KR100268466B1 - Optical power adjusting device according to RF level of optical disc player - Google Patents

Abstract

PURPOSE: An adjusting device for optical power according to an RF(Radio Frequency) level of an optical disk player is provided to detect various RF levels according to the optical power of an optical pickup and the optical disk player, and to adjust the optical power according to the RF level. CONSTITUTION: An optical output unit(100) converts information recorded on an optical disk into an RF signal by a photodiode(PD2) and an inversion amplifier in response to a reflected optical signal on the optical disk. The RF signal is converted into a digital signal by an A/D(Analog/Digital) signal converting unit(500) for being recognized in a control unit(600). The control unit recognizes level of the RF signal for outputting a switch controlling signal. Thus, an optical power of an optical output unit(100) is controlled. Then, a switch(700) connects one resistance connected to a specific voltage generate unit(300) to a power for adjusting the optical power source according to the RF level.

Description

Optical power adjusting device according to RF level of optical disc player

The present invention relates to an optical power adjusting apparatus according to an RF level of an optical disc player, and more particularly, to detect an RF level that changes according to the optical power of a disc recording state, an optical pickup device, and an optical disc player, An optical power adjusting apparatus according to an RF level of an optical disc player for allowing power to be adjusted.

1 is a schematic block diagram for maintaining a constant optical power of a laser diode provided in a conventional optical disk player.

As shown, in general, an optical disc player that irradiates a laser beam and reads information recorded on the disc, when the laser output fluctuates, the level of the RF signal output through the quadrant photodiode 1 and the mattress circuit section 3. This fluctuation may cause an error in the reproduced signal.

Therefore, a stable amount of light is always required, and the optical power adjusting unit 5 induces a stable laser output of the laser diode 7 so as to always have a stable amount of light.

At this time, a laser diode is used as the laser light source of the optical disc player, and since it is a semiconductor device, the temperature characteristic is very bad. That is, when the temperature decreases, the light output increases, and conversely, when the temperature rises, the light output drops. When the light output falls, the oscillation stops and the laser diode 7 is turned off, so that reproduction cannot be performed.

In order to prevent this phenomenon, the optical power adjusting unit 5 continuously monitors the laser output of the laser diode 7, and always controls the driving current of the laser diode 7 to obtain a constant laser output.

FIG. 2 is a circuit diagram for explaining an optical power adjusting device of a conventional optical disc player.

As shown, a light output unit for generating a reverse current in proportion to the light intensity output from the laser diode, and a comparison voltage generator for generating a comparison voltage for adjusting the driving current of the laser diode in inverse proportion to the reverse current of the light output unit; And a reference voltage generator for generating a reference voltage for adjusting the driving current of the laser diode, and an amplifier for comparing the comparison voltage and the reference voltage and amplifying the comparison value to adjust the magnitude of the driving current of the laser diode.

Optical intensity control of the laser diode of the optical disc player configured as described above, first, when the optical disc player performs the regeneration operation, the light is output to the laser diode LD, and the optical intensity monitoring photodiode PD provided in the optical output unit 11 is provided. Is energized in response to the optical signal output from the laser diode LD.

Therefore, a reverse current in proportion to the magnitude of the optical signal flows through the photodiode PD, and a voltage is generated at the output terminal of the comparison voltage generator 12 in inverse proportion to the reverse current and input to the inverting terminal of the amplifier 14. .

At this time, as the non-inverting terminal of the amplifier 14, the reference voltage generated by the reference voltage generator 13 is input and compared with the comparison voltage input to the inverting terminal, and amplifies the comparison value. 14) multi-stage amplification using two inverting amplifiers.

The voltage amplified by the amplifier 14 controls the amplification degree of the transistor Q of the light output unit 11, and the driving current I input to the laser diode LD according to the controlled amplification degree of the transistor Q. ) Is controlled, and eventually the optical power of the laser diode LD is always kept constant.

However, although the optical power of the laser diode can be kept constant in controlling the output light intensity of the laser diode provided in the above-described optical disc player, the optical power of the optical disc cannot be artificially lowered or increased according to the RF level. There is a problem that the original signal reproduction is impossible when the RF level is greater or smaller than a certain level due to an RF level deviation depending on the recording state and the pickup adjustment state.

Accordingly, an object of the present invention is to detect an RF level that changes according to the optical power of the recording state of the disc, the optical pickup device and the optical disc player, and to adjust the optical power according to the level to solve the above problems. It is to provide an optical power adjusting device according to the RF level of the.

1 is a schematic block diagram for maintaining a constant light intensity of a laser diode provided in a general optical disk player,

2 is a circuit diagram for explaining an optical power adjusting apparatus of a conventional optical disc player;

3 is a circuit diagram illustrating an optical power adjusting apparatus according to the RF level of the optical disk player according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100: light output unit 200: reference voltage generator

300: comparison voltage generator 400: RF output unit

500: analog / digital conversion unit 600: control unit

700: switching unit

In the optical disc player according to the present invention for achieving the above object, the apparatus of the present invention is an optical output unit for generating a reverse current in proportion to the laser output size, and a reference voltage for generating a reference voltage for adjusting the drive current of the optical output unit The generation unit, a comparison voltage generator for generating a driving voltage for comparing the driving current of the optical output unit with different magnitudes according to the level of the RF signal, and an RF output unit for outputting an RF signal at different levels according to the optical power of the optical output unit. And an analog / digital converter for converting an analog RF signal output from the RF output unit into a digital signal, and recognizes an RF level in response to the digital signal output from the analog / digital converter, and outputs a switch control signal accordingly. And one of a plurality of comparison voltages connected in parallel in response to a switch control signal of the controller. And a switching part and a medium width part for comparing the comparison voltage and the reference voltage, amplifying the comparison result value and controlling the magnitude of the driving current of the optical output part.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit diagram illustrating an optical power adjusting apparatus according to the RF level of the optical disk player according to the present invention.

As shown in the drawing, the optical output unit 100 outputs a laser beam to an upper portion of the optical disk by using the laser diode LD so that the optical disk player can perform a reproducing operation. At this time, the optical power of the laser diode LD is recognized. The photodiode PD1 is connected in parallel with the laser diode LD to generate a reverse current in proportion to the magnitude of the optical power.

The reference voltage generator 200 generates a reference voltage for adjusting the laser diode (LD) optical power of the optical output unit 100 and outputs the reference voltage to the non-inverting terminal of the amplifier 800.

The comparison voltage generator 300 generates a comparison voltage for controlling the laser diode LD optical power of the light output unit 100 and outputs the comparison voltage to the inverting terminal of the amplifier 800.

The comparison voltage generator 300 is connected to a plurality of resistors having different resistance values in parallel with the variable resistor VR for adjusting the optical power at the initial setup of the optical disc player, and is selectively supplied by the switch 700. VEE) is connected to generate a comparison voltage of various magnitudes.

The RF signal output unit 400 outputs the information recorded on the optical disc as an RF signal according to the optical signal output from the laser diode LD of the optical output unit 100 using the photodiode PD2 divided into four. .

The analog / digital converter 500 converts the RF signal output unit 400 from the RF analog signal into a digital signal.

The controller 600 recognizes an RF signal level converted into a digital signal and outputs a switch control signal for adjusting the optical power according to the RF level.

The switch 700 is configured to selectively connect a resistor connected in parallel to the comparison voltage generator 300 to the power supply VEE in response to a switch control signal of the controller 600.

The operation of the optical disc player according to the present invention configured as described above will be described in more detail with reference to the accompanying drawings.

Since the description related to the reproduction angle of the player of the optical disc is the same as the conventional one, a detailed description thereof will be omitted, and the photodiode PD2 divided into four in response to the optical signal reflected by the light incident on the optical disc from the optical output unit 100 will be omitted. And the inverting amplifier converts the information recorded on the optical disk into an RF signal and outputs the RF signal.

The RF signal is converted into a digital signal by the analog / digital signal converter 500 to be recognized by the controller 600, and the converted digital signal is input to the controller 600.

The controller 600 recognizes the level of the RF signal by the input digital signal, and outputs a switch control signal so that the optical power of the optical output unit 100 can be increased or decreased according to the recognized level.

Then, the switch 700 selectively supplies one of a plurality of resistors connected in parallel to the comparison voltage generator 300 in response to a switch control signal of the controller 600 to adjust the optical power according to the RF level. By connecting to the VEE) the comparison voltage input to the inverting terminal of the amplifier 800 is determined.

That is, when the level of the RF signal is greater than the level of the normal RF signal, the comparison voltage should also be small in order to reduce the driving current I flowing to the laser diode LD of the light output unit 100, so that the selection is made by the switch 700. The resistance value must be large.

If the level of the RF signal is smaller than the level of the normal RF signal, the opposite is true.

Therefore, as described above, the present invention occurs when the level variation of the RF signal occurs due to the recording state of the disk, the pickup state, and the optical power adjustment of the optical disk player. By detecting and adjusting the optical power according to the level of the RF signal, the RF level can be kept constant so that the original signal can be reproduced without distortion, and the amount of change in the level of the RF signal due to the optical disc and the pickup device can be reduced. to provide.

Claims (4)

Optical output means for generating a reverse current in proportion to the optical power; Reference voltage generating means for generating a reference voltage for adjusting the drive current of the optical output means; Comparison voltage generating means for generating a comparison voltage for adjusting the driving current of the optical output means in accordance with the level of the RF signal; RF output means for outputting an RF signal at a different level in accordance with the optical power of the optical output means; Analog / digital converting means for converting an analog RF signal output from the RF output means into a digital signal; Control means for recognizing an RF level in response to the digital signal output from the analog / digital converting means and outputting a switch control signal accordingly; Switching means for selectively outputting one of a plurality of comparison voltages connected in parallel in response to a switch control signal of said control means; And an amplifying means for comparing the comparison voltage with a reference voltage and amplifying the comparison result to control the magnitude of the driving current of the optical output unit. The method of claim 1, wherein the comparison voltage generating means; Optical power adjusting device according to the RF level of the optical disc player, characterized in that the magnitude of the comparison voltage is smaller as the level of the RF signal output from the RF output means increases. The method of claim 1, wherein the comparison voltage generating means; Optical power adjusting device according to the RF level of the optical disk player, characterized in that a plurality of resistors are connected in parallel. The method of claim 3, wherein the comparison voltage generating means; Optical power adjusting device according to the RF level of the optical disk player, characterized in that the plurality of resistance values are different.

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