JP2720393B2 - Optical recording device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an optical recording apparatus that optically records information such as video and audio on a recording medium.

[Conventional technology]

Conventionally, a photoresist master recording apparatus using a gas laser has been used to create a read-only optical disc such as an LD, CD, or CDV. In addition, a write-once optical disc (W
O: Write Once) and rewritable optical disks (Erasable / Rew)
An optical disk recording device using a semiconductor laser such as ritable) is also known.

FIG. 3 shows an example of such a conventional optical disk recording apparatus. In FIG. 3, the signal modulation means is used.
The FM modulator 2 obtains an FM signal (modulated signal) having a frequency corresponding to the level of the video / audio signal 1, and converts the FM signal (modulated signal) into a rectangular signal based on the duty control signal 3 by a level comparator 4 as a binarizing unit. And converts the square wave FM signal into a recording signal.
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The duty control signal 3 used here is
It is a constant DC voltage, and the level comparator 4
For example, it can be configured using a differential amplifier. the above
The FM signal is compared by the level comparator 4 with the duty control signal, and is converted into a square wave FM signal (recording signal) having "1" and "0" levels depending on the level.

Therefore, if the voltage of the duty control signal 3 is the center value of the FM signal, the duty ratio
A 50% square wave FM signal (recording signal) is obtained, and if it is larger than the center value, the duty ratio becomes smaller, and if it is smaller than the center value, the duty ratio can be made larger. The duty ratio of the recording signal obtained in this way is constant regardless of the signal frequency of the FM signal or the like.

[Problems to be solved by the invention]

However, since the beam diameter of the laser beam cannot be narrowed down to infinity, even when optical recording is performed on a recording medium with a signal having a constant duty ratio of 50%, a pit having a short length is formed due to the size of the laser beam diameter. It becomes difficult to form on a recording medium.

That is, when the laser beam is turned on and off in accordance with the square wave FM signal (recording signal) input to the laser modulator 6 and is irradiated on the rotating recording medium, the laser beam which is a finite Gaussian beam is applied to the recording medium. Is constantly moved, the laser energy applied to the recording medium at the edge of each square wave of the recording signal is smaller than the laser energy applied at the intermediate portion between both edges of each square wave. Therefore, since both ends of the stored pits are not accurately recorded, the pits do not have an ideal shape, and the pit area is recorded to be reduced by a substantially constant amount.

In this case, at low frequencies, the pit length is sufficiently longer than the beam diameter, so that the duty ratio is 50%. However, at high frequencies, the effect of the laser beam diameter cannot be ignored. That is, as the recording frequency increases and a smaller pit is formed, the duty ratio of the formed pit tends to be smaller than the duty ratio of the recording signal.

As described above, when the ON period of the modulated signal for controlling the light beam on / off is short, the pit becomes smaller than necessary, the duty ratio decreases, the reproduction output decreases, and it becomes impossible to detect correct information. There was a disadvantage.

The present invention has been made to eliminate these disadvantages.

[Means for solving the problem]

The optical recording device according to the present invention, a light beam that is turned on and off by a recording signal generated based on the modulation signal,
In an optical recording apparatus for recording information by irradiating on a recording medium, means for reducing the length of the on-period of the recording signal at a fixed ratio, and the on-period of the recording signal regardless of the length of the on-period of the modulation signal And means for widening the width by a certain amount.

[Operation] As described above, since the on-period of the recording signal spreads by a substantially constant width, a recording pit having a longer recording pit length has a smaller extension rate of the recording signal on-period with respect to the modulation signal on-period and has a shorter recording pit length. The longer the on-period of the recording signal with respect to the on-period of the modulation signal, the greater the elongation ratio, so that a pit having an appropriate shape can be recorded.

〔Example〕

 Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an embodiment of an optical recording apparatus according to the present invention, and FIG. 2 is a signal waveform diagram of each part thereof.

In the figure, the same parts as those in the conventional example of FIG. 3 are denoted by the same reference numerals, and the description thereof will be omitted.

In FIG. 2, the waveforms indicated by A to E show waveform diagrams appearing at the portions denoted by the same reference numerals in FIG.

In the figure, the FM signal A is 2
The level is compared with the duty control signal B by a level comparator 4 which is a value conversion means, and is converted into a square wave FM signal C. The square wave FM signal C is applied to one input terminal of the OR circuit 52 in the pulse expansion circuit 5 and is delayed by τ by the delay element 51.
Is applied to the other input terminal of the OR circuit 52, and the logical sum E of these signals is applied to the laser modulator 6 as a recording signal.

 The operation according to the above configuration will be described in detail below.

In the OR circuit 52, as shown in FIG.
The trailing edges of all the square waves of the signal C are shifted by τ to obtain a square wave FM signal (recording signal) E having an expanded pulse width. Therefore, the duty ratio of all square waves of this square wave FM signal (recording signal) E is increased in proportion to the instantaneous frequency. The duty increase ΔD (%) is given by ΔD = τ · f × 100 (1) where f is the instantaneous frequency.

In this case, since the duty ratio becomes large even at a low frequency, the duty control signal B
Is shifted above the center level as shown in the figure, so that the duty ratio is uniformly reduced. In the square wave FM signal C, the duty ratio decreases as the frequency becomes lower.
At the lowest frequency, the duty increase ΔD becomes zero,
The duty ratio becomes 50%. If this correction amount is d (%), the true duty increase ΔD ₀ (%) is as follows: ΔD ₀ = τ · f × 100−d (2) That is, to make the true duty increase ΔD ₀ zero at the specific frequency f ₀ , d = τ · f ₀ × 100 (3)

Therefore, the level of the duty control signal 3 may be adjusted so that the correction amount d is determined by the equation (3). That is, a good reproduction signal can be obtained by accurately recording the pit length.

In the above-described embodiment, as the pulse stretching circuit 5 for extending the square wave by τ, other well-known various methods such as widening the trailing edge of each square wave using a one-shot multi pulse width τ are used. Circuit can be used.

〔The invention's effect〕

By using the optical recording apparatus according to the present invention, appropriate pits can be accurately recorded, so that a good reproduced signal can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of an optical recording apparatus according to the present invention, FIG. 2 is a signal waveform diagram of each part thereof, and FIG.
FIG. 10 is a block diagram showing a conventional optical recording device. 2 ... FM modulator 3 ... Duty control signal 4 ... Level comparator 5 ... Pulse expander 6 ... Laser modulator

Claims (1)

(57) [Claims] An optical recording apparatus for recording information by irradiating a recording medium with a light beam that is turned on / off by a recording signal generated based on a modulation signal, wherein the length of an on-period of the recording signal is constant. An optical recording apparatus comprising: means for decreasing the ON period of the modulation signal; and means for extending the ON period of the recording signal by a certain width regardless of the length of the ON period of the modulation signal.