KR100383633B1 - Method for restoring maintenance information using backup - Google Patents

Abstract

PURPOSE: A method for restoring maintenance information using backup is provided to read maintenance information rerecorded on a track except a maintenance area when defects are generated in the maintenance area. CONSTITUTION: A microprocessor reads maintenance information recorded on a maintenance area(40). The microprocessor examines whether a maintenance information read error is generated(42). If so, the microprocessor increases tracks as many as required(44). The microprocessor reads duplicated information from a track where the maintenance information is rerecorded(46). The microprocessor examines whether a duplicated information read error is generated(48). If so, the microprocessor examines whether it is a final track where maintenance information is rerecorded(50). If so, the microprocessor reports the error to a host computer(52).

Description

How to recover maintenance information using backup

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to maintenance information of a hard disk drive, and more particularly, to a method of restoring maintenance information recorded in a maintenance area using back-up.

Companies producing hard disk drives, which are widely used as auxiliary storage devices for computer systems, currently have their own serial numbers, defect log in data, and defect lists in the manufacturing process. The maintenance information is recorded and used in the track located on the outermost side of the disk (usually referred to as the maintenance area). Since the maintenance information is unique to each drive, the maintenance information cannot be included in a ROM, and is written to the maintenance area as described above, and read after being read into the RAM of the drive whenever necessary. At this time, the number of tracks allocated to the maintenance area is allocated from one to as many as four according to maintenance information.

It is essential for the operation of the drive to read the information recorded in the maintenance area when the driving power of the conventional hard disk drive is input. However, it is obvious that the drive itself cannot be used if the information recorded in the maintenance area is damaged. This is because the maintenance area is inaccessible to the user so that maintenance information is recorded only once during the manufacturing process. In the conventional hard disk drive, if the information recorded in the maintenance area is damaged, the drive itself cannot be used.

Accordingly, an object of the present invention is to provide a method for recovering even when maintenance information recorded in the maintenance area is damaged.

The present invention for achieving the above object is characterized in that it is used when the first maintenance information lead error occurs after the maintenance information is rewritten to a track other than the maintenance area during the manufacturing process.

On the other hand, the implementation of the present invention can be realized by first, securing an extra maintenance area, and secondly, adding some routines to the firmware. That is, for the first term, the recorded contents of the maintenance area currently used are scattered in various places, but the total amount is within 100 sectors, so the contents can be positioned within one track by adjusting the position of each content. This is determined when the recording location of each information in the maintenance area currently used is 100 Mbyte to 200 Mbyte of which the drive capacity is significantly smaller. Since the number of sectors per track was determined to be within 50 sectors, the number of tracks allocated to the maintenance area was large. In addition, the contents of recordings were scattered in several tracks, but since the capacity of the drive has increased from 1 Gbyte to 3 Gyte or more, the number of sectors in one track is determined to be around 200 sectors, so there is enough room. As described above, when the maintenance information recorded in the maintenance area is collected in one track, the maintenance is performed from at least one track when using one disc and up to (N * 2) -1 tracks when using n discs. Information can be rewritten (ie copied). In other words, in the final stage of the burn-in test in the drive manufacturing process, all the error positions that have occurred so far are sorted and recorded in the fixed position. At this time, the number of tracks corresponding to the capacity of the maintenance information may be set, and the same contents as those recorded in the maintenance area may be rewritten.

Hereinafter, an operation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a general hard disk drive, in which a microprocessor 10 stores a programmable control program of the microprocessor 10 (hereinafter, referred to as a programmable read only memory). 12 and an SRAM (Static Random Access Memory) 14. The head 16 performs horizontal movement on the disk 18, which is a recording medium, and records and reads data on the disk 18. A voice coil motor (VCM) 20 is connected to the head 16 as an actuator and drives the head 16 horizontally on the disk 18. The spindle motor 22 rotates by connecting the disk 18 to a drive shaft as a rotary motion actuator. The VCM driver 24 is connected to the VCM 20 and controls the driving of the VCM 20. The digital / analog converter (DAC) 26 is connected to the microprocessor 10 and the VCM driver 24 to receive a digital control input signal U from the microprocessor 10 and convert it into an analog signal. To the VCM driver 24. The motor driver 28 is connected to the spindle motor 22 and the microprocessor 10 and controls the driving of the spindle motor 22 under the control of the microprocessor 10. The amplifier 30 is connected to the head 16 to amplify and output the read signal and to amplify and output the data signal to be recorded to the head 16. The interface controller 38 is controlled by the microprocessor 10 to transmit and receive data with an external data input device (not shown). A read / write channel circuit 32 is connected to the microprocessor 10, the amplifier 30, and the interface controller 38, and is under the control of the microprocessor 10. The recording data is received from the encoder, and is encoded into an analog flux change signal and output to the amplifier 30. In addition, the read / write channel circuit 32 digitally converts the analog reading signal input from the amplifier 30 and outputs the encoded read data (hereinafter referred to as an ERD signal). An analog / digital converter (ABC) 34 is connected to the read / write channel circuit 32 to receive an analog servo reading signal, and digitally converts the input signal to PES to output to the microprocessor 10. A gate array 36 is connected to the read / write channel circuit 32 to receive the ERD signal, and detects each servo information such as a gray code in the servo region of the disk 18 from the ERD signal. Output

FIG. 2 is a control flow chart for explaining a maintenance information recovery process according to an embodiment of the present invention, and assumes a case where a disc having maintenance information rewritten on a track other than the maintenance area during a manufacturing process is used as a recording medium. It is. Hereinafter, with reference to FIGS. 1 and 2, the maintenance information recovery process when a lead error of the maintenance information recorded in the maintenance area occurs.

First, when the power of the hard disk drive is "on", the microprocessor 10 reads the information recorded in the maintenance area, that is, maintenance information, in step 42 as part of the initialization routine. In this case, the microprocessor 10 checks whether the maintenance information read error occurs in step 42. If a read error occurs, the microprocessor 10 proceeds to step 44 and increases the track as necessary. The increase of the track as much as necessary means moving the head 16 to the track where the maintenance information is rewritten. The microprocessor 10 then reads the maintenance information (this is called copy information) from the track where the maintenance information is rewritten. On the other hand, the microprocessor 10 checks again whether the copy information read error occurs in step 48. If an error occurs, the microprocessor 10 proceeds to step 50 to check whether the maintenance track has been rewritten. If the result of the inspection is not the last track in which the maintenance information is rewritten, the process returns to step 44 and repeats steps 44 to 48 described above. On the other hand, if the maintenance information read error occurs in the last track where the maintenance information is recorded again in step 50, the microprocessor 10 proceeds to step 52 and reports an error to the host computer. Ends the information recovery control process.

In other words, when defects occur in the maintenance information by rewriting the maintenance information on the tracks other than the maintenance area during the manufacturing process, the maintenance information rewritten on the tracks other than the maintenance area can be read and used.

As described above, the present invention has the advantage of significantly reducing the case where the drive cannot be used due to the damage of the maintenance information by rewriting the maintenance information in a track other than the maintenance area during the manufacturing process.

1 is a block diagram of a general hard disk drive.

2 is a control flowchart illustrating a maintenance information recovery process according to an embodiment of the present invention.

Claims (3)

In the maintenance information recovery method of a hard disk drive having a maintenance area, a track other than the maintenance area each time a maintenance information lead error recorded in the maintenance area is recorded after the maintenance information is rewritten to a track other than the maintenance area during a manufacturing process. A method for recovering maintenance information, comprising: reading the information from a storage device; The method of claim 1, further comprising: reporting an error when maintenance information read error occurs from a track other than the maintenance area. 3. The method of claim 2, wherein tracks other than the maintenance area are set to correspond to the maintenance information capacity.