KR101552826B1 - Test system for fail of display pane - Google Patents

Abstract

The present invention divides a high-resolution test pattern into a plurality of low-resolution sub-test patterns and transmits the sub-test patterns to an inspection equipment. The inspection equipment combines a plurality of low-resolution sub-test patterns to generate a high- And a display unit for displaying the image on the display panel.
To this end, the defect test system for a display panel of the present invention includes a host that divides a primitive test pattern having a first resolution into a plurality of sub-test patterns having a lower resolution than a primitive test pattern, a plurality of sub- A plurality of sub test pattern signals are combined to restore a raw test pattern of a first resolution, control is made so that the restored raw test pattern is displayed on the display panel, and a test Equipment.

Description

[0001] TEST SYSTEM FOR FAIL OF DISPLAY PANEL [0002]

The present invention relates to a defect test system for a display panel, and more particularly, to a defect test system for a display panel capable of performing a high-resolution display panel inspection without replacing existing equipment and improving a visual inspection speed by an operator .

In a display device, if there is a disconnection or a short circuit of a display signal line or a defect in a pixel in a manufacturing process, they are filtered in advance through a certain inspection. These types of tests include array tests, visual inspection (VI), and module testing.

The array test is a test to determine whether the display signal line is disconnected by applying a constant voltage before separating into individual cells and by detecting the presence or absence of an output voltage. The VI test is performed by applying a constant voltage The test is to see if the display signal line is disconnected while watching with the eyes of the person. The module test is a test to determine whether the drive circuit is operating normally after mounting the drive circuit.

These various tests are performed automatically, but since they are display devices, a visual inspection by a person is required finally.

In order to perform a visual inspection, a flicker pattern or a residual image pattern is floated separately to finally check the state of the product. After connecting a computer and a display device through a board, a test signal for displaying a test pattern is applied, .

Since the defect inspection using such a test pattern is performed through visual inspection by a human, the inspection speed is low and the yield is low, and since the inspection is performed by human eyes, the accuracy is lower than that of automation.

On the other hand, types of test pattern data include LVDS (Low Voltage Differential Signal), TMDS (Transition Minimized Differential Signal), TTL (Transistor Transistor Logic), and analogue signal pattern.

However, since these test patterns have a maximum resolution of 3840 x 2880, they are not suitable for inspection on a high resolution display which is being developed recently.

The present invention divides a high-resolution test pattern into a plurality of low-resolution sub-test patterns and transmits the sub-test patterns to an inspection equipment. The inspection equipment combines a plurality of low-resolution sub-test patterns to generate a high- And a display unit for displaying the image on the display panel.

In addition, the present invention can automatically detect a defect of a display panel by configuring any one of the inspection equipments as an automation equipment, reproduce the test pattern so that the host can identify the position where the defect occurs when the defect detection information is transmitted to the host, And to provide a defective test system for a display panel.

A failure test system for a display panel of the present invention for solving the problems includes a host that divides a primitive test pattern having a first resolution into a plurality of sub test patterns having a lower resolution than a primitive test pattern, And a display unit for displaying a test pattern output through the display panel, wherein the control unit controls the display unit to display the restored original test pattern on the display panel, Lt; / RTI >

At this time, one of the pixel data constituting the sub-test pattern may have index information on the original test pattern.

One of the plurality of inspection equipments automatically recognizes the pixel defect of the display panel and transmits the pattern identification information and the bad pixel position information to the host, and the host notifies the information inputted from the inspection equipment It is possible to regenerate a test pattern having marking process information for a position of a pixel where a defect occurs in at least one of the pixel data constituting the sub-test pattern.

Also, the host can output different marking information according to the pixel rank having a high frequency of occurrence of defects based on the defective pattern identification information and the defective pixel position information transmitted from the inspection equipment.

The present invention can apply a TMDS transmission channel that can only transmit a low-resolution signal, which is used in the past, by dividing a high-resolution test pattern into a plurality of low-resolution sub-test patterns and transmitting the same to an inspection equipment, There is an advantage.

In addition, the present invention can automatically detect a defect of a display panel by configuring any one of the inspection equipments as an automation equipment, reproduce the test pattern so that the host can identify the position where the defect occurs when the defect detection information is transmitted to the host, Equipment, it is possible to reduce the inspection time and improve the reliability of the inspection by allowing the operator to more carefully inspect the location of the defect at the time of the visual inspection.

1 is a block diagram of a defective test system of a display panel according to the present invention;
2 is an explanatory view showing a test pattern generating method according to the present invention;
3 is a detailed configuration view of the inspection equipment of FIG.
FIG. 4 is a flowchart sequentially showing a display panel failure test method according to the present invention. FIG.

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

FIG. 1 is a block diagram of a failure test system of a display panel according to the present invention, which includes a host 10, an inspection apparatus 20, a display panel 30 and a user interface 40, So that the test pattern inputted from the host 10 is displayed on the display panel 30 according to the control signal inputted through the user interface 40.

Here, the host 10 is a server having a PC or a test pattern, and stores a plurality of high-resolution test patterns of high resolution, for example, 5,120 x 2,880, and a high-resolution raw test pattern is divided into a plurality of sub- Test pattern is divided. For example, as shown in FIG. 2, a raw test pattern L having 5,120 x 2,880 is divided into four sub test patterns S having a resolution of 2,560 x 1,600.

At this time, if a primitive test pattern having a resolution of 5,120 x 2,880 is composed of four sub test patterns having a resolution of 2,560 x 1,600, 100 of them do not include a pixel test signal. Therefore, among the pixels constituting the sub test pattern, a part of the pixels not corresponding to the test signal area is set as the dummy pattern area. Then, index information for a primitive test pattern is set to a specific pixel in the dummy pattern area, for example, in the first pixel P1. That is, since the original test pattern is divided into four sub-test patterns, the index information that can identify the original test patterns is set so that the later-described inspection equipment can refer to the restored original test patterns.

In addition, at least one of the dummy patterns can set positional information on a pixel where a defect occurs and marking process information on a pixel at the position. For example, referring to information on a defective pixel input from a later-described automatic inspection apparatus, a pixel P2 located at the second position can be used to set positional information on a defective pixel and marking process information for the pixel . That is, when only one inspection equipment 20 is automated to automatically detect the defective information on the display panel, and the detected defective information is transmitted to the host 10, the host 10 sends the pixel at the defective position to the operator Is subjected to marking processing so as to be readily visible to the naked eye, thereby regenerating the test pattern.

At this time, the host 10 may store the bad pattern identification information and the bad pixel position information transmitted from the inspection equipment to check the frequency of occurrence of defects, and output different marking information according to the pixel rank having a high occurrence frequency of defects. For example, in the case of a pixel having a high defect occurrence frequency, when the test signal is generated, only the corresponding part is flickered, or the color or brightness of the pixel is differentiated according to the defect probability, .

FIG. 3 is a detailed configuration diagram of the inspection apparatus of FIG. 1. Referring to FIG. 1, the inspection apparatus receives a plurality of sub-test pattern signals from the host 10 and combines a plurality of sub-test pattern signals to restore a high- So that the displayed raw test pattern is displayed on the display panel.

At this time, one of the plurality of inspection equipments is composed of automatic inspection equipment using a vision camera rather than a manual method in which a visual inspection is performed by an operator, and automatically recognizes the pixel defect of the display panel, To the host. In other words, there is a disadvantage that the cost is high when all of the inspection equipments are used with the automated equipment.

Therefore, according to the present invention, only one equipment is constituted by an automation equipment, and the fault information detected by the automation equipment is displayed on the remaining inspection equipment, thereby allowing the operator to inspect only the faulty pixels, thereby improving the inspection speed and increasing the inspection reliability have.

The test apparatus 20 according to the present invention includes a test pattern receiving unit 21, a memory 22, a raw test pattern restoring unit 23, a format converting unit 24, a test pattern transmitting unit 25, a display unit 26, And a control unit 27.

The test pattern receiving unit 21 receives video signals for a plurality of sub test patterns from the host 10 and the signals input from the host 10 are subjected to TMDS (Transition Minimized Differential Signaling ) Signal, it is converted into an RGB signal through a receiving module such as DVI in order to convert it into an RGB signal which can be stored and processed.

Each converted sub-test pattern signal is supplied to a memory 22 such as a DDR through a control chip using a function-changeable chip such as an image signal processing chip or a field programmable gate array (FPGA) .

The original test pattern reconstruction unit 23 reconstructs a high-resolution original test pattern based on the index information set at the first pixel position of the plurality of sub-test pattern data stored in the memory.

The format conversion unit 24 converts the restored original test pattern into a signal standard suitable for output to the display panel 30. [

In other words, not only the resolution of the display panel, but also the method of transferring the image signal and the frame rate (the number of screens to be transmitted per second) are different for each model of the panel.

The test pattern transmitting unit 25 outputs the test pattern signal converted by the format converting unit to the display panel under the control of the control unit. For example, LVDS, V-by-One, and test DVI / HDMI communication module may be used .

When there is data indicating a pixel defect in the sub-test patterns input from the host 10, the control unit 27 sets the second pixel in the sub-test pattern as bad, for example, If there is position information on the pixel, the image subjected to the marking processing is generated and displayed on the display unit 26 so that the operator can know the position of the pixel where the defect occurs.

On the other hand, the user interface 40 may be an operating means such as a keyboard or a mouse connected to the inspection equipment, or an operator terminal equipped with a control program.

Hereinafter, a display panel defect test method according to the present invention will be described with reference to FIG.

First, the first sub test patterns are generated (S10). That is, a high-resolution original test pattern is generated as a plurality of low-resolution sub-test patterns. At this time, index information for identifying a primitive test pattern is set in one of pixels constituting the first sub-test pattern.

Then, the first sub-test patterns are output to the inspection equipment (S12).

Then, the inspection equipment reconstructs the original first test pattern by combining the input first test patterns, and outputs the restored original test pattern to the display panel 30 through the test pattern transmitting unit 25 (S16).

Then, in the inspection equipment, the automatic inspection equipment photographs the display screen of the display panel 30 through the vision camera and judges whether there is a defect in the pixel (S18). If there is a defective pixel, (Coordinate) information of the pixel to the host 10 (S20).

Then, the host 10 regenerates the second sub-test pattern including the marking process information for the pixel together with the positional information of the pixel where the defect occurs in one of the sub-test patterns, based on the information on the defective pixel, To the equipment 20 (S22).

Each of the inspection apparatuses 20 displays the second sub-test pattern image marked by the defective pixel on the display section 26 (S24), and the display panel 30 displays the first sub-test pattern previously generated Display. Accordingly, the operator performs inspection of the test pattern displayed on the display panel by referring to the marked image of the defective pixel displayed on the display unit 26 of the inspection equipment, so that the position where the defect has occurred can be more carefully inspected, The inspection can be done quickly and accurately.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications or changes as fall within the scope of the invention.

10: Host 20: Inspection equipment
21: test pattern receiving unit 22: memory
23: primitive test pattern reconstruction unit 24: format conversion unit
25: test pattern transmission unit 26:
27:

Claims (4)

In a defective test system for a display panel,
A host that divides and generates a primitive test pattern having a first resolution into a plurality of sub-test patterns having a lower resolution than the primitive test pattern;
Receiving a plurality of sub-test pattern signals from the host, combining a plurality of sub-test pattern signals to restore a raw test pattern of a first resolution, controlling the restored raw test pattern to be displayed on the display panel, And an inspection unit having a display unit for displaying a test pattern output through the test apparatus,
Wherein one of the pixel data constituting the sub-test pattern has index information on the original test pattern,
Wherein the inspection equipment comprises a plurality of inspection equipment,
One of the plurality of inspection equipments automatically recognizes the pixel defect of the display panel and transmits the pattern identification information and the defective pixel position information to the host,
The host determines whether or not a defect occurs in at least one of the pixel data constituting the sub test pattern based on the defective pattern identification information and the defective pixel position information from the inspection equipment, Regenerating a test pattern having marking processing information and outputting the regenerated test pattern. delete delete delete

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