KR100223161B1 - Device for compensating reproduction signals - Google Patents

Abstract

The present invention relates to a regeneration system of digital-VCR (D-VCR). The reproduction signal correction apparatus according to the present invention generates and outputs a signal for removing interference components between reproduction signals for correcting the reproduction signal by receiving the reproduction signal and comparing the differential and derivative signals with a predetermined reference voltage value. A delay unit for receiving the reproduction signal, the reproduction signal, and delaying and outputting the reproduction signal while generating the interference component removal signal in the interference component removal signal generator; And a correction section for outputting a corrected signal for the reproduction signal by adding the output of the corner to the signal generation section for removing the interference components. Accordingly, the present invention corrects the waveform of the reproduction signal including the interference component in left and right symmetry, and makes it possible to easily detect data at a later stage using the corrected signal, thereby causing a bit error rate (BER) of the system. ) To improve the effect.

Description

Playback signal correction device

1 is a waveform diagram for comparing the ideal characteristics and the actual characteristics of a reproduction signal,

2 is a block diagram showing a playback signal correction apparatus according to the present invention,

3 is a waveform diagram of input and output signals of each part of FIG. 2;

* Explanation of symbols for main parts of the drawings

10: delay and gain control unit 12: delay

14: gain controller 20: signal generator for removing interference components

22: Differential 24,26: 1st and 2nd operational amplifier

28: logic element 30: adder

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a reproduction system of a digital-VCR (D-VCR), and more particularly, to a reproduction signal correction device capable of facilitating data detection by removing interference components between signals included in a reproduction signal.

In a digital VDCR, a digital signal is recorded at a high density on a predetermined recording medium, and the recorded signal is read out through a reproduction head and amplified to an appropriate size in a reproduction amplifier. At this time, due to the high-density recording, interference (Intersymbol Interference) occurs between the reproduction signals, unnecessary noise is included in the reproduction signal, and the reproduction signal is deteriorated.

1 shows a waveform diagram for comparing an ideal characteristic with an actual characteristic of a reproduction signal. It can be seen that the waveform of the ideal reproduction signal shown in FIG. 1A is symmetrical left and right, and a peak point ideally appears in the center of the signal. On the other hand, the waveform of the actual playback signal shown in FIG. Errors may occur.

Therefore, in a signal reproducing system, a reproduction signal is generally corrected using an equalizer. However, there is a problem in that a conventional general equalizer does not properly correct the waveform of the asymmetry including the interference component.

SUMMARY OF THE INVENTION An object of the present invention for solving such a problem is to provide a reproduction signal correction device that can exhibit an excellent correction effect on an asymmetric waveform by removing interference components included in the reproduction signal with a simpler structure than a conventional equalizer. have.

The reproduction signal correction apparatus according to the present invention for achieving the above object is a device for correcting the reproduction signal read from a predetermined recording medium, the differential signal and the differential signal is applied to the predetermined reference voltage value And an interference component removing signal generator for generating and outputting an interference component removing signal between the reproduction signals for correcting the reproduction signal, and receiving the reproduction signal, and removing the interference component from the interference component removing signal generator. Correction for outputting the corrected signal for the playback signal by adding a delay section for delaying and outputting the playback signal while generating a dragon signal and an output from the delay section and an output from the interference component removal signal generator section. Contains wealth.

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 2 and 3.

2 is a configuration diagram of a reproduction signal correcting apparatus according to the present invention, and FIG. 3 is a view showing waveforms of signals input and output to respective parts of FIG.

As shown in FIG. 2, the device of the present invention is a delay and gain control unit 10, which delays the reproduction signal ⓐ input from the reproduction amplifier (not shown) for a predetermined time and outputs the gain by adjusting the gain. The interference component removing signal generator 20 and the delay and gain adjusting unit 10 generating and outputting an interference component removing signal for removing the interference component included in the reproduction signal ⓐ using the reproduction signal ⓐ. And an adder 30 for outputting the corrected reproduction signal by adding the output of the < RTI ID = 0.0 >) < / RTI >

The delay and gain control unit 10 includes a delay unit 12 for delaying an inputted reproduction signal for a predetermined time and a gain controller 14 for gain adjustment of the delayed signal and outputting the signal. (20) compares the square wave 22 for differentiating the inputted reproduction signal, and compares the differentiated signal with a preset reference voltage value to determine the square wave in the section where the differentiated signal is the upper limit of the reference voltage value and the lower limit of the reference voltage value. And a logic sum element 28 for logically calculating and outputting the outputs of the first and second operational amplifiers 24 and 26 and the first and second operational amplifiers 24 and 26 generating the interference component removing signal.

The operation of the reproduction signal correction apparatus of the present invention having the above configuration will be described.

The reproduction signal ⓐ output from the reproduction amplifier of the preceding stage is not input to the delay and gain control unit 10 and the signal generation unit 20 for removing interference components, and the waveform of the input reproduction signal is shown in FIG. It is shown in (a). As shown in (a) of FIG. 3, it can be seen that the left and right slopes are asymmetrical due to the interference component between the reproduced signals.

The delay unit 12 of the delay and gain control unit 10 eliminates the temporal inconsistency of signal processing due to the delayed time T while generating the final output signal ⓕ of the interference component removing signal generator 20. To this end, the inputted reproduction signal ⓐ is delayed for T time and outputted to the gain adjuster 14. The gain controller 14 gains the input signal to the adder 30 by gain-adjusting the input signal to a predetermined size, and the gain-controlled signal ⓑ is shown in FIG. 3E. .

The differentiator 22 of the interference generation signal generator 20 removes the inputted reproduction signal ⓐ and outputs the differentiated signal ⓒ to the first and second operational amplifiers 24 and 26. This differential signal ⓒ is shown in Fig. 3B, and the derivative ⓒ waveform has a positive voltage at the portion where the slope increases up to the peak of the ⓐ waveform, and At the point where the slope decreases from the peak point, it has a negative voltage.

The first and second operational amplifiers 24 and 26 generate a square wave in a signal section in which the applied differential signal ⓒ is greater than or equal to a predetermined reference voltage value and outputs the square wave to the OR gate 28. To this end, the differential signal ⓒ is input to the positive (+) input terminal of the first operational amplifier 24 and the upper limit reference voltage value (+ V _ref ) is input to the negative (-) input terminal. Thus, the first operational amplifier 24 compares the upper limit reference voltage value (+ V _ref ) and the derivative signal ⓒ, and the first operational amplifier 24 compares the differential signal ⓒ with the upper limit reference voltage value (+ V _ref ). Generates a square wave like the ⓓ waveform shown in (c) of FIG.

Further, the differential signal ⓒ is input to the negative input terminal of the second operational amplifier 26 and the lower limit reference voltage value -V _ref is input to the positive input terminal. Unlike the first operational amplifier 24, the second operational amplifier 26 compares the lower limit reference voltage value (-V _ref ) with the derivative signal (ⓒ), so that the derivative signal (ⓒ) is the lower limit reference voltage value (- V _ref ) generates a square wave equal to the ⓔ waveform shown in (d) of FIG.

The logical sum element 28 performs a logical sum of the input square waves ⓓ and ⓔ, generates a signal of ⓕ waveform as shown in (e) of FIG. 3 and outputs the signal to the adder 30. This wave signal is an interference component removal signal used to remove the interference component (hatched portion in FIG. 1 (b)) of the reproduction signal (ⓐ).

The adder 30 receives the reproduction delayed signal ⓑ from the delay and gain control unit 10 and the interference component signal ⓕ from the interference component removing signal generator 20, and subtracts the two signals to generate a third signal. A correction signal is output as shown by the waveform? In Fig. F. As shown, the output signal? Of the adder 30 is compared with the reproduction signal ⓐ input to the second-degree device. It can be seen that the interference component widely formed at the bottom left and right sides of (ⓐ) is removed, and the peak point is moved to the center so that it is close to the left-right symmetrical form and sharpened. Outputted playback signal (ⓖ).

As described above, the apparatus for correcting a reproduction signal according to the present invention generates a signal for removing the interference component during the signal period in which the interference signal is included in the reproduction signal to remove the interference component from the reproduction signal. Therefore, the present invention sharply corrects the waveform of the reproduction signal in left and right symmetry. In addition, it is possible to easily detect data at a later stage using the corrected signal, thereby improving the bit error rate (BER) of the system.

Claims (4)

An apparatus for correcting a reproduction signal read out from a predetermined recording medium, An interference component removal signal generator for generating and outputting an interference component removal signal between reproduction signals for correcting the reproduction signal by comparing the reproduction signal with a differential reference signal and a predetermined reference voltage value; A delay unit for receiving the reproduction signal and delaying the reproduction signal while outputting the interference component removal signal from the interference component removal signal generator; And And a correction unit for outputting a corrected signal for the reproduction signal by adding an output from the delay unit and an output from the interference component removing signal generator. The signal generating unit of claim 1, wherein A differentiator for receiving the reproduction signal and differentiating the output signal to an appropriate magnitude; And The correction unit generates a signal for removing interference components between signals of a square wave in a section in which the output of the differentiator is greater than or equal to the upper limit reference voltage value or less than or equal to the lower limit reference voltage value by receiving the output of the differentiator. Playback signal correction device comprising a signal generator for outputting. The method of claim 2, wherein the signal generator The output of the differentiator is input to the positive (+) input terminal and the upper limit reference voltage value is input to the negative (-) input terminal to generate a first square wave in a section in which the output of the differentiator is equal to or greater than the upper limit reference voltage value. An output first operational amplifier; The second square wave is generated in a section in which the output of the differentiator is input to the negative input terminal and the reference voltage value of the lower limit is input to the positive (+) input terminal, and the output of the differentiator is less than or equal to the reference voltage value of the lower limit. An output second operational amplifier; And And a logic summation element which receives the first and second square waves of the first and second operational amplifiers and logically sums them and outputs them to the correction unit. The method of claim 1, wherein the delay unit And a gain controller for controlling the output of the delay unit to a predetermined size and outputting the gain to the correction unit.