KR20030050632A - Dynamic sound system - Google Patents

Abstract

PURPOSE: A dynamic sound system is provided to overcome the problems of the conventional method by flexibly amplifying a low pitched sound and a high pitched sound by using a low pass filter, a high pass filter and a rectifying circuit in the external amplifier and to obtain high quality of sound by recognizing the whole bandwidth, thereby easily listening a low pitched sound and a high pitched sound at the low sound pressure. CONSTITUTION: A dynamic sound system includes an audio(1000) for outputting a predetermined output signal by reproducing or receiving a sound signal, a dynamic sound system(2000) for outputting a dynamic sound by amplifying the low pitched sound and other sound except the medium pitched sound at the low sound pressure and a speaker(3000) for outputting so as to listen the sound signal outputted from the dynamic sound system(2000) by the user. The dynamic sound system(2000) includes a comparator(100) for outputting an amplifying control signal by determining the low pitched sound region and the amplification degree of the low pitched sound region by comparing the volume data and the loudness data, a filtering block(200) for implementing the low pass filtering and the high pass filtering by receiving the audio output signal, a rectifying block(300) for rectifying the electromagnetic wave by receiving the audio output signal, an amplifying block(400) for amplifying the signal of the filtering block(200) and the rectifying block(300) to a predetermined signal value and a signal synthesizing block(500) for synthesizing the signal amplified at the amplifying block(400) and the sound signal not amplified at the audio(1000).

Description

Dynamic sound system

The present invention relates to a dynamic sound system, and more particularly, to a dynamic sound system capable of boosting a weak band while at the same time making the sound reproduced in an audio system more dynamic.

In the audio system, it is based on the original sound reproduction of the sound signal itself as a way to improve the sound quality which is a standard for evaluating the performance of the consumer. However, when analyzing the sound played in the vehicle environment or other home audio system, For example, at low sound levels, people can't recognize high-end sounds in low-end highs.

In particular, the conventional external amplifier (EXT.Amplifier) only performs a function of raising the sound level by the amount of amplification for each band as much as the user sets, so that the parts of the human ear are vulnerable, that is, the high and low bands at low sound pressure levels. The sound is masked in the mid-range and can't be recognized, which makes people feel stuffy.

2 illustrates a sound pressure level that a human can feel for each frequency band.

Conventional bass reinforcement control amplifier technology is well described in Korean Patent Publication No. 1999-039168, and the above only reinforces the bass band based on the volume data based only on the volume data based on the volume data.

However, the above-described conventional method amplifies only the bass band according to the volume level, thereby implying a problem of not supporting more accurate amplification.

In addition, by amplifying only the bass region, the bass feeling is improved to the consumer, but the overall feeling further implies that the stuffiness increases.

Therefore, an object of the present invention is to solve the above problems, by using a low pass filter, a high pass filter, a rectifier circuit in the external amplifier to amplify the low and high band more fluidly, to solve the conventional problems, thereby The aim is to provide a dynamic sound system that can be perceived by humans evenly across the band and thus get a high sense of sound.

The present invention for achieving the above object,

An audio 1000 for reproducing or receiving an audio signal and outputting the audio signal as a predetermined output signal;

A comparator 100 which receives the audio output signal and compares the volume data with the loudness data to determine an amplification degree in the low range and the low range and outputs an amplification control signal; A filtering unit 200 for receiving the audio output signal and performing low pass and high pass filtering; A rectifier 300 for receiving full-wave rectification by receiving the audio output signal; An amplifier 400 which amplifies the signals of the comparator 100, the filter 200, and the rectifier 300 into a signal having a predetermined signal value; It consists of a signal synthesizer 500 for synthesizing the signal amplified by the amplification unit 400, a sound that can be recognized by the user as a dynamic sound by amplifying the low range and the low range except the midrange at low sound pressure A dynamic sound system 2000 for outputting a signal;

Characterized in that it is provided with a speaker 3000 for outputting the sound signal output from the dynamic sound system 2000 so that the user can hear.

1 is a schematic circuit diagram of a dynamic sound system according to the present invention;

Figure 2 is a graph showing the degree of vulnerability of each band by the general sound pressure.

<Description of Symbols for Main Parts of Drawings>

100: comparison unit 110: loudness data unit 120: micro

200: filtering unit 210: high pass filter 220: low pass filter

300: rectifier 400: amplifier 410: high frequency amplifier

420: low pass amplifier 430: rectified amplifier 500: signal synthesis unit

1000: Audio 2000: Dynamic Sound System 3000: Speakers

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

1 is a schematic diagram of a dynamic sound system configuration according to the present invention.

The audio 1000 receives and outputs a radio signal according to a user's selection, or reproduces an audio signal such as a tape and a CD and outputs the audio signal as a predetermined output signal.

Accordingly, the dynamic sound system 2000 receives the signal output from the audio 1000 and amplifies the low range and the low range except the midrange at a low sound pressure to output a sound signal that can be recognized by the user as a dynamic sound. A comparator (100) for receiving the audio (1000) output signal and comparing the volume data and the loudness data to determine an amplification degree in the bass region and the bass region and output an amplification control signal; A filtering unit 200 for receiving the audio output signal and performing low pass and high pass filtering; A rectifier 300 for receiving full-wave rectification by receiving the audio output signal; An amplifier 400 which amplifies the signals of the comparator 100, the filter 200, and the rectifier 300 into a signal having a predetermined signal value; It consists of a signal synthesizer 500 for synthesizing the signal amplified by the amplification unit 400 and output.

The comparison unit 100 includes: a loudness data unit 110 that experimentally obtains and complexizes a complex characteristic of changing a human sensory quantity by an absolute value of sensitivity difference strength; Comparing the volume data output from the audio 1000 and the data of the loudness data unit 110 to determine the amplification degree of the bass region and the treble region, the micro 120 is provided to output an amplification control signal. The signal of the loudness data unit 110 and the volume data output from the audio 100 obtained by experimentally obtaining a complex characteristic in which the sensory amount of a person changes in the micro 120 by the absolute value of the sensitivity difference intensity are experimentally obtained. By comparing the A and D, the amplification degree of the low range and the high range is determined, and the amplification control signal is output.

In the above, loudness has a complex characteristic that the hearing of a person has the same physical strength of sound, but the sensory quantity varies according to frequency, and the sensitivity difference also varies according to the absolute value of the intensity. have. The experimentally obtained characteristic is the iso loudness curve of the sound shown in Fig. 2, and the scale of loudness (unit is sone: scale of value doubled in size) and loudness level (unit: phon: The magnitude of the sound is expressed as the sound pressure level of the 1,000 Hz pure tone, which is heard at the same level, which is increased by about 10 phons each time the volume is doubled.

Subsequently, the filtering unit 200 and a high pass filter 210 for filtering and passing only a high pass signal of the output signal of the audio 1000; It consists of a low pass filter 220 for filtering and passing only the low pass signal of the output signal of the audio 100,

The full-wave rectifying unit 300 full-wave rectifies and outputs the output signal of the audio 1000,

The amplifying unit 400 includes a high pass amplifier 410 for amplifying a signal output from the micro 120 and a signal output from the high pass filter 210 and outputting the high frequency sound amplifying signal; A low pass amplifier 420 for amplifying a signal output from the micro 220 and a signal output from the low pass filter 220 and outputting the low frequency sound amplified signal; It is provided with a radio amplifier 430 for amplifying and outputting a signal that is full-wave rectified by the rectifier 300 to a predetermined signal value.

Accordingly, the output signal of the audio 1000 is high-pass filtered by the high pass filter 210 to amplify the signal output from the micro 120 and the high pass filter 210 by the high pass amplifier 410. It is output as a sound amplification signal.

In addition, the output signal of the audio 1000 is low-pass filtered by the low pass filter 220, by amplifying the signal output from the low pass filter 220 and the signal output from the micro 120 by a low pass amplifier 420 Output as a low pass sound amplification signal.

The wave amplifier 430 amplifies the signal rectified by the full wave rectifying unit 300 into a signal having a predetermined signal value and outputs the amplified signal.

The high pass sound amplified signal output from the high pass amplifier 410 and the low pass sound signal output from the low pass amplifier 420, the sound amplified signal output from the wave amplifier 430, and the unamplified sound output from the audio 1000. The signal is synthesized and output by the signal synthesizer 500 to amplify the low range and the high range except the mid range at a low sound pressure so that the user can recognize it as a dynamic sound.

The speaker 3000 is a sound signal having an audible frequency so that the user can listen to the sound signal synthesized and output so that the user can recognize it as a dynamic sound in the signal synthesis unit 500 of the dynamic sound system 2000. Output

This makes it possible not only to listen well to low and high notes even at low sound pressure levels, but also to provide more thrilling notes.

As described above, the present invention solves the conventional problem by more amplifying low and high frequency bands by using a low pass filter, a high pass filter, and a rectifier circuit in an external amplifier, thereby allowing a human to recognize it evenly over the entire band. By making it possible to obtain a high sense of sound, it is possible not only to listen well to low and high notes even at low sound pressures, but also to provide more realistic sounds.

Claims (4)

An audio 1000 for reproducing or receiving an audio signal and outputting the audio signal as a predetermined output signal; A comparator 100 which receives the audio output signal and compares the volume data with the loudness data to determine an amplification degree in the low range and the low range and outputs an amplification control signal; A filtering unit 200 for receiving the audio output signal and performing low pass and high pass filtering; A rectifier 300 for receiving full-wave rectification by receiving the audio output signal; An amplifier 400 which amplifies the signals of the comparator 100, the filter 200, and the rectifier 300 into a signal having a predetermined signal value; It consists of a signal synthesizer 500 for synthesizing the signal amplified by the amplification unit 400 and the sound signal applied without being amplified in the audio 1000, further amplifies the low range and low range except the midrange at low sound pressure A dynamic sound system 2000 for outputting a sound signal that can be recognized by the user as a dynamic sound; Dynamic sound system, characterized in that provided with a speaker (3000) for outputting the sound signal output from the dynamic sound system (2000) so that the user can listen. The apparatus of claim 1, wherein the comparator 100 of the dynamic sound system 2000 comprises: a loudness data unit 110 that experimentally obtains and complexizes a complex characteristic of changing a human sensory quantity by an absolute value of sensitivity difference intensity; And a micro 120 for outputting an amplification control signal by comparing the volume data output from the audio 1000 and the data of the loudness data unit 110 to determine the amplification degree of the low and high sound regions. Featuring a dynamic sound system. The method of claim 1, wherein the filtering unit 200 of the dynamic sound system (2000) includes a high pass filter (210) for filtering only the high pass signal of the output signal of the audio (1000); Dynamic sound system, characterized in that it comprises a low pass filter for filtering only the low pass signal of the output signal of the audio (100). The high frequency amplifier of claim 1, wherein the amplifier 400 of the dynamic sound system 2000 amplifies the signal output from the micro 120 and the signal output from the high pass filter 210 and outputs the high frequency sound amplified signal. 410; A low pass amplifier 420 for amplifying a signal output from the micro 220 and a signal output from the low pass filter 220 and outputting the low frequency sound amplified signal; And a propagation amplifier (430) for amplifying and outputting a signal that is full-wave rectified by the rectifier (300) to a predetermined signal value.