Abstract: A clamp for mounting an information storage disk on a hub or spindle includes an annular member which surrounds the hub and has fingers which exert outward radial forces on the inside edge of the disk. A series of L-shaped legs also extend from the annular member and impose axial forces on a flat surface of the disk, the total axial force being smaller than the sum of the radial forces. The clamp is made of a spring-like material and is held in place by a series of inwardly extending nubs which make contact with the hub.

Abstract: In one embodiment, a rigid disk drive including a rotary actuator having a lift tab extending asymmetrically from the end of the load beam which supports a slider with read/write element is disclosed. The free end of the lift tab cooperates with a cam surface on a cam assembly to provide dynamic loading and unloading of the slider while imparting a roll to the slider as it is loaded to and unloaded from the disk. In another embodiment, the lift tab 117 extends from the end of the load beam 114-1 along an axis generally parallel to the longitudinal axis 177 of the load beam 114-1 but the axis 178 of the lift tab 117 is offset from the longitudinal axis 177 of the load beam 114-1.

Abstract: A spin motor assembly of a disk drive apparatus includes a stator having a plurality of wound coils associated therewith, and a rotor having a plurality of magnetic poles. Each winding structure of the stator is made up of two winding portions, with only one winding portion being used to drive the rotor relative to the stator upon drive current being applied to the winding structure, but with both winding portions being used to generate back electromotive force when drive current is cut off from the winding structure. This generated electromotive force is used to actuate an actuator motor to unload the read-write heads from the disk surface. As an alternative, each winding structure of the stator is made of a single winding, and the winding structures are used successively to drive the rotor relative to the stator, but with at least two winding portions generating back electromotive force when drive current is cut off.

Abstract: A rotary inertial latch is disclosed for maintaining the actuator of a disk drive in its proper position when the drive is not in operation.

Abstract: A shock absorbent jacket for mounting a disk drive or other component is disclosed.

Abstract: A shock absorbent jacket for mounting a disk drive or other component is disclosed.