KR0135596B1 - Broadcasting area automatic distinction - Google Patents

Abstract

When a VTR or TV receives a broadcast, a method of automatically discriminating a broadcasting area and transmitting a carrier frequency corresponding to the area is performed so that tuning can be performed quickly and accurately. After calculating the necessary time T, the broadcasting area is determined, and the center frequency fo corresponding to the broadcasting area at the time of channel selection is transmitted and the broadcasting is tuned.

Description

Broadcast area automatic discrimination method

1 is a schematic block diagram of a color television with automatic broadcast area discrimination function according to the present invention.

2 is a frequency graph versus time for a conventional automatic frequency tuning scheme.

3 is a graph showing automatic frequency tuning voltage versus frequency.

4 is a diagram comparing the difference in the center frequency of each broadcasting area.

* Explanation of symbols for main parts of the drawings

1: remote control 2: remote control module

3: microprocessor 5: phase lock loop IC

6: tuner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a broadcasting area discrimination method of a video cassette recorder or color television, and more particularly, to automatically and accurately broadcast a broadcasting area by transmitting a carrier frequency corresponding to the broadcasting area. It is about the discrimination method.

In general, the color television or video cassette recorder has a structure similar to that of FIG. 1, and the remote controller signal input from the remote controller 1 is received by the remote controller module 2 and then input to the microprocessor 3. At this time, when the channel selection key (not shown) is pressed from the remote control module 2 or the key material 4, the microprocessor 3 controls the tuner 6. A signal is provided to the evergreen loop IC 5 to cause it to apply a frequency tuning voltage to the tuner 6. Therefore, the television broadcast signal received via the antenna 7 can be tuned.

The signal tuned by the tuner 6 is applied to the acoustic amplifier 9 and the chroma IC 10 via an intermediate frequency amplifier (IF) 8, the acoustic signal from the acoustic amplifier 9 being the speaker 11 The color signals R, G, and B are output from the chroma IC 10 and applied to the video processing circuit 12.

At this time, the video processing circuit 12 performs video processing of the input television broadcast color signal and the on-screen display color signal to the driver 13 so that the monitor 14 can display the television broadcast and / or on-screen display characters.

However, there are many kinds of frequency tuning methods of such a television, but the most popular one is that the microprocessor 3 transmits data corresponding to the center frequency (carrier frequency) (fo) from the phase lock loop IC (5). After that, by recognizing the change in the automatic frequency tuning voltage level corresponding to the change in the state of the broadcast signal received by the tuner 6, the center frequency (recoil frequency) (fo) is precisely found and used to induce the correct tuning. This is illustrated in FIG.

FIG. 2 shows a frequency graph of time for a conventional automatic frequency tuning scheme. At position A, the microcomputer 3 transmits data corresponding to the center frequency fo to the phase lock loop IC 5. Initial tuning is required.

At position B, the tuner 6 receives the automatic frequency tuning voltage level corresponding to the state of the tuned broadcast signal after waiting for a predetermined time To.

At the position C, when the automatic frequency tuning voltage level is high, data corresponding to the fl frequency at which the center frequency is raised is sent to check the automatic frequency tuning voltage level.

Also, at position D, this process is repeated, and the best tuning state is achieved by stopping the change in fo frequency at the time when the automatic frequency tuning voltage changes from high to low (this point is exactly tuned).

If the logic state does not change even if the automatic frequency tuning voltage level is checked while the fo frequency is continuously increased, the fo-xMHz data is sent from the fo + xMHz point and the above process is repeated until the correct tuning is achieved. You will proceed.

The normal autofrequency output voltage level characteristic is such that the logic changes from high to low or from low to high at the precisely tuned time, as shown in FIG.

At the point E, if there is no level change of the automatic frequency tunable voltage in the above process, it is determined that there is no broadcast signal, and the automatic frequency tuning operation is terminated when the fo frequency is reached.

However, if there is a point in time when the automatic frequency tuning voltage level changes in section D, you can stop the automatic frequency tuning search and tune in at that point, which is the execution time required for accurate tuning. Is determined from To to To + T2n.

As shown in FIG. 4, the HRC (Harmonic Related Carrier) region uses a center frequency that is 1.25 MHz smaller than the STD (Standard) region. In the case of 6 channels, the center frequency is 0.75MHz larger than the STD region.

However, when the broadcast is received in the HRC region by using the conventional method, the automatic frequency tuning should be performed to the point where 1.25MHz is smaller than the center frequency (fo1) of the STD region. Done.

In addition, in order to receive 5 and 6 channels in the IRC region, automatic frequency tuning should be performed up to a point 0.75 MHz higher than the center frequency (fo1) of the STD region, and the time is required by To + Ty.

In other words, there is an inconvenience that the user has to select a region in advance in order to accurately select the station, and there is a case in which synchronization cannot be performed to cover the entire region.

Accordingly, the present invention has been invented in view of the above circumstances, and eliminates the inconvenience of selecting a region in which the user lives in advance, and automatically enables a broadcasting area to tune into a desired broadcast in a short time. The purpose is to provide a discrimination method.

According to an aspect of the present invention, there is provided a method for determining a broadcasting area by calculating a time (T) required for tuning of each channel in a microcomputer when the user has made the channel selection by the number of firing times; And transmitting the center frequency (fo) corresponding to the broadcast area determined at the time of channel selection after determining the broadcasting area so as to tune the broadcast.

In addition, according to the present invention, the step of determining the broadcasting area may determine the broadcasting area by calculating the time (T) required for each channel selecting after the channel selection is performed a predetermined number of times in the automatic channel memory process or corresponding to the local judging mode. When a user commands a local judgment mode using a key or a remote control using an input command, the broadcasting area may be determined by automatically tuning a predetermined number of channels and calculating a time T required for tuning of each channel.

Hereinafter, the present invention will be described in more detail.

According to the present invention, if the microcomputer automatically recognizes which region of the STD, HRC, or IRC, the region is to receive the broadcast in the HRC region or to receive the broadcast in the IRC region from the center frequency (fo) of the STD region Tuning can be completed by reducing the time to receive the difference center frequency value (Tx or Ty).

In this case, data corresponding to fo1-1.25MHz in the HRC region and fo1 + 0.75MHz in the IRC region are transmitted from the beginning. If the center frequency is far away from the fo1 (about 1 MHz or more), the amount of change in the automatic frequency tuning output voltage level is not constant. Therefore, accurate tuning may not occur during tuning, or malfunction may occur during tuning. If you calculate the center frequency (fo) near you, you can determine which area.

Second, in the process of performing the automatic channel memory function, after tuning x channels, the microcomputer calculates the time (T) required for tuning of each channel and determines which region.

Thirdly, if the user inputs the local judgment mode command using the key or the remote control using the input command corresponding to the local judgment mode, the microcomputer automatically tunes the x month channel and calculates the time T required for each channel tuning. It is possible to determine which area.

In this way, after automatically determining the area, automatic channel tuning is performed quickly and accurately by transmitting the center frequency corresponding to the area at the time of channel selection.

The present invention operating as described above has a feature of automatically discriminating a broadcasting area when receiving a video cassette record or color television broadcasting, and transmitting a carrier frequency (fo) corresponding to the area so that the station performs fast and accurately.

Claims (3)

When the user has made a channel selection a predetermined number of times, determining a broadcasting area by calculating the time (T) spent on each channel selection, and corresponding to the broadcasting area determined at the time of channel selection by the microcomputer that has determined the broadcasting area. Automatically determining the broadcasting area comprising a step of transmitting the center frequency (fo) to tune to the broadcast. The method of claim 1, wherein the determining of the broadcast area comprises determining a broadcast area by calculating a time T required for each channel tune after the microcomputer performs the predetermined number of channel tunes in the automatic channel memory process. Broadcast zone automatic discrimination method. The method of claim 1, wherein the step of determining a broadcasting area comprises automatically selecting a predetermined number of channels in the microcomputer when the user commands the local judgment mode using a key or a remote control using an input command corresponding to the local judgment mode. A broadcasting area automatic discrimination method characterized in that the broadcasting area is determined by calculating a time (T) required for tuning of each channel.