KR100421837B1 - Apparatus for cancelling ghost - Google Patents

Abstract

PURPOSE: An apparatus for canceling ghost is provided to considerably improve ghost cancellation performance using only a high band filtered value. CONSTITUTION: A synchronization separating and clock generating unit receives a video signal inputted through an antenna, and outputs a synchronous and clock signal. A ghost canceling unit cancels a ghost digital signal outputted from an A/D converting unit. A memory stores a set GCR(Ghost Cancellation Reference) signal. A control unit performs the high band filtering of signals outputted from the A/D converting unit and the memory, compares the filtered signals, calculates a filter coefficient, and outputs the calculated filter coefficient to the ghost canceling unit. The control unit has the first HPF(High Pass Filter)(22), the second HPF(23) and an algorithm unit(20). The first HPF(22) performs the high band filtering of the signal outputted from the A/D converting unit. The second HPF(23) performs the high band filtering of the signal outputted from the memory. The algorithm unit(20) receives only the signals filtered in the first and second HPFs(22,23), and obtains a filter coefficient.

Description

Ghost Removal Device

The present invention relates to a ghost removal device, and more particularly to a ghost removal device for the stable operation of the ghost removal unit.

In general, the ghost elimination device of the TV filters the input video signal in the ghost elimination unit after the A / D conversion to remove the ghost, and converts it into an analog signal again after the D / A conversion to output the video signal.

1 is a block diagram showing a general ghost removal device.

Referring to FIG. 1, a general ghost elimination device includes a tuner and an intermediate frequency amplifier 11 that tunes and amplifies a video signal input to the antenna 10, and a video output from the tuner and the intermediate frequency amplifier 11. A clamper 12 for receiving a signal to create a constant DC level, a synchronous separation and clock generator 13 for receiving a video signal and outputting a horizontal synchronous, vertical synchronous and clock signal, and the output from the clamper 13 An automatic gain control unit 14 for adjusting the gain of the signal, an A / D converter 15 for converting a ghostde signal output from the automatic gain control unit 14 into a digital signal, and an A / D conversion unit A ghost removal unit 16 for removing a ghost portion from the ghosted digital signal outputted at (15), a D / A conversion unit 17 for converting the digital signal removed at the ghost removal unit 16 into an analog signal; , The signal output from the A / D converter 15 And a control unit 18 for obtaining the filter coefficients and outputting them to the ghost elimination unit 16, and a memory 19 for storing the set GCR signal.

Referring to the operation of the general ghost removal device configured as described above are as follows.

The video signal input through the antenna 10 is tuned and amplified by the tuner and the intermediate frequency amplifier 11 and then output to the clamper 12.

In addition, the synchronization and clock generator 13 receives a video signal to generate a horizontal synchronization signal, a vertical synchronization signal, and a clock signal, and outputs the horizontal synchronization signal to the clamper 12.

The clamper 12 outputs the video signal to the automatic gain control unit 14 by generating a constant DC level according to the horizontal synchronizing, vertical synchronizing synchronizing signal and the clock signal output from the synchronizing and clock generating unit 13.

The automatic gain control unit 14 adjusts the gain so as not to exceed the maximum use range of the A / D converter 15 due to an incorrectly calculated amplification coefficient when the ghost and noise output from the clamper 12 appear.

The ghosted analog signal applied to the A / D converter 15 is converted into a ghosted digital signal and output to the ghost remover 16.

In addition, the GCR received from the control unit 18 receives line information, and the GCR signal is detected from the output data of the A / D converter 15.

The detected signal is stored in the memory 19.

In addition, the controller 18 reads the GCR signal stored in the memory 19 and compares the read GCR signal with a predetermined GCR signal stored in the memory 19 to calculate a ghost characteristic of the transmission channel.

At the same time, the controller 18 can detect the characteristics of the GCR signal from the ghost removal unit 16 compared with the preset GCR signal stored in the memory 15.

After the ghost is removed, the digital ghost signal inputted to the ghost removal unit 16 is applied to the D / A converter 17 to be converted into an analog signal and output as a video signal from which ghost is removed.

FIG. 2 is a diagram illustrating a process of obtaining a filter coefficient vector from the controller of FIG. 1, wherein y (n) represents an input video signal generated by a ghost, that is, a ghosted GCR signal, and corresponds to an output of the A / D converter 22.

d (n) represents the original GCR signal without ghost stored in the memory 19 in advance.

W (n) is the coefficient of a linear time-invariant filter that makes y (n) close to d (n) and eliminates ghosting. It is written as.

e (n) (error value) is d (n)- And then updates the W (n) coefficient in a direction to reduce the e ² (n) or Σe ² (n).

Referring to the operation of the control unit configured as described above, y (n) output from the A / D conversion unit 22 is applied to the algorithm unit 20 for obtaining W (n) so as to be close to d (n). Output

Outputted above Is outputted to the calculating section 21, and the e (n) signal is outputted to the ghost removing section 16 by calculating with the original ghostless GCR signal stored in the memory 19 in advance.

According to the conventional ghost elimination device, the nonlinear distortion is severe in the vertical blank section especially when there is a ghost. The automatic gain control circuit which makes the maximum value of the sub-modulated video signal at a constant level consequently malfunctions in the vertical blank section. Because.

In addition, when there is the same amount of ghost, since the waveform distortion in the vertical blank section is relatively higher than in the other sections, the nonlinear distortion occurs in the vertical blank section because the maximum value of the video signal is also large compared to when there is no ghost.

In addition, since the circuit itself used in the tuner and the intermediate frequency amplification unit is composed of a lot of condenser couplings, the waveform slope occurs frequently in the vertical blanking section where the DC level is relatively low.

Therefore, since the video signal generated with the nonlinear distortion and the waveform skew is input to the A / D converter, the ghost elimination operation is only linear, and thus the ghost elimination performance is greatly reduced.

In addition, when the ghost becomes severe, it becomes difficult to separate the horizontal and vertical syncs in the sync and clock generators, and it becomes difficult to create a clock synchronized with the color subcarriers. Even if the position is different and the position is correct, there is a high possibility that the clamping voltage fluctuates from field to field due to ghosting.

In addition, the GCR signal is sent with the polarity inverted in every field so that the receiver subtracts the fields so that only the GCR signal remains.If the clamping is wrong, the DC bias of a specific line carrying the GCR signal changes from field to field. Therefore, as a result of the subtraction operation, not only the GCR signal but also unwanted DC bias components remain, so the ghost removal performance decreases a lot.

The present invention has been made to solve the problems of the prior art, and the object of the present invention is to provide a high pass filter by providing a high pass filter in front of an algorithm unit and an operation unit for obtaining W (n) as shown in the drawings. The purpose of the present invention is to provide a ghost removal device that can greatly improve the ghost removal performance using only the value.

1 is a block diagram showing a general ghost removal device,

2 is a view illustrating a process of obtaining a filter coefficient from a control unit of FIG. 1;

3 is a diagram illustrating a process of obtaining a filter coefficient from a control unit according to the present invention.

Explanation of symbols for main parts of the drawings

10 antenna 11: tuner and intermediate frequency amplifier

12: clamper 13: synchronization and clock generator

14: automatic gain control unit 15: A / D conversion unit

16: ghost removal unit 17: D / A conversion unit

18: control unit 19: memory

A feature of the ghost elimination apparatus according to the present invention is to calculate a filter coefficient by high pass filtering the y (n) value output from the A / D converter and the d (n) value from which ghost is removed.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the ghost removing device according to the present invention.

3 is a diagram illustrating a process of obtaining a filter coefficient from a control unit according to the present invention, where y (n) represents an input video signal generated from a ghost, that is, a sourced GCR signal and corresponds to an output of the A / D converter 22. do.

d (n) represents the original GCR signal without ghost stored in the memory 19 in advance.

W (n) is the coefficient of the linear time invariant filter that makes y (n) close to d (n), It is written as.

e (n) (error value) is d (n)- And then updates the W (n) coefficient in a direction to reduce the e ² (n) or Σe ² (n).

Referring to the operation of the control unit configured as described above, y (n) output from the A / D converter 22 is applied to the first high pass filter 22.

At this time, the first high pass filter 22 removes the low frequency signal and applies only a high frequency signal component to an algorithm for obtaining W (n) so that it is close to d (n). Output

Outputted above Is output to the calculator 21.

In addition, the GCR signal stored in the memory 20 is a high-pass filtered signal d _H (n) through the second high pass filter 23 to the operation unit 21.

Another embodiment is to store the high-pass filtered signal d _H (n) in the memory 20, which is more advantageous.

In the operation unit 21 And d _H (n) signals are calculated to output e (n) (error value) to the ghost removal unit 16.

Therefore, the filter coefficients are calculated by comparing the high-pass filtered signals in the A / D converter and the memory and output to the ghost removal unit.

The ghost elimination apparatus according to the present invention has an effect of increasing the ghost elimination performance by greatly improving the accuracy of the filter coefficient by using only the high pass filtering value having a high pass filter in the front of the algorithm and the calculation unit for obtaining the filter coefficient.

Claims (2)

A ghost elimination device having an A / D converter for digitizing a video signal input through an antenna, A synchronization separator and a clock generator for receiving a video signal input through the antenna and outputting a synchronization and clock signal; A ghost removal unit for removing a ghost digital signal output from the A / D converter; A memory for storing the set GCR signal; And a controller for high pass filtering the signals output from the A / D converter and the memory, comparing the high pass filtered signals, calculating filter coefficients, and outputting the calculated filter coefficients to the ghost removal unit. Ghost elimination device. The method of claim 1, The control unit includes a first high pass filter for high pass filtering the signal output from the A / D converter; A second high pass filter for high pass filtering the signal output from the memory; And an algorithm unit which receives only the high-pass filtered signal from the first and second high pass filters to obtain filter coefficients.