KR20130134510A - Channel tuning appratus and mehod in a broadcast receiver - Google Patents

Abstract

The present invention relates to a channel tuning apparatus in a broadcast receiver and a method thereof. A channel tuning apparatus according to the present invention comprises: a tunable band elimination filter for eliminating the frequency band of a radio frequency signal determined by being controlled among received radio frequency signals; a tuner for converting the radio frequency signal passing the tunable band elimination filter into an intermediate frequency signal; a demodulator for generating a signal-to-noise ratio value based on the intermediate frequency signal and demodulating the intermediate frequency signal; and a control unit for generating signal strength information of whole channels from the radio frequency signal passing the tunable band elimination filter and controlling the tunable band elimination filter based on the signal strength information of the whole channels and reception request channel information. [Reference numerals] (100) Tunable band elimination filter;(200) Tuner;(300) Demodulator;(400) Control unit

Description

CHANNEL TUNING APPRATUS AND MEHOD IN A BROADCAST RECEIVER}

The present invention relates to a channel tuning apparatus and method in a broadcast receiver.

Recently, as the demand for frequency has exploded, it has become a very difficult task to supply the frequency in a manner appropriate to the situation. Spectrum Sharing Technology is being developed to overcome the limitation of supply of frequency resources. Cognitive Radio (CR) technology is a representative example. CR technology is a technology that uses frequency resources effectively by detecting frequencies that are allocated but not actually used and vacant and efficiently sharing frequencies without causing interference to existing users. It is expected to use the TV idle band (TV WHITE SPACE band), which will remain as an idle band after the termination.

Conventional broadcast receivers generally do not amplify when the signal strength of the channel to be received is above a certain level, but when the signal-to-noise ratio drops because the signal of the receiving channel is small, the low-noise amplifier amplifies the signal to reduce the signal-to-noise ratio. Secured. In this case, if there is a signal coming in from adjacent channels or a predetermined frequency is also amplified, inter-modulation phenomenon occurs.

On the other hand, CR technology using the TV WHITE SPACE band uses a transmission signal and a reception signal to transmit and receive data. In general, since the strength of the transmission signal is large, it is hindered from receiving a TV signal from a broadcast receiver. In particular, when the strength of the signal to be received is near the threshold of visibility (TOV), the UCB (Uncorrectable Block Noise) may be generated or may not be received on the screen due to the transmission signal transmitted from the CR device. Since this will directly or indirectly deteriorate the reception performance of a conventional broadcast receiver, it is necessary to effectively remove noise for reception of a broadcast signal.

Patent Document 1 of the following prior art document relates to a radio frequency signal receiver having an automatic gain control function, which includes a low noise amplifier for receiving and amplifying a radio frequency signal, a local oscillator for providing a local oscillation signal, and a local oscillator. Mixer for converting a signal into an intermediate frequency signal, a channel selection filter for receiving and filtering an intermediate frequency signal to generate an output signal, feedback-adjusting the gain of the low noise amplifier, and selecting the mixer and channel according to the output signal of the low noise amplifier And an automatic gain controller for controlling the gain of the filter. Patent Literature 1 has a problem in that it is not possible to effectively remove noise in terms of receiving a signal amplified by a predetermined level or more, rather than removing a predetermined band of a signal received through a signal input terminal.

United States Patent Application Publication No. 7668517 B2

SUMMARY OF THE INVENTION An object of the present invention is to compensate for the above-described problems of the prior art, and by controlling a tunable band cancellation filter connected to a signal input terminal based on the total channel strength information of a radio frequency signal, a radio frequency signal is amplified by an amplifier. Before, we propose a channel tuning apparatus and method that can effectively remove noise.

According to the first technical aspect of the present invention, a tunable band cancellation filter for removing a frequency band determined according to the control of the received radio frequency signal, the radio frequency signal passing through the tunable band cancellation filter as an intermediate frequency signal A signal tuner for generating a signal-to-noise ratio value, a demodulator for demodulating the intermediate frequency signal, and a radio frequency signal passed through the tunable band cancellation filter to generate signal strength information of all channels. And a control unit for controlling the tunable band cancellation filter based on the signal strength information of the entire channel and the reception request channel information.

The apparatus may further include an amplifier for amplifying the radio frequency signal passing through the tunable band removing filter, wherein the tuner controls the amplification factor of the amplifier based on the signal strength of the radio frequency signal received from the amplifier. A channel tuning apparatus for generating signal strength information of all channels from a radio frequency signal received from the amplifier is proposed.

The tuner controls the amplifier to increase the amplification rate when the signal strength of the radio frequency signal received from the amplifier is less than a preset radio frequency signal strength threshold, and the signal strength of the radio frequency signal received from the amplifier. A channel tuning apparatus for controlling the amplifier to reduce the amplification rate when the signal is greater than a preset radio frequency signal strength threshold.

The control unit may control a demodulator to demodulate the intermediate frequency signal when the signal-to-noise ratio value is greater than a preset signal-to-noise ratio threshold value, and if the signal-to-noise ratio value is smaller than a preset signal-to-noise ratio threshold. We propose a channel tuning apparatus for controlling the tuner to generate the tuner.

In addition, the controller proposes a channel tuning apparatus for determining whether the reception request channel is the same as the maximum signal strength channel when the automatic gain control value is equal to a preset maximum automatic gain control value.

In addition, when the reception request channel is the same as the maximum strength channel, the controller controls the tunable band cancellation filter to remove the frequency band of the second largest signal strength channel of all channels, and the reception request channel is A channel tuning apparatus for controlling the tunable band cancellation filter to remove a frequency band of the maximum signal strength channel when it is different from the maximum strength channel.

The controller may remove the tunable band so as to remove a frequency band of a channel having a greater signal strength among two adjacent channels of the reception request channel when the automatic gain control value is different from a preset maximum automatic gain control value. We propose a channel tuning device for controlling filters.

In addition, the control unit proposes a channel tuning apparatus for storing the strength information of the entire channel in the demodulator.

According to a second technical aspect of the present invention, filtering the received radio frequency signal by a tunable band cancellation filter to convert the filtered radio frequency signal, the signal strength information of the entire channel from the filtered radio frequency signal Generating a signal, converting the filtered radio frequency signal into an intermediate frequency signal, generating a signal-to-noise ratio value based on the intermediate frequency signal, demodulating the intermediate frequency signal, and signal strength of the entire channel A channel tuning method comprising controlling the tunable band cancellation filter based on the information and the received request channel information.

The method may further include converting the filtered radio frequency signal into an amplified radio frequency signal, and generating signal strength information of the entire channel may include signal strength information of the entire channel from the amplified radio frequency signal. In the generating of the intermediate frequency signal, the channel tuning method for converting the amplified radio frequency signal into an intermediate frequency signal is proposed.

In the converting of the received radio frequency signal into an amplified radio frequency signal, when the signal strength of the amplified radio frequency signal is smaller than a preset radio frequency signal strength threshold, the amplification rate is increased and the amplified signal is amplified. If the signal strength of the radio frequency signal is greater than the preset radio frequency signal strength threshold, a channel tuning method for reducing the amplification factor is proposed.

The demodulating of the intermediate frequency signal may provide a channel tuning method for demodulating the intermediate frequency signal when the signal to noise ratio value is greater than a preset signal to noise ratio threshold.

The method further includes generating an automatic gain control value when the signal to noise ratio value is smaller than a preset signal to noise ratio threshold.

The controlling of the tunable band cancellation filter may include determining whether the reception request channel is the same as the maximum strength channel when the automatic gain control value is equal to a preset maximum automatic gain control value. Suggest.

The controlling of the tunable band cancellation filter may include: removing the frequency band of the second largest signal strength channel of all channels when the reception request channel is the same as the maximum strength channel. And if the reception request channel is different from the maximum intensity channel, controlling the tunable band cancellation filter to remove the frequency band of the maximum intensity channel.

The controlling of the tunable band cancellation filter may include adjusting a frequency band of a channel having a large signal strength among two adjacent channels of a reception request channel when the auto gain control value is different from a preset maximum auto gain control value. We propose a channel tuning method comprising controlling the tunable band cancellation filter to cancel.

In addition, the channel tuning method further comprising the step of storing the strength information of the entire channel in a demodulator.

According to the present invention, by controlling the tunable band cancellation filter connected to the signal input terminal based on the total channel strength information of the radio frequency signal, noise can be effectively removed before the radio frequency signal is amplified by the amplifier.

1 and 2 are block diagrams illustrating a channel tuning apparatus in a broadcast receiver according to an embodiment of the present invention.
3 is a flowchart illustrating a channel tuning method in a broadcast receiver according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order that those skilled in the art can easily carry out the present invention.

1 is a block diagram illustrating a channel tuning apparatus in a broadcast receiver according to an embodiment of the present invention. Referring to FIG. 1, a channel tuning apparatus according to an embodiment of the present invention passes through a tunable band cancellation filter 100 and a tunable band cancellation filter for removing a frequency band determined according to control among received radio frequency signals. A tuner 200 for converting a radio frequency signal into an intermediate frequency signal, a signal-to-noise ratio value based on the intermediate frequency signal, and a demodulator 300 for demodulating the intermediate frequency signal and a radio frequency passed through a tunable band cancellation filter The controller 400 may generate signal strength information of all channels from a signal and control the tunable band rejection filter based on the signal strength information of the entire channel and the reception request channel information.

Referring to FIG. 1, the radio frequency signal may be received through an antenna 500 and input through a signal input terminal RX. The tunable band cancellation filter 100 filters the radio frequency signal received under the control of the controller 400. The radio frequency signal passing through the tunable band cancellation filter 100 may be transmitted to the tuner 200. The tuner 200 may measure the signal strength of the radio frequency signal received through the tunable band cancellation filter 100 and convert the radio frequency signal received through the tunable band cancellation filter 100 into an intermediate frequency signal. have. The demodulator 300 may generate a signal-to-noise ratio value based on the intermediate frequency signal, and demodulate the intermediate frequency signal.

The tunable band cancellation filter 100 connected to the signal input terminal RX may be set outside the range of the channel band of the radio frequency signal to be received before the radio frequency signal is input. For example, when the radio frequency signal desired to be received is a TV broadcast signal, the tunable band cancellation filter 100 is set outside the range of the frequency band of the TV broadcast radio frequency signal, so as to adjust the frequency band of the TV broadcast radio frequency signal. You may not remove it. Accordingly, the controller 400 may generate signal strength information of all channels from the radio frequency signal passing through the tunable band cancellation filter 100, and based on the generated signal strength information and the reception request channel information of the entire channel. The tunable band rejection filter 100 may be controlled. In addition, the controller 400 may store signal strength information of all channels in the demodulator 300.

The controller 400 may receive a signal-to-noise ratio value generated by the demodulator 300 and compare the signal-to-noise ratio value with a preset signal-to-noise ratio threshold. At this time, if the signal-to-noise ratio value is greater than the preset signal-to-noise ratio threshold, control the demodulator 300 to demodulate the intermediate frequency signal, and generate an automatic gain control value if the signal-to-noise ratio value is less than the preset signal-to-noise ratio threshold. The tuner 200 may be controlled.

The controller 400 may receive the automatic gain control value generated by the tuner 200 and compare the same with a preset maximum automatic gain control value. When the automatic gain control value is equal to the preset maximum automatic gain control value, it may be determined whether the reception request channel is the same as the channel having the maximum signal strength (maximum signal strength channel) based on the signal strength information of all channels. If the reception request channel and the maximum signal strength channel are the same, the signal strength of the frequency band of the reception request channel has the largest signal strength, and the controller 400 controls the tunable band rejection filter 100 to control the tunable band cancellation filter 100. The frequency band of the second largest signal strength channel can be removed. When the reception request channel and the maximum signal strength channel are different, the controller 400 may control the tunable band cancellation filter 100 to remove the frequency band of the maximum signal strength channel among all the channels to exclude the influence of the interference signal. .

Unlike the above, when the automatic gain control value is different from the preset maximum automatic gain control value, the automatic gain control is not performed in the frequency band of the reception request channel, but is automatically gained in any one of two adjacent channels of the reception request channel. Since the control is performed, the controller 400 may control the tunable band removing filter 100 to remove a frequency band of a channel having a large signal strength among two adjacent channels.

2 is a block diagram illustrating a channel tuning apparatus in a broadcast receiver according to an embodiment of the present invention. Referring to FIG. 2, the channel tuning apparatus may further include an amplifier 600 unlike FIG. 1. Amplifier 600 may comprise a low noise amplifier.

The radio frequency signal may be received through the antenna 600 and input through the signal input terminal RX. The tunable band elimination filter 100 may filter the radio frequency signal received by the control of the controller 400, and the amplifier 600 may amplify the radio frequency signal passing through the tunable band elimination filter. The tuner 200 may measure the signal strength of the radio frequency signal received from the amplifier 600, and control the amplification rate of the amplifier 600 based on the signal strength of the radio frequency signal received from the amplifier 600. have.

In detail, the amplifier 600 may be set to an OFF state before the radio frequency signal is input. The tuner 200 may control the amplifier 600 to be turned on when the signal strength of the radio frequency signal received from the amplifier 600 is smaller than a preset radio frequency signal strength threshold. The tuner 200 may control to maintain the amplifier 600 in an OFF state when the signal strength of the radio frequency signal received from the amplifier 600 is greater than a preset radio frequency signal strength threshold.

In addition, after the amplifier 600 is turned on, if the signal strength of the radio frequency signal is less than the preset radio frequency signal strength threshold, the amplifier 600 may be controlled to increase the amplification factor. After increasing the amplification factor, if the signal strength of the radio frequency signal received from the amplifier 600 is greater than a preset radio frequency signal strength threshold, the amplifier 600 may be controlled to decrease the amplification factor. In addition, even after the amplification factor of the amplifier 600 is reduced, when the signal strength of the radio frequency signal is greater than a preset radio frequency signal strength threshold, the amplifier 600 may be controlled to be turned off.

Since the configuration and function of the tunable band rejection filter 100, the tuner 200, the demodulator 300, and the controller 400 are the same as those described in FIG. 1, detailed descriptions thereof will be omitted.

3 is a flowchart illustrating a channel tuning method in a broadcast receiver according to an embodiment of the present invention. The channel tuning method includes filtering a received radio frequency signal by a tunable band cancellation filter to convert the received radio frequency signal into a filtered radio frequency signal, generating signal strength information of all channels from the filtered radio frequency signal, and filtering Converting the radio frequency signal into an intermediate frequency signal, generating a signal-to-noise ratio value based on the intermediate frequency signal, demodulating the intermediate frequency signal, and receiving signal strength information and reception request channel information of the entire channel. And determining a frequency band to be removed by the tunable band cancellation filter based on the result.

1 and 3, the radio frequency signal received through the antenna 500 may be input through the signal input terminal RX. The tunable band cancellation filter 100 connected to the signal input terminal RX may be set outside the range of the channel band of the radio frequency signal to be received before the radio frequency signal is input. For example, when the radio frequency signal desired to be received is a TV broadcast signal, the tunable band removing filter 100 is set outside the range of the channel frequency band of the TV radio frequency signal to remove the channel band of the TV radio frequency signal. You can't. Accordingly, the controller 400 may generate signal strength information of all channels from the radio frequency signal passing through the tunable band cancellation filter 100 (S100), and demodulate the signal strength information of all the generated channels. Can be stored in The tuner 200 may convert the radio frequency signal passing through the tunable band elimination filter into an intermediate frequency signal and measure the signal strength of the radio frequency signal passing through the tunable band elimination filter 100. The demodulator 300 may generate a signal-to-noise ratio value based on the intermediate frequency signal received from the tuner 200 and demodulate the intermediate frequency signal. The controller 400 may control the tunable band cancellation filter based on the generated signal strength information of the entire channel and the reception request channel information.

Referring to FIG. 3, the controller 400 may generate signal strength information of all channels from the filtered radio frequency signal passing through the tunable band removing filter 100 (S100). The filtered radio frequency signal is converted into an intermediate frequency signal by the tuner 200, and the demodulator 300 may receive the intermediate frequency signal to generate a signal-to-noise ratio value. The control unit 200 receives the signal-to-noise ratio value generated by the demodulator 300 and compares it with a preset signal-to-noise ratio threshold value. The demodulator may be controlled to demodulate an intermediate frequency signal at. If the signal-to-noise ratio value generated by the demodulator is smaller than the preset signal-to-noise ratio threshold value, the tuner may be controlled to generate an automatic gain control value (S300 and S400). .

The controller 400 may receive the automatic gain control value generated by the tuner and compare the same with a preset maximum automatic gain control value. When the automatic gain control value is equal to the preset maximum automatic gain control value, it may be determined whether the reception request channel is the same as the maximum strength channel based on signal strength information of all channels (S510). If the reception request channel is different from the maximum strength channel, the controller 400 may control the tunable band cancellation filter 100 to remove the frequency band of the maximum signal strength channel (S521). If the maximum signal strength channel is the same, the signal strength of the frequency band of the reception request channel has the largest signal strength, and the controller 400 controls the tunable band cancellation filter 100 to be the second largest of all channels. The frequency band of the signal strength channel may be removed (S522).

Unlike the above, when the auto gain control value generated by the tuner is different from the preset maximum auto gain control value, the control unit 400 based on the signal strength information of all channels, the signal strength of two adjacent channels of the reception request channel. The tunable band rejection filter may be controlled to remove the frequency band of the channel having a large signal strength by comparing the two (S530, 531).

2 and 3, the channel tuning device may further include an amplifier 600 unlike FIG. 1. Amplifier 600 may comprise a low noise amplifier.

The radio frequency signal may be received through the antenna 600 and input through the signal input terminal RX. The tunable band elimination filter 100 may filter the radio frequency signal received by the control of the controller 400, and the amplifier 600 may amplify the radio frequency signal passing through the tunable band elimination filter. The tuner 200 may measure the signal strength of the radio frequency signal received from the amplifier 600, and control the amplification rate of the amplifier 600 based on the signal strength of the radio frequency signal received from the amplifier 600. have.

In detail, the amplifier 600 may be set to an OFF state before the radio frequency signal is input (S210). The tuner 200 compares the signal strength of the radio frequency signal received from the amplifier 600 with a preset radio frequency signal strength threshold (S220), and sets the signal strength of the radio frequency signal received from the amplifier 600. If it is smaller than the radio frequency signal strength threshold, it may be controlled to switch the amplifier 600 to the ON state (S230), the tuner 200, the signal strength of the radio frequency signal received from the amplifier 600 If it is greater than the preset radio frequency signal strength threshold, it may be controlled to maintain the amplifier 600 in the OFF state (S240).

In addition, after the amplifier 600 is turned on, if the signal strength of the radio frequency signal is less than the preset radio frequency signal strength threshold, the amplifier 600 may be controlled to increase the amplification factor. If the signal strength of the radio frequency signal received from the amplifier 600 is greater than the preset radio frequency signal strength threshold after increasing the amplification rate (S230), the amplifier 600 may be controlled to reduce the amplification rate (S240). . In addition, even after the amplification factor of the amplifier 600 is reduced, when the signal strength of the radio frequency signal is greater than a preset radio frequency signal strength threshold, the amplifier 600 may be controlled to be turned off.

Since the configuration and function of the tunable band rejection filter 100, the tuner 200, the demodulator 300, and the controller 400 are the same as those described in FIG. 1, detailed descriptions thereof will be omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Therefore, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all of the equivalents or equivalents of the claims, as well as the following claims, I will say.

100: tunable band cancellation filter
200 tuner
300: demodulator
400:
500: antenna
600: amplifier

Claims (17)

A tunable band cancellation filter for removing a frequency band determined according to control among the received radio frequency signals;
A tuner for converting a radio frequency signal passing through the tunable band cancellation filter into an intermediate frequency signal;
A demodulator for generating a signal-to-noise ratio value based on the intermediate frequency signal and demodulating the intermediate frequency signal; And
A controller configured to generate signal strength information of all channels from the radio frequency signal passing through the tunable band cancellation filter and to control the tunable band cancellation filter based on the signal strength information of the entire channel and the reception request channel information;
Channel tuning device comprising a. The method of claim 1,
An amplifier for amplifying the radio frequency signal passing through the tunable band cancellation filter; Further comprising:
The tuner controls the amplification factor of the amplifier based on the signal strength of the radio frequency signal received from the amplifier,
The control unit is a channel tuning device for generating signal strength information of the entire channel from the radio frequency signal received from the amplifier. The method of claim 2, wherein the tuner,
If the signal strength of the radio frequency signal received from the amplifier is less than the preset radio frequency signal strength threshold value, the amplifier is controlled to increase the amplification rate,
And controlling the amplifier to reduce the amplification factor when the signal strength of the radio frequency signal received from the amplifier is greater than a preset radio frequency signal strength threshold. The apparatus of claim 1,
A demodulator to demodulate the intermediate frequency signal when the signal to noise ratio value is greater than a preset signal to noise ratio threshold value;
And controlling the tuner to generate an automatic gain control value when the signal to noise ratio value is smaller than a preset signal to noise ratio threshold. 5. The apparatus of claim 4,
And determining whether the reception request channel is equal to the maximum signal strength channel when the automatic gain control value is equal to a preset maximum automatic gain control value. 6. The apparatus of claim 5,
If the reception request channel is the same as the maximum strength channel, control the tunable band cancellation filter to remove a frequency band of the second largest signal strength channel among all channels,
And when the reception request channel is different from the maximum intensity channel, controlling the tunable band cancellation filter to remove a frequency band of the maximum signal strength channel. 5. The apparatus of claim 4,
If the auto gain control value is different from a preset maximum auto gain control value, a channel tuning for controlling the tunable band cancellation filter to remove a frequency band of a channel having a large signal strength among two adjacent channels of the reception request channel Device. The apparatus of claim 1,
And a channel tuning apparatus storing strength information of all the channels in the demodulator. Filtering the received radio frequency signal by a tunable band cancellation filter to convert the filtered radio frequency signal into a filtered radio frequency signal;
Generating signal strength information of all channels from the filtered radio frequency signal;
Converting the filtered radio frequency signal into an intermediate frequency signal;
Generating a signal-to-noise ratio value based on the intermediate frequency signal, and demodulating the intermediate frequency signal; And
Controlling the tunable band cancellation filter based on the signal strength information of the entire channel and the reception request channel information;
Channel tuning method comprising a. 10. The method of claim 9,
Converting the filtered radio frequency signal into an amplified radio frequency signal; Further comprising:
The generating of the signal strength information of the entire channel may include generating signal strength information of the entire channel from the amplified radio frequency signal,
The converting into the intermediate frequency signal, Channel tuning method for converting the amplified radio frequency signal into an intermediate frequency signal. The method of claim 10, wherein converting the received radio frequency signal into an amplified radio frequency signal,
If the signal strength of the amplified radio frequency signal is less than a preset radio frequency signal strength threshold, increase the amplification rate,
And if the signal strength of the amplified radio frequency signal is greater than a preset radio frequency signal strength threshold, reducing the amplification factor. 10. The method of claim 9, wherein demodulating the intermediate frequency signal comprises:
And demodulating the intermediate frequency signal when the signal to noise ratio value is greater than a preset signal to noise ratio threshold. 10. The method of claim 9,
Generating an automatic gain control value when the signal to noise ratio value is smaller than a preset signal to noise ratio threshold value; Channel tuning method further comprising. The method of claim 13, wherein the controlling of the tunable band cancellation filter comprises:
Determining whether the reception request channel is the same as the maximum intensity channel when the automatic gain control value is equal to a preset maximum automatic gain control value; Channel tuning method comprising a. The method of claim 14, wherein the controlling of the tunable band cancellation filter comprises:
If the reception request channel is the same as the maximum strength channel, control the tunable band cancellation filter to remove a frequency band of the second largest signal strength channel among all channels,
If the reception request channel is different from the maximum intensity channel, controlling the tunable band cancellation filter to remove the frequency band of the maximum intensity channel; Channel tuning method comprising a. The method of claim 13, wherein the controlling of the tunable band cancellation filter comprises:
If the auto gain control value is different from a preset maximum auto gain control value, controlling the tunable band cancellation filter to remove a frequency band of a channel having a large signal strength among two adjacent channels of a reception request channel; Channel tuning method comprising a. 10. The method of claim 9,
Storing strength information of the entire channel in a demodulator; Channel tuning method further comprising.

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