KR20050062252A - Optical detection circuit of an optical disk drive - Google Patents

Abstract

The present invention relates to a photodetector circuit of an optical disc drive.

The photodetector circuit according to the present invention comprises a photodetector for generating an electrical signal corresponding to the intensity of the optical signal reflected from the disk; And a variable amplifier for automatically controlling the amplification degree of the electrical signal generated by the photodetector according to the operation mode of the optical disc drive and the type of the mounted disc, wherein the amplification degree of the variable amplifier is based on the optical signal reflected from the disc. It is characterized by a variable by the dummyster to respond.

The optical detection circuit according to the present invention automatically changes the amplification degree according to the operation mode of the optical disc drive and the type of the mounted disc, and thus does not require a separate switching input terminal, thereby having the effect of being suitable for an integrated circuit.

Description

Optical detection circuit of an optical disk drive

The present invention relates to a photodetector circuit of an optical disk drive, and more particularly, to a photodetector including a variable amplifier for automatically controlling an amplification degree of an electrical signal generated by the photodetector according to an operation mode of an optical disk drive and a type of a mounted disk. It is about a circuit.

The photodetector circuit generates amplification degree of a photodiode and an electrical signal generated by the photodetector for generating an electrical signal corresponding to the intensity of the optical signal reflected from the disk, depending on the operation mode of the optical disk drive and the type of mounted disk. A circuit including a variable amplifier that is automatically controlled, usually composed of small integrated circuits and mounted on an optical pickup.

Here, the photodetector is commonly referred to as a two-segment photodetector or a four-segment photodetector, and the like, wherein the monitor diode for automatic laser output control detects the output of the laser diode, that is, the intensity of the optical signal before being reflected by the disk. It is used to detect the intensity of the optical signal reflected from the disk.

As is well known, the intensity of the optical signal when recording data on the disc is much higher (about 100 times) than that during reproduction, so the intensity of the optical signal reflected from the disc in the recording mode and the reproduction mode is very different from each other. . In addition, when reading data from the disc, irradiate the disc with an optical signal having a certain intensity regardless of the type of the mounted disc, but since the reflectance is different depending on the type of the mounted disc, the intensity of the optical signal reflected from the disc is different. do.

Therefore, the amplification degree of the photodetector circuit should be set differently depending on the operation mode of the disc drive and the type of the mounted disc.

In the conventional photodetector circuit, a variable amplifier that amplifies a signal generated by the photodetector with different amplification degrees according to the operation mode of the optical disk drive and the type of the loaded media is used.

Such a variable amplifier typically includes amplification resistors connected in parallel and a switch for selecting one of these amplification resistors, and is configured to select different amplification resistors according to the operation mode of the optical disc drive and the type of mounted media.

However, such a conventional photodetector circuit has a problem in that it has some limitation in miniaturization of the photodetector circuit because it must have input terminals for inputting a switching signal to control the switching operation of the switch. For example, if the number of selectable amplification resistors is three, at least two input terminals or connectors are required for the switching signal of the switch, and miniaturization of the photodetector circuit is inhibited by the space required for installing these input terminals. Receive.

SUMMARY OF THE INVENTION The present invention has been devised to solve the above problems, and provides an optical detection circuit in which the amplification degree is automatically changed according to the operation mode of the optical disc drive and the type of the mounted disc, and does not require separate switching input terminals. The purpose.

The photodetector circuit according to the present invention for achieving the above object is

A photodetector for generating an electrical signal corresponding to the intensity of the optical signal reflected from the disk; And

And a variable amplifier for automatically controlling the amplification degree of the electrical signal generated by the photodetector according to the operation mode of the optical disc drive and the type of the mounted disc.

Here, the amplification degree of the variable amplifier is characterized in that it is varied by the dummyster in response to the optical signal reflected from the disk.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the structure of a conventional photodetector circuit. Referring to FIG. 1, a conventional photodetector circuit includes a photodetector 110 and a variable amplifier 120, where the variable amplifier 120 is amplified resistors 124 connected in parallel to the operational amplifier 122. And a switch 126 that selects one of these amplification resistors.

The apparatus shown in FIG. 1 controls the amplification degree of the variable amplifier 120 by selecting different amplification resistors according to the operation mode of the optical disc drive and the type of loaded media.

However, there is a need for a switching signal input terminal for inputting a switching signal for controlling the switching operation of the switch 126, thereby limiting the integrated circuit of the photodetector circuit.

2 is a block diagram showing the configuration of a photodetector circuit according to the present invention. Referring to FIG. 2, the photodetector circuit according to the present invention includes a photodetector 210 and a variable amplifier 220, wherein the amplification degree of the variable amplifier 220 is controlled by a dummyr 224. .

The dummyster has a characteristic that the resistance value changes according to the intensity of the optical signal.

In the optical disc drive, the intensity of the optical signal input to the optical disc is constant for each operation mode, but the intensity of the optical signal reflected from the disc varies depending on the operation mode and the type of the loaded optical disc. This suggests that the operation mode of the optical disk and the type of the loaded optical disk can be judged by the intensity of the optical signal reflected from the disk. Based on this, the amplification degree of the variable amplifier 220 is controlled through the dummyster 224. It becomes possible.

In particular, when the intensity of the optical signal is sharply contrasted as in the recording mode and the reproduction mode, the amplification degree of the variable amplifier 220 can be controlled more easily.

The change of the intensity of the optical signal according to the type of optical disc is not obvious compared to the change of the intensity of the optical signal according to the operation mode, but only the dummyster having the required input / output characteristics can sufficiently control the amplification degree of the variable amplifier 220. .

The photodetector circuit according to the present invention as shown in FIG. 2 is more advantageous for the integration of the photodetector circuit since the switch for determining the amplification degree of the variable amplifier and the switching input terminal for controlling the switching operation of the switch are not required. do.

As described above, the optical detection circuit according to the present invention automatically varies according to the operation mode of the optical disc drive and the type of the mounted disc, and does not require separate switching input terminals, thereby making it suitable for integrated circuits. Have.

1 is a block diagram showing the structure of a conventional photodetector circuit.

2 is a block diagram showing the configuration of a photodetector circuit according to the present invention.

Claims (1)

In the optical detection circuit of the optical disk drive, A photodetector for generating an electrical signal corresponding to the intensity of the optical signal reflected from the disk; And And a variable amplifier for automatically controlling the amplification degree of the electrical signal generated by the photodetector according to the operation mode of the optical disc drive and the type of the mounted disc. Wherein the amplification degree of the variable amplifier is varied by a dummyster in response to the optical signal reflected from the disk.