JPH0310171B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an optical recording device for recording information on a disk-shaped record carrier (hereinafter referred to as a disk) which is a master of an optical disk.

Conventional configuration and its problems First, a conventional optical recording device will be explained.

FIG. 1 is a block diagram of a conventional optical recording device, in which 1 is a laser light source, 2 is an optical modulator that changes the intensity of the laser beam _I0 emitted from the laser light source 1, 3 is a mirror, and 4 is a laser beam I0. ₁ is a lens for condensing light, 5 is a disk, 6 is a turntable that holds the disk 5, 7 is a rotation drive device that rotationally drives the disk 5 and the turntable 6, and 8 is a pulse that is generated every time the turntable 6 rotates. 9 is a rotating shaft that transmits the rotation of the rotary drive device 7 to the turntable 6; 10 is a feed drive device; 11 is a moving table that moves together with the disk 5 and the turntable 6 by the feed drive device 10; , 12 is a linear scale for detecting the recording position R on the disk 5 of the laser beam I ₁ focused by the lens 4, 13 is a setting device for setting the rotation speed of the turntable 6, and 14 is a rotation of the turntable 6. Linear speed setting device for setting the linear speed in the direction, 15
16 is a laser light control circuit that outputs a signal V to the optical modulator 2 for changing the intensity of the laser light according to the recording position information R of the linear scale 12;
Reference numeral 17 is a reference signal generation circuit that generates a reference signal from the linear scale 12 based on the recording position information R and linear velocity v, and 17 is a turntable control circuit that controls the rotation speed of the turntable using the reference signal _FR .

In the above configuration, the laser light I ₀ emitted from the laser light source 1 is intensity-modulated by the optical modulator 2 to have a light intensity of I ₁ , and is irradiated onto the disk 5 via the mirror 3 and the lens 4 .

The disk 5 held on the turntable 6 is fed along with a feeding mechanism 11 in the radial direction of the disk 5 by a feeding drive device 10.

The rotation shaft 9 transmits the rotation of the rotation drive device 7 to the turntable 6, and rotates the disk 5 held on the turntable 6.

The distance from the center of disk 5 to the recording position is R
(mm), and the relative velocity (hereinafter referred to as linear velocity) between the rotating disk 5 and the laser beam irradiated onto the disk 5 is v (mm/S).

When the turntable is rotating at a constant linear velocity (hereinafter referred to as CLV), the rotation speed of the disk 5 is determined based on the output data R of the linear scale 12 and the output data v of the linear velocity setting device 14; When the number is constant (hereinafter referred to as CAV), it is set as a reference signal F _R in the reference signal generation circuit 16 based on the output data N _T of the setter 13, and is output to the control circuit 17.
_FR becomes as shown in the following formula.

F _R =MN _T =Mv/2πR...(1) ∴N _T =v/2πR...(2) When the disk 5 is rotating and moving in its radial direction, the laser beam _I1 A recording trajectory as shown in Figure 2A is drawn.

The intensity of the laser beam irradiated onto the disk 5
When I ₁ and the exposure amount are P, this P becomes as shown in the following equation.

P=I ₁ /v=I ₁ /2πRN _T (3) Since the linear velocity v is constant during CLV, if I ₁ is constant, the exposure amount P is also constant. Moreover, the linear velocity v
When changing , I ₁ does not increase or decrease at the same time.

Since N _T is constant during CAV, the exposure amount P is smaller at the outer circumference of the disk than at the inner circumference.

In order to keep the exposure amount P constant, a control signal V (V) is output from the laser light control circuit 13 to the optical modulator 2 based on the recording position information R of the linear scale 12 during CAV.

V=K ₁ R (K ₁ : constant) (4) The relationship between the input light I ₀ and the output light I ₁ of the optical modulator 2 is as shown in the following equation.

I ₁ /I ₀ = K ₂ v (K ₂ : constant) …(5) = KR (K = K ₁ K ₂ constant) From formulas (2) and (5), P=KI ₀ /2πN _T …( 6), and unless the rotation speed is changed, the exposure amount P will be constant regardless of the recording position.

However, in the above-described configuration, the exposure amount changes when the linear velocity is changed during CLV or when the rotational speed is changed during CAV.

If the exposure amount during recording changes, it will affect the signal during playback, resulting in problems such as the playback signal being unreadable.

Therefore, it is necessary to readjust K ₁ in equation (4) using the laser control circuit so that the exposure amount becomes the appropriate light amount.

Conventionally, there has been no means to automatically maintain the exposure amount at an appropriate value even when changing the linear velocity v during CLV or the rotational speed N _T during CAV.

OBJECTS OF THE INVENTION In view of the above problems, the present invention provides an optical recording device in which the amount of laser light is always constant even when the linear velocity is changed.

Structure of the Invention The optical recording device of the present invention includes a laser light source, a light control device that controls the intensity of the laser light output from the laser light source to a desired intensity, and a recording position of the laser light on a disc-shaped record carrier. The disk-shaped record carrier has a linear scale for detecting the rotation speed, a rotation speed setting device for setting the rotation speed of the disc-shaped record carrier, and a linear velocity calculator for calculating a linear velocity from the outputs of the linear scale and the rotation speed setting device, and It is configured so that the exposure amount of the laser irradiated onto the shaped record carrier is kept constant regardless of the linear velocity. The laser light intensity is controlled by the control device so that the amount of laser light irradiated onto the disk is always kept constant.

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

1 is a laser light source; 2 is an optical modulator that changes the intensity of the laser light emitted from the laser light source 1; 3
8 is a mirror that changes the optical path of the laser beam; 4 is a lens that focuses the laser beam; 5 is a disk; 6 is a turntable that holds the disk 5; 7 is a rotational drive device that rotates the disk 5 and the turntable 6; 9 is a frequency generator that generates M pulses each time the turntable 6 rotates once; 9 is a rotating shaft that transmits the rotation of the rotary drive device 7 to the turntable 6; 10 is a feed drive device; 11 is a feed drive device 10 Disc 5 and turntable 6
12 is a linear scale that detects the recording position of the laser beam on the disk 5;
13 is a rotation speed setting device, 14 is a linear speed setting device for setting the linear speed of rotation, 16 is a reference signal generator, 17
is a turntable control circuit that controls the rotation speed of the turntable using the reference signal F _R , and the above configuration is the same as that of the conventional example.

18 is a rotation speed setting device 13, a linear scale 12
and an arithmetic unit for calculating the linear velocity v from each output of the linear velocity setter 14, and 15 is a laser light control circuit that outputs a signal for controlling the optical modulator based on the output data of the arithmetic unit.

In the above configuration, the laser light I ₀ emitted from the laser light source 1 is intensity-modulated by the optical modulator 2 to have a light intensity of I ₁ , and is irradiated onto the disk 5 via the mirror 3 and the lens 4 .

The disk 5 held on the turntable 6 is fed in the radial direction by the feeding mechanism 11 by the driving force of the feeding drive device 10.

The rotation shaft 9 transmits the rotation of the rotation drive device 7 to the turntable 6, and rotates the disk 5.

The rotation speed of the disk 5 is determined based on the output data R of the linear scale 12 and the output data v of the linear velocity setting device 14 during CLV, and on the basis of the output data N _T of the rotation speed setting device 13 during CAV, respectively. It is set by the generator 16, and outputted to the turntable control circuit 17 as the reference signal F _R of equation (1), similar to the conventional device. The control circuit 17 controls the rotation speed of the turntable by comparing the output signal of the frequency generator 8, which detects the rotation speed of the turntable, with the output signal of the reference signal generator 16.

The arithmetic unit 18 outputs an output signal v' for laser light control based on the linear velocity data v of the linear velocity setter 14, the R data of the linear scale 12, and the output data N _T of the rotation speed setter 13.

v=v (at the time of CLV) ...(7) v=2πRN _T (at the time of CAV, N _T0 : constant) ...(8) The output V of the laser light control circuit 15 is calculated from the output v' of the arithmetic unit 18 as shown in the following equation. Set.

v=K ₃ v (at CLV) …(9) =2πK ₃ RN _T (at CAV) …(10) From equations (5), (9), and (10), the incident light and output light of optical modulator 2 are The ratio of emitted light is as shown in the following equation.

I ₁ /I ₀ = K ₂ V = K ₂ K ₃ v (at CLV) (11) = 2πK ₂ K ₃ RN _T (at CAV) (12) Equations (3), (11), and (12) Therefore, the exposure amount P irradiated onto the disk 5 is expressed by the following equation.

P=I ₁ /v=K ₂ K ₃ I ₀ (at CLV) (13) P=2πK ₂ K ₃ RN _T I ₀ /v=K ₂ K ₃ I ₀ (at CAV)
(14) Therefore, the laser light control circuit 15
By adjusting the constant K ₃ in , the appropriate exposure amount P=P ₀ can be obtained.

Effects of the Invention As described above, the present invention can maintain the exposure amount of the laser light irradiated onto the disk at a constant value by inputting the linear velocity data during CLV and CAV to the laser light control circuit. and
Even if you change the linear velocity in CLV recording,
Even if you change the rotation speed in CAV recording, the exposure amount remains constant regardless of the recording position on the disk, so even if you try to record by changing the linear speed or rotation speed frequently, it is necessary to readjust the laser light control circuit. Even though there is no such thing, the effect is great.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a conventional example, FIG. 2 is a diagram showing a signal trajectory on a disk-shaped record carrier, and FIG. 3 is a block diagram showing an embodiment of the present invention. 1... Laser light source, 2... Optical modulator, 5...
Disk-shaped record carrier (disk), 13... Rotation speed setting device, 14... Linear speed setting device, 15... Laser light control circuit, 16... Reference signal generator,
17... Turntable control circuit, 18
...Arithmetic unit.

Claims (1)

[Claims] 1 a laser light source; a first optical modulator for controlling the intensity of the laser light output from the laser light source to a desired intensity; a second optical modulator that modulates the output light of the first optical modulator; a linear scale that detects the recording position of the laser beam on the disk-shaped record carrier; and a rotation speed setting that sets the rotation speed of the disk-shaped record carrier. and a linear velocity calculating unit that calculates a linear velocity from the output of the linear scale and the rotation speed setting device, and the exposure amount of the laser irradiated onto the disc-shaped record carrier is independent of the linear velocity. An optical recording device characterized in that it is configured to be kept constant.