JPH05166245A - Magneto-optical disk device - Google Patents

Abstract

PURPOSE:To make the device longevity by assigning a data area of a high access frequency to a semiconductor memory area although the semiconductor memory and a magneto-optical disk are formed in a continuous memory space when a write/read request is received. CONSTITUTION:A disk case 2 for housing the magneto-optical disk 1 is provided with the semiconductor memories 3 capable of write/read, a storage battery 4, a hole 5 capable of opening and closing and a contactor 6. Now, when the write/read request is received by the device, the hole is checked and when the hole is opened, the memory 3 and the disk 1 are accessed to be as the continuous memory space. On the other hand, when the hole is closed, whether the request is for the memory 3 or for the disk 1 is decided, and either of them is accessed as the memory space. Then, a data of a high rewrite frequency is written in the memory 3, so that the rewrite frequency to the disk 1 is reduced. Thus, by writing the high frequent data in the semiconductor memory which can be of semipermanent use, the device is made to be longevity.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magneto-optical disk device.

[0002]

2. Description of the Related Art Conventionally, a magneto-optical disk device has been developed as a rewritable optical memory utilizing the reversibility of magnetization change and the magneto-optical effect. However, in such a magneto-optical disk device, the magneto-optical disk is
In terms of the number of times of rewriting, for example, there is a constant life of about 10 ⁶ to 10 ⁷ . This kind of life is not a problem for general user data rewriting frequency,
If it is used as a memory for data that frequently undergoes rewriting operations (for example, data such as file directory management information), it cannot be used immediately. For example,
If the frequency of rewriting is about 10 times / second, the life will be exhausted in about one year.

[0003]

As described above, in the conventional magneto-optical disk device, if it is used as a memory for data that is frequently rewritten due to the life of the magneto-optical disk, it cannot be used, for example, in about one year. There was a problem that it would end up.

The present invention has been made in response to such a conventional situation, and even if it is used as a memory of data that is frequently rewritten, it can be used for a long time as compared with the conventional one. Is to provide.

[0005]

That is, a magneto-optical disk device according to the present invention comprises a magneto-optical disk capable of writing and reading data, a disk case for accommodating the magneto-optical disk, and a disk case arranged in the disk case. A semiconductor memory capable of writing and reading data, a storage battery disposed in the disk case, a storage battery for supplying power to the semiconductor memory to retain stored data, and a storage battery disposed in the disk case, The semiconductor memory, the storage battery, and a contactor for electrically connecting an external device are provided.

[0006]

In the magneto-optical disk device of the present invention having the above structure,
A semiconductor memory capable of writing and reading data in a disk case accommodating a magneto-optical disk, a storage battery for supplying electric power to the semiconductor memory to hold stored data, the semiconductor memory and the storage battery, and an external device And a contactor for electrically connecting and are provided, and data can be written in and read from this semiconductor memory.

The semiconductor memory has a longer life than the magneto-optical disk and can be used semipermanently even if data rewriting is frequently repeated. Therefore, by writing the data having a high rewriting frequency to this semiconductor memory, even if the data having a high rewriting frequency is handled, it can be used for a long time (semi-permanently) as compared with the conventional case.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of a magneto-optical disk device according to an embodiment of the present invention. In the figure, 1 is a rewritable magneto-optical disk, and 2 is this magneto-optical disk 1. It is a disk case for housing.

At the end of the disc case 2, rewritable 4 having a semi-permanent life, respectively, is provided.
One semiconductor memory 3, a storage battery 4 that supplies power to these semiconductor memories 3 to protect stored data, and whether or not to use the magneto-optical disk 1 and the semiconductor memory 3 as a continuous memory space is specified. Hall 5 that can be opened and closed
And a contactor 6 for electrically connecting the semiconductor memory 3 and the storage battery 4 to an external circuit. In addition,
The semiconductor memory 3, the storage battery 4, the contacts 6 and the like are electrically connected by a wiring pattern or the like (not shown).

FIG. 2 shows the structure of the memory space of the magneto-optical disk apparatus of the present embodiment having the above-mentioned structure. As shown in the upper part of the figure, the semiconductor memory 3 and the magneto-optical disk 1 are used as a continuous memory area. Alternatively, the semiconductor memory 3 and the magneto-optical disk 1 can be used as separate memory areas as shown in the lower part of the figure. Such designation can be set by the opening / closing state of the hole 5. In the case shown in FIG. 2, when the hole 5 is opened, the semiconductor memory 3 and the magneto-optical disk 1 are used as a continuous memory area. However, when the hole 5 is closed, the semiconductor memory 3 and the magneto-optical disk 1 are set to be used as separate memory areas.

When accessing this magneto-optical disk device, as shown in the flow chart of FIG. 3, when there is a write / read request (100), the opening / closing of the hole 5 is first checked (101).

When the hole 5 is opened, the semiconductor memory 3 and the magneto-optical disk 1 are accessed as a continuous memory space (102).

On the other hand, when the hole 5 is closed, it is judged whether the write / read request is for the semiconductor memory 3 or the magneto-optical disk 1 (103), and the write / read request is for the optical signal. If it is for magnetic disk 1, only magneto-optical disk 1
Access as one memory space (104), and if it is for the semiconductor memory 3, only the semiconductor memory 3
Access as one memory space (105).

When the magneto-optical disk device of the present embodiment is used as a memory, the system is designed so that the data area that is frequently accessed systematically matches the memory area of the semiconductor memory 3. And in actual use,
The hole 5 is opened and the magneto-optical disk device is attached to the system. At this time, the signal line is connected to the semiconductor memory 3 and the power line is connected to the storage battery 4 via the contactor 6. The storage battery 4 is charged when the system is operating, and when the power is off, power is supplied from the storage battery 4 to the semiconductor memory 3 to protect the stored data.

With the above settings, when a write / read request is made, the semiconductor memory 3 and the magneto-optical disk 1 are accessed as a continuous memory space, but the frequently accessed data area is the magneto-optical disk. Since it is set to match the memory area of the semiconductor memory 3 which has a longer life than the disk 1 and can rewrite data semipermanently and repeatedly, the frequency of rewriting data to the magneto-optical disk 1 can be reduced. .. Therefore, the life of the entire device can be extended, and even when used as a memory for data that is frequently rewritten, it can be used for a long time (semi-permanently) as compared with the conventional one.

[0017]

As described above, according to the magneto-optical disk device of the present invention, even if it is used as a memory for data that is frequently rewritten, it can be used for a longer period of time than before.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a magneto-optical disk device according to an embodiment of the present invention.

FIG. 2 is a diagram for explaining a configuration of a memory space of the magneto-optical disk device shown in FIG.

FIG. 3 is a diagram for explaining an access procedure to the magneto-optical disk device of FIG.

[Explanation of symbols]

 1 Magneto-optical disk 2 Disk case 3 Semiconductor memory 4 Storage battery 5 Hole 6 Contactor

Claims (1)

[Claims] 1. A magneto-optical disk capable of writing and reading data, a disk case for accommodating the magneto-optical disk, and a data writing operation arranged in the disk case.
A readable semiconductor memory, a storage battery provided in the disk case for supplying electric power to the semiconductor memory to hold stored data, and a storage battery provided in the disk case for the semiconductor memory and the storage battery And a contactor for electrically connecting to an external device.