JPH0368472B2 - - Google Patents

Description

[Detailed Description of the Invention] (A) Technical Field of the Invention The present invention relates to a magnetic disk device that searches for a desired record by detecting an address mark, and particularly relates to a magnetic disk device that can prevent erroneous detection of address marks. It is related to.

(B) Background of the Technology A typical type of track format for magnetic disk devices is called the CKD type. FIG. 1 is a diagram for explaining the CKD type truck format, and shows one truck developed.

After the index indicating the start point (end point) on the track, there is a home address (HA) where the cylinder number, track number, etc. of that track are recorded.
A record Ro consisting of a count section RoC and a data section RoD used for recording information on defective replacement trucks is arranged, and R1, R2, . . . are arranged in sequence. Each record R1, R2... has a count section _R1C ,
It consists of R ₂ C, key parts R ₁ K, R ₂ K, data parts R ₁ D, R ₂ D, and the count parts R ₁ C, R ₂ C contain ID information used for searching records, as well as the following: The number of bytes (KL, DL) of the key parts R ₁ K, R ₂ K and the data parts R ₁ D, R ₂ D that follow are recorded, and the key part K has the number of bytes (KL, DL) specified in the count part C. ) key information is recorded in the data section D, and the count section C is recorded in the data section D.
The number of bytes (DL) of data specified by is now recorded. Each piece of data is recorded at intervals of gaps G1, G2, and G3. An address mark AM of a predetermined byte length is recorded in the gap G3 between each record, and a sync byte SB (having a specific pattern) indicating the beginning of records R ₁ and R ₂ is also recorded. Here, the address mark AM is a non-signal area on the medium that has been DC erased for a predetermined byte length, and by detecting this address mark, it is detected that the next record is being recorded.
Therefore, normally, when searching for a target record, a relatively long rotational wait is required to detect the index mark and then search for the target record, but if an address mark is recorded, , it is possible to search for the desired record by detecting the address mark.
There will be less waiting time for rotation.

(C) Prior art and problems In the conventional address mark detection method, when an address mark search command is issued from a host device, an address mark search is performed from this point until an index mark is detected. .

However, since the address mark is a non-signal area obtained by DC erasing the medium, the position of a defect such as a scratch on the medium is often mistakenly detected as an address mark. That is, since it is not possible to write a count section at a defective position on the medium, this is a so-called no-signal area, and this is considered to be equivalent to an address mark. If a defective position on the medium is mistakenly detected as an address mark, the target record cannot be searched and an error occurs.

(D) Object of the Invention In view of the above-mentioned conventional drawbacks, an object of the present invention is to provide a magnetic disk device that can reduce erroneous detection of address marks.

(E) Structure of the Invention An object of the present invention is to record an address mark in a predetermined recording area of a track on a magnetic disk medium based on position information of a magnetic head on the track, and to search for a desired record. A magnetic disk device that searches for a desired record by detecting the address mark, comprising means for outputting a signal instructing detection of the address mark according to the predetermined recording area based on position information of the magnetic head. This is achieved by providing a magnetic disk device characterized in that the address mark is detected only during the period when the address detection instruction signal is output.

(F) Embodiment of the Invention Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. For simplicity, consider a magnetic disk device with a capacity of 2000 bytes per track. As shown in Figure 2a, 1 cell is divided into 20 cells of 100 bytes each.
Divide the track. Then, address marks existing between each record are recorded in one cell. That is, as shown in FIG. 2B, in a cell in which an address mark is recorded, there is a gap from the 1st byte to the 48th byte, the center 4 bytes are address marks, and the remaining bytes are also gaps.

For example, if an address mark is recorded in the fourth cell, the third and fifth cells are records. When a CKD format is used, the record length is variable, so extra bytes are generated in the cell in which each record is recorded. However, in the present invention, since no other information can be written in a cell in which an address mark is recorded, for example, "0" is written in the above-mentioned extra byte. In this way,
The position where the address mark is recorded is determined in advance. Normally, the number of bytes of a cell is very short compared to a conventional sector, so one record is recorded over one to several hundred cells.

FIG. 3 is a block diagram of an embodiment of the address mark detection method according to the present invention. In the figure, 1 and 4 are counters, 2 and 3 are FFs, 5 is a decoder, and 6 and 7 are latches. The counter 1 counts servo pulses sent from the servo head of the magnetic disk. One servo pulse is sent for each byte on the track. Therefore, by counting these servo pulses, the position of the magnetic head on the track can be determined. When the count value reaches 99, that is, when the number of bytes for one cell is counted, a cell pulse indicating that the magnetic head is at the beginning of the cell is sent out and reset. The output of flip-flop (hereinafter referred to as FF) 2 becomes "high" level due to the cell pulse of counter 1.
FF3 is also at the "high" level. Counter 4 counts servo pulses and outputs Q output of FF2 and FF3.
It is reset when the NAND with the output of 2 becomes "high" level. The count value of counter 4 is decoded by decoder 5. As shown in FIG. 2b, when the count value of the counter 4 becomes 47, the decoder 5 sets the latch 6 and starts writing AM.
A signal is sent, and when the count value reaches 51, the latch 6 is reset. Therefore the light AM of latch 6
The signal is recorded in the central 4 bytes of the cell.

When detecting an address mark, when the count value of the counter 4 reaches 45, the decoder 5 sets the latch 7 and sends out a search AM signal, and when the count value reaches 53, the decoder 5 resets the latch 7.
That is, the search AM signal is sent from the 47th byte to the 54th byte from the beginning of the cell, taking into account variations in circuit delay and variations in the drive circuit of the magnetic disk device. Address marks are detected only while this search AM signal is being sent. The search AM signal and write AM signal are sent to the read/write circuit of the magnetic head, and address marks are recorded on the medium and address marks are detected.

In the above explanation, the case where the address mark is recorded in the center of the cell has been described, but the present invention is not limited to this, and it is sufficient if the recording position of the address mark is defined.

(G) Effects of the Invention According to the present invention, an address mark is recorded at a predetermined position on a track, and in order to detect the address mark only in the address mark recording area and its vicinity, the address mark is recorded at a predetermined position on the track. Even if there is a defect in the medium, this will no longer be mistakenly detected as an address mark.

[Brief explanation of drawings]

FIG. 1 is a diagram for explaining the track format of a magnetic disk medium, FIG. 2 is a diagram for explaining the principle of address mark detection in the present invention, and FIG. 3 is a block diagram of an embodiment. In the drawing, 1 and 4 are counters, 2 and 3 are flip-flops, 5 is a decoder, and 6 and 7 are latches.

Claims (1)

[Claims] 1. An address mark is recorded in a predetermined recording area of a track on a magnetic disk medium based on the position information of the magnetic head on the track, and the address mark is detected when searching for a desired record. A magnetic disk device that searches for a desired record by performing a search for a desired record, comprising means for outputting a signal instructing detection of an address mark according to the predetermined recording area based on position information of the magnetic head, the address detection instruction signal being A magnetic disk device characterized in that the address mark is detected only during the period in which the address mark is being output.