JP2011164166A - Audio signal amplifying apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an audio signal amplifying apparatus capable of shortening the time from the beginning to the end of measurement of sound field correction at a listening position. <P>SOLUTION: The device includes: a sound signal processing unit for outputting first and second signals; an amplifier unit for amplifying and outputting the first and second signals to speakers of a plurality of channels; a microphone for inputting the first and second signals output by the speakers; an input sound signal analysis unit which measures the time period, until the first signal is input, and which analyzes a frequency characteristic of the second signal; an input and output control unit for setting a delay time and the frequency characteristics of the sound signal of the plurality of channels to be output; and an operation control unit which perform control so that the first signals with different frequency characteristics are output from the plurality of channels, at the same time, and which performs control so that the second signals having the same frequency are output, each having a fixed time difference from among the plurality of channels. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an audio signal amplifying apparatus that amplifies an input audio signal and outputs audio signals of a plurality of channels.

  In recent years, as an audio system installed at home, a multi-channel audio system called a home theater and imitating a movie theater is increasing. In a conventional audio signal amplifying apparatus, an audio signal amplifying apparatus having a function of correcting a sound field at a listening position is known so that the multi-channel audio system constructed as described above can be used in an optimum listening environment. (For example, refer to Patent Document 1).

  According to such an audio signal amplifying device having a function of correcting the sound field at the listening position, a microphone is installed at the listening position, and test signals output from a plurality of speakers are detected by the microphone. By correcting the sound field characteristics of each of the plurality of speakers, the sound field characteristics at the listening position can be optimized.

Japanese Utility Model Publication No. 6-13292

  In the sound field correction function of an audio signal amplifying apparatus having a sound field correction function with a conventional microphone, the frequency characteristics of the sound pressure level are individually measured and analyzed by an amount corresponding to the number of speakers to be corrected. Need to do. For example, in an audio signal amplifying apparatus that amplifies a 5.1ch multi-channel audio signal, test signals are emitted as sound waves from five speakers excluding the subwoofer speaker, and the emitted sound waves are input by a microphone. ,analyse. And sound field correction is performed based on the analysis result about each speaker. Therefore, it takes time to correct the sound field in proportion to the number of connected speakers until the measurement and analysis of the sound field characteristics is completed by the conventional audio signal amplifying device. The time for becomes very annoying.

  The present invention relates to an audio signal amplifying apparatus that amplifies an input audio signal and outputs audio signals of a plurality of channels, and an audio signal amplifying apparatus that can shorten the time from measurement to completion of sound field correction at a listening position. The purpose is to provide.

  The invention according to claim 1 of the present application is an audio signal amplifying apparatus that amplifies an input audio signal and outputs audio signals of a plurality of channels; an audio signal processing unit that outputs a first signal and a second signal; A plurality of amplifiers for amplifying the first signal and the second signal output from the audio signal processing unit and outputting the amplified signals to the speakers of the plurality of channels; the first signal emitted from the speakers; and A microphone for inputting a second signal; and a time until the first signal output from the audio signal processing unit is input via the speaker and the microphone; and the audio signal processing Based on the result of the measurement by the input audio signal analyzer and the input audio signal analyzer that analyzes the frequency characteristics of the second signal that is output from the input unit and input via the speaker and the microphone. The delay time of the audio signals of the plurality of channels to be output is set for each channel, and the frequency characteristics of the audio signals of the plurality of channels to be output based on the analysis result of the input audio signal analysis unit are set to the respective channels. An input / output control unit that is set every time, and an operation control unit that controls to set a channel for outputting the first signal and the second signal output from the audio signal processing unit from among the plurality of channels. The operation control unit controls the audio signal processing unit so that the first signals having different frequency characteristics are simultaneously output from the plurality of channels, and the second signal having the same frequency is output from the plurality of channels. The audio signal processing unit is controlled so that the above signal is output at a constant time difference.

  According to a second aspect of the present invention, in the audio signal amplifying device according to the first aspect, the first signal is an impulse signal.

  According to a third aspect of the present invention, in the audio signal amplifying apparatus according to the first or second aspect, the second signal is a sweep signal.

  According to the present invention, in an audio signal amplifying apparatus that amplifies an input audio signal and outputs audio signals of a plurality of channels, the audio signal amplification that can shorten the time from measurement to completion of sound field correction at the listening position An apparatus can be provided.

1 is a block diagram showing an audio signal amplifying apparatus according to an embodiment of the present invention. The flowchart figure which shows the operation | movement of the sound field correction | amendment in the audio signal amplification apparatus of a present Example.

  Embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing an audio signal amplifying apparatus according to an embodiment of the present invention.
The audio signal amplifying apparatus 100 according to the present embodiment includes a DSP (Digital Signal Processor) 1, a DAC (Digital Analog Converter) 2, an amplifier 3, a microphone 5, an ADC (Analog Digital Converter) 6, a button input unit 7, and a display unit 8. The operation control unit 9 and the audio signal input unit 10 are provided. The audio signal amplifying apparatus 100 according to the present embodiment includes five DACs 2 and five amplifying units 3 each. The five amplifying units 3 are connected to a speaker 4 including a Cch speaker 401, an FLch speaker 402, an FRch speaker 403, an SLch speaker 404, and an SRch speaker 405, respectively.

The audio signal input unit 10 inputs a digital audio signal input from an optical disc reproducing apparatus such as a CD (Compact Disc) player or a DVD (Digital Versatile Disc) player.
The DSP 1 performs arithmetic processing in sound field reproduction in a multi-channel audio system. The DSP 1 includes an audio signal processing unit 101, an input / output control unit 102, and an input audio signal analysis unit 103. The audio signal processing unit 101 generates digital audio signals of a plurality of channels from the digital audio signal input to the audio signal input unit 10. In the present embodiment, the center channel (Cch), front left channel (FLch), front right channel (FRch), surround left channel (SLch) and surround right channel (from the digital audio signal input to the audio signal input unit 10 ( The description will be made assuming that the digital audio signals of five channels of (SRch) are generated. Also, the audio signal processing unit 101 has a sound field correction function, outputs the digital audio signal of each channel with a delay based on the control of the input / output control unit 102, and also outputs the frequency of the digital audio signal to be output An output correction filter function for correcting the characteristics is provided.

  The five DACs 2 convert the 5-channel digital audio signals generated by the audio signal input unit 10 into analog audio signals, respectively. The five amplifying units 3 amplify the 5-channel analog audio signals converted by the DAC 2, respectively. The Cch speaker 401, the FLch speaker 402, the FRch speaker 403, the SLch speaker 404, and the SRch speaker 405 each emit an analog audio signal amplified by the amplifying unit 3 as a sound wave.

  When setting the sound field, the microphone 5 is installed at a listening position for listening to an audio signal, and inputs a sound wave of a test signal emitted from each speaker 4 as an analog audio signal. The ADC 6 converts the analog audio signal input by the speaker 4 into a digital audio signal. Based on the digital audio signal converted by the ADC 6, the input audio signal analysis unit 103 is a time until sound waves emitted from the respective speakers 4 are input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6. And frequency characteristics of sound waves input via the microphone 5 and the ADC 6 are analyzed.

  The input / output control unit 102 sets the delay time of the digital audio signal of each channel output from the audio signal processing unit 101 and the frequency characteristic of the output digital audio signal based on the analysis result by the input audio signal analysis unit 103. It controls the function of the output correction filter that performs.

  The button input unit 7 receives various operation instructions such as reproduction and stop of the audio signal amplifying apparatus 100 and a change in the amplification amount of the audio signal by the amplifying unit 3. Further, the button input unit 7 accepts the start of sound field correction in the audio signal amplifying apparatus 100. The operation control unit 9 includes a microcomputer, and controls the DSP 1, the DAC 2, and the amplification unit 3 based on the operation instruction received by the button input unit 7. The display unit 8 displays the operation instruction content from the button input unit 7 and the control state of the operation control unit 9.

  The audio signal amplifying apparatus 100 according to the present embodiment outputs arithmetic processing by the DSP 1 in sound field reproduction in a multi-channel audio system and outputs a digital audio signal generated by the DSP 1 to the speaker 4 via the DAC 2 and the amplifying unit 3. Since the reproducing means has the same configuration as that of a conventional audio signal amplifying apparatus, description of these reproducing means will be omitted, and only the sound field correcting means at the listening position will be described.

FIG. 2 is a flowchart illustrating the sound field correcting operation in the audio signal amplifying apparatus according to the embodiment.
When performing the sound field correction at the listening position, first, the microphone 5 is installed at the listening position, and then the button input unit 7 instructs the start of measurement / analysis for the sound wave emitted by each speaker 4 (step) S1). Based on the instruction from the button input unit 7, the operation control unit 9 starts measurement / analysis of sound waves emitted from each speaker 4 (step S2). The DSP 1 sets a channel to be measured and analyzed for sound field correction to the front, that is, the FLch speaker 402 and the FRch speaker 403 (step S3) (step S4).

  The audio signal processing unit 101 generates an impulse signal. The impulse signal is a test signal for measuring the time until the sound wave emitted from each speaker 4 is input to the input audio signal analysis unit 103 via the microphone 5.

  In step S4, the speakers 4 to be measured and analyzed for sound field correction are two speakers, the FLch speaker 402 and the FRch speaker 403, and the sound is emitted from the two speakers only by the single microphone 5. Since the sound wave needs to be measured simultaneously, the impulse signal generated by the audio signal processing unit 101 has different frequency characteristics from the FLch speaker 402 and the FRch speaker 403, for example, the Lch impulse signal has a frequency characteristic of 50 Hz to 100 Hz. Two types of impulse signals, an Lch impulse signal and an Rch impulse signal, are generated so as to output an impulse signal having a frequency characteristic of 1 KHz to 10 KHz as a signal (step S5).

  The audio signal processing unit 101 outputs the generated Lch impulse signal and Rch impulse signal. The operation control unit 9 performs control so that the Lch impulse signal output from the audio signal processing unit 101 is emitted from the FLch speaker 402, and the Rch impulse signal output from the audio signal processing unit 101 is FRch. Control is performed so that sound is emitted from the speaker 403 (step S6). The microphone 5 inputs the Lch impulse signal and the Rch impulse signal emitted from the FLch speaker 402 and the FRch speaker 403, respectively, and inputs them to the input audio signal analysis unit 103 via the ADC 6. The input audio signal analysis unit 103 discriminates each of the signals by extracting the input Lch impulse signal and Rch impulse signal based on the difference in frequency characteristics. For example, as described above, when an impulse signal having an Lch impulse signal having a frequency characteristic of 50 Hz to 100 Hz and an Rch impulse signal having a frequency characteristic of 1 KHz to 10 KHz is output, an audio signal of 50 Hz to 100 Hz is output. The Lch impulse signal is discriminated by the filter that extracts only the Rch, and the Rch impulse signal is discriminated by the filter that extracts only the audio signal of 1 KHz to 10 KHz. Based on the discrimination result between the Lch impulse signal and the Rch impulse signal, the input audio signal analysis unit 103 outputs the Lch impulse output from the audio signal processing unit 101 and emitted from the FLch speaker 402 and the FRch speaker 403, respectively. The time until the signal and the Rch impulse signal are input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6 is measured, and the result is stored (step S7).

  Next, the audio signal processing unit 101 generates a sweep signal. The sweep signal is a test signal for analyzing the frequency characteristic of the audio signal when the sound wave emitted from each speaker 4 is input to the input audio signal analysis unit 103 via the microphone 5.

  Here, the speakers 4 to be measured and analyzed for sound field correction are two speakers, an FLch speaker 402 and an FRch speaker 403, and sound waves emitted from the two speakers by only a single microphone 5. Therefore, the sweep signal generated by the audio signal processing unit 101 is swept so that the FLch speaker 402 and the FRch speaker 403 output the same frequency output timing with a constant time difference. Two types of sweep signals are generated: a signal and an Rch sweep signal (step S8).

  The audio signal processing unit 101 outputs the generated Lch sweep signal and Rch sweep signal. The operation control unit 9 performs control so that the Lch sweep signal output from the audio signal processing unit 101 is emitted from the FLch speaker 402, and the Rch sweep signal output from the audio signal processing unit 101 is FRch. Control is performed so that sound is emitted from the speaker 403 (step S9). The microphone 5 inputs the Lch sweep signal and the Rch sweep signal emitted from the FLch speaker 402 and the FRch speaker 403, respectively, and inputs them to the input audio signal analysis unit 103 via the ADC 6. The input audio signal analysis unit 103 analyzes the frequency characteristics of the Lch sweep signal and the Rch sweep signal emitted from the FLch speaker 402 and the FRch speaker 403, respectively, and stores the results (step S10).

  Next, the DSP 1 sets a channel to be measured and analyzed for sound field correction in the center, that is, the Cch speaker 401 (step S11) (step S12).

  In step S12, the speaker 4 to be measured / analyzed for sound field correction is one speaker of the Cch speaker 401, and in order to measure sound waves emitted from one speaker by a single microphone 5, The impulse signal generated by the audio signal processing unit 101 generates one type of impulse signal of the Lch impulse signal described above (step S13).

  The audio signal processing unit 101 outputs the generated Lch impulse signal. The operation control unit 9 performs control so that the Lch impulse signal output from the audio signal processing unit 101 is emitted from the Cch speaker 401 (step S14). The microphone 5 inputs the Lch impulse signal emitted from the Cch speaker 401 and inputs it to the input audio signal analysis unit 103 via the ADC 6. The input audio signal analysis unit 103 is a process until the Lch impulse signal output from the audio signal processing unit 101 and emitted from the Cch speaker 401 is input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6. Time is measured and the result is stored (step S15).

  Next, as described above, the audio signal processing unit 101 has the frequency of the audio signal when the sound wave emitted from each speaker 4 is input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6. Generate a sweep signal to analyze the characteristics.

  Here, the speaker 4 to be measured / analyzed for correcting the sound field is one speaker of the Cch speaker 401, and a single microphone 5 measures sound waves emitted from one speaker. The sweep signal generated by the signal processing unit 101 generates one type of sweep signal of the Lch sweep signal (step S16).

  The audio signal processing unit 101 outputs the generated Lch sweep signal. The operation control unit 9 controls the Lch sweep signal output from the audio signal processing unit 101 to be emitted from the Cch speaker 401 (step S17). The microphone 5 inputs the Lch sweep signal emitted from the Cch speaker 401 and inputs it to the input audio signal analysis unit 103 via the ADC 6. The input audio signal analysis unit 103 analyzes the frequency characteristic of the Lch sweep signal emitted from the Cch speaker 401 and stores the result (step S18).

  Next, the DSP 1 sets the channels to be measured and analyzed for sound field correction to the surround, that is, the SLch speaker 404 and the SRch speaker 405 (step S19) (step S20).

  Next, the audio signal processing unit 101 generates an Lch impulse signal and an Rch impulse signal as described in Step S5 (Step S21).

  The audio signal processing unit 101 outputs the generated Lch impulse signal and Rch impulse signal. The operation control unit 9 performs control so that the Lch impulse signal output from the audio signal processing unit 101 is emitted from the SLch speaker 404, and the Rch impulse signal output from the audio signal processing unit 101 is SRch. Control is performed so that sound is emitted from the speaker 405 for operation (step S22). The microphone 5 inputs the Lch impulse signal and the Rch impulse signal emitted from the SLch speaker 404 and the SRch speaker 405, respectively, and inputs them to the input audio signal analysis unit 103 via the ADC 6. The input audio signal analysis unit 103 inputs the Lch impulse signal and the Rch impulse signal output from the audio signal processing unit 101 and emitted from the SLch speaker 404 and the SRch speaker 405 to the DSP 1 via the microphone 5. The time until it is measured is measured and the result is stored (step S23).

  Next, the audio signal processing unit 101 generates an Lch sweep signal and an Rch sweep signal as described in step S8 (step S24).

  The audio signal processing unit 101 outputs the generated Lch sweep signal and Rch sweep signal. The operation control unit 9 controls the Lch sweep signal output from the audio signal processing unit 101 to be emitted from the SLch speaker 404, and the Rch sweep signal output from the audio signal processing unit 101 is the SRch. Control is performed so that sound is emitted from the speaker 405 (step S25). The microphone 5 inputs the Lch sweep signal and the Rch sweep signal emitted from the SLch speaker 404 and the SRch speaker 405, respectively, and inputs them to the input audio signal analysis unit 103 via the ADC 6. The input audio signal analysis unit 103 analyzes the frequency characteristics of the Lch sweep signal and the Rch sweep signal emitted from the SLch speaker 404 and the SRch speaker 405, respectively, and stores the results (step S26).

  Based on the measurement results of each speaker 4 stored by the input audio signal analysis unit 103 in steps S7, S15, and S23, the input / output control unit 102 receives sound waves emitted from the speakers 4 at the installation positions of the microphones 5, respectively. The delay time of the audio signal of each channel output from the audio signal processing unit 101 is set so that the sound wave arrival time is appropriate (step S27).

  Next, the input / output control unit 102 installs the microphone 5 with the sound wave emitted from each speaker 4 based on the analysis result of each speaker 4 stored by the input audio signal analysis unit 103 in steps S10, S18, and S26. The frequency characteristic of the audio signal of each channel output from the audio signal processing unit 101 is set so that the frequency characteristic is appropriate at each position (step S28).

  As described above, the audio signal amplifying apparatus 100 corrects the sound field of each channel at the listening position so that the constructed multi-channel audio system can be used in the optimum listening environment at the position where the microphone 5 is installed, that is, at the listening position. It can be performed. At this time, an impulse signal for measuring the time until sound waves emitted from the FLch speaker 402 and the FRch speaker 403 are input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6 at the same time. It outputs and measures, and also measures the time until sound waves emitted from the SLch speaker 404 and SRch speaker 405 are input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6. Are simultaneously output and measured, and sound waves emitted from the FLch speaker 402 and the FRch speaker 403 are input to the input audio signal analysis unit 103 via the microphone 5 and the ADC 6. Simultaneously analyze the sweep signal to analyze the frequency characteristics of the audio signal, and for SLch To simultaneously analyze the sweep signal for analyzing the frequency characteristics of the sound signal input to the input sound signal analysis unit 103 via the microphone 5 and the ADC 6 as sound waves emitted from the speaker 404 and the SRch speaker 405, respectively. It is possible to shorten the time from measurement to completion of sound field correction for all channels at the listening position.

  The audio signal amplifying apparatus 100 according to the present embodiment performs an Lch impulse when the FLch speaker 402 and the FRch speaker 403 are measured and analyzed simultaneously, or when the SLch speaker 404 and the SRch speaker 405 are measured and analyzed simultaneously. It is configured to output two types of impulse signals at the same time, two types of impulse signals of the signal and Rch impulse signal, and two types of sweep signals that are output at a certain time difference between the Lch sweep signal and the Rch sweep signal. The measurement and analysis of three or more types of speakers may be simultaneously performed using the above impulse signal and three or more types of sweep signals output with a certain time difference. As a result, it is possible to further shorten the time from measurement to completion of sound field correction for all the channels at the listening position.

  INDUSTRIAL APPLICABILITY The present invention is useful for correcting the sound field of sound waves output from a plurality of speakers in an audio signal amplifying apparatus that amplifies an input audio signal and outputs audio signals of a plurality of channels.

1 DSP, 101 audio signal processing unit, 102 input / output control unit,
103 input audio signal analysis unit, 10 audio signal input unit,
2 DAC, 3 amplifier,
4 speakers, 401 Cch speakers, 402 FLch speakers,
403 FRch speaker, 404 SLch speaker,
405 SRch speaker, 5 microphone, 6 ADC, 7 button input unit,
8 Display unit, 9 Operation control unit, 10 Audio signal input unit,
100 Audio signal amplifier

Claims (3)

In an audio signal amplifying apparatus that amplifies an input audio signal and outputs audio signals of a plurality of channels,
An audio signal processing unit for outputting the first signal and the second signal;
A plurality of amplifying units for amplifying the first signal and the second signal output from the audio signal processing unit and outputting the amplified signals to the speakers of the plurality of channels;
A microphone for inputting the first signal and the second signal emitted from the speaker;
The time until the first signal output from the audio signal processing unit is input via the speaker and the microphone is measured, and the speaker and the microphone output from the audio signal processing unit are measured. An input audio signal analysis unit for analyzing the frequency characteristics of the second signal input via
A delay time of audio signals of a plurality of channels to be output based on the measurement result of the input audio signal analysis unit is set for each channel, and output based on the analysis result of the input audio signal analysis unit An input / output control unit for setting frequency characteristics of audio signals of a plurality of channels for each channel;
An operation control unit for controlling to set a channel for outputting the first signal and the second signal output from the audio signal processing unit from the plurality of channels;
The operation control unit controls the audio signal processing unit so that first signals having different frequency characteristics are simultaneously output from a plurality of channels, and second signals having the same frequency are output from the plurality of channels. An audio signal amplifying apparatus, wherein the audio signal processing unit is controlled so as to be output at a constant time difference. The audio signal amplifying device according to claim 1, wherein
The audio signal amplifying apparatus according to claim 1, wherein the first signal is an impulse signal. The audio signal amplifying device according to claim 1 or 2,
The audio signal amplifying apparatus, wherein the second signal is a sweep signal.

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