KR100835637B1 - Audio signal processor and the operating method of the same - Google Patents

Abstract

The present invention relates to an audio signal processing apparatus and a method of operating the same, which extracts bass below speaker output capability from an original audio signal, multiplies the frequency of the extracted bass, and adds the integer multiple bass to the original audio signal. A low tone reinforcement unit for outputting and a signal compensator for dividing and filtering the original audio signal into a plurality of frequency bands during data compression, compressing the filtered frequency bands, and adding the divided and compressed audio signals to the original audio signal. In addition, in order to compensate for the reproduction of the original sound signal and the realism of the acoustic characteristics, there is an effect of improving the contrast of the audio signal and reproducing rich bass even in a speaker having a small aperture in the digital signal processing process of the audio signal.

Bass, Speaker, Audio Signal, Signal Processing, Sound Image

Description

Audio signal processing apparatus and its operation method {Audio signal processor and the operating method of the same}

1 is a structural diagram of an audio signal processing apparatus according to the present invention;

2 is a flowchart illustrating a method of operating an audio signal processing apparatus according to the present invention.

<Explanation of symbols on main parts of the drawings>

100: low reinforcement unit 110: adder

120: low pass filter 130: microcomputer

140: delay unit 200: signal correction

210: adder 220: filter

230: compression unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an audio signal processing apparatus and a method of operating the same, wherein an audio signal is changed by an environment in which an audio signal is reproduced, or a loss of an audio signal generated during a data compression process when a digital medium such as CD or MD is produced Accordingly, the present invention relates to an audio signal processing apparatus and an operation method thereof capable of improving contrast of audio signals and reproducing rich bass even in a speaker having a small aperture.

The audio signal is influenced by the speaker output and aperture to be reproduced, the structure of the space where the audio signal is reproduced, and the interior material. Audio signals should always be played at a constant level, from low to high frequencies.

If you do not have a home theater system that can reproduce signals of all frequency bands, a typical speaker is designed to reproduce the signal in the middle frequency range of 200Hz to 4kHz, which is the human voice area. It is very different from.

In addition, the general speaker has a small aperture and lacks the ability to reproduce an audio signal having a frequency of less than 100 Hz due to the structure of the speaker.

In particular, the speaker mounted inside the vehicle has not only low performance of the speaker, but also the space inside the vehicle is small and it is difficult to provide a woofer speaker for bass reproduction. Since the audio signal is distorted, the audio signal that a human hears is greatly different from the original sound signal.

Recently, a digital system for converting and storing an audio signal, which is an analog signal, into a digital signal, has been widely used to store more songs on a storage medium such as a CD, MD, or DVD.

In order to store the audio signal in a storage medium such as CD, MD, DVD, the analog signal is converted into a digital signal, and then compressed and stored. In this process, the loss of the audio signal occurs.

Accordingly, there is a problem that the contrast of the audio signal is lowered and a sensitive user may feel distortion of the audio signal due to the loss of the audio signal generated during the digital conversion process and the compression process.

The present invention has been made to solve the above problems of the prior art, the object of which is to change the audio signal due to the environment in which the audio signal is reproduced or audio generated in the data compression process when producing a digital medium such as CD or MD The present invention provides an audio signal processing apparatus and a method of operating the same, which compensate for signal loss, reduce distortion of an audio signal, improve contrast of an audio signal, and reproduce rich bass in a speaker having a small aperture.

According to a feature of the audio signal processing apparatus according to the present invention for solving the above problems, a low reinforcement unit for extracting a frequency less than the speaker output capability, and adding a signal multiplied by the frequency to the original signal to reinforce the bass sound; And compressing the audio signal through a plurality of band pass filters (hereinafter referred to as BPFs) by dividing the frequency band, and adding the compressed signal to the original audio signal to reduce the loss of sound that may occur during data compression. It is configured to include a wealth.

In addition, according to a feature of the operating method of the audio signal processing apparatus according to the present invention, if the first step of inputting the audio signal output mode and the audio signal output mode input in the first step is low reinforcement, A second step of extracting the frequency, adding the signal multiplied by the frequency and the original signal, and converting the audio signal is performed.

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

Audio signal processing apparatus according to the present invention, as shown in Figure 1 extracts a frequency less than the speaker output capability, the bass reinforcement unit 100 for reinforcing the bass by adding a signal obtained by multiplying the frequency to the original audio signal, A signal correction unit reduces the loss of sound that may occur during data compression by adding the compressed signal to the original audio signal by compressing the audio signal through a plurality of band pass filters (hereinafter referred to as BPFs). 200 is basically provided.

The bass reinforcement unit 100 generates n-times harmonics by integrally multiplying a low pass filter 120 (hereinafter referred to as LPF) and a signal passing through the LPF to extract a signal having a frequency less than or equal to a speaker output capability. A delay unit 140 for delaying the microcomputer 130 and the original audio signal, and an adder 110 for adding and processing the harmonics output from the microcomputer and the original audio signal output from the delay unit.

The cut off frequency of the LPF 120 may be set differently according to the output capability of the speaker that reproduces the audio signal passing through the audio signal processing apparatus of the present invention.

In the case of a general speaker, an audio signal having a frequency of 50HZ to 100Hz or less cannot be reproduced, so the cutoff frequency of the LPF 120 is typically set to about 100Hz.

The microcomputer 130 generates harmonics by integrally multiplying the audio signal passing through the LPF 120, and the adder 110 adds the harmonics to the original audio signal passing through the delay unit 140. In addition, the bass portion is emphasized in the audio signal passing through the adder 110 to enhance the reproducibility of the original audio signal.

In this case, the original audio signal added by the adder 110 is a signal delayed by the time that the original audio signal passes through the LPF 120 and the microcomputer 130 to form harmonics.

A general audio signal can reproduce almost the same audio signal as the original audio signal by adding up harmonics generated by multiplying the frequency. For example, an audio signal having a frequency of 50 Hz can be restored by the sum of harmonics such as 100 Hz, 150 Hz, 200 Hz, etc., which is an integer multiple of the frequency. Real speakers can't reproduce signals below 50 Hz, but by reproducing the sum of the harmonics of a 50 Hz signal, it sounds like a speaker is actually reproducing a 50 Hz signal.

 That is, although the signal below the output capability of the speaker is not directly reproduced, an output signal of less than the speaker output capability is reproduced by outputting the sum signal of the harmonics.

Therefore, as the number of harmonics generated by the microcomputer 130 increases, the bass enhancement effect output from the bass reinforcement unit 100 increases.

The signal compensator 200 includes a filter unit 220 for extracting the original audio signal by frequency band, a compression unit 230 for compressing the signal passing through the filter unit, a signal passing through the compression unit, and an original audio signal. It is configured to include an adder 210 for adding processing.

The filter unit 220 may include one or more low pass filters 221 (hereinafter referred to as LPF), a band pass filter (hereinafter referred to as BPF), and one or more high pass filters (223, referred to as HPF). It is composed.

In general, when the audio signal is stored in a storage medium such as CD, DVD, MD, it is converted into a digital signal and then compressed and stored. At this time, sampling and quantization errors occurring in the digital signal conversion process occur, and a fine audio signal loss occurs in digital signal compression.

Therefore, the LPF 221, the BPF 222, and the HPF 223 are used to convert the original audio signal stored in the storage medium to correct the damage and loss of the audio signal generated during the digital signal change processing and compression. An audio signal is extracted for each frequency band, the extracted audio signal is compressed through the compression unit 230, and then added to the original audio signal to generate an audio signal.

Here, when the frequency band is further subdivided, the audio signal is extracted, compressed, and added to the original audio signal, the contrast of the restored audio signal is improved to improve the clarity of the reproduced sound.

In addition, the LPF 221, BPF 222, HPF 223 can be used independently. That is, when only the signal in the low frequency region is to be corrected, only the LPF can be operated. When only the signal in the intermediate frequency region is desired, the BPF can be operated to correct the signal in the intermediate frequency region.

For example, if you want to emphasize bass bass sound, operate LPF 221, and if you want to emphasize high tone female voice, change the frequency setting of BPF 222 and set it to the general female voice frequency range. Do.

In the method of operating an audio signal processing apparatus according to the present invention configured as described above, as shown in FIG. 2, an audio signal output mode is first input in a first step (S1). The audio signal output mode consists of a low tone enhancement mode and a signal correction mode.

In the second step, if the audio signal output mode input in the first step is low reinforcement (S2), a frequency below the speaker output capability is extracted (S3), and the harmonic is generated by multiplying the frequency (S4), and the harmonics And the original audio signal is added to convert the audio signal (S5).

On the other hand, if the audio signal output mode input in the first step is a signal correction mode (S2), the audio signal is extracted for each frequency band by passing the audio signal through the LPF, BPF, and HPF (S6), respectively. After compression (S7), the audio signal is converted by adding to the original audio signal (S8).

At this time, the user can control the operation of the LPF, BPF, HPF to extract only the audio signal of the required frequency domain to correct the audio signal.

In the method of operating the audio signal processing apparatus, after one audio signal output mode is selected and the audio signal is converted (S9), another audio signal output mode is selected (S1) to convert the audio signal converted in the second step. And a third step of reconversion processing.

As described above, the audio signal input device and the operation method thereof according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and the technical spirit of the present invention is protected. It can be applied by those skilled in the art in the range.

An audio signal input device and an operation method thereof according to the present invention configured as described above are used to change an audio signal according to an environment in which an audio signal is reproduced or to generate an audio signal during data compression when a digital medium such as CD or MD is produced. By compensating for the loss, the distortion of the audio signal is reduced, the contrast of the audio signal is improved, and the rich bass can be reproduced even in a small-caliber speaker, thereby reproducing the original sound and compensating the realism of the acoustic characteristics.

Claims (6)

A bass reinforcement unit for extracting bass below the speaker output capability from the original audio signal, multiplying the frequency of the extracted bass, and adding the integer bass to the original audio signal for output; And a signal compensator for dividing and filtering the original audio signal into a plurality of frequency bands during data compression, compressing the filtered frequency bands, and adding the divided and compressed audio signals to the original audio signal. Audio processor. The method of claim 1, The bass reinforcement unit, A low pass filter (LPF) for extracting the bass, A microcomputer to multiply the bass extracted by the LPF; A delay unit for delaying the original audio signal, And an adder configured to add and process the bass sound output from the microcomputer and the original audio signal passing through the delay unit. The method of claim 1, The signal correction unit, A filter unit for dividing and extracting the original audio signal for each frequency band; A compression unit for compressing the audio signals passing through the filter unit; And an adder configured to add and process the audio signals passing through the compression unit and the original audio signal. The method of claim 3, wherein And at least one low pass filter (LPF), at least one band pass filter (BPF), and at least one high pass filter (HPF). A first step of inputting an audio signal output mode; If the audio signal output mode input in the first step is low tone reinforcement, the low tone of the speaker output capability or less is extracted, the audio signal obtained by multiplying the frequency of the low tone and the original audio signal are processed and outputted, and in the first step, If the input audio signal output mode is a signal correction mode, the audio signal is extracted for each frequency band by passing the original audio signal through LPF, BPF, and HPF, and the audio signal divided for each frequency band is compressed and added to the original audio signal. And a second step of outputting the audio signal. The method of claim 5, wherein And a third step of converting the audio signal converted in the second step by selecting another audio signal output mode after the audio signal is converted by the one audio signal output mode is selected. Operation method of an audio signal processing apparatus, characterized in that.

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