JPH0310173B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an optical recording/reproducing method for recording or reproducing information on an optical recording disk having a spiral guide track and a recording area having a sector structure divided into a plurality of areas. It is related to the device.

Conventional structure and its problems In order to optically record and reproduce information, an optical recording disk formed using a photosensitive recording material has a
In order to reduce the effects of uneven feeding of the optical head of the device or eccentricity of the optical recording disk, and to perform high-density recording at narrow pitches, some devices are provided with optically detectable guide tracks. This structure generally includes a spiral structure and a concentric structure with respect to the center of the optical recording disk.

If you want to record information at a higher density, there is a method of narrowing the track pitch, but the pitch can be narrowed more if the guide track has a spiral structure than by cutting the master disc. This is because when cutting concentric guide tracks, the pulse motor is repeatedly fed intermittently, so if the pitch is too narrow, the pulse motor's feed accuracy will be poor and the pitch width will be uneven. This is because in cutting, if the cutting portion moves at a constant speed in the radial direction of the rotation center and the rotation accuracy is high, cutting can be easily performed even in a narrow track pitch.

The problem that arises when using an optical recording disk with such a spiral guide track in an optical recording/reproducing device is that, unlike a concentric guide track,
If known tracking control is applied, the optical head follows the guide track and moves in the radial direction of the optical recording disk as time passes. Therefore, in an optical recording disk having a spiral guide track, a method for making the optical recording disk stand still within one track is to forcibly move the optical head to an inner track in a special area (jumping area) within one track. Jumping operations for moving are known.

An example of jumping in a conventional optical recording/reproducing device is shown in FIG. 1. A jumping area 2 on an optical recording disk 1 is used only for the jumping operation 3, and information cannot be recorded or reproduced in this area 2. This resulted in a decrease in recording capacity.

OBJECTS OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned drawbacks, to enable recording and reproduction even in the jumping area, and to effectively utilize an optical recording disk to prevent a decrease in recording capacity.

Structure of the Invention The present invention provides a sector address signal recorded at the beginning of each sector or an index mark (hereinafter referred to as an iD mark) recorded in an index track outside the information recording area (hereinafter referred to as an iD track). When jumping is performed by identifying the sector to be jumped using a signal called (call) signal, when the device is in the recording/reproducing state, jumping is prohibited by control from the CPU that manages the optical recording disk state, for example. Even in the jumping area, which could not be used for recording and playback and was used only for jumping,
It achieved its intended purpose by making recording and playback possible.

DESCRIPTION OF EMBODIMENTS An embodiment of an optical recording/reproducing apparatus according to the present invention will be described below with reference to the drawings.

FIG. 2 shows an example of an optical recording disk used in the present invention. Optical recording disk 1 is S ₁
A sector area 4 consisting of ~S _N for recording information, a sector separator area 5 consisting of SP ₁ ~SP _N recording sector addresses, and an iD mark 6 for detecting rotational position are recorded. It consists of an iD track area 7.

FIG. 3 shows a block diagram of jumping control that enables recording and reproduction even in the jumping area in an optical recording disk with a spiral guide track. READ, which indicates the playback status, is sent from the CPU side that manages the status of the optical recording disk.
When at least one of the control commands 8, WRITE indicating the recording state and STILL OFF indicating the jumping stop state, is input to the NOR circuit 9, the AND circuit 1
0, the jumping command signal 11 is cut off here.

When no control command 8 such as READ, WRITE, or STILL OFF is issued from the CPU side, a jumping command signal 11 is sent to the jumping signal output circuit 12.
is input, and the optical head swing pick-up 13
A jumping signal 15 is output to the drive circuit 14 so as to move it in the radial direction. This movement is controlled by a tracking servo 17 based on a tracking error signal 16 obtained from reflected light.

Two embodiments are shown in FIGS. 3a and 3b as means for providing the jumping command signal 11 when the vehicle is stationary. A is a method that uses sector addresses, in which the sector address to be jumped is specified in advance using the sector address input device 18.
The coincidence detection circuit 21 compares the sector address with the sector address detected by the sector address detection circuit 20 from the reproduction output 19, and when the two addresses match, the jumping command signal 11 is sent.
Output. b is a method that uses the iD mark 6 recorded on the iD track 7 of the optical disc,
iD mark signal 23 by iD mark detector 22
Jumping command signal output circuit 2 when detecting
4 outputs a jumping command signal 11.

Figure 4 shows an example of the configuration for jumping using the iD mark. A is a side view, and b is a plan view. There is an iD mark detector 22 below the iD track 7, which outputs a jumping command signal when the optical recording disk 1 is rotated by a disk motor 25 and the detector 22 detects the iD mark 6. The position of the sector to be jumped is based on the positional relationship between the iD mark detector 22 and the optical head 26, and if the minute spot lights emitted from the iD mark detector 22 and the optical head 26 are symmetrical with respect to the center of the optical recording disk 1. If the positional relationship is as follows, the position where the iD mark 6 is recorded on the optical recording disk 1 must also be symmetrical to the position 27 where the iD mark 6 is to be jumped with respect to the center of the optical recording disk.

FIG. 5 shows the position of the minute spot light 28 and its tracking error signal when the minute spot light from the optical head jumps from the guide track 29 to 30. The tracking error signal detection method is a known tracking signal detection method in which changes in a far-field image of reflected light are obtained from a two-split pin diode. In Fig. 5a, as the minute spot light 28 moves from A to O, the tracking error signal changes to S as shown in Fig. 5b.
Draw a letter-shaped curve. Based on this configuration,
FIG. 6 shows a state in which the optical head is stationary (scanning repeatedly) on a certain track due to a jumping operation in an optical recording disk having a spiral guide track. In order to keep the vehicle stationary on the same track, the final sector S _N is set as a jumping area.

FIG. 7 shows writing to and reading from the jumping area in recording and reproducing states. In the recording state, if you start recording from a certain sector and the end of the recording exceeds the jumping area S _N , or in the playback state, if information that exceeds the S _N is recorded, the S _N Jumping is stopped, and jumping is performed again at the last sector S _N of the track at the time when recording and playback are completed, so that the track comes to rest on that track. FIG. 7 31 shows a recording/reproducing start point, and 32 indicates a recording/reproducing end point, and recording and reproducing are also performed in a jumping area 33.

Effects of the Invention As described above, the present invention provides an optical recording disk having a spiral guide track with a circuit that performs jumping using the identification signal of the sector to be jumped and prohibits the jumping operation in the recording and reproducing state. This makes it possible to record and reproduce information even in the jumping area.
This has the effect of effectively utilizing the recording area of the optical recording disk and preventing a decrease in recording capacity.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing jumping and jumping areas of a conventional optical recording disk, FIG. 2 is a configuration diagram of an optical recording disk used in the present invention, FIG. 3 is a block diagram showing an embodiment of the present invention, and FIG. The figure shows an example of the configuration for generating the jumping command signal in Fig. 3, Fig. 5 shows the positional change of the minute spot light during jumping and its tracking signal, and Figs. 6 and 7 show the present invention. It is a figure showing jumping control in. DESCRIPTION OF SYMBOLS 1... Optical recording disk, 2... Jumping area, 4... Sector, 5... Sector separator, 6... iD mark, 8... Control command, 11...
...Jumping command signal, 15...Jumping signal, 16...Tracking error signal, 31...
Recording, playback start point, 32...recording, playback end point,
33...Jumping area.

Claims (1)

[Scope of Claims] 1. An apparatus for optically recording and reproducing signals in units of sectors using an optical recording disk having a sector structure that divides an information recording track into a plurality of areas and a spiral guide track. means for detecting a sector position to be jumped in order to cause the minute spot light to stand still at the spot; and a jumping means for moving the minute spot light to an adjacent guide track in accordance with the detection signal; An optical recording/reproducing device comprising means for prohibiting the operation of the jumping means by a control signal when the state of the device at the time when the position of the sector to be detected is recording or reproducing information to the sector. . 2. A patent claim characterized in that the sector identification signal for identifying the sector position to be jumped is a sector address signal recorded in a sector separator area between sectors or an index mark signal recorded in a track other than the recording track. The optical recording/reproducing device according to scope 1.