Dynamic magnetic information storage or retrieval – Automatic control of a recorder mechanism – Controlling the record
Reissue Patent
1993-09-02
2002-08-13
Grant, William (Department: 2121)
Dynamic magnetic information storage or retrieval
Automatic control of a recorder mechanism
Controlling the record
C360S078040
Reissue Patent
active
RE037818
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to improvements in rotating disk magnetic data storage devices, and, more particularly, but not by way of limitation to improvements in locating data sectors on the disks of such devices.
2. Brief Description of the Prior Art
In rotating disk magnetic data storage devices, data is stored in sectors extending angularly along concentric data tracks defined on the disks of the device. The disks have magnetizable surface coatings. Data is written and subsequently read by transducer heads that fly over the surfaces of the disks to magnetize cells of the surface coating, for writing, or respond to differences in magnetization of adjacent cells for reading. Both operations are controlled by a read/write controller that provides encoded data to the transducer head during writing and receives emf pulses from the transducer heads during readback of the data.
For such a system to operate, it is necessary for the sectors to be located prior to reading or writing and it is common practice to encode a data sector with a header that identifies the sector. Some means must be provided to supply sector location pulses to the controller to enable reading of information on the track as the transducer head approaches alignment with the header. Once the appropriate sector has been reached, reading or writing of data from or to the disk can proceed.
In the past, it has been common practice to include address marks on the disks that violate the code used in writing the data and the headers. A circuit can then be constructed to search for the address marks which the controller will place at the beginning of the sector. Such a circuit then provides the “sector” location pulses to the read/write controller.
The use of address marks on a disk suffers from the disadvantage that the marks can be lost for any of a number of reasons; for example, through flaws in the magnetic medium in which the data is written or accidental turn on of a write gate, used to enable writing, as a transducer head passes over an address mark. In this case, the data stored in the sector for that address mark has been lost. That sector's data can never be retrieved because the controller will never receive the pulses necessary for locating the sector. Similarly, read errors while searching for the address mark may cause a sector to be missed and lower the throughput of the data storage device.
The highly preferred alternative has been for the disk storage device to output sector location pulses at the required regular interval without having to write or recover any special data on the disk media itself. This is usually done with a simple circuit that counts out desired time (or number of bytes) in a sector before issuing the next sector location pulse. This simple circuit has been referred to as hard sectoring. Simple hard sectoring has proven adequate for decades of years because the time when sector location pulses should occur has been identical on every track of the disk storage device.
The problem is exacerbated by other requirements placed on a rotating disk data storage system. As is well known, it is desirable to store as much data on a disk as possible and this desire has lead to the recording of data at different frequencies on different tracks of the disk as taught by Bremmer et al. in U.S. Pat. No. 4,799,112 issued Jan. 17, 1989, the teachings of which are hereby incorporated by reference. With recording of different tracks at different frequencies, sectors on different tracks occupy different angular lengths that take differing times to pass by a transducer head. Accordingly, for rotating disk data storage devices that utilize different data transfer rates for different tracks, sector location pulses must be supplied to the controller at different rates that depend upon the radial location of the transducer head on the disk. As a result, it has been necessary in the past to either forego recording tracks at different frequencies or use address marks, despite the disadvantage of much lower data security.
SUMMARY OF THE INVENTION
The present invention provides an advanced hard sectoring circuit and method for generating the sector location pulses that is particularly suited to data storage devices in which data is recorded at different transfer rates on different track radii to maximize storage of data by the device. To this end, the hard sectoring circuit is comprised of a master clock generator that is synchronized with the rotation rate of the disk to produce master clock signals that are indicative of distances along the disk and a master reset generator that marks passage of an index location defined on the servo disk by the servo transducer head. The master clock signals are utilized to clock a counter following resetting by a master reset signal generated by the master reset generator so that the counter provides a continuous indication of the location, or time from index, of the transducer head with respect to the index location on the disk. An accumulator and latch assembly are used to accumulate next sector times in response to accumulator clock pulses that are generated by an accumulator clock that is enabled by a comparator whenever the time from index counter exceeds or equals the next sector time in the accumulator. Thus, the accumulator will be increased by one sector time each time the time from index counter reaches a sector pulse location. Concurrently with the generation of the accumulator clock signals, a sector location pulse generator, also connected to the comparator, generates the sector location pulses to the controller. The accumulator, as well as the counter, is reset by the master reset generator so that, subsequent to reset, a sector location pulse is generated each time a new sector is brought into angular alignment with a transducer head.
The circuit further comprises a partial reset generator that provides a partial reset signal to the accumulator each time the transducer head is moved from one track to another so that the accumulator clock will operate repetitively following a partial reset signal until the count in the accumulator reaches the time from index stored in the counter. The partial reset signal is further provided to the sector location pulse generator to disable generation of the sector location pulses until the comparator provides an indication that the contents of the accumulator has risen to the time from index stored in the counter. The partial reset signal is triggered by entry of sector times for the new track into a latch assembly that supplies time to be accumulated to the accumulator. Thus, each time the transducer heads are moved to a new track, the next sector time for the new track is accumulated by the accumulator while the sector location pulses are suppressed until the time from index in the counter is reached by the accumulator. Generation of the sector location pulses then ensues as if the transducer head had been following the new track to which it has been moved.
An object of the invention is to reliably provide sector location pulses for locating sectors on data storage disks.
Another object of the invention is to provide a circuit for providing sector location pulses for locating sectors on disks of a rotating disk data storage device that does not depend upon address marks on the disks.
Still a further object of the invention is to provide hard sectoring of rotating disk data storage devices that write data to different data tracks at different transfer rates.
Other objects, features and advantages of the present invention will become apparent from the following detailed description when read in conjunction with the drawings and appended claims.
REFERENCES:
patent: 4048660 (1977-09-01), Dennison et al.
patent: 4432025 (1984-02-01), Grogan
patent: 4514771 (1985-04-01), Stark et al.
patent: 4577240 (1986-03-01), Hedberg et al.
patent: 4641294 (1987-02-01), Yoshimaru
patent: 4656532 (1987-04-01), Greenberg et al.
patent: 4714967 (1987-12-01), Bizjak
patent
Discovision Associates
Do Caroline T.
Garland Steven R.
Grant William
Masaki Keiji
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