KR0141784B1 - Audio signal transreceiving method and its apparatus - Google Patents

Abstract

The present invention relates to a satellite broadcasting transceiver, comprising: a transmitter for carrying audio signal information data on a specific video signal line, an intermediate frequency generator for receiving a signal transmitted from the transmitter and modulating the signal into an intermediate frequency signal; A video signal processor for processing a video signal among the output signals of the intermediate frequency generator, an audio signal processor for processing an audio signal among the output signals of the intermediate frequency generator, and audio signal information data on a specific line of the output of the video signal processor And a receiving device comprising an audio mode adjusting unit for adjusting the audio mode accordingly, and transmitting and demodulating the state of the audio signal upon transmission, and demodulating it to receive the current broadcast state. Detect and adjust the audio output accordingly. By not require a separate key operation by the user has a very useful effect used.

Description

Satellite broadcasting audio signal transmission method and transmission device

1 is a two-carrier distribution map of terrestrial broadcasting.

2 is an audio carrier distribution map of satellite broadcasting.

3 is a block diagram of a satellite broadcasting receiver according to the prior art.

4 is a block diagram of a satellite broadcasting receiver according to the present invention.

5 is a waveform diagram of a video signal including information of a broadcast audio signal.

6 is a flowchart illustrating a receiving method in a voice multiple mode of a satellite broadcasting receiving apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

One; Antenna 2; First intermediate frequency generator

3; A second intermediate frequency generator 4; Video signal demodulator

5; Video processor 6; adder

7; Video output 8; Character generator

9; A first audio signal demodulator 10; Audio processor

11, 12; Audio output 13; Synchronous separator

14; Counter 15; switch

16; Data decoder 17; Microprocessor

18; Input unit 19; Audio data first memory

20; A second audio signal demodulator 21; Audio data second memory

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an audio signal transmission / reception method and transmission apparatus for satellite broadcasting, and more particularly, to an audio signal transmission / reception method and transmission apparatus for satellite broadcasting for automatically detecting and switching an audio mode.

In general, terrestrial broadcasting, as shown in FIG. 1, when a pilot signal is applied to subcarriers SC1 and SC2 during two-carrier broadcasting, it is determined whether it is stereo or bilingual broadcasting. .

That is, 114Hz and 273Hz are modulated to 54.6875Hz and then modulated to the subcarrier (SC2) and transmitted. If 114Hz is detected at reception, stereo is determined. If 273Hz is detected, bilingual broadcast is discriminated.

However, in the case of satellite broadcasting, as shown in FIG. 2, since a plurality of signals are input on multiple carriers, the pilot signals for determining the two signal states are meaningless.

Therefore, in the conventional satellite broadcasting receiver, it is necessary to designate a reception audio carrier for each channel and to select a sound.

That is, as shown in FIG. 3, the signal received through the antenna 1 and the frequency down signal passes through two intermediate frequency generators 2 and 3, and the video signal is a video signal demodulator 4 and a video processor 5. The audio signal is processed by the first and second audio signal demodulators 9 and 20 and the audio processor 10.

In this case, the audio data stores audio data for each channel in the audio data memory 19, and when a channel up / down operation is performed, an audio carrier frequency corresponding to the channel is stored in the audio data memory 19 The second intermediate frequency generator 3 controls the second intermediate frequency generator 3 to display an audio signal corresponding to the frequency. However, in the conventional satellite broadcasting receiver, the received audio is mono, bilingual, or Since it is not possible to determine whether it is stereo, there was an uncomfortable problem of continuing to watch while being selected as one mode.

Accordingly, an object of the present invention is to solve the above problems, to provide a satellite broadcast transmission and reception method that can watch the audio signal according to the mode being received without a separate key operation by the user.

Another object of the present invention is to provide a satellite broadcast transceiver capable of efficiently implementing the satellite broadcast transmission and reception method.

The satellite broadcasting transmitting and receiving method of the present invention for achieving the above object comprises a first step of detecting whether the voice multiplexed when a broadcast signal is received, and determining the country in which the signal is broadcast when the voice multiplexing is detected in the first step; A second step and a third step of reading a language of a corresponding country from a memory in which a language of each country is stored and detecting a carrier of the language if a country is determined in the second step, and detected in the third step And a fourth step of controlling the audio signal of the broadcast signal to be tuned to the carrier.

In order to achieve the above object, a satellite broadcasting transmitting and receiving apparatus of the present invention comprises: a transmitting apparatus which carries information data on an audio signal on a specific video signal line; An intermediate frequency generator for receiving a signal transmitted from the transmitter and modulating the signal into an intermediate frequency signal, a video signal processor for processing a video signal among the output signals of the intermediate frequency generator, and an audio signal among the output signals of the intermediate frequency generator And a receiver configured to include an audio signal processor for processing the audio mode and an audio mode controller configured to select audio information on a specific line among the outputs of the video signal processor and adjust the audio mode accordingly.

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

In the satellite broadcasting transceiver of the present invention, as shown in FIG. 4, when the transmitter transmits information data on an audio signal on a specific video signal line, the signal transmitted from the transmitter first receives the intermediate frequency generator 30. After passing through the antenna 1, that is, the first intermediate frequency generator 2 is amplified and the frequency is down.

In most cases, this is down to 10GHz but may vary depending on the antenna.

The broadcast signal component down at the first intermediate frequency generator 2 is tuned to a specific channel by the second intermediate frequency generator 3 according to the control signal of the microprocessor 17 and is a medium frequency signal having a constant frequency. The video signal and the audio signal are processed and output through the video signal processor 40 and the audio signal processor 50, respectively.

That is, the video signal component of the output signal of the second intermediate frequency generator 3 is demodulated by the video signal demodulator 4 and input to the video processor 5 in the form of a baseband video signal for recording and reproduction. The audio signal is demodulated by the first and second audio signal demodulators 9 and 20 and input to the audio processor 10 in the form of a baseband signal to perform recording, playback, and the like. .

At this time, the output of the video processor 5 is applied to the adder 6, the synchronization separator 13, and the switch 15 to be processed by the audio mode controller 70. In the synchronization separator 13, the synchronization signal Is separated and applied to the counter 14 in the form of a pulse signal, whereby the line number is counted so that the switch 15 is turned on for one synchronous period (1H) in a particular video signal line containing audio signal information data. Only the signal of the specific video signal line of (a) including the audio signal information data 22 as shown in (b) of FIG. 5 passes, and the specific of the audio signal information data of (a) is included. The signal of the video signal line is decoded by the data decoder 16 and sent to the microprocessor 17.

Subsequently, the microprocessor 17 transmits audio information transmitted from the data decoder 16, that is, data such as mono, stereo, and voice language indicating the state of an audio signal. A demodulation frequency detected by the controller 17 is selected and stored in the audio data memory 60. When the input audio is stereo when the audio mode of the audio data memory 60 is automatic, the first and second audio signal demodulators ( 9, 20) outputs in stereo, and in the case of voice multiple mode, only one voice is stored according to the voice multiple mode state, and if a specific frequency is specified, an audio signal of a specific frequency is output regardless of the input audio state. If a signal is specified, the audio signal is output in the voice multiple mode when the voice multiple mode is used. Create a menu screen using the character generator 8 through the input unit 18, such as a board, and send it to the adder 6 to superimpose the existing video signal, and then input as shown in [Table 1] below. Just do it.

Therefore, as shown in FIG. 6, when audio multiplex is detected in the audio signal information data, it is determined which country the signal of the channel is from the VPS data or the like included in the video signal. Is read from the audio data second memory 21, and the second intermediate frequency generator 3 reads from the audio signal information data to find out which carrier is the audio carrier corresponding to the language. And control the second intermediate frequency generator 3 so as to be tuned to the corresponding audio carrier by reading which carriers are combined to form a stereo from the audio signal information data when the audio is not multi-voice. Tunes to the main carrier if no voice multiples or stereo is detected in the data Be sure to

As described above, according to the present invention, the state of the audio signal is transmitted and broadcasted upon transmission, and when received, the demodulated signal is detected to detect the current broadcast state and the audio output is controlled accordingly. There is no need for this very convenient effect.

Claims (5)

A first step of detecting a type of the received broadcast signal; a second step of determining a country of a broadcast signal if the resultant voice multiplex; and a language of the corresponding country is read from a memory in which a language for each country is stored; And a fourth step of detecting a carrier of the read-out language and a fourth step of tuning an audio signal of a broadcast signal to the detected carrier. The method as claimed in claim 1, further comprising: detecting a corresponding carrier if the detection result of the first step is stereo so that an audio signal of a broadcast signal is tuned to the corresponding carrier; And a sixth step of tuning the audio signal of the broadcast signal to the main carrier. A transmitter for carrying audio signal information data on a specific video signal line; An intermediate frequency generator for receiving a signal transmitted from the transmitter and modulating the signal into an intermediate frequency signal, a video signal processor for processing a video signal among the output signals of the intermediate frequency generator, and an audio signal among the output signals of the intermediate frequency generator And a receiver configured to include an audio signal processor for processing an audio signal controller and an audio mode controller configured to select audio signal information data on a specific line among outputs of the video signal processor and adjust an audio mode accordingly. Satellite Broadcast Transceiver. 4. The audio mode control unit of claim 3, wherein the audio mode adjusting unit is divided by an audio data memory unit having a demodulation frequency for each audio mode, a synchronous separation unit for separating synchronous signals among the outputs of the video signal processing unit, and the synchronous separation unit. A counter for counting a synchronization signal and extracting a specific video signal line carrying the audio signal information data, a switch that is turned on while the counter is extracting a specific video signal line so that audio signal information data is transmitted to a data decoder; A decoder for decoding the audio signal information data, a micro for detecting an audio mode based on the decoded audio signal information, and accordingly selecting a demodulation frequency for each audio mode of the audio data memory unit to output an audio signal of a selected mod Including processor Satellite broadcasting transceiver, characterized in that configured. The audio data memory unit of claim 4, wherein the audio data memory unit stores a demodulation frequency for each mode of the received audio signal, and, if the mode of the audio signal is a voice multiple mode, selects a language according to a user. And an audio data second memory in which a demodulation frequency for another language is stored.