Electricity: motive power systems – Positional servo systems
Reexamination Certificate
2000-01-14
2002-05-14
Nappi, Robert E. (Department: 2837)
Electricity: motive power systems
Positional servo systems
C360S075000, C360S077070, C360S078010, C360S078140, C369S043000
Reexamination Certificate
active
06388413
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to the field of mass storage devices. More particularly, this invention relates to an apparatus and method for moving a transducing head within a disc drive from a first track to a second track. The operation of moving a transducing head from a first track to a second track is commonly called a seek.
BACKGROUND OF THE INVENTION
One key component of any computer system is a device to store data. Computer systems have many different places where data can be stored. One conmmon place for storing massive amounts of data in a computer system is on a disc drive. The most basic parts of a disc drive are an information storage disc that is rotated, an actuator that moves a transducer to various locations over the disc, and electrical circuitry that is used to write and read data to and from the disc. The disc drive also includes circuitry for encoding data so that it can be successfully retrieved and written to the disc surface. A microprocessor controls most of the operations of the disc drive as well as passing the data back to the requesting computer and taking data from a requesting computer for storing to the disc.
The transducer is typically placed on a small ceramic block, also referred to as a slider, that is aerodynamically designed so that it flies over the disc. The slider is passed over the disc in a transducing relationship with the disc. Most sliders have an air-bearing surface (“ABS”) which includes rails and a cavity between the rails. When the disc rotates, air is dragged between the rails and the disc surface causing pressure, which forces the head away from the disc. At the same time, the air rushing past the cavity or depression in the air bearing surface produces a negative pressure area The negative pressure or suction counteracts the pressure produced at the rails. The slider is also attached to a load spring which produces a force on the slider directed toward the disc surface. The various forces equilibrate so the slider flies over the surface of the disc at a particalar desired fly height. Tile fly height is the distance between the disc surface and the transducing head, which is typically the thickness of the air lubrication film. This film eliminates the friction and resulting wear that would occur if the transducing head and disc were in mechanical contact during disc rotation in some disc drives, the slider passes through a layer of lubricant rather than flying over the surface of the disc.
Information representative of data is stored on the surface of the storage disc. Disc drive systems read and write information stored on tracks on storage discs. Transducers, in the form of read/write heads attached to the sliders, located on both sides of the storage disc, read and write information on the storage discs when the transducers are accurately positioned over one of the designated tracks on the surface of the storage disc. The transducer is also said to be moved to a target track. As the storage disc spins and the read/write head is accurately positioned above a target track, the read/write head can store data onto a track by writing information representative of data onto the storage disc Similarly, reading data on a storage disc is accomplished by positioning the read/write head above a target track and reading the stored material on the storage disc. To write on or read from different tracks, the read/write head is moved radially across the tracks to a selected target track.
The methods for positioning the transducer can generally be grouped into two categories Disc drives with linear actuators move the transducer linearly generally along a radial line to position the transducers over the various tracks on the information storage disc. Disc drives also have rotary actuators which are mounted to the base of the disc drive for arcuate movement of the transducers across the tracks of the information storage disc. Rotary actuators position transducers by rotationally moving them to a specified location on an information recording disc. A rotary actuator positions the transducer quickly and precisely.
The actuator is rotatably attached to a shaft via a bearing cartridge which generally includes one or more sets of ball bearings. The shaft is attached to the base and may be attached to the top cover of the disc drive. A yoke is attached to the actuator. The voice coil is attached to the yoke at one end of the rotary actuator. The voice coil is part of a voice coil motor which is used to rotate the actuator and the attached transducer or transducers. A permanent magnet is attached to the base and cover of the disc drive. The voice coil motor which drives the rotary actuator comprises the voice coil and the permanent magnet. The voice coil is attached to the rotary actuator and the permanent magnet is fixed on the base. A yoke is generally used to attach the permanent magnet to the base and to direct the flux of the permanent magnet. Since the voice coil sandwiched between the magnet and yoke assembly is subjected to magnetic fields, electricity can be applied to the voice coil to drive it so as to position the transducers at a target track.
Quick and precise positioning requires the reduction of the vibration of the magnetic disc apparatus caused by the driving reaction force to the voice coil motor. What is needed is a disc drive which is less susceptible to the reaction forces. This will improve settling characteristics after a seek from a first track on the disc to a target track on the disc and will improve track following operations of the disc drive. In other words, there is a need for a disc drive that has less relative motion between the actuator assembly and the base while under any type of servo control that requires corrections to be implemented with the voice coil motor. There is also a need For a static solution so that the resulting disc drive is more reliable over the life of the drive. Also needed is a device that can be assembled using current assembly techniques.
One constant goal associated with disc drives is to decrease or lessen the access time to data. Increasing the speed at which data can be retrieved is very desirable in a disc drive. The decrease in access time increases the speed at which a computer system can perform operations on data. When a computer is commanded to perform an operation on data or information that needs to be retrieved, the time necessary to retrieve the data from the disc is generally the bottleneck in the operation. When data is accessed more quickly, more transactions can generally be handled by a computer in a particular unit of time.
Most of the methods for control access time include referring to a velocity profile. A velocity profile is a pre-programmed equation or table which lists a desired velocity verses the stopping distance remaining until reaching the target track. In other words, a velocity profile provides the velocity the transducer head should have at varying distances from the destination or target track and, at each of a succession of tracks terminating with the destination or target track. Generally, the profile velocity value is the highest possible value of velocity the actuator can have at a particular remaining distance to allow the actuator to be decelerated to a stop upon reaching the destination or target track. Of course, there may be factors, such as power savings, that may steer designers away from following the highest possible velocity.
The velocity profile is shaped with respect to the number of tracks remaining in a seek to cause the transducer head to initially accelerate toward the destination or target track and subsequently decelerate to the destination or target track. In long seeks, these stages of the seek may be separated by a stage in which the transducer head traverses a series of tracks at a maximum speed that is selected on the basis of any of a number of criteria used by the manufacturer of the disk drive. For example, the maximum speed may be chosen to be the maximum speed the transducer head can attain with the
Ding Ming Zhong
Ng Wei Loon
Wong Patrick T.
Berger Derek J.
Cesari Kirk A.
Dempster Shawn B.
Leykin Rita
Seagate Technology LLC
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