KR20060084134A - Pop noise canceling device and method - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to pop noise, and more particularly, to an apparatus and method for pop noise removal that is adapted to actively remove pop noise in an audio device. As described above, the present invention includes a voice amplifier for amplifying a voice signal to be output from an electronic device, a voice output unit for outputting a signal amplified by the voice amplifier, and between the voice amplifier and the voice output unit. Comparing unit for outputting to the voice output unit by adjusting the audio output level corresponding to the pop noise level of the audio output level amplified and output from the audio amplification unit to a predetermined sound output level compared to a preset voice output level Provided is a pop noise removing device characterized in that the configuration. Therefore, according to the present invention, pop noise in an electronic device including an audio device can be actively removed.

Pop noise

Description

Apparatus and method for canceling pop noise {Method and apparatus for clearing pop noise}

1 is a view for explaining a voice output circuit according to the prior art

2 is a block diagram illustrating a pop noise removing device according to the present invention;

3 is a flowchart illustrating a pop noise removing method in the pop noise removing apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: voice amplifier 20: speaker (voice output unit)

30: comparison unit

TECHNICAL FIELD The present invention relates to pop noise, and more particularly, to an apparatus and method for pop noise removal, adapted to actively remove pop noise in an audio device including a television.

Broadcasting is a mass media that targets an unspecified number, which is advantageous because it can be compressed like computer data compression because all elements (video, audio, data) are treated digitally.

After color TV broadcasting, stereo sound, remote control device, subtitle broadcasting, data broadcasting, etc. have adopted some digital technologies. In the 90's, computer and network technologies have been spreading more rapidly, so that the broadcasting field can realize high-definition and multifunctional TV. Digital TV was pursued as a video device.

In the case of digital TV (hereinafter, DTV), one program of HDTV level and three or more programs of SDTV level can be transmitted to one channel, and digital signal transmission and processing make it possible to enjoy a much cleaner screen. The ghost phenomenon can be solved on its own, and radio waves reflected by obstacles can be solved on their own.

Looking at the status of domestic broadcasting, after the pilot broadcast in 2000, the metropolitan area is performing the main broadcast in 2002, the metropolitan city is scheduled for 2004, and will complete the conversion of DTV broadcasting by 2010.

Recently, DTV has been implemented using LCD, PDP or OLED (ORGANIC LIGHT EMITTING DIODES) modules in CRT or projection TV. Such LCDs, PDPs, and OLEDs have the advantage of being considerably thinner than CRTs or projection methods.

Among them, the LCD module is largely composed of a panel, a backlight, and a driving chip.

LCD (Liquid Crystal Display) panel literally means a display made of liquid crystal, which cannot emit light by itself. Therefore, the backlight unit is used for this purpose.

Fluorescent lamps are commonly used as backlight units of LCD monitors.

In order to drive the backlight unit of the LCD module, a DC-AC inverter is used. In addition, the driving chip is a driving circuit chip for driving the LCD monitor with a driver IC.

PDP obtains light emission through plasma generation by discharge. It can be said to be a kind of fine color fluorescent light combination.

The emission principle of the AC PDP is that a pulse-like potential difference is formed between the X electrode and the Y electrode to cause discharge, and the RGB phosphors are excited by vacuum ultraviolet rays generated during the discharge process, and we see a combination of the lights. The discharge at this time will be influenced by various parameters, but it is particularly related to the type and pressure of the discharge gas inside the PDP and the secondary electron emission characteristics of the MgO protective film. The discharge depends on the structure and driving conditions of the electrode.

The plasma of the PDP module refers to a state in which positive charges (ions) and negative charges (electrons) are mixed in almost the same amount, maintaining electrical neutrality while posing close to free particles. In a word, it is a mixture of ions and electrons.

When a strong voltage is applied to the positive and negative electrodes in a vacuum state, the gas inside is activated and then returns to its stable state as time passes, and it emits a strong and beautiful light like an aurora. .                         

OLEDs can be divided into PM (Passive Matrix) and AM (Active Matrix) according to their structure, and AM is used as a large area high resolution. OLED, also called organic ELD (Electro Luminescence Display), is a self-luminous display that electrically excites fluorescent organic compounds to emit light, and can be driven at a low voltage and has advantages such as thinness. In addition, it is attracting attention as a next-generation display candidate that can solve the shortcomings of LCDs such as wide viewing angle and fast response speed.

Organic EL displays are attracting attention as next-generation flat panel displays because they can have the same or higher image quality than TFT LCDs in the medium size or lower than other displays, and are advantageous in price competition due to the simple manufacturing process.

Recently, home theater systems are being used in conjunction with TVs to meet various consumer needs.

However, in the audio device including the TV as described above, various researches are being conducted to eliminate the pop noise phenomenon that occurs when the device is powered on.

Hereinafter, a pop noise removing circuit according to the prior art will be described with reference to the accompanying drawings.

1 is a view for explaining a voice output circuit according to the prior art.

In the voice output circuit according to the related art, a capacitor C1 is added between the voice amplifier 10 and the voice output unit, that is, the speaker 20.

In general, pop noise is known to cause pop noise when the voltage at the output terminal rises from Ov to a DC bias voltage when the power is applied, and also pop noise occurs when the power is cut off.

Herein, the capacitor C1 is a DC coupling capacitor, which reduces some of the occurrence of pop noise at the sudden output by the capacitor C1, but the DC voltage fluctuation is not generated in the capacitor C1 connected to the output terminal of the voice amplifier 10. If this occurs, pop noise is generated in the speaker 20 by the electromagnetic induction phenomenon in the DC coupling capacitor C1. In other words, it could not actively deal with pop noise.

In the conventional voice output circuit, pop noise is generated when all audio devices are powered on and cut off, or when source switching and mode switching occur, causing inconvenience to audio users.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a pop noise removing device and method suitable for actively removing pop noise in an audio device including a television (TV). To provide.

In order to achieve the above object, the present invention provides a voice amplifier for amplifying a voice signal to be output from the electronic device, a voice output unit for outputting the signal amplified by the voice amplifier, the voice amplifier and the voice output unit The voice output level corresponding to the pop noise level among the voice output levels amplified and output from the voice amplifier is adjusted to a regular voice output level by comparing with the preset voice output level to the voice output unit. It provides a pop noise removing device characterized in that it comprises a comparator for outputting.

Here, the pop noise level is 400 to 550 mV, and the regular voice output level is preferably 420 mV.

In order to achieve the above object, the present invention provides a method for amplifying a voice signal to be output, and comparing a voice output level corresponding to a pop noise level among the amplified voice output levels with a preset voice output level. And adjusting the regular audio output level and outputting the audio signal adjusted to the regular audio output level.

Preferably, the step of adjusting to the regular audio output level, if the level of the amplified voice signal is 400 to 550 mV it is adjusted to 420mV.

Therefore, according to the present invention, there is an effect of actively removing pop noise from an audio device including a TV.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

2 is a block diagram illustrating a pop noise removing apparatus according to the present invention.

The pop noise removing device according to the present invention includes a voice amplifier 10, a speaker 20 which is a voice output unit, and a comparator 30.

Here, the voice amplifier 10 amplifies the voice signal output from the front end to a set level.

The comparison unit 30 outputs an irregular level audio signal as a constant level audio signal.

The speaker 20, which is a voice output unit, outputs a voice signal output from the comparator 30.

Briefly, first, in the voice amplifier 10, a voice signal is output to the speaker 20. At this time, if the voltage of the signal is 420 mV when the pop noise occurs and the value is less than 420 mV, In the case of 420mV or more, pop noise is generated and 420mV before and after 420mV may be 410mV and 415mV, respectively.

3 is a flowchart for explaining a pop noise removing method in the pop noise removing apparatus according to the present invention.

First, when the voice is input (S10), it is determined whether the voice output level is within the set range (S20). In this case, it is determined, for example, 400 mV or less.

If it is determined that the audio output level is not a predetermined level (S20), it is adjusted to a predetermined level (S30). In this case, an output level of about 400 mV to 550 mV, which is a measurement value of a level commonly known as a pop noise level, is set to a constant signal of 420 mV.

Next, voice is output (S40).

The apparatus and method for removing pop noise according to the present invention has the effect of actively removing pop noise from an electronic device including an audio device.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (4)

A voice amplifier for amplifying a voice signal to be output from the electronic device; An audio output unit configured to output a signal amplified by the audio amplifier; The voice output level, which is configured between the voice amplifier and the voice output unit, is compared with the preset voice output level by comparing the voice output level corresponding to the pop noise level among the voice output levels amplified and output from the voice amplifier. And a comparator for adjusting the level to output the voice output unit. The method of claim 1, The pop noise level is 400 to 550 mV, and the regular voice output level is 420 mV. Amplifying the audio signal to be output; Adjusting a voice output level corresponding to a pop noise level among the amplified voice output levels to a regular voice output level by comparing with a preset voice output level; And outputting a voice signal adjusted to the regular voice output level. The method of claim 3, wherein Adjusting to the regular audio output level, And if the level of the amplified voice signal is 400 to 550 mV, adjusting the noise signal to 420 mV.

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