KR100547344B1 - Apparatus and method for transmitting and processing signal in optical system - Google Patents

Abstract

The present invention relates to a signal transmission in an optical recording system, and sets a reference signal (for example, 2.5 volts) for an original signal (for example, 0 and 5 volts) in a DSP of the system so that a predetermined voltage is higher than the reference signal ( For example, the value for a signal of 1 volt) is set to '1', and on the contrary, the value for a signal that is lower than a predetermined voltage (for example, 1 volt) than the reference signal is set to 'absolute value 1'. A signal is transmitted to a pickup by a coupling signal method. The LD driver IC of the pickup which receives the signal is related to processing a signal by combining one signal of two signals with another signal.

Therefore, according to the present invention, the LVDS signal is generated by the DSP itself, thereby reducing the LVDS driver IC.

In addition, the present invention is applied to the field of next-generation high-speed optical recording, such as BD and MO, ineffective in stable signal transmission for high-speed recording.

Transmission, LVDS, DSP

Description

Apparatus and method for transmitting and processing signal in optical system             

1 is a general optical system block diagram

2 is a block diagram for transmitting a recording signal to an optical pickup in a conventional optical recording set.

3A is a waveform diagram illustrating a signal form output from a DSP.

Fig. 3B is a waveform diagram showing the form of signal transmission by the LVDS driver IC in the set.

4 is a block diagram for implementing signal transmission according to the present invention.

Fig. 5 is a block diagram and waveform diagram showing the formation of an LVDS signal directly from a DSP and sent to an LD driver IC.

6 is a flow chart for signal transmission method and processing of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to signal transmission in an optical recording system. The present invention relates to an apparatus and method for directly transmitting a signal to a pickup using low voltage differential signaling (LVDS) in a DSP, which is a signal processing apparatus in an optical recording set. It's about.

More specifically, the reference signal (for example, 2.5 volts) for the original signal (for example, 0 and 5 volts) is set in the DSP, so that the signal for a signal having a predetermined voltage or higher (for example, 1 volt) than the reference signal can be set. The value is set to '1', on the contrary, the signal for the value is transmitted to the pickup by the coupling signal method with the value for the signal having a predetermined voltage lower than the reference signal (for example, 1 volt) as 'absolute value 1'. The LD driver IC of the pickup which receives the signal is related to processing a signal by combining one signal of two signals with another signal of the inverting seeker.

FIG. 1 is a block diagram of a general optical system, and includes an optical pickup unit for recording and reproducing information on an optical disc 101, which is an optical recording medium, and including an optical detector 102a in which a light beam reflected from the optical disc is converted into an electrical signal. 102 and a servo error generation unit 103 including a tilt error detection unit 106 for detecting a tilt error signal using a push pull signal in a tangential direction and generating a servo error signal from an electrical signal output from the optical pickup unit. ), A tracking error detector 104 for detecting a tracking error signal generated by the servo error generator, a focus error detector 105 for detecting a focus error signal generated by the servo error generator, and the servo error. A tangential push pull error detection unit, that is, a tilt error detection unit 106, for detecting a tangential push pull error signal generated by the generation unit is provided.

The servo control unit 108 generates and outputs a control signal to control the servo by the signal detected by the error detection unit, and controls the servo by controlling the optical pickup unit according to a drive signal output from the servo control unit. The tilt control unit 109 is included.

In the optical recording / reproducing apparatus operated as described above, various types of optical recording apparatuses such as CD, DVD, BD, etc. are gradually coming out, and the recording speed is also gradually increasing.

Currently, CDs are up to 52x and DVDs are up to 4x and 16x is expected next year.

Looking at the structure of the optical recording device, the recording signal is transmitted to the optical PICK-UP in the recording SET, and the optical PICK-UP receives a signal to record and emits a LASER using LD to record in the DISC.

2 is a block diagram for transmitting a recording signal to an optical pickup in a conventional optical recording set.

As shown in the figure, the optical recording set 201 includes a DSP 201a for processing a signal and an LVDS driver IC 201b for converting a signal transmitted through the channel from the DSP into an LVDS signal and transmitting the LVDS signal. 202 includes an LD driver IC 202a for processing the coupling signal input from the LVDS driver IC 201b and an objective lens 202b for condensing light. Also, a recording medium 203 is configured.

3A is a waveform diagram illustrating a signal form output from a DSP.

Fig. 3B is a waveform diagram showing the form of signal transmission by the LVDS driver IC in the set.

3A is output from the DSP 201a in the optical record set of FIG. 2, and the LVDS signal of FIG. 3B is output from the LVDS driver IC 201b in the optical record set.

Hereinafter, a conventional signal transmission method will be described with reference to the drawings.

As shown in Fig. 2, the optical PICK-UP and SET are connected by FPC (Flexcible Printed Circuit), and the operating range of the PICK-UP (from the inner circumference to the outer circumference of the DISC) has a minimum length of 6 to 7 cm. .

As the high frequency proportional to the recording speed passes through the FPC, the signal itself changes, or noise occurs in the surrounding analog signal due to the influence of the high frequency.

Therefore, there are LVDS and WS driver ICs.

The LVDS method is a method of COUPLING two signals rather than transmitting each channel's signal to one line.

Conventionally, 0 VOLT and 5 VOLT were sent in one line as shown in Figure 3 (a), but the LVDS method uses one LVDS driver IC as shown in Figure 2 to make one signal into two COUPLING signals as shown in Figure 3 (b). To transmit.

In other words, one CHANNEL signal is received from DSP IC and this signal is transmitted by switching two COUPLING signals from LVDS driver IC.

Set a constant reference voltage (2.5V) inside the IC and indicate 0. and 1 as the voltage above the constant voltage (about 1V) based on the reference voltage and lower the constant voltage (about 1V) below the reference voltage to be COUPLING with this signal. Transmit signal of voltage together.

In other words, a single signal is converted into two signals that are coiled based on the reference voltage and transmitted. In this method, the noise of two COUPLING signals cancels out, so the noise decreases and the original signal also LDD. (LD driver IC) If one of two coupling signals is inverted and combined inside, you can receive clean signal.

However, in order to transmit these signals, LVDS DRIVER IC must be installed between DSP IC and LD DRIVER IC to generate LVDS signal. The performance of SET is affected by LVDS DRIVER IC's performance and the cost is as much as LVDS IC. A problem arises that becomes necessary.

In addition, as the recording speed is getting faster, the speed of the recording signal from the SET to the optical PICK-UP is also increasing.

Currently, the recording speed of 1T per channel of DVD 1X is about 26Mhz and the recording speed of 8X, which is scheduled to be released next year, is about 400Mhz.

When transmitting such high frequency, various problems occur.

For example, as the signal transmitted from the DSP is converted into the LVDS signal through a separate LVDS driver IC, a time delay occurs and affects the recording medium.

Accordingly, an object of the present invention is to improve a problem of LVDS transmission in an optical recording SET, which is the above problem, and proposes an apparatus and a method capable of directly transmitting to a PICK-UP in an LVDS manner from a DSP IC in an optical recording set.

A signal transmission and processing apparatus according to the present invention for achieving the above object comprises: a DSP in a main body for forming and transmitting a signal of each channel into two coupling signals;

And an optical pickup unit which combines one of the signals transmitted as the coupling signal with another signal and processes the signal.

For example, the coupling signal output from the DSP is input to the LD driver of the optical pickup unit.

In addition, the signal transmission method of the present invention, the first step of setting a second signal which is a reference signal for the first signal which is the original signal; Setting a value for a signal above / below a predetermined value based on the reference signal; A DSP unit outputting a value derived through the second step process as a coupling signal; And receiving the coupling signal output from the DSP unit from the LD of the pickup unit, and processing a signal by combining one signal of two signals with the other signal.

For example, the second signal, which is a reference signal, is set to 1/2 the size of the first signal to be output.

Other objects and features of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

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

      4 is a block diagram for implementing signal transmission according to the present invention.

As shown in the figure, the DSP 401a in the main body 401 which forms and transmits the signals of each channel into two coupling signals, and one signal of the coupling signals output from the DSP are inversed with the other signal. It consists of the LD driver 402a in the optical pickup part 402 which processes a signal together. The objective lens 402b and the recording medium 403 are also one configuration of the present invention.

FIG. 5 is a block diagram and waveform diagram illustrating the formation of an LVDS signal directly at the DSP and sent to the LD driver IC. FIG.

An implementation method of the present invention will be briefly described with reference to FIGS. 4 and 5.

Instead of sending the signal waveform of FIG. 3A in the conventional DSP of FIG. 2, that is, the method of transmitting 0, 5 VOLT from the DSP IC, the reference voltage is determined in the DSP IC and the reference is determined.

Based on the voltage, make a signal of 0. and 1 with a voltage over a certain voltage (about 1V)

This signal and COUPLING generates a signal of constant voltage (about 1V) below the reference voltage together and transmits two signals together and receives this signal directly from the driver IC inside the PICK-UP.

In this case, the LVDS DRIVER IC can be excluded and the signal loss caused by the LVDS DRIVER IC can be excluded.

6 is a flowchart for a signal transmission method and processing of the present invention.

The reference signal (for example, 2.5 V, which is 1/2 of the original signal) is set for the original signal (for example, 5 V) output from the optical system. (S 601).

At least the value for the signal exceeding the reference voltage is set to '1', and at least the value for the signal less than the reference voltage is set to 'absolute value 1'. (S 602).

Preferably, the signal value for a voltage of ± 1 or more with respect to the reference voltage is set to '1' or 'absolute value 1'.

Based on the set reference value, a predetermined value (eg ± 1) is represented as a signal value '1' and a signal value (absolute value 1) having a low voltage below the reference voltage is transmitted together to be coupled with the signal value. . (S 603).

Steps S601, 602, 603 are performed in the DSP.

On the other hand, the LD driver IC inverts one of the received two coupling signals and combines the signal with the other to process the signal. (S 604).

Due to the above process, there is no need to configure a separate LVDS driver IC to form a coupling signal, thereby reducing the cost, and one step is omitted, thereby preventing time delay and contributing to high speed.

As described above, in the present invention, a reference signal (for example, 2.5 volts) for the original signal (for example, 0 and 5 volts) is set in the DSP, so that a signal having a predetermined voltage or more (for example, 1 volt) is higher than the reference signal. The value for is set to '1' and the signal for the value is set to 'absolute value 1' for a signal having a constant voltage lower than the reference signal (for example, 1 volt). The present invention relates to an apparatus and a method for processing a signal by combining a signal of one of two signals with a signal of the other by inverting the other.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments.

Therefore, the above description is not limited to the scope of the present invention by the limitation of the claims.

 As described above, according to the signal transmission and processing apparatus and method according to the present invention, the LVDS signal is generated by the DSP itself, thereby reducing the LVDS driver IC.

In addition, the present invention is applied to the field of next-generation high-speed optical recording, such as BD and MO, ineffective in stable signal transmission for high-speed recording.

Claims (8)

An optical recording / reproducing apparatus comprising a main body for processing data and means for outputting and condensing light, A DSP in the main body that forms and transmits signals of each channel into two coupling signals; And an optical pickup unit which inverts one of the signals transmitted as the coupling signal and combines it with the other signal to process the signal. The apparatus of claim 1, wherein the coupled signals correspond to each other based on a reference point. The signal transmission and processing device according to claim 1, wherein the coupling signal output from the DSP is input to the LD driver of the optical pickup unit. Setting a second signal that is a reference signal with respect to the first signal that is an original signal; Setting a value for a signal above / below a predetermined value based on the reference signal; And And a DSP unit outputting the value derived through the second step process as a coupling signal. 3. 5. The method of claim 4, further comprising: receiving a coupling signal output from the DSP unit from the LD of the pickup unit, inverting one of two signals and combining the other signal with another signal to process the signal; Signal transmission and processing method. The signal transmission and processing method according to claim 4, wherein the second signal, which is a reference signal, is set to half the size of the first signal to be output. The signal transmission and processing method of claim 4, wherein a value of a signal greater than +1 is set to '1' and a value of a signal less than −1 is set to an absolute value of '1' based on the reference voltage. . 8. The method of claim 7, wherein a coupling signal is formed from a corresponding value (absolute value 1,0 or 1,0) to the derived signal value (1,0 or absolute value 1,0) and transmitted from the DSP unit to the optical pickup unit. Signal transmission and processing method characterized in that.

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