KR100619060B1 - Apparatus and method for correcting over low-band in audio system - Google Patents

Abstract

A transient low pass correction device and method for correcting excessive low pass characteristics of an audio device to provide high quality sound are disclosed. The present invention includes a process of calculating an average power level of all bands for a wideband signal micro-received by a speaker, and comparing the average power level with the low power level of the wideband signal to determine whether high-frequency filtering passes through the sound source. do.

Description

Apparatus and method for correcting over low-band in audio system

1 is a block diagram of a sound field correction apparatus of a conventional audio device.

2 and 3 show the radiated acoustic power and its frequency characteristic of the point source in the vicinity of the planar baffle.

4 is a first embodiment of a transient low pass correction apparatus according to the present invention.

5 is a second embodiment of the transient low pass correction apparatus according to the present invention.

6 is a flowchart showing a transient low pass correction method of an audio system according to the present invention.

TECHNICAL FIELD The present invention relates to an audio system, and more particularly, to a transient low pass correction device and a method for correcting excessive low pass characteristics of an audio device to provide high quality sound.

In general, wrong speaker positioning by a user or poor playback space may result in deterioration of sound quality. In particular, excessive low frequencies caused by the user may have a detrimental effect on deterioration of reproduction sound quality. Therefore, it is necessary to reproduce the distortion-free sound through the correction of these low frequency bands.

1 is a block diagram of a sound field correction apparatus of a conventional audio device.

Referring to FIG. 1, when the speaker 120 is connected to the noise generator 110, the noise generator 110 generates a full band noise test signal. The band pass filters 150-1 to 150 -N perform band pass filtering on the N bands of the full band noise test signal received from the speaker 120 through the microphone 130. The level and phase compensators 160-1 to 160 -N generate compensation filter coefficients that compensate the level and phase for each band of the band pass filtered signal in the band pass filters 150-1 to 150 -N. . The boost filters 140-1 to 140 -N apply the band-specific compensation filter coefficients generated by the level and phase compensators 160-1 to 160 -N when the speaker 120 is connected to the input of the sound source. Compensate for frequency characteristics flatly.

Conventional sound field correction apparatus as shown in FIG. 1 has a complicated technique for correcting frequency characteristics. In other words, the use of the FIR filter requires a large amount of calculation because it needs to be divided into many taps to correct frequency characteristics. In addition, the use of an IIR filter requires varying the number of bands, center frequency, width (Q), and boost of the filter for accurate sound field correction, which requires a large amount of computation to calculate all of them. In this case, if the filter is designed by fixing some of the number of bands, the center frequency, the width (Q), and the degree of boost, and varying the rest, the frequency correction characteristic is deteriorated.

 SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a transient low pass correction device and a method for automatically correcting excessive low range characteristics of an audio device to provide high quality sound.

In order to solve the above technical problem, the present invention provides a transient low-pass correction method of the audio system,

Calculating an average power level of all bands for the wideband signal micro-received in the speaker;

And comparing the average power level with the low power level of the wideband signal to determine whether or not the high frequency filtering passes through the sound source.

In order to solve the above other technical problem, the present invention provides a transient low pass correction apparatus of an audio system,

A noise generator for outputting a full band noise signal to the speaker;

A controller for calculating a full-band average power level for the full-band noise signal micro-received by the speaker, and outputting a high frequency filtering pass signal of a sound source according to the comparison between the average power level and the low pass power level;

And a high pass filter configured to attenuate the transient low pass signal by high frequency filtering the input sound source when the high frequency filtering pass signal is input from the controller.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 and 3 show the radiated acoustic power and its frequency characteristic of the point source in the vicinity of the planar baffle.

Considering the planar baffle as a wall, the closer to the wall and the closer to the edge of the wall, the greater the low-end energy. In addition, it can be said that the sound power decreases rapidly in the vicinity of the frequency where the distance between the point source and the corner is about half wavelength. To avoid these dips and peaks, the speakers should not be placed in the corners of three planes. In a typical living room, however, speaker placement is often located at the corners or walls of three planes. In the present invention, a high pass filter is used to correct such poor spatial characteristics.

4 is a first embodiment of a transient low pass correction apparatus according to the present invention.

4 includes a noise generator 410, an HPF unit 420, a controller 430, a speaker 440, and a microphone 450.

The switch SW selects one of the signals output from the noise generator 110 and the HPF unit 420 and outputs the signal to the speaker 440.

When the noise generator 110 is connected to the speaker 440 through a switch SW, the noise generator 110 generates a full-band noise test signal and outputs it to the speaker 440.

The controller 430 calculates an average power level of all bands for the full band noise test signal received from the speaker 440 to the microphone 450, and compares the average power level with the low pass power level to filter the high frequency of the sound source. A high frequency filtering pass switching signal is generated to determine whether a pass is present. At this time, the control unit 430 outputs the high frequency filtering pass switching signal as the "H" level when the average power level is greater than the low pass power level, and the high frequency filtering pass switching signal as the "L" level when the average power level is less than the low pass power level. Output

The HPF unit 420 is configured in order N. When the high frequency filtering pass switching signal is “H” level, the control unit 430 attenuates the low frequency signal by high frequency filtering the input sound source, and the high frequency filtering pass switching signal is “L”. "Level bypasses the incoming sound source.

5 is a second embodiment of the transient low pass correction apparatus according to the present invention.

4 includes a noise generator 410, an HPF unit 420, a controller 430, a speaker 440, a microphone 450, and a space correction unit 460.

If the high frequency filtering pass switching signal is "H" level in the control unit 430, the space correction unit 460 corrects the used band characteristics in the space using a predesigned correction filter for the input audio signal, and the high frequency filtering pass switching signal. If the level is "L" Bypass the input sound source as it is. According to an embodiment of the spatial correction unit 460, the bandpass filtering of the microband received by the speaker for each N bands is performed, and the bands and the bands are compensated for each band of the bandpass filtered signal in the bandpass filters. Compensation filter coefficients are generated, and the band-based compensation filter coefficients are applied to smoothly compensate the frequency characteristic of the input audio signal.

The noise generator 410, the HPF unit 420, the controller 430, the speaker 440, and the microphone 450 are the same as the operation described with reference to FIG. 4, and thus will be omitted.

Therefore, if the average power level is greater than the low pass power level, the apparatus of FIG. 4 corrects the mid-range characteristic through the spatial correction unit 460 and attenuates the low pass signal through the HPF unit 420 for the input sound source.

6 is a flowchart showing a transient low pass correction method of an audio system according to the present invention.

The full-band test signal output from the speaker 440 is received through the microphone 450 (operation 610).

In operation 620, the full-band average power level of the received test signal is calculated.

Subsequently, the full-band average power level of the test signal is compared with the low-pass power level of the test signal in step 630.

At this time, if the average power level is greater than the low pass power level, it is determined that there is no transient low pass component, and the input sound source is passed as it is without passing through the high pass filter (step 650). If the average power level is less than the low pass power level, the transient low pass is determined. After determining that the component exists, the input sound source is passed through the high pass filter to correct the low range (step 660).

The present invention is not limited to the above-described embodiment, and of course, modifications may be made by those skilled in the art within the spirit of the present invention.

 As described above, the present invention improves sound quality due to poor listening environment or poor positioning of the speaker during sound reproduction by automatically correcting excessive low range characteristics according to the comparison between the full-band average power level of the global test signal and its low-pass power level. In addition, the sound quality deterioration can be minimized, and low frequency correction, which is complicated in the existing room correction, can be simply implemented to reproduce the optimal sound without distortion.

Claims (4)

delete In the transient low pass correction method of an audio system, Calculating an average power level of all bands for the wideband signal micro-received in the speaker; Comparing the average power level with a low pass power level of the wideband signal; Bypassing the sound source if it is determined that the average power level is higher than the low pass power level, and bypassing the sound source if the average power level is lower than the low pass power level; Transient low-pass correction method of audio system. In the transient low pass correction device of an audio system, A noise generator for outputting a full band noise signal to the speaker; A controller for calculating a full-band average power level for the full-band noise signal micro-received by the speaker, and outputting a high frequency filtering pass signal of a sound source according to the comparison between the average power level and the low pass power level; And a high pass filter configured to attenuate the transient low pass signal by high frequency filtering the input sound source when the high pass filtering pass signal is input from the controller. The transient low pass correction device of claim 3, further comprising a spatial correction unit configured to correct a used band characteristic of a sound source signal when a high frequency filtering pass signal is input from the control unit.

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