to the center of the tape embedded drive as possible. In so doing, the reels, guide rollers, and head assembly are more stable which reduces or even eliminates shock and vibration to the tape embedded drive.

An apparatus, in accordance with one approach, includes a receiving area configured to receive a plurality of mounts, each mount being configured to support at least one tape spool pair thereon. A magnetic head is configured to perform data operations on magnetic recording tapes of the tape spool pairs. A positioning mechanism is configured to selectively align the magnetic head to a selected one of the tape spool pairs. A product apparatus, in accordance with another approach, includes a mount having a tape spool pair thereon. The mount is configured to be inserted in a receiving area of an apparatus configured to receive a plurality of mounts.

A tape cartridge according to an embodiment of the present technology includes: a first tape reel; a magnetic tape; a leader pin; and a second tape reel. The magnetic tape is wound around the first tape reel. The leader pin is attached to an end portion of the magnetic tape and includes a shaft portion parallel to a tape width direction. The second tape reel includes a cylindrical reel hub, a first flange, and a second flange. The reel hub has an inner peripheral surface and an outer peripheral surface, a housing unit capable of housing the leader pin being provided on the inner peripheral surface or the outer peripheral surface. The first flange is provided to one end portion of the reel hub. The second flange is provided to the other end portion of the reel hub and includes a slit portion through which the magnetic tape is capable of passing.

The present disclosure generally relate to tape assembly implementations for magnetic recording devices, such as tape embedded drives (TEDs). In one or more embodiments, a first reel and a second reel are mounted at stationary positions. One or more of the first reel and/or the second reel includes a hub mounted to a spindle, and a single flange extending relative to the hub. In one or more embodiments, one or more of a first reel and/or a second reel each includes a flangeless hub mounted to a spindle.

The present disclosure generally relates to a captive tape drive comprising a tape head. The captive drive comprises an upper assembly, the upper assembly comprising a first tape, a first supply reel, a first take-up reel, and two or more rollers. The captive tape drive further comprises a lower assembly disposed below the upper assembly, the lower assembly comprising a second tape, a second supply reel, a second take-up reel, and two or more rollers. The tape head is disposed between the plurality of rollers, and is configured to move between the upper assembly and the lower assembly to access the first and second tapes. The tape head comprises one or more modules, each module comprising 64 writers and 64 readers. Each module is configured to write data to the first and second tapes using the 64 writers and to read verify the newly written data using the 64 readers.

A tape drive includes a first take-up reel and a second take-up reel that are in a stacking layout and that rotate around respective rotation axes, where the first take-up reel and the second take-up reel wind a tape body, and the respective rotation axes coincide or do not coincide. When the first take-up reel and the second take-up reel rotate, the tape body is driven to be transported from the first take-up reel to the second take-up reel. A tape header and roller structures are disposed on a transport path of the tape body between the first take-up reel and the second take-up reel. The tape header performs a read operation or a write operation on the tape, and the roller structures support the tape body.