KR100213252B1 - Pick up servo and RF signal detecting method in optical disk device - Google Patents

Abstract

An RF (RF) and a pickup servo signal detection method of an optical disk apparatus are disclosed.

The RF signal separation unit separates the RF signal and the servo signal detection unit from each other in the light receiving unit. The servo signal detection unit has two servo signal detection ends for detecting a servo signal, and each of the servo signal detection ends is divided into four .

Therefore, by dividing the photodiode for tracking error detection into four parts and not dividing the RF and the four-divisional diode for focus error detection, it is possible to separate the servo and the RF signal detection part, and there is no loss in the amount of received light for RF detection, Up control is possible.

Description

Technical Field [0001] The present invention relates to a pick-up servo and an RF signal detecting method for an optical disk apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an RF (Radio Frequency (RF) and a pickup servo signal detecting method for an optical disk apparatus, (RF) and a pick-up servo signal detection method for an optical disk apparatus for high performance of an optical disk apparatus.

1 is a diagram showing a focus error detection method by a general astigmatism method.

1, reference numeral 100 denotes a laser diode, 102 denotes a collimate lens, 104 denotes a beam splitter, 106 denotes an object lens, 108 denotes a light source, And a reference numeral 110 denotes a cylindrical lens.

2A, a photodetector (not shown) of a conventional optical disc apparatus optical system includes two photodiodes for generating a tracking error signal, a quadrant diode for detecting a focus error and an RF signal, and six photodiodes . 2A is a diagram showing the configuration of a photodiode of a light receiving unit according to the related art.

The upper portion E and the lower portion F of the photodiode of the conventional light receiving portion are a tracking error detecting portion and the middle portion located at the center of the upper portion E and the lower portion F is a focusing and RF detecting portion. The focus and RF detection units are also divided into four parts: upper left, upper right, lower left, and lower right.

In this conventional technique, the RF detection is generated by adding four outputs of the quadripartition diode to generate a loss of received light amount, and by detecting the focus error signal at the point where the quadrant diode is located, Even if the vibration, that is, the surface vibration, the inclination and the size of the surface vibration could passively follow the focus direction vibration only in an unknown state.

The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a servo signal detecting apparatus, Up servo servo and an RF signal detection method for an optical disc apparatus for controlling the pickup of various optical disc apparatuses such as magnitude and slope of the optical disc apparatus.

1 is a diagram showing a focus error detection method by a general astigmatism method.

2A is a diagram showing a configuration of a photodiode of a light receiving unit according to a conventional error detection method.

FIG. 2B is a diagram showing a configuration of a photodiode of a light receiving unit according to the error detection method of the present invention.

A pickup servo and an RF signal detection method for an optical disc apparatus for achieving the above object is a method for detecting an RF signal in an optical disc apparatus, The servo signal detection unit is separated and the servo signal detection unit is separated into a first servo signal detection stage and a second servo signal detection stage for detecting a predetermined servo signal and are respectively located above and below the ALF signal detection unit, RF) signal detector is implemented by a photodiode that is not divided, and the first servo signal detection stage and the second servo signal detection stage are each implemented by a photodiode that is divided into four parts.

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

2B is a diagram showing a configuration of a photodiode of a light receiving unit of an optical disk pickup according to an error detection method of the present invention.

In the present invention, the configuration of the photodiode of the light receiving section is such that a servo signal composed of a first servo signal detection terminal 202 at the upper portion E and a second servo signal detection terminal 204 at the lower portion (F) And a RF signal detecting unit 210 located at the center of the first servo signal detecting end 202 of the upper part E and the second servo signal detecting end 204 of the lower part F. The upper portion E is divided into four portions by the upper left end E2, the upper right end E1, the lower left end E3, and the lower right end E4. In addition, the lower portion F is divided into four portions by the upper left portion F2, the upper right portion F1, the lower left portion F3, and the lower right portion F4.

That is, in the present invention, the structure of the photodiode of the light receiving unit may be changed to separate the servo signal detecting unit 200 and the RF signal detecting unit 210 from each other. That is, the servo signal detector 200 is used to detect servo signals such as a tracking error signal, a focus error signal, and a defect detection signal. Specifically, the first servo signal detection stage 202 and the second servo signal detection stage 204 of the servo signal detection unit 200 are implemented by four-divided photodiodes, respectively, to detect the tracking error signal TE TE1 and TE2 are generated. The first servo signal detection stage 202 and the second servo signal detection stage 204 of the servo signal detection section 200 generate FE1 and FE2 respectively to detect the focus error signal FE. The servo signal detector 200 generates DE1 and DE2 at the first servo signal detector stage 202 and detects DE3 and DE2 at the second servo signal detector stage 204 to detect the defect detection signal DE, DE4 is generated.

Meanwhile, the RF signal detector 210 may be implemented as a photodiode that is not divided as in the prior art, thereby eliminating the loss of received light upon RF detection. Here, the signal output from the RF signal detector 210 is an RF signal. That is, the RF signal detector 210 can be separated from the servo signal detector 200 because it is used for detecting only the RF signal, and is not divided unlike the conventional light receiver structure.

The generation process of the focus error signal FE, the tracking error signal TE, and the defect detection signal DE will be described in detail with reference to the structure of the light receiving unit shown in FIG. 2B.

First, the focus error signal FE can be generated by combining the outputs of the two servo signal detection stages 202 and 204 as FE1 and FE2, respectively. 2B, FE1 is set to (E1 + E3) - (E2 + E4) and FE2 is set to (F1 + F3) - (F2 + F4) An error signal FE can be generated. Alternatively, the focus error signal FE can be generated by setting FE1 to E1 + E3 + F1 + F3 and setting FE2 to E2 + E4 + F2 + F4 to find the difference between FE1 and FE2.

The tracking error signal TE can be generated by setting TE1 to E1 + E2 + E3 + E4 and setting TE2 to F1 + F2 + F3 + F4 to obtain the difference between TE1 and TE2.

On the other hand, the defect detection signal DE can be generated by setting DE1 to E1 + E2, DE2 to E3 + E4, DE3 to F1 + F2, and DE4 to F3 + F4.

As described above, the servo signals such as the tracking error signal TE, the focus error signal FE, and the defect detection signal DE are detected by the servo signal detector 200, which is implemented by a four-divided photodiode, In the RF signal detecting unit 210, only the RF signal is detected.

According to the present invention, the conventional tracking error detecting photodiode is divided into four and used for detecting servo signals such as tracking error, focus error and defect, and by not dividing the quadrant diode for RF signal detection, It is possible to separate the detection unit from the RF signal detection unit, thereby providing no effect on the amount of received light for RF detection and providing a high-performance pickup control.

Claims (1)

1. A pick-up servo and an RF signal detection method for an optical disk apparatus, An RF (RF) signal detecting unit and a servo signal detecting unit are separated from each other in the light receiving unit of the pickup for the optical disk apparatus, The servo signal detecting section is separated into a first servo signal detecting terminal and a second servo signal detecting terminal for detecting a predetermined servo signal and is respectively located above and below the ALF signal detecting section, Wherein the RF signal detecting unit is implemented by a photodiode that is not divided and the first servo signal detecting unit and the second servo signal detecting unit are each implemented by a photodiode that is divided into four parts. A method of detecting a pick up servo and an RF signal.