KR100239348B1 - Apparatus for automatically eliminating adjacent channel interference of tv system and method therefor - Google Patents

Abstract

The present invention relates to an apparatus and method for automatically controlling adjacent channel interference of a television system. In particular, when receiving continuous channels, the present invention excludes interference of adjacent channels and automatically performs reception recognition and gain adjustment of adjacent channels. Invented to improve the quality of. The present invention includes an amplifier 202 for amplifying tuned broadcast signals, an intermediate frequency amplifier 205 for amplifying a predetermined level when an output signal of the amplifier 202 is applied through an intermediate frequency filter or a surface acoustic wave filter. A video detector 206 for detecting a video signal Vout from the output signal of the intermediate frequency amplifier 205 and a gain for adjusting the gain of the amplifier 202 by inputting the output signal of the intermediate frequency amplifier 205. The synchronization unit 207, an impedance converter 212 for applying an impedance value for gain adjustment to the gain adjustment unit 207, and a synchronous separation for detecting a synchronization signal from the output signal Vout of the video detector 206. Section 208 and the impedance converter 212 to control the impedance converter 212 to vary the impedance if there is an adjacent channel and the current gain X is greater than the set gain when the synchronization is detected by the synchronization separator 208. Microcomputer It shall consist of 209.

Description

Apparatus and method for automatically eliminating adjacent channel interference in TV system

The present invention relates to a TV system, and more particularly, to an apparatus and method for automatically canceling adjacent channel interference of a TV system to remove interference of adjacent channels when receiving a TV broadcast.

As shown in the block diagram of FIG. 1, a conventional gain adjusting apparatus includes a mixer for mixing the high frequency signal RF received by the antenna ANT with the local oscillation frequency OSC and outputting the intermediate frequency signal IF. 101, a frequency generator 111 for generating a local oscillation frequency OSC and applying it to the mixer 101, an amplifier 102 for amplifying the output signal IF of the mixer 101 with a predetermined gain; An intermediate frequency filter 103 for outputting only the intermediate frequency signal IF as an input of the output signal of the amplifier 102 and a surface wave elasticity for passing only a specific frequency component as an input of the output signal of the intermediate frequency filter 103. (SAW) filter 104, the intermediate frequency amplifier 105 for automatically adjusting the gain of the intermediate frequency signal with the output signal of the surface acoustic elastic filter 104, and the output signal of the intermediate frequency amplifier 105 Video detection to detect and output video signal (Vout) as input 106, a gain adjusting unit 107 for adjusting the gain of the amplifier 102 by inputting the output signal of the intermediate frequency amplifier 105, and an output signal Vout of the video detector 106. And a microcomputer 109 which receives the synchronization signal from the synchronization separator 108, stores the tuning data in the memory 110, and controls the frequency generator 111. It is composed of

Reference numeral VR in the figure is a variable resistor for gain setting.

Referring to the operation of the prior art as follows.

When the mixer 101 generates the intermediate frequency signal IF by mixing the high frequency input signal RF received by the antenna ANT and the local oscillation frequency OSC generated by the frequency generator 111 when receiving the TV broadcast, 102 amplifies to a predetermined gain by the gain adjusting section 107 to improve the tuning condition.

In this case, the frequency generator 111 generates the local oscillation frequency OSC under the control of the microcomputer 109.

Accordingly, when the intermediate frequency filter 103 extracts only the intermediate frequency signal IF as the input of the output signal of the amplifier 102, the surface wave SAW filter 104 passes only a specific frequency component to pass the intermediate frequency amplifier 105. Will be entered.

Accordingly, the video detector 106 detects and outputs the video signal Vout by automatically adjusting the gain of the intermediate frequency signal in the intermediate frequency amplifier 105.

In this case, the gain adjusting unit 107 adjusts the gain of the amplifier 102 by calculating the gain of the high frequency output signal of the intermediate frequency amplifier 105 with the gain set by the variable resistor VR. This will automatically adjust the gain.

At this time, the synchronization separator 108 detects the synchronization signal as the input of the video output signal Vout of the video detector 106 and inputs it to the microcomputer 109.

Accordingly, the microcomputer 109 stores the tuning data in the memory 110 and controls the oscillation timing of the local oscillation frequency OSC of the frequency generator 111.

The characteristics of the intermediate frequency filter 103 are the same as the waveform of FIG. 2 (a) when there is no interference of the adjacent channel, and the waveform of FIG. 2 (b) when the interference of the adjacent channel occurs.

However, such a conventional technique is unsatisfied with the user because the quality of the broadcast reception is degraded due to the phenomenon such as a beat on the TV screen when the interference of the adjacent channel occurs in the intermediate frequency signal during continuous adjacent channel reception. There is a problem.

According to the present invention, in order to improve the disadvantage of the prior art, a TV and a VCR receiving a TV broadcast receive the interference by eliminating interference of adjacent channels and automatically performing reception recognition and gain adjustment of the adjacent channel when receiving a continuous channel. It is an object of the present invention to provide a method for automatically interfering with adjacent channel interference of a TV system, which is designed to improve channel quality.

1 is a block diagram of a conventional gain adjusting device.

2 is a waveform diagram showing characteristics of an intermediate frequency filter in FIG.

3 is a block diagram of an automatic neighbor channel interference cancellation apparatus according to the present invention.

4 is a waveform diagram showing gain adjustment according to electric field strength in FIG.

FIG. 5 is a waveform diagram showing impedance change according to electric field strength in FIG. 3. FIG.

6 is a signal flow diagram for automatic cancellation of adjacent channel interference in accordance with the present invention.

7 is an exemplary view showing a structure of a memory in FIG.

<Explanation of symbols for main parts of drawing>

201: mixer 202: amplifier

203: intermediate frequency filter 204: surface acoustic wave (SAW) filter

205: intermediate frequency amplifier 206: video detector

207: gain adjusting unit 208: synchronous separation unit

209: microcomputer 210: memory

211: frequency generator 212: impedance converter

ANT: Antenna

The present invention provides tuning means for tuning a broadcast channel by tuning data, signal processing means for detecting a video signal by intermediate frequency processing the output signal of the tuning means, and gain of the signal processing means. A gain automatic adjustment means for automatically adjusting the signal, a synchronous separation means for extracting synchronization as an input of the output signal of the signal processing means, and outputting tuning data to the tuning means and extracting the synchronization from the synchronous separation means for adjacent channels. If the gain adjusting voltage of the automatic gain adjusting means is smaller than a predetermined voltage, the control means for varying the gain of the automatic gain adjusting means is configured.

The gain automatic adjustment means is configured to automatically adjust the gain by varying the impedance value when the control means determines that the current gain is smaller than the predetermined value.

In order to achieve the above object, the present invention provides a method for detecting synchronization by varying tuning data, detecting the presence of an adjacent channel when the synchronization is detected, and automatically gaining voltage when there is an adjacent channel. Comparing whether it is smaller than the predetermined value, and if the automatic gain voltage is smaller than the predetermined value, the impedance is fixed to a constant constant, and if it is large, the impedance is varied.

In the above step of determining whether there is an adjacent channel, if there is no adjacent channel, the adjacent channel flag is set to '0' and if there is an adjacent channel, the adjacent channel flag is set to '1'.

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

As shown in the block diagram of FIG. 3, an embodiment of the present invention includes a mixer 201 that generates an intermediate frequency signal by mixing a high frequency signal RF received from an antenna ANT and a local oscillation frequency OSC. A frequency generator 211 for outputting oscillation frequency (OSC) to the mixer 201, an amplifier 202 for amplifying the output signal of the mixer 201 with a predetermined gain RFAGC, and the amplifier 202. An intermediate frequency filter 203 for extracting an intermediate frequency signal from an output signal of the signal, a surface acoustic wave filter 204 for passing only a specific frequency component through the output signal of the intermediate frequency filter 203, and the surface acoustic wave filter ( An intermediate frequency amplifier 205 for automatically adjusting gain as an input of the output signal of 204, a video detector 206 for detecting a video signal Vout from the output signal of the intermediate frequency amplifier 205, and The output signal of the intermediate frequency amplifier 205 as an input A gain adjusting unit 207 for adjusting the gain of the aeration 202, an impedance converter 212 for applying an impedance value for gain adjustment to the gain adjusting unit 207, and an output signal of the video detector 206 ( Vout), the synchronization isolator 208 which detects the synchronization signal, and the tuning data is output to the frequency generator 211, and when the synchronization is detected by the synchronization separator 208, there is an adjacent channel and the current gain (X). Is greater than the set gain, the microcomputer 209 controls the impedance converter 212 to vary the impedance value for gain adjustment.

Referring to the operation and effect of the embodiment of the present invention configured as described above are as follows.

When the TV channel is received through the antenna ANT, the mixer 201 is generated by the frequency generator 111 driven by the high frequency input signal RF received by the antenna ANT and the tuning data of the microcomputer 209. The local oscillation frequency OSC is mixed to produce an intermediate frequency signal IF.

At this time, when the amplifier 202 amplifies the output signal of the mixer 201 with a predetermined gain by the gain adjusting unit 207 to improve the tuning state, the intermediate frequency filter 203 passes the intermediate frequency signal IF. .

Accordingly, when the surface acoustic wave (SAW) filter 204 receiving the output signal of the intermediate frequency filter 203 passes only a specific frequency component, the intermediate frequency amplifier 205 automatically adjusts the gain of the intermediate frequency signal and gains the gain. The video detector 206 receiving the adjusted signal detects and outputs the video signal Vout.

At this time, the microcomputer 209 checks the presence or absence of an adjacent channel if there is synchronization when tuning data is variable, and sets the adjacent channel flag to '0' in the channel memory 210 when there is no adjacent channel. do.

If there is an adjacent channel, the memory 210 sets the adjacent channel flag for the adjacent channel and the current reception broadcast channel to '1'.

At this time, when the microcomputer 209 changes the tuning data, the sync separator 208 checks the output signal Vout of the video detector 206 to detect a sync signal. It is applied to the microcomputer 209.

Accordingly, when the microcomputer 209 detects the synchronization signal in the sync separator 208, the microcomputer 209 determines whether there is an adjacent channel. If there is no adjacent channel, the microcomputer 209 transmits the channel data to the memory 210. In addition to storing, the adjacent channel flag is set to '0' and stored in the memory 210.

On the contrary, if there is an adjacent channel, the microcomputer 209 stores the channel data in the memory 210 as well as setting the adjacent channel flag for the current reception channel and the adjacent channel in the memory 210 to '1'. Done.

In the memory 210, as shown in the exemplary diagram of FIG. 7, a storage area is allocated by an address ADR to store channel data and an adjacent channel flag value in each area. During the operation as described above, the gain adjusting unit 207 determines the electric field strength by inputting the output signal of the intermediate frequency amplifier 205 and returns the gain adjustment signal RFAGC to the amplifier 202 so that the intermediate frequency amplifier ( The amplification gain of 205 is adjusted.

Here, the gain adjusting voltage RFAGC for the standard electric field (= 70 dBμV) where the gain adjusting unit 207 compares the electric field strength of the high frequency input RF with the output signal of the intermediate frequency amplifier 205 as the waveform of FIG. The output value of the impedance converter 212, which is preset at the level V _A and applied to the gain adjusting unit 207, is fixed to 'Zc' in the waveform diagram of FIG.

In this case, the gain adjusting voltage RFAGC according to the electric field strength is lowered as the electric field strength of the high frequency input RF is larger as shown in the waveform diagram of FIG. 4.

On the other hand, the gain adjusting unit 207, the feedback control voltage (RFAGC) is fed back to the amplifier 202 and applied to the microcomputer 209, when the synchronization is detected by the tuning data variable and there is an adjacent channel the microcomputer 209 is greater than or equal to comparison (X≥V _a) than the gain control voltage (RFAGC = X) is previously set voltage (V _a).

At this time, if there is no adjacent channel or if the gain adjustment voltage (X) is greater than or equal to the preset voltage (V _A ), the microcomputer 209 applies an impedance converter Z _C to apply a fixed impedance Z _C to the gain adjustment unit 207. Control 212.

Therefore, the gain adjusting unit 207 feeds the output signal of the intermediate frequency amplifier 205 back to the amplifier 202 a gain adjustment voltage (X = RFAGC) according to a change in electric field strength.

Conversely, if the gain adjustment voltage X is less than the predetermined voltage V _A (X &lt; V _A ), the microcomputer 209 changes the impedance according to the electric field strength of the high frequency input RF. Will be controlled.

At this time, since the impedance converter 212 varies the impedance characteristics according to the electric field strength of the output signal of the intermediate frequency amplifier 205 detected by the gain adjuster 207, the gain adjuster 207 may adjust the gain control voltage RFAGC according to the variable impedance. ) And feedback to the amplifier 202.

Accordingly, the interference characteristic of the adjacent channel is changed in the same manner as that of the intermediate frequency filter 203 to automatically remove the interference of the adjacent channel.

Here, the output impedance value of the impedance converter 212 is lowered as the electric field strength of the high frequency input signal RF increases as shown in the waveform diagram of FIG. 5.

The signal flow of FIG. 5 is described as follows.

First, when the microcomputer 209 varies the tuning data and the synchronization separator 208 detects synchronization, the microcomputer 209 checks for the presence of an adjacent channel.

At this time, if there is no adjacent channel, the microcomputer 209 stores the channel data in the corresponding area of the memory 210 and sets the adjacent channel flag to '0' and stores the channel data. 211 is controlled so that a fixed impedance Z _C is applied to the gain adjusting unit 207.

Accordingly, the gain adjusting voltage RFAGC of the gain adjusting unit 207 is adjusted by the electric field strength of the high frequency input RF and fed back to the amplifier 202.

If there is an adjacent channel, the microcomputer 209 determines whether the gain adjusting voltage RFAGC = X applied by the gain adjusting unit 207 is greater than or equal to the preset gain voltage V _A.

Accordingly, when the gain adjusting voltage RFAGC = X is greater than or equal to the preset gain voltage V _A , the microcomputer 209 controls the impedance converter 212 to fix the impedance Z fixed to the gain adjusting unit 207. _C ) is applied.

On the contrary, when the gain adjusting voltage RFAGC = X is smaller than the preset gain voltage V _A , the microcomputer 209 controls the impedance converter 212 to convert the impedance applied to the gain adjusting unit 207 into the high frequency input RF. To vary according to the electric field strength.

Accordingly, the gain adjusting unit 207 sets the gain adjusting voltage RFAGC = X to the amplifier 202 by setting the gain adjusting voltage RFAGC = X as the input of the impedance varied in the impedance converter 212 by the electric field strength of the high frequency input RF. As a result, the interference characteristic of the adjacent channel is changed to be the same as that of the intermediate frequency filter 203, thereby automatically eliminating the interference of the adjacent channel.

As described in detail above, when the continuous TV channel is received, the present invention can automatically exclude interference on an adjacent channel, thereby improving the reception quality, thereby providing satisfaction to the user.

Claims (4)

Tuning means for tuning the broadcast channel based on the tuning data, signal processing means for detecting a video signal by intermediate frequency processing the output signal of the tuning means, and gain of the signal processing means automatically according to the electric field strength of the high frequency input. A gain automatic adjustment means for adjusting, synchronous separation means for extracting synchronization as an input of the output signal of the signal processing means when the tuning data changes, and according to the synchronous signal of the synchronous separation means and the gain value of the gain automatic adjustment means. The apparatus for automatically removing adjacent channel interference of a television system, characterized in that the control means for controlling whether or not the gain automatic adjustment means is variable. 2. The TV according to claim 1, wherein the gain automatic adjustment means is configured to adjust the gain of the signal processing means by varying the impedance value according to the electric field strength of the high frequency input when the control means determines that the current gain is smaller than the predetermined value. Automatic elimination of adjacent channel interference in the system. The gain automatic adjusting means according to claim 1 or 2, wherein the gain automatic adjusting means comprises: a gain adjusting unit for outputting a gain adjusting voltage RFAGC to the signal processing means and the control means in accordance with the electric field strength of the intermediate frequency signal of the signal processing means, and the control means. The apparatus for automatically removing adjacent channel interference of a television system, characterized in that the impedance converter is applied to the gain adjusting unit by varying the impedance under the control of the control unit. A first step of varying the tuning data to check for synchronization, a second step of detecting the presence of an adjacent channel if synchronization is detected, and a predetermined constant value of a gain adjustment voltage RFAGC if there is an adjacent channel. adjacent the first television system, characterized by carrying out the fourth step of varying the impedance and 3, if the gain control voltage (RFAGC) the group is smaller than a predetermined value (V _a) set in the comparing is less than V _a) How to automatically remove channel interference.