KR100961167B1 - System for testing interface of the image output device and method therefor - Google Patents

Abstract

PURPOSE: An image output device interface test system and a method thereof are provided to improve reliability of a test and reliability of a product by extracting each standard image data about an interface test item and comparing the standard image data with a test measurement value. CONSTITUTION: An interface selection unit(100) selects a specific interface of an image output device. The interface selection unit extracts each standard image data about test items of the selected interface. A signal generation unit(200) generates a signal for a test of the selected interface. A test performance unit(300) stores a test measurement value. A measurement value comparison unit(400) compares the test measurement value with the standard image data about the interface test item.

Description

Image output device interface test system and its method {SYSTEM FOR TESTING INTERFACE OF THE IMAGE OUTPUT DEVICE AND METHOD THEREFOR}

The present invention relates to a technique for automatically testing interfaces of various image output apparatuses, and more particularly, receives an output signal for a specific interface from an image output apparatus to select an interface, and each reference image for the selected interface test item. The present invention relates to a video output device interface test system and method for improving test reliability and reducing time and cost by comparing data with test measurements.

In the conventional video output device interface test, after connecting a separate signal generator, the operator adjusts each remote control of the video output device, and visually determines whether the video output device is abnormal. However, this test method was limited in that the quantitative evaluation of the interface was impossible, and the operator often missed the measurement item because the operator controlled the remote controller.

On the other hand, digital flat-panel TVs currently on the market have at least four connectors and at least eight connectors, so that all interfaces cannot be tested at the manufacturing stage.

In addition, even with the same interface, the resolution can be different, and the number of measurement items is further increased. In some cases, it took more than 10 hours to test the entire system.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and receives an output signal for a specific interface from an image output device to select an interface, extracts respective reference image data for the selected interface test item, and obtains a test measurement value. By comparison, a characteristic object of the present invention is to provide an image output device interface test system and method for improving test reliability and reducing time and cost compared to existing tests.

The present invention relates to an image output apparatus interface test system, comprising: an interface selector configured to select a specific interface of an image output apparatus and extract respective reference image data for the selected interface test item; A signal generator for generating a signal for testing the interface selected by the interface selector; A test performer configured to perform a test on the corresponding interface and to store test measurement values; And a measurement value comparison unit which compares the reference image data for the interface test item with the test measurement value and displays a result according to the comparison. Characterized in that it comprises a.

On the other hand, the present invention relates to a video output device interface test method, comprising: (a) an interface selection module of an interface selecting unit selecting an interface based on an output signal for a specific interface from an image output device; (b) extracting, by the reference image data extraction module, the interface selection unit, each reference image data for a test item including a resolution, an aspect ratio, and an image abnormality of the selected interface; (c) a signal generator generating a signal (hereinafter, a 'test input signal') for testing an interface selected by the interface selection module; (d) an input signal checking module of a test performing unit determining whether a 'test input signal' generated through the signal generator is the same as a test input signal for a corresponding interface; (e) if the 'test input signal' generated through the signal generator is the same as the test input signal for the corresponding interface, the input signal checking module designates the interface as a testable interface; step; (f) a test performing module of a test performing unit performing a test on an interface designated by the input signal checking module and storing a test measurement value; (g) The error determination module of the measurement value comparison unit compares the reference image data extracted through the reference image data extraction module with the test measurement value performed by the test execution module to determine whether the error is within an allowable range. step; And (h) if the result of the determination in step (g) is within the tolerance range, the result output module of the measured value comparator displays 'Pass' through an external alarm, and displays 'Fail' if the tolerance range is greater than the tolerance range. ; Characterized in that it comprises a.

According to the present invention as described above, by extracting each reference image data for the interface test item and compare with the test measurement value, there is an effect that can increase the reliability of the test and the reliability of the product.

In addition, according to the present invention, by extracting the respective reference image data for the interface test item, there is an effect capable of analyzing the frame data that was impossible due to visual inspection or numerical evaluation of the color.

In addition, according to the present invention, by directly receiving the output signal for a specific interface from the image output device and automatically test, compared to the test by the existing operator saves more than 90% time, there is also an effect that reduces the cost .

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. In the meantime, when it is determined that the detailed description of the known functions and configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.

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

Prior to this, the image output device interface test system S according to the present invention is a system for performing a test on an interface of various image output devices. In the present embodiment, when the image output device is a TV as shown in FIG. In the conventional method, LVDS (Low Voltage Differential Siginaling) signal, which is generated through various circuits of the TV board, is inputted to the LCD or PDP panel to test the abnormality of the TV with the naked eye. In contrast, it is preferable to understand that the LVDS signal output from the TV board is directly received and tested.

The image output device interface test system S according to an embodiment of the present invention will be described with reference to FIGS. 2 to 5 as follows.

FIG. 2 is an overall configuration diagram conceptually illustrating an image output apparatus interface test system S according to an exemplary embodiment of the present invention. As illustrated, the interface selection unit 100, the signal generator 200, and a test are performed. It includes a unit 300 and the measured value comparison unit 400.

The interface selector 100 selects a specific interface of the image output apparatus and extracts respective image data of a test item of the selected interface. As shown in FIG. 3, the interface selection module 110. And a reference image data extraction module 120.

In detail, the interface selecting module 110 receives an output signal for a specific interface from the image output device and selects the interface based on the output signal.

The reference image data extraction module 120 extracts each reference image data for a test item including a resolution, an aspect ratio, and an image abnormality of the selected interface through the interface selection module 110.

Here, the reference image data is data of various image patterns in the form of RGB, and includes data on resolution, aspect ratio, and image abnormality.

As described above, in this embodiment, the specific video output device is set to TV, the interface is set to Component, composite, VGA, S-Video, RF (Coaxial), HDMI, DVI, etc. Although the output signal is set to be an LVDS signal for a specific interface, the present invention is not limited thereto, and various design changes are possible.

The signal generator 200 performs a function of generating a signal for testing the interface selected by the interface selector 100. That is, when the interface to be tested is DVI, the signal generator 200 generates an input signal (hereinafter, a 'test input signal') for testing the DVI.

The test performing unit 300 performs a test on the corresponding interface and stores a test measurement value. As shown in FIG. 4, the test performing unit 300 performs the input signal checking module 310 and the test performing module 320. Include.

Specifically, the input signal checking module 310 determines whether the 'test input signal' generated through the signal generator 200 is the same as the test input signal for the corresponding interface, and if so, the interface capable of testing the interface. If not specified, and if it is not the same, the signal generation unit 200 re-requests the signal generation for testing the interface.

 The test performing module 320 performs a test on the interface specified through the input signal checking module 310 and stores a test measurement value.

The measurement value comparator 400 compares the reference image data for the interface test item with the test measurement value and displays a result according to the comparison. The error determination module 410 is illustrated in FIG. 5. And a result output module 420.

In detail, the error determination module 410 compares the reference image data extracted through the reference image data extraction module 120 and the test measurement value performed by the test execution module 320 to determine whether the error is within a tolerance range. Determine whether or not.

As a result of the determination of the error determination module 410, if the error is within the tolerance range, the result output module 420 displays 'Pass' through an external alarm, and displays 'Fail' when the error is greater than the tolerance range.

At this time, the reference of the tolerance range of the reference image data value and the test measurement value of each interface follows the own standard of each image output device manufacturer.

A method of testing an image output device interface using the above-described system S will be described with reference to FIG. 6 as follows.

6 is a flowchart illustrating a method for testing an image output device interface according to an embodiment of the present invention, and as shown, the interface selection module 110 of the interface selector 100 outputs a specific interface from an image output device. The interface is selected based on the signal (S10), and the reference image data extraction module 120 extracts each reference image data for a test item including the resolution, the aspect ratio, and the presence or absence of an abnormality of the selected interface (S20). . Here, the reference image data is various image pattern data in the form of RGB and includes data on resolution, aspect ratio, and abnormality of an image.

Thereafter, the signal generator 200 generates a signal (hereinafter, a 'test input signal') for testing the interface selected through the interface selection module 110 (S130).

The input signal checking module 310 of the test execution unit 300 determines whether the 'test input signal' generated through the signal generator 200 is the same as the test input signal for the corresponding interface (S140).

As a result of the determination in step S140, when the 'test input signal' generated through the signal generator 200 is the same as the test input signal for the corresponding interface, the input signal checking module 310 designates the interface as a testable interface. In operation S150, the test execution module 320 performs a test on the interface specified through the input signal verification module 310 and stores the test measurement value in operation S160.

Thereafter, the error determination module 410 of the measured value comparison unit 400 compares the reference image data extracted through the reference image data extraction module 120 and the test measured value performed by the test execution module 320. Then, it is determined whether or not it is within the tolerance range (S170).

As a result of the determination in step S170, if within the tolerance range, the result output module 420 displays 'Pass' through an external alarm and displays 'Fail' when the tolerance range is greater than the tolerance range (S180).

On the other hand, when the determination result of step S140, the 'test input signal' generated by the signal generator 200 is not the same as the test input signal for the interface, the input signal checking module 310 proceeds to step S130. To fulfill.

As described above, the image output device interface test system and the method according to the present invention extract the reference image data including the resolution, the aspect ratio, and the presence or absence of an image for each test item of the interface, and the test measurement value and By comparison, unlike the conventional one, which was made only by visual inspection, it has a characteristic advantage that the overall evaluation of the image is possible.

As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Figure 1 is an exemplary view showing the application of the image output device interface test system (S) when the image output device according to an embodiment of the present invention.

Figure 2 is a schematic diagram showing a conceptual view of the image output device interface test system (S) according to an embodiment of the present invention.

3 is a detailed configuration diagram of the interface selection unit 100 according to an embodiment of the present invention.

Figure 4 is a detailed configuration of the test performing unit 300 according to an embodiment of the present invention.

5 is a detailed configuration of the measured value comparison unit 400 according to an embodiment of the present invention.

6 is a flowchart illustrating a method of testing an image output device interface according to an embodiment of the present invention.

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

S: Video output device interface test system

100: interface selection unit 110: interface selection module

120: reference image data extraction module 200: signal generator

300: test execution unit 310: input signal confirmation module

320: test execution module 400: measured value comparison unit

410: error determination module 420: result output module

Claims (8)

In the video output device interface test system, An interface selecting unit 100 for selecting a specific interface of the image output apparatus and extracting respective reference image data for a test item of the selected interface; A signal generator 200 generating a signal for testing an interface selected by the interface selector 100; A test performer 300 performing a test on the corresponding interface and storing a test measurement value; And A measured value comparison unit 400 comparing the reference image data for the interface test item with the test measured value and displaying a result of the comparison; Including, The interface selector 100, An interface selection module 110 for receiving an output signal for a specific interface from the image output device and selecting an interface based on the output signal; And A reference image data extraction module 120 for extracting respective reference image data for a test item including a resolution, an aspect ratio, and an image abnormality of an interface selected through the interface selection module 110; Image output device interface test system comprising a. delete The method of claim 1, The test performing unit 300, It is determined whether the 'test input signal' generated through the signal generator 200 is the same as the test input signal for the corresponding interface. If the test input signal is the same, the corresponding interface is designated as a testable interface. An input signal checking module 310 for re-requesting signal generation for testing a corresponding interface through the signal generator 200; And A test performing module 320 for performing a test on the interface designated by the input signal checking module 310 and storing a test measurement value; Image output device interface test system comprising a. The method of claim 1, The measured value comparison unit 400, An error determination module 410 for comparing the reference image data extracted through the interface selector 100 with a test measurement value performed through the test performer 300 to determine whether the error is within a tolerance range; And As a result of the determination of the error determination module 410, if it is within the tolerance range, the result is displayed as 'Pass' through an external alarm, and if it is more than the tolerance range, the result output module 420; Image output device interface test system comprising a. The method of claim 1, The reference image data is a variety of image pattern data in the form of RGB, the image output device interface test system, characterized in that it includes data on the resolution, aspect ratio and the presence of an image abnormality. In the video output device interface test method, (a) selecting, by the interface selecting module 110 of the interface selecting unit 100, an interface based on an output signal for a specific interface from the image output device; (b) extracting, by the reference image data extracting module 120 of the interface selecting unit 100, respective reference image data for a test item including resolution, aspect ratio, and image abnormality of the selected interface; (c) generating, by the signal generator 200, a signal for testing the interface selected through the interface selection module 110 (hereinafter, a 'test input signal'); (d) the input signal checking module 310 of the test execution unit 300 determining whether the 'test input signal' generated through the signal generator 200 is the same as the test input signal for the corresponding interface; (e) If the 'test input signal' generated by the signal generator 200 is the same as the test input signal for the corresponding interface, as a result of the determination of the step (d), the input signal checking module 310 corresponds to the corresponding interface. Designating a testable interface; (f) performing a test on the interface designated by the test performing module 320 of the test performing unit 300 through the input signal checking module 310 and storing a test measurement value; (g) reference image data extracted by the error determination module 410 of the measured value comparing unit 400 and the reference image data extraction module 120 and a test measured value performed by the test performing module 320. Comparing the two to determine whether the error is within the tolerance range; And (h) As a result of the determination in step (g), if the result is within the tolerance range, the result output module 420 of the measured value comparison unit 400 displays 'Pass' through an external alarm. Displaying 'Fail'; Image output device interface test method comprising the. The method of claim 6, As a result of the determination in step (d), when the 'test input signal' generated by the signal generator 200 is not the same as the test input signal for the corresponding interface, the input signal checking module 310 is the (c) Implementing the procedure in stages; Image output device interface test method further comprising. The method of claim 6, The reference image data is a variety of image pattern data in the form of RGB, the image output device interface test method, characterized in that it comprises data on the resolution, aspect ratio and the presence or absence of an image.

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