KR20090067393A - Method for detecting error of mainboard and display unit enabling of the method - Google Patents

Abstract

A method for detecting incorrect operation from a main board of an imaging device and the imaging device applying the same are provided to enable the imaging device to automatically determine the incorrect operation of each block forming the main board even if a maker does not inspect each main board. An analog signal input determiner(303) feeds back a result to a microcomputer(304) by determining normal input of an analog signal received from an ADC(Analog Digital Converter)/video decoder block(301). The microcomputer receives the result processing an internal pattern from the ADC/video decoder block. The microcomputer determines normal operation of the ADC/video decoder block by using a processing result. A power source state determiner(306) determines the normal operation of a power input source connected with the ADC/video decoder block and a main scaling block(302), and feeds back the result to the microcomputer.

Description

Method of detecting main board malfunction of video equipment and video equipment employing the method {METHOD FOR DETECTING ERROR OF MAINBOARD AND DISPLAY UNIT ENABLING OF THE METHOD}

The present invention relates to a main board malfunction detection method of a video device and a video device employing the method, and more particularly, to determine whether an analog signal input to the ADC and the video decoder block of the main board is input, After determining whether the decoder block is normally operated, determining whether the power supplied to each block constituting the main board is normally supplied, and outputting the cause of the malfunction on the display screen when there is a malfunction, the user malfunctions of the motherboard. The present invention relates to a main board malfunction detection method and a video device employing the method to easily identify the cause.

Today, with the development of video technology, a main board is mounted on a video device to perform a function.

1 is a block diagram showing the configuration of such a main board of the prior art.

Referring to FIG. 1, when an analog signal is input, the main board of the related art converts an analog signal into a digital signal in the ADC and the video decoder block 101, decodes the video signal, and then mainscales the converted digital signal. Output to block 102.

The main scaling block 102 performs image processing on the input digital signal and outputs it to the panel 103. At this time, power is supplied from the power input source to the analog-to-digital converter (ADC), the video decoder block 101 and the main scaling block 102.

By the way, in the case of the main board of the prior art, even if the problem that the video signal or the audio signal is not output, there is a problem that it is difficult to find the cause of the problem.

That is, when no video signal or audio signal is output, the manufacturer directly measures the signal input and output to each block constituting the main board using a scope, or the processing status of each block using I2C communication. There was an inconvenience to be judged using a separate tool.

Therefore, by solving the problems of the main board of the prior art, a main board malfunction detection method and a method of detecting a video device that can determine whether a malfunction of each block constituting the main board, and to inform the user of the cause of the malfunction Development of an imaging device is urgently required.

Accordingly, the present invention solves the problems of the prior art, determines whether the malfunction of each block constituting the main board, and informs the user of the cause of the malfunction so that the user can self-diagnose and repair the cause of the malfunction It is an object of the present invention to provide a main board malfunction detection method of a device and a video device employing the method.

According to an embodiment of the present invention, a method of detecting a malfunction of a main board including an ADC and a video decoder block and a main scaling block in a video device determines whether an analog signal input to the ADC and the video decoder block is normally input. To feed back to the microcomputer; After processing the internal pattern in the ADC and the video decoder block, feeding back a processing result to the microcomputer, and determining whether the ADC and the video decoder block normally operate using the processing result in the microcomputer; Determining whether the power input source connected to the ADC and the video decoder block and the main scaling block is normally operated and feeding back to the microcomputer; And outputting a determination result on whether a normal input of the analog signal, a normal operation of the ADC and a video decoder block, and a normal operation of a power input source are performed on a display screen.

In addition, according to another embodiment of the present invention, the video device for detecting a malfunction of the main board including the ADC and the video decoder block and the main scaling block determines whether the analog signal input to the ADC and the video decoder block is normally input. An analog signal input determiner for feeding back to the microcomputer; A microcomputer receiving a feedback of a processing result of processing an internal pattern in the ADC and the video decoder block, and determining whether the ADC and the video decoder block normally operate using the processing result; A power state determination unit which determines a power state of a power input source connected to the ADC and the video decoder block and a main scaling block and feeds it back to the microcomputer, wherein the microcomputer determines whether the analog signal is normally input, the ADC and the video decoder And a determination result of whether the block is normally operated and whether the power source is normally operated is output to the display screen.

According to the present invention, even if the manufacturer does not inspect the main board by using the scope, the imaging apparatus may automatically determine whether or not each block constituting the main board malfunctions and inform the user of the cause of the malfunction.

Hereinafter, a method of detecting a malfunction of a main board in an imaging apparatus and an imaging apparatus employing the method will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating a process of detecting a malfunction of a main board in an imaging device according to an embodiment of the present invention, and FIG. 3 is a block diagram illustrating a configuration of an imaging device according to an embodiment of the present invention.

Hereinafter, a process of detecting a main board malfunction of the imaging apparatus will be described with reference to FIGS. 2 and 3.

2, the analog signal input determination unit 303 of the video device according to an embodiment of the present invention is an analog signal input to the analog to digital converter (ADC) and the video decoder block 301 in step S201. Determine whether or not the normal input of the feedback to the microcomputer (304).

In this case, the analog signal input determination unit 303 may determine whether the analog signal is input to the ADC and the video decoder block 301.

In addition, the analog signal input determination unit 303 converts the analog signal, which is an input sync signal, into a pulse signal by using a clamp circuit, and then determines the number of sinks to determine the resolution of the input signal or the clamp circuit. The sink stability may be determined by determining the degree of flow of the clamp level of the converted pulse signal.

The analog signal input determination unit 303 determines whether the analog signal is normally input as a result of determining whether the analog signal is input and sink stability, and feeds back the determination result to the microcomputer 304.

Therefore, in the present invention, when an analog signal is not input by a user's mistake and an image is not output, or when an input terminal of an ADC and a video decoder block is opened and an image is not output, information on this (for example, " Signal is not connected. "Or" A fault signal is applied but not inputted to the ADC IC ", etc.) so that the user can know the cause of the video device malfunction.

In addition, the present invention provides the user with such information (for example, "The sync level of the external signal is unstable. Sometimes the screen may flicker") even when the resolution of the input signal is low or the sync stability is low. can do.

Next, the microcomputer 304 determines whether the ADC and the video decoder block 301 operate normally in step S202 of FIG. 2.

4 is a diagram illustrating a process of determining whether the ADC and the video decoder block normally operate in the video device of the present invention.

Referring to FIG. 4, in step S401, the microcomputer 304 transmits an internal pattern to the ADC and the video decoder block 301, and the ADC and the video decoder block 301 convert the internal pattern into a digital signal. do. In this case, the internal pattern may be a test pattern set in advance to check whether the ADC and the video decoder block 301 normally operate.

 In step S402, the ADC and the video decoder block 301 video decode the converted digital signal, and feed back the processed digital signal to the microcomputer 304.

In step S403, the microcomputer 304 determines whether the ADC and the video decoder block 301 normally operate using the processing result.

At this time, the microcomputer 304 reads the RGB value of the specific area among the screen areas in which the digital signal is output, and compares the read RGB value with normal processing data stored in the memory 305 to determine abnormal operation. Can be.

Alternatively, the microcomputer 304 may read a specific register value related to the operation of the ADC and the video decoder block 301 and compare it with a previously stored register value, and determine that the microcomputer 304 is abnormal. At this point, the read register value may be an important register address value related to the operation of the ADC and the video decoder block 301.

Accordingly, the present invention has an effect of determining whether the ADC and the video decoder block are malfunctioning and giving information to the user.

Next, in step S203 of FIG. 2, the power state determination unit 306 determines the power state of the power input source connected to the ADC and the video decoder block 301, and the main scaling block 302. Feedback.

The microcomputer 304 may check the power state of each power input source in real time, and output information indicating that the power malfunctions when the power supply is lowered below a predetermined value to the display screen.

In step S204, the microcomputer 304 determines whether the analog signal is normally input, whether the ADC and the video decoder block 301 operate normally, and whether the power source of the power source that supplies power to each block constituting the main board operates. The determination result is output on the display screen.

Therefore, even if the manufacturer does not inspect the main board by using a scope, the present invention has an effect of automatically determining whether or not a malfunction of each block constituting the main board is performed by the imaging apparatus and informing the user of the cause of the malfunction. .

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the present invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

1 is a block diagram showing the configuration of such a main board of the prior art.

2 is a diagram illustrating a process of detecting a malfunction of a main board in an imaging apparatus according to an embodiment of the present invention.

3 is a block diagram showing the configuration of a video device according to an embodiment of the present invention;

4 is a diagram illustrating a process of determining whether the ADC and the video decoder block operate normally in the video device of the present invention.

<Explanation of symbols for the main parts of the drawings>

301: Analog to Digital Converter and Vedeo signal decorder block

302: main scaling block

303: analog signal input determination unit

304: micom

305: memory

306: power status determination unit

Claims (8)

 In a method for detecting a malfunction of a main board including an analog to digital converter (ADC) and a video decoder block, and a main scaling block in a video device, Determining whether the analog signal input to the ADC and the video decoder block is normally input and feeding it back to the microcomputer; After processing the internal pattern in the ADC and the video decoder block, feeding back a processing result to the microcomputer, and determining whether the ADC and the video decoder block normally operate using the processing result in the microcomputer; Determining whether the power input source connected to the ADC and the video decoder block and the main scaling block is normally operated and feeding back to the microcomputer; And Outputting a determination result on whether a normal input of the analog signal, a normal operation of the ADC and a video decoder block, and a normal operation of a power source are performed on a display screen; Main board malfunction detection method of a video device comprising a. The method of claim 1, The step of checking whether the analog signal is normally input and feeding back to the microcomputer, Determining whether an analog signal input to the ADC and the video decoder block is input; Determining the sync stability by converting the analog signal, which is an input sync signal, into a pulse signal using a clamp circuit; And Determining whether the analog signal is normally input as a result of determining the presence of the input and the sink stability and feeding back to the microcomputer Main board malfunction detection method of a video device comprising a. The method of claim 1, After processing the internal pattern in the ADC and the video decoder block, feeding back the processing result to the microcomputer, and determining whether the ADC and the video decoder block operating normally by using the processing result in the microcomputer, Converting the internal pattern into digital in the ADC and the video decoder block and outputting a video decoded digital signal; And Reading an RGB value of a specific area of the screen area from which the digital signal is output, and comparing the read RGB value with normal processing data to determine abnormal operation Main board malfunction detection method of a video device comprising a. The method of claim 1, After processing the internal pattern in the ADC and the video decoder block, feeding back the processing result to the microcomputer, and determining whether the ADC and the video decoder block operating normally by using the processing result in the microcomputer, Converting an internal pattern into digital in the ADC and video decoder block and outputting a video decoded digital signal; And Reading a specific register value related to the operation of the ADC and the video decoder block, comparing it with a previously stored register value, and if it is different, determining an abnormal operation Main board malfunction detection method of a video device comprising a. In the video device for detecting a malfunction of the main board including an analog to digital converter (ADC) and a video decoder block, and the main scaling block, An analog signal input determination unit for determining whether the analog signal input to the ADC and the video decoder block is normally input and feeding back to the microcomputer; A microcomputer receiving a feedback of a processing result of processing an internal pattern in the ADC and the video decoder block, and determining whether the ADC and the video decoder block normally operate using the processing result; A power state determination unit which determines whether the power input source connected to the ADC and the video decoder block and the main scaling block is normally operated and feeds back to the microcomputer Including, The microcomputer outputs a determination result on whether a normal input of the analog signal, a normal operation of the ADC and a video decoder block, and a normal operation of a power source are output to a display screen. device. The method of claim 5, The analog signal input determination unit, As a result of determining whether the analog signal is input, and determining the sink stability by converting the analog signal, which is an input sync signal, into a pulse signal using a clamp circuit, and determining whether the analog signal is input and sink stability. And determining whether the analog signal is normally input and feeding back to the microcomputer. The method of claim 5, The microcomputer, After converting the internal pattern to digital in the ADC and the video decoder block, and outputting the video-decoded digital signal, the RGB value of a specific region of the screen region from which the digital signal is output is read, and the read RGB value is normal. And a malfunction of the main board, characterized in that it is determined to be abnormal when compared with the processing data. The method of claim 5, The microcomputer, After converting the internal pattern to digital in the ADC and the video decoder block, and outputting a video-decoded digital signal, a specific register value related to the operation of the ADC and the video decoder block is read and compared with a previously stored register value. The imaging apparatus for detecting a malfunction of the main board, characterized in that it is determined that the abnormal operation if different.

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