KR100730263B1 - Audio signal processing apparatus - Google Patents

Abstract

In the speech signal processing apparatus which automatically converts one of the pseudo surround speech and the pseudo stereo audio to the original audio signal according to whether it is stereo or monaural, the circuit configuration is simplified. The stereo audio decoder 20 that receives the audio channel signal of the TV reception signal determines whether the audio type is stereo or monaural based on the presence or absence of the control channel signal, and generates L and R signals according to the determination result. Output to the processing circuit 22. The separate voice type is transmitted by passing the result of the determination of the voice type in the stereo voice decoder 20 to the sound processing circuit 22 via the bus 26 and using it for automatic switching control in the sound processing circuit 22. Circuit is unnecessary.

Stereo Voice, Monaural, Sound Processing Circuit, Surround Voice, Bus

Description

Voice signal processing device {AUDIO SIGNAL PROCESSING APPARATUS}

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic block diagram of an audio signal processing apparatus according to an embodiment of the present invention, which performs processing on an audio signal of a TV received signal to generate and output pseudo surround audio and pseudo stereo audio.

Fig. 2 is a block diagram of a conventional speech signal processing apparatus for performing automatic switching of pseudo surround / pseudo stereo voices.

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

20: stereo voice decoder

22: sound processing circuit

24: CPU

26 bus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a speech signal processing apparatus for generating pseudo surround / pseudo stereo audio based on stereo / monaural audio signals, and more particularly to automatic switching of pseudo surround / pseudo stereo audio.

2 is a block diagram of an audio signal processing apparatus for automatically switching pseudo surround / pseudo stereo audio. This apparatus is mounted in a television (TV) receiver, and the stereo audio decoder 2 receives an audio channel signal extracted from the TV reception signal, and outputs a left audio signal L and a right audio signal R. Generation of pseudo surround / pseudo stereo audio is realized by mounting a semiconductor integrated circuit (IC) 4 that provides the function in a TV receiver. The IC 4 receives L / R signals as voice signals, and the sound processing circuit 6 generates pseudo surround voice when the input voice signal is stereo voice, while the input voice signal is monaural voice. In this case, a pseudo stereo voice is generated and output.

Here, the determination of whether the input voice is stereo or monaural is performed independently by the IC 4 itself by the voice type discrimination circuit 8. The speech type discrimination circuit 8 performs the discrimination using the phase difference or the level difference of the input L / R signals, and based on the result, the sound processing circuit 6 generates the pseudo surround sound and the pseudo stereo sound. It switches which of the generations is performed.

In the conventional configuration, there is a problem that the voice type discrimination circuit 8 is required to automatically switch the processing in the sound processing circuit 6, so that the scale of the IC 4 becomes large. In addition, the audio type discrimination circuit 8 judges the stereo signal when there is a difference in the phase or level of the L / R signals, and the monaural signal when there is no difference. Here, the determination of the presence or absence of a difference is likely to be influenced by the fluctuation caused by the method of setting the threshold value, the noise and the like, and there is a problem that the voice type is not necessarily determined with high accuracy.

The audio signal processing apparatus according to the present invention makes a determination as to which audio type of stereo and monaural signals the input signal corresponds to and determines which of the stereo audio signal and the monaural audio signal from the input signal according to the determination result. A voice signal generation circuit for selectively generating one and outputting it as an original audio signal, a sound processing circuit for selectively generating one of a pseudo surround voice and a pseudo stereo voice based on the original audio signal, and in the apparatus And a bus for enabling data transfer, wherein the voice signal generating circuit includes an interface with the bus, sends the determination result to the corresponding bus, and the sound processing circuit includes an interface with the bus. And the determination result from the voice signal generation circuit through the corresponding bus. Is obtained, and which of the pseudo surround sound and the pseudo stereo sound is to be switched according to the determination result.

According to a preferred aspect of the present invention, the audio signal generation circuit receives the audio channel signal of the television reception signal as the input signal, and determines that the audio type is stereo based on the control channel signal included in the audio channel signal. And a stereo decoder which outputs a left audio signal and a right audio signal as the original audio signal.

In another voice signal processing apparatus according to the present invention, the voice signal generation circuit and the sound processing circuit are constituted by separate integrated circuits.

<Example>

EMBODIMENT OF THE INVENTION Hereinafter, the Example of this invention is described based on drawing.

Fig. 1 is a schematic block diagram of a speech signal processing apparatus according to the present embodiment, wherein the speech signal processing apparatus generates and outputs a pseudo surround sound and a pseudo stereo sound by processing a speech signal of a TV received signal. to be. This apparatus includes the stereo audio decoder 20, the sound processing circuit 22, the CPU 24, and the bus 26, and is mounted in, for example, a TV receiver.

For example, the NTSC system TV signal stores a baseband audio band (main channel), a subchannel set to a higher band than that, and a control channel. In stereo broadcasting, a sum signal (L + R) is transmitted on a primary channel and a difference signal (L-R) on a subchannel, respectively. In monaural broadcasting, only the main channel signal is transmitted. In addition, there are dual voice broadcasts for use in bilingual broadcasts as well as the voice type. This dual voice broadcasting sends different voices in the main channel and the sub channel, and each voice is monaural. These voice types can be identified by the control channel signal. Specifically, control channel signals are not inserted for monaural broadcasting, and control channel signals obtained by amplitude modulation of control subcarriers at different frequencies are inserted in stereo broadcasting and dual audio broadcasting. It is possible to automatically determine the type. Here, in relation to the sound effect processing described later, the voice type is divided into two types, stereo and monaural. Hereinafter, monaural voice includes dual voice broadcasting.

The stereo audio decoder 20 receives the audio channel signal extracted from the TV reception signal, determines whether the audio type is stereo or monaural (monaural broadcasting and dual audio broadcasting) based on the control channel signal described above, and performs stereo In the case of determining to be, the L signal and the R signal are generated from the sum signal L + R and the difference signal LR by the matrix circuit, and each is output from the L output terminal and the R 'output terminal. On the other hand, when the audio type is determined as monaural, the same signal is output from both the L and R output terminals.

The stereo audio decoder 20 also sends the determination result of the audio type to the bus 26. The bus 26 consists of, for example, an I ² C bus. The I ² C bus connects a plurality of devices by two signals of serial clock and serial data to exchange data, and operates in synchronization with the clock supplied by the master. In this apparatus, the CPU 24 functions as a master, and the stereo audio decoder 20 and the sound processing circuit 22 can be slaves. The TV receiver is equipped with a microcomputer for tuner control and the like, and the CPU 24 can use what is built in the microcomputer. The stereo audio decoder 20 has a bus interface and writes the result of the determination of the voice type into the buffer of the interface. The CPU 24 reads the determination result written in the buffer of the stereo audio decoder 20, specifies the bus address of the sound processing circuit 22, and sends it out on the bus 26. The sound processing circuit 22 also has a bus interface and designates its own address to obtain the determination result sent from the CPU 24 on the bus 26 from the bus 26.

The sound processing circuit 22 receives the L and R signals output from the stereo audio decoder 20 and executes sound effect processing according to the determination result obtained from the bus 26. When the obtained determination result indicates stereo, the sound processing circuit 22 generates a pseudo surround sound based on the input L and R signals. On the other hand, when the acquired determination result indicates monaural, the sound processing circuit 22 generates a pseudo stereo sound based on the input L and R signals. In this way, the sound processing circuit 22 automatically switches whether to generate pseudo surround voice or pseudo stereo voice based on the determination result transmitted from the stereo voice decoder 20 via the bus 26. The sound processing circuit 22 outputs the generated pseudo surround sound or pseudo stereo sound.

The function of the stereo audio decoder 20 for generating L and R outputs from audio channel signals has been conventionally incorporated in a TV receiver corresponding to stereo, and the present invention provides a result of determination of the type of audio in the stereo audio decoder 20. Is used for the automatic switching of the pseudo surround voice and pseudo stereo voice in the sound processing circuit 22. This configuration eliminates the need for the sound processing circuit 22 to have a sound classification determination function, thereby simplifying and miniaturizing the circuit configuration of the sound processing circuit 22.

In the present apparatus, the stereo audio decoder 20 and the sound processing circuit 22 can be configured as separate ICs, and the bus 26 of a predetermined standard is used to transfer the determination result of the voice type therebetween. In this configuration, even with a TV receiver employing different stereo audio decoders, it is easy to use the common sound processing circuit 22 to obtain pseudo surround audio and pseudo stereo audio. For example, although the above-described apparatus has been described using an NTSC system TV receiver as an example, it is possible to employ the same sound processing circuit 22 in other TV receivers such as the PAL system. In that case, the stereo audio decoder 20 is subjected to processing corresponding to the TV system and replaced with one having an interface portion of a bus having a common specification.

In addition, determination of the voice type in the stereo audio decoder 20 is performed based on the presence or absence of a control channel signal and the amplitude modulation frequency thereof, for example, in the above-described example of the NTSC system. In this way, the determination of the audio type in the stereo audio decoder 20 is made based on the specifications and specifications of the signal for determining the audio type in each TV system. Therefore, the accuracy of the determination can be ensured, and the reliability of automatic switching in the sound processing circuit 22 is improved.

The present invention is applicable not only to a TV receiver but also to other audio / visual equipment. For example, the present invention can be applied to a video recording and reproducing apparatus with a built-in TV tuner, an FM radio receiver, or the like, and a sound processing circuit 22 common to the TV receiver can also be employed in these apparatuses.

In addition, in order to operate the automatic switching in the sound processing circuit 22 based on the L and R signals input from the outside, a determination circuit for determining the voice type from the L and R signals may be provided separately. It may be. Even in that case, the determination result by the determination circuit is configured to be transmitted to the sound processing circuit 22 via the bus 26. In other words, it is possible to easily realize the expansion of adding the determination circuit without changing the sound processing circuit 22.

According to the present invention, by using the voice type determined by the voice signal generation circuit for switching between the pseudo surround voice and the pseudo stereo voice in the sound processing circuit, a separate voice type discrimination circuit is unnecessary, thereby reducing the scale of the apparatus. It is planned. At that time, the transmission of the determination result of the speech type from the sound signal generation circuit to the sound processing circuit is performed via a bus according to a predetermined specification. In other words, as long as the specification of the bus is followed, it is possible to use a common sound processing circuit for voice signal generation circuits such as various TV sets in which the voice classification determination method may be different. In addition, since the determination of the speech type in the speech signal generating circuit is made based on the signal characteristics and characteristics that determine the stereo and monaural in the input signal on which the stereo speech signal and the monaural speech signal are generated, suitable discrimination accuracy is achieved. Is realized.

Claims (3)

A judgment is made as to which type of voice the input signal corresponds to, stereo or monaural. Depending on the result of the determination, one of a stereo voice signal and a monaural voice signal is selectively generated from the input signal to generate an original audio signal. A voice signal generating circuit output as A sound processing circuit for selectively generating any one of a pseudo surround voice and a pseudo stereo voice based on the original audio signal; Buses that allow the transfer of data within the device With The voice signal generation circuit has an interface with the bus, and sends the determination result to the bus. The sound processing circuit includes an interface unit with the bus, obtains the determination result from the voice signal generation circuit through the corresponding bus, and determines which of the pseudo surround sound and the pseudo stereo sound according to the determination result. An audio signal processing apparatus characterized by switching whether or not to generate. The method of claim 1, The audio signal generation circuit receives the audio channel signal of the television reception signal as the input signal, and determines that the audio type is stereo based on the control channel signal included in the audio channel signal, and as the original audio signal. And a stereo decoder for outputting a left voice signal and a right voice signal. The method according to claim 1 or 2, And the sound signal generating circuit and the sound processing circuit are constituted by separate integrated circuits.

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