KR0115468Y1 - The ghost signal cancelling apparatus of a tv - Google Patents

Abstract

The present invention relates to a ghost signal removing device of a TV, and conventionally, ghost is removed only for a video signal and ghost is not removed for a voice signal, so that stereo voice separation by a ghost signal is difficult in the case of a stereo voice signal having a large dynamic range. Or there was a severe problem of distortion of the original sound.

Therefore, in order to solve the conventional problems, the present invention eliminates ghosts for audio signals and video signals, and outputs them to speakers and monitors, thereby eliminating functional thermal degradation due to signal distortion, and processing all filter processes using digital circuits. While creating the correct output.

Description

TV's Ghost Signal Controller

1 is a circuit diagram of a conventional ghost signal canceller.

2 is a circuit diagram of a ghost signal canceller of the present invention.

* Explanation of symbols for main parts of the drawings

1: high frequency demodulator 2: intermediate frequency demodulator

3: main audio signal processor 4: negative audio signal processor

5: 4.2MHz low pass filter 6: Ghost signal removal unit

7: Digital / Analog Converter 8: Monitor

9: main audio signal separation unit 10: sub-audio signal separation unit

11: Low pass filter for digital image processing

The present invention relates to a device for removing a ghost signal, and in particular, the ghost signal of the TV to remove the ghost signal in the audio signal as well as the ghost signal in the audio signal to remove the ghost signal of the TV to listen to the stereo sound of the original sound Relates to a device.

The conventional TV's ghost signal canceller circuit, as shown in Figure 1, a high frequency demodulator (1) for demodulating and outputting a high frequency (RF) band signal received through an antenna (ANT) to an intermediate frequency (IF) band signal (1) ), A main audio signal processor for separating a voice signal from the baseband signal output from the high frequency demodulator (2) and the intermediate frequency demodulator (2), and performing a signal processing on the main audio signal among the separated voice signals. (3) and a 4.2 MHz low pass filter (5) for filtering video signals and trapping audio signals among the signals output from the intermediate frequency demodulator (2), and the video signals through the 4.2 MHz low pass filter (5). A ghost signal removing unit 6 for removing ghost signals, and a digital / analog converter for converting a digital video signal from which ghost signals are removed through the ghost signal removing unit 6 into an analog video signal and outputting the analog signal to the monitor 8. (7) It is composed.

The ghost signal remover 6 synchronizes the synchronization clock according to the input image signal and the timing generator 12 for outputting horizontal and vertical synchronization signals, respectively, and the synchronization clock output from the timing generator 12. The ghost is removed during the vertical erasing period by using the analog / digital converter 13 for converting the analog video signal input accordingly to digital video data and outputting the horizontal and vertical synchronous signals output from the timing generator 12. A line selector 14 for selecting a line into which the reference signal GCR is inserted and outputting the selected line value, a GCR generator 16 for generating a ghost removal reference signal GCR, and the GCR generator 16 A channel characteristic calculator 15 for calculating a filter coefficient value by using the generated GCR, the line value output from the line selector 14, and an adaptive algorithm and a channel characteristic algorithm; The configuration in the input video signal, using a filter coefficient calculated based on the channel characteristic computing unit 15 via the line selector 14 to the transformer beosyeol filter 17 to remove the ghost signal.

Referring to the prior art configured as described above in detail.

When the high frequency RF signal received through the antenna ANT is input to the high frequency demodulator 1, the high frequency demodulator 1 demodulates the high frequency signal into an intermediate frequency (IF) band signal to produce an intermediate frequency demodulator (2). )

The intermediate frequency demodulator 2 then demodulates the intermediate frequency band signal into a baseband signal and outputs it to the main audio signal processor 3, the sub audio signal processor 4 and the 4.2 MHz low pass filter 5, respectively.

Accordingly, the 4.5 MHz band pass filter 31 of the main audio signal processor 3 receiving the baseband signal passes through the audio signal by filtering at 4.5 MHz, traps the video signal, and separates the main audio signal from the video signal. Then, only the separated audio signal is output to the FM demodulator 32.

The separated main audio signal is demodulated by the FM demodulator 32 and output to the audio amplifier 33. The output main audio signal is amplified by the audio amplifier 33 at an audible frequency and the main audio signal speaker. An audible voice signal is output to (SPK1).

In addition, the baseband analog signal through the intermediate frequency demodulator 2 is filtered to 4.75 MHz by the 4.75 MHz band pass filter 41 of the sub audio signal processing unit 4 so that the audio signal is passed and the video signal is trapped and the sub audio signal. And video signal are separated.

The separated sub-audio signal is demodulated via the FM demodulator 42, and is then output to the sub-audio signal speaker SPK2 through the audio amplifier 43 or another circuit not shown. do.

At this time, the baseband analog signal outputted from the intermediate frequency demodulator 2 is inputted by the right frequency filter 5 to 4.2MHz, filtered by 4.2MHz, the video signal passes, the audio signal is trapped, and the audio signal and the video signal are separated. do.

When the separated video signal is input to the timing generator 12 of the ghost signal remover 6, the synchronous clock according to the video signal is synchronized to the analog / digital converter 13 and other digital circuits (not shown). And a horizontal and a vertical synchronization signal to the line selector 14.

Then, when the synchronous clock is input from the timing generator 12, the analog-to-digital converter 13 converts the analog video signal into digital video data in synchronization with the synchronous clock and outputs it to the line selector 14.

Then, the line selector 14 selects the line into which the ghost elimination reference signal (hereinafter referred to as GCR) is inserted during the vertical erasing period among the image signals by using the vertical and horizontal synchronization signals input from the timing generator 12. The line value is output to the channel characteristic calculator 15.

Here, the channel characteristic calculator 15 compares the GCR signal input from the line selector 14 with the GCR signal input to the GCR generator 16 having the built-in GCR signal, and uses an adaptive algorithm and a channel characteristic algorithm. After calculating the filter coefficient value of the transverse filter 17, the filter coefficient is outputted to the transverse filter 17.

Accordingly, the transversal filter 17 removes ghosts from the image signal input from the line selector 14. Since the ghosts are not completely removed, they are fed back to the channel characteristic calculator 15 so that the channel characteristic operator ( 15) compares the GCR signal partially removed by the transversal filter 17 with the GCR of the GCR generator 16, calculates the complete transverse filter coefficient value through the changed channel characteristics and the channel adaptation algorithm, and then calculates the coefficient value. Is inputted to the transversal filter 17 to completely remove the ghost.

In this way, the pure digital video signal from which the ghost is removed from the transverse filter 17 is converted into an analog video signal by the digital / analog converter 7 and then displayed as an image through the monitor 8.

As described above, the composite video signal received through the antenna ANT is separated into a video signal and an audio signal, and after the ghost is removed from the video signal, the composite video signal is output as an image through the monitor 8, and the audio signal is again displayed. After being separated into the audio signal and the sub-audio signal, the main audio signal outputs an audible main audio signal through the speaker, and the sub-audio signal is output through the speaker as a stereo sub-audio signal or a multiple voice signal.

However, in the prior art, the ghost is removed only for the video signal and the ghost is not removed for the audio signal. Therefore, in the case of a stereo audio signal having a large dynamic range, it is difficult to separate the stereo voice by the ghost signal or the distortion of the original sound is severe. Even in the case of voice multiplexing, signal processing of the voice multiplexing circuit is difficult due to signal distortion of the sub-audio signal processing unit.

Therefore, the present invention for solving the conventional problems as described above to solve the problem of functional degradation due to distortion of the main and sub-audio signal by performing the ghost removal in the same manner not only the video signal but also the audio signal, The present invention provides a TV ghost signal removing device capable of producing an inexpensive and accurate output by performing a filtering process in a circuit, and a detailed description will be given below with reference to the accompanying drawings.

2 is a circuit diagram of a ghost signal removing device of the present invention, as shown in the figure, a high frequency demodulator 1 for demodulating and outputting a high frequency band signal received through an antenna ANT to an intermediate frequency band signal, and the high frequency signal. A ghost signal for removing a ghost signal from the intermediate frequency demodulator 2 for demodulating the intermediate frequency band signal output from the demodulator 1 into a baseband signal, and the baseband signal output from the intermediate frequency demodulator 2; The video signal and the audio signal are separated from the signal from which the ghost is removed by the removal unit 6 and the ghost signal removal unit 6, and the main audio signal is processed and demodulated only for the main audio signal among the separated audio signals. The main audio signal separating unit 9 outputs to the speaker SPK1, and the sub-speaker SPK2 is output by performing signal processing and demodulation only on the negative audio signal of the separated voice signals. Is a negative audio signal separating section 10 and a digital image processing row for separating the video signal from the signal output from the ghost signal removing section 6 and outputs to the monitor 8 via a digital / analog converter (7) It consists of the pass filter 11.

Referring to the operation and effects of the present invention configured as described above in detail.

When the high frequency signal of the TV received through the antenna ANT is input to the high frequency demodulator 1, the high frequency demodulator 1 demodulates the high frequency signal into an intermediate frequency band signal and outputs it to the intermediate frequency demodulator 2.

The intermediate frequency demodulator 2 then demodulates the intermediate frequency band signal into a baseband signal and outputs it to the timing generator 12 and the analog / digital converter 13 of the ghost signal removal unit 6, respectively.

Then, the timing generator 12 generates an arbitrary initial clock signal according to the baseband signal to initialize the analog / digital converter 13 and then converts and feeds back the digital baseband through the analog / digital converter 13. The correct sync clock is generated from the signal to the analog-to-digital converter 13, and the vertical and horizontal sync signals are supplied to the line selector 14, respectively.

Then, the analog-to-digital converter 13 converts the digital data using the synchronous clock provided from the timing generator 12 and sends it to the line selector 14. The line selector 14 transmits the timing generator 12. Using the vertical and horizontal synchronizing signals provided by, select a line into which the GCR signal is inserted among the input TV vertical erasing period signals, and input the selected line to the channel characteristic calculator 15.

Then, the channel characteristic calculator 15 filters the GCR signal line including the ghost of the line selector 14 and the GCR signal generated by the GCR generator 16 by using an adaptive algorithm and a channel characteristic algorithm. After calculating the coefficient value, input the calculated filter coefficient.

Accordingly, the transverse filter 17 removes and outputs the ghost by the filter coefficient. Since the ghost is not completely removed by the transverse filter 17, the ghost is fed back to the channel characteristic calculator 15 by feeding back a signal from which the ghost is partially removed. ), The coefficients of the complete transverse filter 17 are calculated again through the adaptive algorithm and the channel characteristic algorithm, and then re-entered into the transverse filter 17 to completely remove the ghost.

In this way, the signal from which ghost is completely removed is input to the digital main audio band pass filter 12 of the main audio signal separation unit 9 so that the video signal is trapped and only the main audio baseband signal is outputted through the FM demodulator 18. After demodulating the main audio signal of the audible frequency, the digital / analog converter 19 converts the analog main audio signal and outputs the main audio signal through the speaker SPK1.

In addition, the TV signal from which the ghost is completely removed from the transverse filter 17 is input to the digital sub-negative band pass filter 21 of the sub-signal separation unit 10 to output only the sub-band baseband signal. The FM demodulator 22 demodulates the negative audio signal at an audible frequency and converts the analog negative audio signal from the digital / analog converter 23 to output the negative audio of various functions through the speaker SPK2.

In addition, the TV signal from which the ghost is completely removed from the universal filter 17 is inputted through the digital video low pass filter 11 to the digital / analog converter 7 and converted into an analog video signal, and then the monitor ( 8) is output as a TV image on the screen.

As described in detail above, the present invention eliminates the ghost signal from the TV signal in which the audio signal and the video signal are mixed, separates the audio signal and the video signal, and outputs them to the speaker and the monitor. In addition, all the filter processing is performed in the digital circuit, thereby making it possible to produce a cheap and accurate output.

Claims (1)

A high frequency demodulator 1 for demodulating and outputting a high frequency band signal received through an antenna ANT into an intermediate frequency band signal, and demodulating and outputting an intermediate frequency band signal output from the high frequency demodulator 1 to a baseband signal. Ghost for the audio signal and video signal included in the ghost signal for removing the ghost for the audio signal and the video signal included in the base frequency signal of the intermediate frequency demodulator 2 and the intermediate frequency demodulator 2, respectively. The ghost signal removing unit 6 removes the video signal and the audio signal from the ghost removed signal through the ghost signal removing unit 6, and processes and demodulates only the main audio signal among the separated audio signals. Signal processing and demodulation for only the main audio signal separator 9 for outputting to the main audio speaker SPK1, and the negative audio signal of the separated audio signals. The sub-audio signal separating unit 10 outputted to the voice speaker SPK2 and the video signal among the signals output from the ghost signal removing unit 6 are separated, and then the monitor 8 is passed through the digital / analog converter 7. The ghost signal removal apparatus of the TV, characterized in that consisting of a low pass filter (11) for digital image processing.