KR20040110702A - Method for automatic searching in channel frequency - Google Patents

Abstract

PURPOSE: A method for automatically retrieving a channel frequency is provided to recover a lost channel frequency by re-writing a channel frequency automatically retrieved through a sub-tuner. CONSTITUTION: A user watches a broadcasting signal corresponding to current channel frequency information received through an antenna(201,202). A microcomputer stores current channel frequency information in a memory(203,204). If a channel recovery signal for searching a lost channel is received(S61), the microcomputer reads real-time channel frequency information sensed in real time through a sub-tuner, reads current channel frequency information stored in the memory, compares whether real-time channel frequency information is identical to current channel frequency information(205). If real-time channel frequency information is not identical to current channel frequency information, the microcomputer re-writes only changed channel frequency information in the memory(207,208).

Description

How to automatically search for channel frequencies {METHOD FOR AUTOMATIC SEARCHING IN CHANNEL FREQUENCY}

The present invention relates to a channel frequency automatic search method, and in particular, in a video system equipped with two tuners, if a certain channel frequency is lost while watching a video signal through the main tuner, the automatic search through the sub tuner is performed again. The present invention relates to a method of restoring a lost channel frequency by rewriting through one channel frequency.

In general, when a video system selects a channel to be watched, an image signal corresponding to the channel is unconditionally output, and at the same time, an audio signal must be listened to through a speaker.

At this time, if the channel frequency is changed due to the broadcaster's circumstances, the existing video system cannot find the changed channel frequency unless the automatic search is performed.

As a result, when the desired channel disappears, the user has to find and directly set the channel in memory. That is, there is a hassle that needs to be reset while checking the changed channel frequency information one by one, and there is a problem that it takes a long time to check the changed channel frequency, so that the user cannot watch the broadcast.

Accordingly, the present invention has been made to solve the above-described problem, the object of the present invention is that in the video system equipped with two tuners, if any channel frequency is lost while watching the video signal, again through the sub tuner The present invention provides a method for automatically searching for channel frequencies that can be used to recover lost channel frequencies by rewriting through automatically searched channel frequencies.

In the present invention for achieving the above object, the automatic channel frequency search method comprises the steps of: watching a broadcast signal corresponding to the current channel frequency information received through the antenna, storing the current channel frequency information in the memory, and lost channels When receiving a channel recovery signal for searching for, reading the real-time channel frequency information detected in real time through a sub-tuner linked to the antenna, and determining whether the same by reading the current channel frequency information stored in the memory; If it is not the same in the step, it characterized in that it comprises the step of re-writing only the changed channel frequency information to the memory (re-write).

1 is a block diagram for performing a channel frequency automatic search method according to the present invention,

2 is a diagram illustrating a channel frequency automatic search method according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: main tuner 15: sub tuner

20: main IC 30: CRT

40: microcomputer 50: memory

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, a block diagram illustrating a method for automatically searching a channel frequency according to the present invention includes a main tuner 10, a sub tuner 15, a main IC 20, a CRT 30, The microcomputer 40 and the memory 50 are included.

The main tuner 10 and the sub tuner 15 are generally used at an input portion of a radio receiver and are blocks used to select only the radio waves by tuning to a frequency of a fixed radio wave (or electric signal). The tuner 10 senses the current channel frequency information corresponding to the selected broadcast signal by tuning to a frequency of a predetermined radio wave of the broadcast signal received by the antenna S1 and provides it to the main IC 20. The sub-tuner 15 is used to find a lost channel, and detects channel frequency information in real time and provides it to the main IC 20.

The main IC 20 provides the broadcast signal provided from the main tuner 10 to the CRT 30 and also provides the current channel frequency information to the microcomputer 40. The main IC 20 then stores the real-time channel frequency information used to find the lost channel provided from the sub tuner 15 in a buffer format.

The CRT 30 outputs a broadcast signal provided from the main IC 20 for the user to see.

The microcomputer 40 provides the memory 50 with current channel frequency information provided from the main IC 20. Subsequently, when a channel restoration signal for searching for a lost channel is received from the remote controller S2, the microcomputer 40 reads real-time channel frequency information stored in the main IC 20, and reads the current channel frequency information stored in the memory 50. When the changed channel frequency information occurs in comparison with each other, only the changed channel frequency information is provided to the memory 50.

The memory 50 is composed of an EEPROM and stores current channel frequency information provided from the microcomputer 40. Thereafter, the memory 50 receives only the changed channel frequency information from the microcomputer 40 and then rewrites the previously stored current channel frequency information.

With reference to the flowchart of FIG. 2, the channel frequency automatic search method which concerns on this invention is demonstrated in detail based on the above-mentioned structure.

First, it is assumed that the main tuner 10 and the sub tuner 15 operate when the power is turned on using the remote controller S2.

Subsequently, the main tuner 10 senses the current channel frequency information corresponding to the selected broadcast signal by tuning to a frequency of a predetermined radio wave among the broadcast signals received by the antenna S1 and provides it to the main IC 20 (step 201). ).

Here, the sub tuner 15 is used to find the lost channel, and detects the channel frequency information in real time and provides the lost channel provided from the sub tuner 15 to the main IC 20. Stores real-time channel frequency information used to find in buffer format.

The main IC 20 provides the broadcast signal provided from the main tuner 10 to the CRT 30 and outputs it for viewing by the user (step 202).

At the same time, the main IC 20 provides the microcomputer 40 with the current channel frequency information provided from the main tuner 10 (step 203).

The microcomputer 40 stores the current channel frequency information provided from the main IC 20 in the memory 50 (step 204).

At this time, when a channel restoration signal for searching for a lost channel is received from the remote controller S2 (SS1), the microcomputer 40 reads real-time channel frequency information stored in the main IC 20, and immediately stored in the memory 50. The current channel frequency information is read and compared with each other to determine whether they are the same (step 205).

If it is the same in the determination step 205, it is determined that there is no change in the channel frequency information (step 206).

If it is not the same in the determination step 205, the channel frequency information is changed, and only the changed channel frequency information is provided to the memory 50 (step 207).

After receiving only the changed channel frequency information from the microcomputer 40, the memory 50 rewrites the previously stored current channel frequency information (step 208).

Therefore, in the imaging system equipped with two tuners, if any channel frequency is lost while watching an image signal, the present invention re-writes through the channel frequency automatically searched again through the sub tuner. By restoring the lost channel frequency, as in the prior art, when the channel is changed, it is possible to eliminate the inconvenience of resetting while checking the channel frequency again, and also takes a long time to check the changed channel frequency There is an effect that can solve the problem that can not watch the desired broadcast.

Claims (2)

In the channel frequency search method, Watching a broadcast signal corresponding to current channel frequency information received through an antenna; Storing the current channel frequency information in a memory; When a channel recovery signal for searching for a lost channel is received, the real-time channel frequency information detected in real time is read through a subtuner linked to the antenna, and the current channel frequency information stored in the memory is read to determine whether the same. Steps, Re-writing only the changed channel frequency information to the memory if it is not the same in the determining step; Channel frequency automatic search method comprising a. The method of claim 1, The subtuner detects channel frequency information in real time and stores the channel frequency information in a buffer format.