KR101621662B1 - Computer test apparatus and method thereof - Google Patents

Abstract

The present invention relates to a computer test device and a method thereof. The computer test device comprises: an image board which receives a control command for test items from a main computer connected to a tested computer; and an image converting board which receives image and audio signals from the tested computer according to the control command by receiving the control command from the image board, converts the inputted image and audio signals into a setting format, and transmits the converted image and audio signals to the image board. The image board compares the transmitted image and audio signals with reference signals; and determines the malfunctions of the tested computer depending on a comparison result. The present invention is provided to automatically set the test items to correspond to a computer specification when the malfunctions of the computer are tested, and test various functions at a time, thereby improving test accuracy, increasing a test speed, and shortening a test time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a computer-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a computer test apparatus and method, and more particularly, to a computer test apparatus and a computer test method for automatically testing various functions including video and audio Device and method thereof.

Conventionally, when inspecting defects of a product such as a computer, inspecting devices are individually provided to inspect various functions, and individual inspections are performed through individual settings. Therefore, many signal lines are manually It is possible to cause a connection or an operation mistake, and in the case of producing various products, it is necessary to manually set a complicated setting for a changed model when switching from one model to another after inspecting one model, . In addition, serial communication and various types of communication with various types of test apparatuses are complicated, and synchronization of measurement is not easy, which leads to a problem that a long inspection time is required.

BACKGROUND ART [0002] The technology of the present invention is disclosed in Korean Patent Registration No. 10-0250597 (published on Apr. 2, 2000).

SUMMARY OF THE INVENTION The present invention has been made to overcome the above problems, and it is an object of the present invention to automatically set inspection items so as to correspond to computer specifications when inspecting whether a computer is defective and to perform various functions including video and audio And a computer-readable recording medium.

According to an aspect of the present invention, there is provided an apparatus for inspecting a computer, the apparatus comprising: an image board receiving a control command for an inspection item from a main computer connected to a computer to be inspected; And a controller for receiving the control command from the image board, receiving the video and audio signals from the computer to be inspected according to the control command, converting the input video and audio signals into the setting format, The image board may compare the transmitted video and audio signals with reference signals and determine whether the computer to be inspected is defective according to the comparison result.

The control unit receives a control command from the image conversion board, receives an output signal for one or more functions from the computer to be inspected according to the control command, measures the state of the input signal, The image board may receive the measurement result from the image conversion board and determine whether the computer to be inspected is defective according to a measurement result.

The image board may determine that the computer to be inspected is defective if the difference between the transmitted image and the audio signal is greater than or equal to a threshold value and if the intensity of the output signal is less than a threshold value, The computer can be judged to be defective.

Also, the main computer may acquire specification information from the computer to be inspected, generate a control command for the inspection item by setting an inspection item in accordance with the obtained specification, and determine from the image board The result can be received and stored or output.

The image board may further include a plurality of processors for processing according to the format of the image signal transmitted from the image conversion board, wherein the processor is configured to convert the pixel value of the transmitted image signal and the frequency component of the audio signal, Pixel values and frequency components, respectively.

The image conversion board may include a plurality of image converters for converting the format of the input audio signal into a digital audio signal and converting the format of the input image signal into a setting format according to a format of the image signal, The image converter may combine the converted digital audio signal with the converted image signal according to the format of the input image signal, and may transmit the combined digital image signal to the processor corresponding to the converted image signal.

According to another aspect of the present invention, there is provided an inspection method using a computer inspection apparatus connected to an inspection object computer, the method comprising: receiving a control command for an inspection item from a main computer connected to the inspection object computer; Receiving an image and an audio signal from the computer to be inspected according to the received control command; Converting the input video and audio signals into a set format; Comparing the converted video and audio signals with a reference signal, respectively; And determining whether the computer to be inspected is defective according to the comparison result.

The computer test apparatus and method according to the present invention is a computer test apparatus and method according to the present invention that automatically sets inspection items to correspond to computer specifications when a computer is checked for defects and checks various functions at once to increase inspection accuracy, It is effective.

In addition, since the present invention does not require manual setting of the inspection items according to the specification of the computer by receiving the information of the computer to be inspected, the problems that may occur during manual operation are solved, The working efficiency is increased.

In addition, the present invention has the effect of reducing the hardware cost by integrating and processing the input and output signals of various video signals and audio signals in one tester.

1 is a block diagram illustrating a computer test apparatus according to an embodiment of the present invention.
2 is a block diagram showing the detailed configuration of FIG.
FIG. 3 is a flowchart illustrating an operational flow of a computer testing method according to an embodiment of the present invention.
4 is a diagram showing an example of use of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and method for testing a computer according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

Further, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

First, a computer test apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG.

1 is a block diagram illustrating a computer test apparatus according to an exemplary embodiment of the present invention, and FIG. 2 is a block diagram illustrating a detailed configuration of FIG.

As shown in FIG. 1 and FIG. 2, the computer test apparatus 100 according to the embodiment of the present invention includes an image board 110, an image conversion board 120, and a measurement board 130.

1, the image board 110 is connected to the image conversion board 120 and the main computer 200, and the image conversion board 120 is connected to the measurement board 120. [ The test board 130 and the test target computer 300, and the measurement board 130 is connected to the test target computer 300. Accordingly, the image board 110, the image conversion board 120, and the measurement board 130 are preferably implemented as one apparatus as in the embodiment of the present invention, but may be implemented as respective independent apparatuses.

That is, when the image board 110 is implemented as an independent apparatus, the image board 110 is implemented in the sub computer 400, and the image board 110 is controlled by the sub computer 400 or the main computer 300 and the image conversion board 120. [

At this time, the main computer 200 acquires the main board specification information of the inspection target computer 300 from the inspection target computer 300 through the communication port, sets the inspection items according to the acquired specifications, And transmits the generated command to the image board 110.

In addition, various types of computers such as a laptop, a desktop, and a tablet PC may be used as the computer 300 to be inspected.

1 and 2, the image board 110 receives a control command for the inspection item from the main computer 200 connected to the inspection target computer 300 through the sub-computer 400, And may transmit the control command to the image conversion board 120.

The image conversion board 120 receives the control command from the image board 110 and transmits the remaining control commands to the measurement board 130 except for the control commands related to the video and audio signals, And converts the input video and audio signals into a setting format, and transmits the converted video and audio signals to the image board 110. [0033] FIG.

More specifically, the image conversion board 120 receives a control command from the image board 110, receives image and audio signals input from the computer 300 to be inspected according to the received control command, An M-MPU 121 for controlling the functions of the measurement board 130 and receiving the result of the performance control of the measurement board 130 by communicating with the S-MPU 131 of the measurement board 130, An audio RAM 126 for buffering and storing audio signals, and a plurality of video converters 122, 123, 124 and 125 for converting the format of a video signal input from the computer 300 to be inspected into a setting format.

More specifically, the image conversion board 120 includes an LVDS to HDMI video converter 122 for converting a video signal of a low voltage differential signaling (LVDS) format to a high definition multimedia interface (HDMI), a video graphics array (VGA) A VGA to HDMI video converter 123 for converting a video signal of a format of the HDMI format to HDMI, an HDMI to HDMI video converter 124 for converting a video signal of the HDMI format to HDMI, And a DP to eDP image converter 125 for converting the image data into the HDMI or DP format converted through the image converters 122, 123, 124, and 125 corresponding to the format of the image signal input from the computer 300 to be inspected. To the HDMI processor (111) or the DP processor (112) of the image board (110).

In addition, the M-MPU 121 performs functions such as control and storage of audio signals input from the computer 300 to be inspected, controls the audio RAM 126, processes the analog audio or digital audio signals And transmits the converted digital audio signal to the LVDS to HDMI video converter 122 or the VGA to HDMI video converter 123. [

That is, when the input video signal is in the LVDS format, the M-MPU 121 detects the input audio signal, converts the audio signal stored in the audio RAM 126 into a digital audio format, To an audio input processor (not shown) in the audio input unit 122.

At this time, the LVDS to HDMI video converter 122 stores the input audio signal in a FIFO memory (not shown), converts the audio signal input into the audio sample packet of the input stream of the video signal converted into the HDMI format And transmits it to the HDMI processor 111 of the image board 110.

If the input video signal is in the VGA format, the M-MPU 121 detects the input audio signal, converts the audio signal stored in the audio RAM 126 into a digital audio format, and outputs the converted audio signal to the VGA to HDMI video converter To an audio input processor (not shown) in the audio input unit 123.

In this case, the VGA to HDMI video converter 123 stores the input audio signal in a FIFO memory (not shown), and outputs the audio signal input to the audio sample packet of the input stream of the video signal converted into the HDMI format And transmits it to the HDMI processor 111 of the image board 110.

The HDMI processor 111 of the image board 110 separates the video signal and the audio signal from the data packet of the HDMI format received from the LVDS to HDMI video converter 122 or the VGA to HDMI video converter 123 .

If the received video signal is in the HDMI or DP format, the M-MPU 121 stops inputting the audio signal and removes the audio data stored in the audio RAM 126.

The HDMI processor 111 or the DP processor 112 of the image board 110 converts the pixel value of the video signal transmitted from the video conversion board 120 and the frequency component of the audio signal into the pixel value and frequency component And determines whether the inspection target computer 300 is defective according to the comparison result.

That is, if the difference between the pixel value of the video signal transmitted from the video signal conversion board 120 and the frequency component of the audio signal is equal to or greater than the threshold value, the HDMI processor 111 or the DP processor 112 of the image board 110 It is determined that the inspection target computer 300 is defective.

The measurement board 130 receives the remaining control commands from the image conversion board 120 excluding the control commands related to the video and audio signals and outputs the output signals for one or more functions from the computer 300 to be inspected in accordance with the received control commands. And an S-MPU 121 for measuring the state of the input signal and for transmitting the measurement result to the M-MPU 121 of the image conversion board 120.

More specifically, the measurement board 130 may include a sound tester 132, a voltage meter 133, a key code generator 134, and a PC controller 135, and performs the following functions.

First, the Sound tester 132 examines the sound of the speaker terminal and the microphone terminal of the computer 300 to be inspected. The speaker test analyzes the validity of the sound signal after RMS conversion, Generates sound of the audible area through the generator and inspects it, and transmits the measurement result to the S-MPU 121.

The voltage meter 133 may be provided for analyzing the analog signal of the computer 300 to be inspected and may output the analyzed measurement results to the S-MPU 121 (For example, checking various analog signals such as LCD backlight, LCD brightness, and USB voltage)

The key code generator 134 is configured to replace the keyboard function in a state where the keyboard is not mounted in the virtual keyboard circuit of the computer 300 to be inspected.

More specifically, when the computer 300 to be inspected transmits desired keyboard data to the S-MPU 121, the S-MPU 121 drives the key code generator 134 to perform coding, And sends the result of the measurement to the S-MPU 121. The S-MPU 121 receives the keyboard signal from the S-MPU 121,

The PC controller 135 incorporates a variable source source, a control circuit, and various On / Off circuits so as to supply and control power according to the main power specification of the computer 300 to be inspected. The S-MPU 121 The PC controller 135 is operated to perform an appropriate operation at the request of the inspection target computer 300 and the PC controller 135 transfers the measurement result to the S-MPU 121. [

Accordingly, the S-MPU 121 of the measurement board 130 outputs the measurement results transmitted from the Sound tester 132, the voltage meter 133, the key code generator 134 and the PC controller 135 to the image conversion board 120 To the M-MPU 121 of the M-MU.

At this time, the M-MPU 121 delivers each measurement result to the image board 110, and the image board 110 receives the measurement result. If the intensity of the output signal is below the threshold value, (300) is determined to be defective.

At this time, the main computer 200 may receive the judgment result of the inspection target computer 300 from the image board 110, and may store or output the judgment result.

Hereinafter, a computer testing method according to an embodiment of the present invention will be described.

FIG. 3 is a flowchart illustrating an operational flow of a computer testing method according to an embodiment of the present invention, and a specific operation of the present invention will be described with reference to FIG.

The image 110 board of the computer test apparatus 100 receives a control command for the inspection item from the main computer 200 connected to the inspection target computer 300 (S310).

When the image board 110 is implemented as an independent apparatus, it is implemented in the sub computer 400 so that the image board 110 is controlled by the sub computer 400 or the main computer 300 and the image conversion board 120. [

At this time, the main computer 200 acquires the main board specification information of the inspection target computer 300 from the inspection target computer 300 through the communication port, sets the inspection items according to the acquired specifications, And transmits the generated command to the image board 110.

In addition, various types of computers such as a laptop, a desktop, and a tablet PC may be used as the computer 300 to be inspected.

Then, the image conversion board 120 receives a control command from the image 110 board, and receives image and audio signals from the computer 300 to be inspected according to the received control command (S320).

Next, the image conversion board 120 converts the image and audio signals inputted from the computer 300 to be inspected into the setting format, respectively (S330).

At this time, the image conversion board 120 receives the control command from the image board 110, receives the image and audio signals input from the computer 300 to be inspected according to the received control command, An M-MPU 121 for controlling the functions of the measurement board 130 and the resultant values of the measurement board 130 by communicating with the S-MPU 131 of the measurement board 130, An audio RAM 126 for buffering and storing signals and a plurality of video converters 122, 123, 124, and 125 for converting the format of a video signal input from the computer 300 to be tested into a setting format.

Accordingly, the image conversion board 120 includes an LVDS to HDMI image converter 122 for converting a video signal of a LVDS (Low Voltage Differential Signaling) format to an HDMI (High Definition Multimedia Interface), a video in a VGA A VGA to HDMI video converter 123 for converting a signal to an HDMI, an HDMI to HDMI video converter 124 for converting a video signal of HDMI format to HDMI, A DP to eDP video converter 125 and a video signal of the HDMI or DP format converted through the video converters 122, 123, 124, and 125 corresponding to the format of the video signal input from the computer 300 to be inspected. To the HDMI processor 111 or the DP processor 112 of the image board 110.

In addition, the M-MPU 121 performs functions such as control and storage of audio signals input from the computer 300 to be inspected, controls the audio RAM 126, processes the analog audio or digital audio signals And transmits the converted digital audio signal to the LVDS to HDMI video converter 122 or the VGA to HDMI video converter 123. [

If the video signal received in step S320 is in the LVDS format, the video conversion board 120 detects the input audio signal, converts the audio signal stored in the audio RAM 126 into a digital audio format, To an audio input processor (not shown) in the HDMI video converter 122.

At this time, the LVDS to HDMI video converter 122 stores the input audio signal in a FIFO memory (not shown), converts the audio signal input into the audio sample packet of the input stream of the video signal converted into the HDMI format And transmits it to the HDMI processor 111 of the image board 110.

If the received video signal is in the VGA format, the image conversion board 120 detects the input audio signal, converts the audio signal stored in the audio RAM 126 into a digital audio format, To an audio input processor (not shown) in the HDMI video converter 123.

In this case, the VGA to HDMI video converter 123 stores the input audio signal in a FIFO memory (not shown), and outputs the audio signal input to the audio sample packet of the input stream of the video signal converted into the HDMI format And transmits it to the HDMI processor 111 of the image board 110.

The HDMI processor 111 of the image board 110 separates the video signal and the audio signal from the data packet of the HDMI format received from the LVDS to HDMI video converter 122 or the VGA to HDMI video converter 123 .

If the video signal received in step S320 is in the HDMI or DP format, the video conversion board 120 stops inputting the audio signal and removes the audio data stored in the audio RAM 126. [

Next, the image board 110 compares the converted image and audio signals from the image conversion board 120 with reference signals, respectively (S340).

That is, through the processors 111 and 112 corresponding to the format of the image signal converted from the image conversion board 120 of the HDMI processor 111 or the DP processor 112 provided in the image board 110, Value and the frequency component of the audio signal with the pixel value and the frequency component of the reference signal, respectively.

More specifically, when the difference between the pixel value of the video signal transmitted from the reference signal-to-video conversion board 120 and the frequency component of the audio signal is less than the threshold value, the HDMI processor 111 or the DP processor 112, (S350). If it is equal to or more than the threshold value, it is determined that the inspection target computer 300 is defective (S351).

The image board 110 receives the measurement result of the measurement board 130 that receives the output signal for one or more functions from the computer 300 to be inspected from the image conversion board 120 and receives the measurement result from the inspection target computer 300 It can be judged as bad.

More specifically, if the intensity of the received measurement result signal is below the threshold value, it is determined that the computer 300 to be inspected is defective.

At this time, the measurement board 130 receives the remaining control commands excluding the control commands related to the video and audio signals from the image conversion board 120, and transmits the control commands to the inspection target computer 300 Receives the output signal, measures the state of the input signal, and transmits the measurement result to the image conversion board 120.

The image board 110 stores the inspection result of the inspection target computer 300 in the main computer 200 or outputs the inspection result through the main computer 200 in operation S360.

4 is a diagram showing an example of use of the present invention.

4, the computer 300 to be inspected is connected to a plurality of image boards 110, an image conversion board 120, and a measurement board 130, A plurality of inspection target computers 300 may be inspected.

As described above, the computer test apparatus and method thereof according to the embodiment of the present invention are configured such that the inspection items are automatically set to correspond to the computer specifications when the computer is checked for defects and the various functions are checked at once, And the inspection time is shortened.

In addition, by receiving the information of the computer to be inspected, it is not necessary to manually set the inspection items according to the specification of the computer, thereby solving the problems that may occur during manual operation and applying it to various specification products, .

In addition, the hardware cost can be reduced by integrating and processing the input and output signals of various video signals and audio signals in one tester.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims. will be. Accordingly, the true scope of the present invention should be determined by the following claims.

100: inspection apparatus 110: image board
111: HDMI processor 112: DP processor
120: image conversion board 121: M-MPU
122 to 125: image converter 126: audio RAM
130: Measurement board 131: S-MPU
132: sound checker 133: voltage meter
134: key code generator 135: PC controller
200: main computer 300: computer to be inspected
400: Subcomputer

Claims (12)

An image board for receiving a control command for the inspection item from a main computer connected to the inspection target computer;
Receiving a control command from the image board, receiving an image and an audio signal from the computer to be inspected according to the control command, converting the format of the input image signal into a setting format, An image conversion board having a plurality of image converters for converting an image signal into an audio signal and transmitting the image and audio signals converted by the image converter to the image board; And
Receives a control command from the image conversion board, receives an output signal for one or more functions from the computer to be inspected according to the control command, measures the state of the input signal, and transmits the measurement result to the image conversion board A measurement board,
The image board includes:
A plurality of processors for processing the video signal according to the format of the video signal transmitted from the video conversion board,
The processor includes:
Comparing the pixel value of the transmitted video signal and the frequency component of the audio signal with the pixel value and frequency component of the reference signal to determine whether the computer to be inspected is defective according to the comparison result, And determines whether the computer to be inspected is defective according to the measurement result,
Wherein the image converter comprises:
Synthesizing the converted digital audio signal with the converted video signal according to the format of the input video signal, and transmitting the synthesized digital audio signal to the processor corresponding to the converted video signal,
The main computer,
A control command for the inspection item is generated by setting the inspection item in accordance with the obtained specification, receiving a determination result of the inspection target computer from the image board, Computerized inspection device. delete The method according to claim 1,
The image board includes:
And judging that the computer to be inspected is defective if the difference between the transmitted video and audio signals is greater than or equal to a threshold value,
And judges that the inspection target computer is defective if the intensity of the output signal is less than a threshold value as a result of the measurement. delete delete delete A method for inspecting a computer connected to an inspection target computer to perform inspection,
Receiving a control command for an inspection item from a main computer connected to the inspection target computer;
Receiving an image and an audio signal from the computer to be inspected according to the received control command;
Converting the input video and audio signals into a set format;
Comparing the converted video and audio signals with a reference signal, respectively;
Determining whether the computer to be inspected is defective according to the comparison result;
Receiving an output signal for one or more functions from the computer to be inspected according to the received control command and measuring a state of the input signal; And
And determining that the computer to be inspected is defective if the intensity of the output signal is less than a threshold value as a result of the measurement,
Respectively,
Converting the format of the input audio signal into a digital audio signal,
Converting the input image signal through an image converter corresponding to the input image signal among a plurality of image converters for converting the format of the image signal into the setting format,
Synthesizing the converted digital audio signal and the converted video signal according to the format of the inputted video signal, and transmitting the synthesized digital audio signal to a processor corresponding to the converted video signal,
Wherein each comparing step comprises:
A pixel value of an image signal and a frequency component of an audio signal are compared with pixel values and frequency components of the reference signal through a processor corresponding to the format of the converted image signal among a plurality of processors,
The main computer,
A computer test method for acquiring specification information from the computer to be inspected, generating a control command for the inspection item by setting an inspection item according to the obtained specification, receiving and storing the determination result of the inspection target computer, . 8. The method of claim 7,
The step of determining the presence /
And determining that the computer to be inspected is defective if the difference between the transmitted video signal and the audio signal is greater than or equal to a threshold value. delete delete delete delete

Images