KR20130073069A - Sound source play device capable of self-diagnosis of audio defect check and method thereof - Google Patents

Abstract

PURPOSE: A sound source play device performing self-audio malfunction diagnosis and a method thereof are provided to directly diagnose audio malfunction. CONSTITUTION: A microcomputer determines whether a current mode is an audio diagnosis mode (S100). If the current mode is the audio diagnosis mode, the microcomputer inputs a test sound source to each sound source input terminal (S200). The microcomputer receives a test sound source by input terminal outputted from an amplifier through a digital signal processor and determines sameness between waveforms of the test sound source (S300,S400). The microcomputer outputs information about the normality of an audio to a screen (S500). The microcomputer determines abnormality by comparing a waveform of the test sound source of the digital signal processor with a waveform of an original test sound source and determines abnormality by comparing a waveform of the amplifier with the waveform of the original test sound source (S600,S700). The microcomputer outputs information about an abnormal part to the screen (S800). [Reference numerals] (AA) Start; (BB,DD) No; (CC,EE) Yes; (FF) End; (S100) Audio diagnosis mode?; (S200) Input a test sound source to each sound source input terminal; (S300) Compare each output sound source; (S400) Same?; (S500) Normal display; (S600) Compare a test sound source with each output (DSP output and amplifier output); (S700) Is there the fault of audio?; (S800) Fault of audio is displayed on a screen

Description

Sound source playback device capable of self-diagnosis and its method {audio source check device capable of self-diagnosis of audio defect check and method}

The present invention relates to a sound source reproducing apparatus, and more particularly, to a technique for diagnosing audio abnormality.

1 is a block diagram of a general sound source reproducing apparatus.

As shown, the sound source reproducing apparatus includes a sound source input terminal 10, a digital signal processor 20, an amplifier 30, and a speaker 40. The sound source input terminal 10 is an input terminal for receiving a sound source from the outside and includes one or more input terminals. The digital signal processor 20 performs signal processing on the sound source input through the sound source input terminal 10, and the amplifier 30 amplifies the signal source and outputs the sound source to the speaker 40. There is no known technique for self-diagnosis of audio abnormality in such a sound source reproducing apparatus. Therefore, if the user judges that the final output audio through the speaker 40 is abnormal, it is necessary to analyze the entire drive circuit during repair and also have to provide a separate diagnostic equipment.

An object of the present invention is to provide an audio reproducing apparatus and method capable of self-diagnosing audio abnormality.

The self-diagnostic sound source playback apparatus according to an aspect of the present invention for achieving the above object has a digital signal processor having at least one sound source input stage and digitally processing the sound source input to the sound source input stage, and the A sound source reproducing apparatus comprising an amplifier for amplifying a sound source input from a digital signal processor and outputting the same to a speaker, wherein a test sound source is input to the digital signal processor, and an output test sound source of the digital signal processor and an output test sound source of the amplifier are output. It further includes a microcomputer to determine whether there is an audio abnormality, wherein the sound source input terminal includes at least one of a USB input terminal, AUX input terminal, a radio input terminal, a compact disk input terminal.

On the other hand, according to an aspect of the present invention for achieving the above-mentioned problems, the audio abnormality self-diagnosis method has a digital signal processor having at least one sound source input stage and digitally processing the sound source input to the sound source input stage, and the digital In a self-diagnosis method for audio abnormality of a sound source reproducing apparatus including an amplifier for amplifying a sound source input from a signal processor and outputting the same to a speaker, inputting a test sound source to a digital signal processor through the sound source input terminal, the digital signal processor And receiving an output test sound source and an output test sound source of the amplifier to determine whether there is an audio abnormality, and if it is determined that the audio abnormality exists, outputting the abnormal information.

The sound source reproducing apparatus according to the present invention can self-diagnose audio abnormality, as well as identify a component module that generates audio abnormality, thereby creating an effect of facilitating repair of the sound source reproducing apparatus.

1 is a block diagram of a general sound source reproducing apparatus.
2 is a block diagram of a sound source reproducing apparatus capable of diagnosing audio abnormality according to an embodiment of the present invention.
3 is a flowchart illustrating a method for diagnosing audio abnormality according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

2 is a block diagram of a sound source reproducing apparatus capable of diagnosing audio abnormality according to an embodiment of the present invention.

As shown, the sound source reproducing apparatus includes a sound source input terminal 100, a digital signal processor 200, an amplifier 300, a speaker 400, and a microcomputer 500. The sound source input terminal 100 includes one or more sound source input terminals. In one embodiment, the sound source input terminal 100 includes a radio input terminal 110, a compact disc (CD) input terminal 120, an AUX input terminal 130, and a USB input terminal 140. The sound source input terminal 100 receives a sound source through an external input such as radio, CD, AUX, and USB, respectively. The digital signal processor (DSP) 200 performs a process of processing a sound source signal input from the sound source input terminal 100 and removes noise included in the signal. The amplifier 300 amplifies the size of the output sound source of the digital signal processor 200 and amplifies the audio signal to an audible frequency and outputs it to the speaker 400.

The microcomputer 500 is configured to determine whether there is an abnormality in the output audio of the sound source reproducing apparatus. To this end, the microcomputer 500 has a test sound source therein. In the audio diagnostic mode, the microcomputer 500 inputs a test sound source stored therein to the sound source input terminal of the digital signal processor 200. In one embodiment, the microcomputer 500 performs an audio test by inputting a test sound source for each sound source input terminal. For example, the microcomputer 500 sequentially inputs a test sound source to the radio input terminal 110, the compact disc (CD) input terminal 120, the AUX input terminal 130, and the USB input terminal 140 to test for audio abnormalities. will be. After inputting the test sound source, the microcomputer 500 receives the output test sound source of the digital signal processor 200 and the output test sound source of the amplifier 300. The microcomputer 500 compares the waveforms of the output test sound source of the digital signal processor 200 with the waveforms of the original test sound source to determine whether there is an abnormality, and also determines the waveform of the output test sound source of the amplifier 300 and the waveform of the original test sound source. Compare and judge the abnormality.

If the waveform is the same, the microcomputer 500 determines that there is no abnormality in the audio. If the waveform is different than the allowable range, the microcomputer 500 determines that the audio is abnormal. At this time, the magnitude of the waveform may not be considered. In this manner, the microcomputer 500 may determine whether the digital signal processor 200 has a problem or the amplifier 300 has a problem. In addition, the microcomputer 500 may determine whether the digital signal processor 200 and the amplifier 300 have a problem with a normal or specific input terminal. In the latter case, it can be seen that the microcomputer 500 performs a test by inputting a test sound source to each input terminal. If the audio is normal, the microcomputer 500 outputs information indicating that the audio is normal. If there is an error in the audio, the microcomputer 500 outputs information indicating that there is an error and information on an abnormal part.

3 is a flowchart illustrating a method for diagnosing audio abnormality according to an embodiment of the present invention.

The microcomputer 500 determines whether the current mode is the audio diagnostic mode (S100). If the audio diagnostic mode, the microcomputer 500 inputs a test sound source to each sound source input terminal (S200). The microcomputer 500 receives a test sound source for each input terminal output from the amplifier 300 through the digital signal processor 200 and compares the waveforms of the input test sound source for each input terminal to determine whether they are the same (S300) (S400). ). If the same, the microcomputer 500 outputs information indicating that the audio is normal (S500). If not the same, the microcomputer 500 compares the waveform of the output test sound source of the digital signal processor 200 with the waveform of the original test sound source for each input terminal, and determines whether there is an abnormality, and also the waveform of the output test sound source of the amplifier 300 and The waveform of the original test sound source is compared to determine whether there is an abnormality (S600) (S700). The microcomputer 500 outputs information on the abnormal part along with information indicating that the audio is abnormal according to the determination result (S800).

So far I looked at the center of the preferred embodiment for the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

100: sound input terminal 110: radio input terminal
120: CD input terminal 130: AUX input terminal
140: USB input terminal 200: digital signal processor
300: amplifier 400: microcomputer

Claims (3)

A digital signal processor having at least one sound source input terminal and outputting a digital signal by processing the sound source input to the sound source input terminal; And an amplifier for amplifying and outputting a sound source input from the digital signal processor to a speaker.
A microcomputer inputting a test sound source to the digital signal processor and receiving an output test sound source of the digital signal processor and an output test sound source of the amplifier to determine whether audio is present or not;
Audio source playback device capable of self-diagnosis, characterized in that it further comprises a. The method of claim 1,
The sound source input terminal includes at least one of a USB input terminal, an AUX input terminal, a radio input terminal, and a compact disk input terminal. A digital signal processor having at least one sound source input terminal and outputting a digital signal by processing the sound source input to the sound source input terminal; In the self-diagnosis method of the audio abnormality of the sound source reproducing apparatus comprising a;
Inputting a test sound source into a digital signal processor through the sound source input terminal;
Determining an audio abnormality by receiving an output test sound source of the digital signal processor and an output test sound source of the amplifier; And
If it is determined that there is an audio abnormality, outputting the abnormal information;
Audio abnormality self-diagnosis method comprising a.

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