KR19980039455A - Channel Tuning Method - Google Patents

Abstract

The present invention relates to a channel tuning method for automatically switching to a channel of the same broadcasting station corresponding to a moving area when a channel tuning frequency is changed according to a regional movement.

The present invention has a first tuner and a second tuner for receiving a broadcast signal of a channel frequency band selected by a user from a high frequency broadcast signal received through an antenna, a method for performing channel tuning, the high frequency of the selected channel An AGC1 and ID1 storing step of storing AGC1, which has detected the gain value of the received input level of the signal by the first tuner, and identification code ID1 of the broadcasting station for the selected channel; An AGC3 detection determination step of determining whether the gain value AGC3 of the reception input level of the high frequency signal according to the regional movement is detected by the first tuner; A first comparing step of comparing the AGC1 value and the AGC3 value; A first tuning step of tuning a frequency band of a broadcasting station corresponding to ID1 by a second tuner when the AGC3 value is larger than the AGC1 value as a result of the comparison in the first comparison step; Detecting an AGC2 value of a gain value AGC2 of a reception input level of a high frequency signal according to a regional movement by a second tuner; A second comparing step of comparing the AGC3 value and the AGC2 value; As a result of the comparison in the second comparison step, if the AGC3 value is larger than AGC2, the second tuning step includes tuning the broadcast signal of the frequency band tuned in the first tuning step by the first tuner.

Description

Channel Tuning Method

The present invention relates to a method of receiving a high frequency broadcast signal, and more particularly, to a channel tuning method for automatically switching to a channel of the same broadcasting station corresponding to a moving area when a channel tuning frequency is changed according to a regional movement.

As is well known, a radio frequency (RF) broadcast signal propagated through an antenna is a broadcast signal of a frequency band higher than a commercial frequency of 60 Hz or 50 Hz, and is generally used for electronic devices such as radio, television, and video cassette recorders. After receiving the broadcast signal of the channel is tuned to the channel, the video screen and the voice of the channel frequency band of the tuned channel to view, listen to, and record.

That is, the TV is loaded at a high frequency so that the image and audio waves received through the antenna not only have different frequencies but also different modulation schemes so that the image and voice can be easily separated from the receiving side without interfering with each other. Radio waves are AM waves, and voice waves are modulated with AM waves.

Therefore, as described above, the image and audio waves of the channel frequency band selected by the user are tuned through the tuner.

Radio In addition, when a broadcasting station transmits a voice signal received on a high frequency proportional to a sound wave transmitted through an antenna, that is, a voice signal corresponding to a frequency band of a corresponding channel selected by a user, the speaker generates a corresponding sound wave. We can hear the sound with our ears.

The video cassette recorder also records on a magnetic tape a composite video signal applied from a tuner that tunes a high frequency broadcast signal transmitted through an antenna to a desired channel.

As described above, in order to view a screen and listen to audio using an electronic device such as a television, a radio or a video cassette recorder, the frequency band of a corresponding channel selected by a user must be tuned.

However, when traveling to and from the region, the above-mentioned electronic devices (TVs and video cassette recorders corresponding to the vehicle) are watched and listened to, i.e. out of the frequency band of the selected channel. The device is difficult to receive a high frequency broadcast signal of the selected channel frequency band, which is inconvenient for the user to tune directly to the channel of the same broadcasting station corresponding to the local broadcast.

The present invention has been made to solve the above-described problem, an object of the present invention is to move the region in the frequency band of the selected channel when the frequency band of the corresponding channel is different, the same of the moving region corresponding to the selected channel The present invention provides a channel tuning method of a high frequency signal so that a user does not directly tune into a channel corresponding to a moving area by automatically switching to a channel.

A feature of the present invention for achieving the above object is to provide a channel tuner having a first tuner and a second tuner for receiving a broadcast signal of a channel frequency band selected by a user from a high frequency broadcast signal received through an antenna. A method comprising: an AGC1 and ID1 storage step of storing AGC1, which has detected a gain value of a received input level of a high frequency signal of the selected channel by the first tuner, and an identification code ID1 of a broadcasting station for the selected channel; An AGC3 detection determining step of determining whether a gain value AGC3 of a reception input level of a high frequency signal according to regional movement is detected by the first tuner; A first comparing step of comparing the AGC1 value and the AGC3 value; A first tuning step of tuning a frequency band of a broadcasting station corresponding to the ID1 by the second tuner when the AGC3 value is larger than the AGC1 value as a result of the comparison in the first comparison step; Detecting an AGC2 value of the gain value AGC2 of the received input level of the high frequency signal according to the regional movement by the second tuner; A second comparing step of comparing the AGC3 value and the AGC2 value; And a second tuning step of tuning, by the first tuner, the broadcast signal of the frequency band tuned in the first tuning step when the AGC3 value is larger than the AGC2.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the appended figures by those skilled in the art.

1 is a block diagram of a channel tuning apparatus according to a preferred embodiment of the present invention.

2 is a flowchart for performing a channel tuning method according to an embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

10: key input unit 20: micom

30,30 ′: Tuner 40,40 ′: IF signal processor

50,50 ′: Video signal processor

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of the preferred embodiment of the present invention.

1 is a block diagram showing a configuration of a channel tuning apparatus according to the present invention, which is a block diagram of a channel tuning apparatus of a video cassette recorder, wherein the key input unit 10, the microcomputer 20, the first tuner 30, 2 tuner 30 ', first IF (intemediate frequency) signal processor 40, second IF signal processor 40', first video signal processor 50, second video signal processor 50 ', memory It consists of 60.

In this configuration, the key input unit 10 is composed of key metrics as input means for operating the video cassette recorder. The key input unit 10 includes a plurality of keys such as channel tuning keys to describe key signals corresponding to the user's key operation, which will be described later. Applied to the microcomputer 20, and detects and outputs a key signal carried on the infrared carrier wave from the remote control by using a remote control that can be input at a remote location.

At this time, the microcomputer 20 controls the overall operation of the video cassette recorder by outputting a control signal corresponding to the key signal output from the key input unit 10. The signal for the channel selection key from the key input unit 10 and the user When the channel information selected by the signal, that is, a signal for the numeric key of the corresponding channel is input, a voltage for performing channel selection of the corresponding channel is output.

That is, the first tuner 30 receives a broadcast signal of a channel frequency band selected from a high frequency broadcast signal received through an antenna by a voltage for performing channel tuning output from the microcomputer 20, and the frequency according to local movement. It receives the broadcast signal of the band and outputs it to the first IF signal processor 40 as described in the following description, and also detects ID (identification) information, which is a broadcast station identification code of the selected channel, and outputs it to the microcomputer 20. do.

At this time, the microcomputer 20 controls the second tuner to tune to the same frequency band of the broadcasting station as the broadcasting station identification code ID information output from the first tuner 30.

Therefore, the second tuner 30 'tunes to the same frequency band of the broadcasting station as the broadcasting station identification code ID information before local movement under the control of the microcomputer 20.

In addition, the microcomputer 20 controls the first tuner 30 to tune in the same frequency band of the broadcasting station as the broadcasting station identification code ID information before local movement tuned by the second tuner 30 '.

Therefore, the first tuner 30 receives the broadcast signal of the frequency band under the control of the microcomputer 20 and outputs it to the first IF signal processor 40.

Meanwhile, the first IF signal processor 40 processes the broadcast signal of the channel frequency band tuned by the first tuner 30 under the control of the microcomputer 20 and outputs the broadcast signal to the first video signal processor 50.

Accordingly, the first video signal processor 50 detects and processes a video signal among broadcast signals output from the first IF signal processor 40 under the control of the microcomputer 20 and outputs the video signal to a monitor (not shown).

In addition, the second IF signal processor 40 ′ processes the broadcast signal of the channel frequency band tuned by the second tuner 40 ′ to the second video signal processor 50 ′ under the control of the microcomputer 20. Output

Accordingly, the second video signal processor 50 ′ processes the video signal among the broadcast signals output from the second IF signal processor 40 under the control of the microcomputer 20 and outputs the video signal to a monitor (not shown).

2 is a flowchart for performing a channel tuning method according to the present invention, which will be described in detail with reference to the block diagram shown in FIG.

The microcomputer 20 determines whether a key signal for channel selection is input from the key input unit 10 in step 200.

As a result of determination, when a key signal for channel selection is applied from the key input unit 10, the microcomputer 20 proceeds to step 210 to determine the reception input level of the high frequency broadcast signal of the selected channel output from the first tuner 30. The gain value AGC1 and ID1, which is a code for identifying a broadcasting station of the selected channel, are stored in the memory 60, and the control proceeds to step 220.

The microcomputer 20 proceeds to step 220 and determines whether the gain value AGC3 of the reception input level of the high frequency broadcast signal of the corresponding channel is detected from the first tuner 30 according to the local movement.

As a result of the determination, when the gain value AGC3 of the reception input level of the high frequency broadcast signal of the corresponding channel is detected from the first tuner 30, the microcomputer 20 proceeds to step 230 and stores it in step 210. Compare the AGC1 and AGC3 values.

In this case, the AGC3 value is a gain value of the reception input level of the high frequency broadcast signal of the corresponding region detected by the first tuner 30 when the region moves.

That is, if the AGC3 value is larger than the AGC1 value, it indicates that it is out of the transmission station area. Therefore, the microcomputer 20 proceeds to step 240 and causes the second tuner 30 'to transmit the station identification code of the selected channel stored in step 210. In operation 250, the second tuner 30 ′ is controlled to detect a gain value AGC2 of the reception input level of the high frequency broadcast signal input after the local movement.

At this time, the second tuner 30 'tunes to a frequency band of the same broadcasting station as ID1, which is a broadcasting station code of the selected channel stored in step 210, under the control of the microcomputer 20 (ID2), and then inputs a high frequency broadcasting after moving to a region. The gain value AGC2 of the reception input level of the signal is detected and output to the microcomputer 20.

That is, the microcomputer 20 compares the AGC3 value detected in step 220 with the AGC2 value detected in step 250.

As a result of the comparison, if the AGC3 value is larger than the AGC2 value, the microcomputer 20 proceeds to step 270 to cause the first tuner 30 to tune the broadcast signal of the frequency band tuned in step 240.

While embodiments of the invention have been shown and described with respect to video cassette recorders, those skilled in the art will recognize that various modifications, changes and omissions can be made without departing from the spirit and scope of the invention.

As described above, the channel tuning method according to the present invention includes a first tuner and a second tuner, and receives a broadcast signal of a frequency of a selected channel before moving the area by the first tuner, and then uses the second tuner after the moving area. By using the first tuner to tune in the same frequency band as the station code tuned by the first tuner, and allowing the first tuner to receive the broadcast signal in the tuned frequency band, the user does not need to tune in a channel corresponding to the mobile area directly. It works.

Claims (1)

A method of performing channel selection, comprising a first tuner and a second tuner for receiving a broadcast signal of a channel frequency band selected by a user from a high frequency broadcast signal received through an antenna, the method comprising: An AGC1 and ID1 storing step of storing AGC1, which has detected the gain value of the received input level of the high frequency signal of the selected channel by the first tuner, and identification code ID1 of the broadcasting station for the selected channel; An AGC3 detection determining step of determining whether a gain value AGC3 of a reception input level of a high frequency signal according to regional movement is detected by the first tuner; A first comparing step of comparing the AGC1 value and the AGC3 value; A first tuning step of tuning a frequency band of a broadcasting station corresponding to the ID1 by the second tuner when the AGC3 value is larger than the AGC1 value as a result of the comparison in the first comparison step; Detecting an AGC2 value of the gain value AGC2 of the received input level of the high frequency signal according to the regional movement by the second tuner; A second comparing step of comparing the AGC3 value and the AGC2 value; And a second tuning step of tuning, by the first tuner, a broadcast signal of a frequency band tuned in the first tuning step when the AGC3 value is larger than the AGC2 as a result of the comparison in the second comparison step.