KR0172494B1 - Audio device for parallel output - Google Patents

Abstract

The present invention relates to an audio device capable of performing balanced output by transmitting a phase-inverted stereo audio signal using a remaining channel which is not used in transmitting a stereo audio signal in an audio device transmitting a multichannel audio signal. The audio device of the present invention generates an operation mode signal according to a user's channel number indication, and a digital unit for generating an audio signal and a phase inverted audio signal based on the generated operation mode signal, and an audio received from the digital unit. And a D / A converter for analog-converting signals, and an output unit for multi-channel output and balanced output of an audio signal from the D / A converter in response to an operation mode signal from the controller. Accordingly, the present invention is intended to minimize the noise influx generated during signal transmission by performing balanced output using the remaining channels which are not used in the transmission of the stereo audio signal in the multi-channel audio device.

Description

Audio device for balanced output

1 is a block diagram showing the configuration of a multi-channel audio device according to an embodiment of the present invention.

2 is a block diagram showing a digital unit for generating a phase inverted audio signal using a phase inverter.

3 is a block diagram showing an output unit of an audio device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: digital part 20: D / A conversion part

30: output unit 40: control unit

The present invention relates to an audio device for balanced output. In particular, when transmitting an audio signal through 4 to 6 channels and transmitting a stereo audio signal using only two channels, the balanced output is performed using the remaining unused channels. It relates to a channel audio device.

In general, the balanced output is to minimize the noise influx received during signal transmission by outputting an inverted phase signal inverting the phase of the normal signal, unlike the unbalanced output that transmits the signal alone. Therefore, since the balanced output can reduce the noise inflow on the transmission and ensure the reliable connection on the contact point, the use is extended from the business acoustic equipment which needs high performance and high reliability, and the area is extended to the high-end home audio equipment. However, the conventional digital audio device requires only two channels for stereo output, but the price increases significantly because two additional circuits are required for balanced output. In addition, despite the fact that the multi-channel audio device has 4 to 6 channels, there is an inefficient problem in that a system using only two channels does not use any other channel except for two channels for transmitting an audio signal.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to reduce noise influx during signal transmission by performing balanced output using the remaining channels that are not used during two-channel operation in a multi-channel digital audio device. This is to improve the performance during 2-channel playback.

Accordingly, an object of the present invention is to provide an audio device for a multi-channel audio signal, comprising: indicating means for generating an operation mode signal for indicating an audio channel to be used, and a predetermined number of output stages for outputting the multi-channel audio signals. And audio signal generating means for generating a phase-inverted audio signal corresponding to the multi-channel audio signal and the multi-channel audio signal according to the operation mode signal, and outputting the output signal through a predetermined number of output stages and the audio signal generating means. A signal transmission means for transmitting the channel audio signal and its corresponding inverted audio signal through a predetermined number of transmission channels.

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

1 is a block diagram showing the configuration of a multi-channel digital audio device according to an embodiment of the present invention. As shown, the user instructs the operation mode for transmitting the multi-channel audio signal and the operation mode for outputting the stereo audio signal, the control unit 40 generates an operation mode signal according to the user's operation mode selection. Meanwhile, the digital unit 10 generates a multi-channel audio signal, and generates an inverted audio signal according to an operation mode signal for transmitting the stereo audio signal from the controller 40. The D / A converter 20 receives the multi-channel audio signal and the phase inverted audio signal and performs analog conversion. The output unit 30 configures the tenth multiplexer MUX10 from the first multiplexer MUX1 and switches the output according to the operation mode signal from the control unit 40. That is, in response to the operation mode signal for outputting the multi-channel audio signal from the controller 40, the audio signal from the D / A converter 20 is output through the multi-channel output unit 32, and the stereo audio signal is output. The stereo audio signal is transmitted through the balanced output unit 31 in response to the operation mode signal for output.

The operation of the apparatus of FIG. 1 configured as described above will be described in more detail with reference to the accompanying drawings.

First, the user indicates the number of channels for transmitting audio signals through key input. The controller 40 generates an operation mode signal according to a user's instruction. Here, the digital unit 10 receives the operation mode signal for transmitting the multi-channel audio signal from the control unit 40 according to the operation mode instruction for transmitting the audio signal in the multi-channel. The digital unit 10 generates an audio signal based on audio data applied in response to an operation mode signal from the controller 40, and generates the generated audio signals in left and right (L, R) channels and surrounds left and right. Transmit via (L _S , R _S ) channels and center subwoofer (C, Sw) channels. The D / A converter 20 separates audio signals applied from each channel into respective audio signals, and each of the separated audio signals is analog-converted by a D / A converter provided for each channel. The output unit 30 outputs the audio signal from the D / A converter 20 through the multi-channel output unit 32.

On the other hand, if the user instructs the operation mode for the transmission of the stereo audio signal, and transmits the phase-inverted audio signal for the balanced output by using the remaining unused channel. The controller 40 generates an operation mode signal for transmitting the stereo audio signal according to the user's instruction to transmit the stereo audio signal. The digital unit 10 generates stereo audio signals L and R from the stereo audio data to be applied. In addition, the digital unit 10 generates audio signals -L and -R in which the stereo audio signals L and R are phase-inverted in response to the operation mode signal from the control unit 40. FIG. Here, the generation of the phase-inverted audio signals -L and -R is for balanced output. The digital unit 10 uses the center (C) channel, left and right surround (L _S and R _S ) channels, and subwoofer channel, which are not used when using multiple channels, to stereo audio signals (L and R). And outputs audio signals (-L, -R) inverted phase. Referring to FIG. 2, the digital unit 10 for phase inverting a stereo audio signal will be described.

FIG. 2 is a block diagram showing a digital unit for generating a phase inverted audio signal using a phase inverter. The digital unit 10 is programmed in a digital signal processor (DSP) or a high density integrated circuit (LSI). By doing so, the phase of the stereo audio signal can be reversed without the circuit configuration. However, if the program cannot be performed, the phase inverter 11 is used as shown. The phase inverter 11 inverts the stereo audio signals L and R generated by the digital signal processor 12 in phase. The first multiplexer MUX1 is a stereo channel audio signal phase-inverted by the surround channel audio signal L _S and R _S and the phase inverter 11 among the multi-channel audio signals generated by the digital signal processor 12. (L, -L) is selectively output according to the operation mode signal, and the second multiplexer (MUX2) is the center (C) and subwoofer (Sw) among the multi-channel audio signals generated by the digital signal processor 12. The audio signal and the stereo channel audio signals R and -R phase-inverted by the phase inverter 11 are selectively output in accordance with the operation mode signal from the control unit 40.

Referring to FIG. 1 again, the D / A converter 20 is applied from the digital unit 10 through the left and right surround (L _S , R _S ) channels and the center subwoofer (C, Sw) channel. Stereo audio signals (L, R) and phase-inverted audio signals (-L, -R) are separated into left and right stereo signals, and phase-inverted left (-L) and right (-R) stereo signals. Separate. Each of the separated audio signals is analog converted through a D / A converter provided for the multichannel audio signals. The output unit 30 transmits the multi-channel audio signal and the phase-inverted audio signal corresponding thereto through a predetermined number of transmission channels. Here, the signal output process of the output unit 30 will be described with reference to FIG.

3 is a block diagram showing an output unit of an audio device according to the present invention, wherein the control unit 40 transmits an audio signal generated through the multiplexers MUX1 to MUX10. The first multiplexer (MUX1) to the fourth multiplexer (MUX4) constitute a balanced output unit 31 for outputting a balanced audio signal, and the third multiplexer (MUX5) to the tenth multiplexer (MUX10) are multi-channel audio signals. Configure a multi-channel output unit 32 for outputting. Thus, when the operation mode signal for multi-channel output from the control unit 40 is applied, the multi-channel audio signals L, R, C, L _S , R _S and Sw from the D / A converter 20 are changed. When the operation mode signal for outputting using the channel output unit 32 and outputting the stereo audio signal is applied, the stereo audio signal is transmitted through the balanced output unit 31.

As described above, when a stereo audio signal is transmitted even though a multi-channel audio signal is transmitted in order to transmit the multi-channel audio signal of the present invention, balanced output is performed using the remaining channel which is not used, thereby outputting a stereo audio signal. Rather than separately configuring a 6-channel home theater system for outputting audio signals to a multi-channel music audio system, there is an effect that a high-performance audio device can be provided at a relatively low price.

Claims (5)

An audio device for a multi-channel audio signal, comprising: indicating means for generating an operation mode signal for indicating an audio channel to be used; And a predetermined number of output stages for outputting multi-channel audio signals, and generating a phase-inverted stereo audio signal related to the multi-channel audio signal and the multi-channel audio signal according to the operation mode signal to generate the predetermined number of output stages. Audio signal generating means for outputting selectively through; And selecting the multi-channel audio signals from the audio signal generating means when the operation mode signal for the multi-channel audio signal is applied from the indicating means, and the audio for the balanced output when the operation mode signal for the stereo channel audio signal is applied. And a signal transmission means for selecting the phase inverted and non-phase inverted stereo audio signals from the signal generating means and transmitting the signal through a predetermined number of transmission channels. The audio signal generating unit of claim 1, wherein the audio signal generating unit is not used for transmission of a stereo audio signal among the output terminals when an operation mode signal indicating that the stereo channel audio signal is used as an audio channel to be used from the indicating unit is applied. And an inverted stereo channel audio signal through an output terminal. The digital signal processor of claim 1, wherein the audio signal generating means comprises: a digital signal processor for generating a multichannel audio signal from the multichannel audio data in response to an operation mode signal; A phase inverter for phase inverting the stereo-L channel audio signal and the stereo-R channel audio signal generated by the digital signal processor; And first multiplexer means for selectively outputting a surround channel audio signal and a stereo channel audio signal phase-inverted by the phase inverter among the multichannel audio signals generated by the digital signal processor according to the operation mode signal. Audio device for balanced output. The audio signal generating means according to claim 1 or 3, wherein the phase-inverted audio signal output from the audio signal generating means is stereo-L channel audio programmatically using a digital signal processing processor (DSP) / high density integrated circuit (LSI). An audio device for balanced output, comprising: phase reversal of a signal and a stereo-R channel audio signal. 2. The stereo channel audio signal and stereo channel of claim 1, wherein the signal transmission means includes a first transmission channel for transmitting a phase inverted audio signal, and is applied from the audio signal generating means in response to the operation mode signal. And a second multiplexer means for transmitting a phase-inverted audio signal corresponding to an audio signal through said first transmission channel.