KR20010016254A - Apparatus for and method of testing LCD modules on aging - Google Patents

Abstract

PURPOSE: A system for testing an aging of a liquid crystal display module and a method for testing thereof are provided to perform an aging test automatically according to a setting value and satisfying a demand of an LCD module simultaneously by automatically setting various parameter. CONSTITUTION: A unit aging testing system is divided into eight groups(210-1-210-8), and each group is divided into eight channel, and eight LCD modules are tested by a group. Thus, sixty LCD modules are tested by one aging testing system. Additional electric power supplying devices(202-1-202-8) are mounted by each group and various voltage demanded in LCD module is offered. A system setup control unit(102) integrally controls eight groups(210-1-210-8). Each group consists of one LCD aging control board(211), eight LCD aging driving board(212-1-212-8), eight buffer board(213-1, 213-8) and eight inverter(214-1-214-8). In addition, electric power supplying devices(202-1, 202-8) are connected for supplying an electric power to each group.

Description

Liquid crystal display module aging test system and test method {Apparatus for and method of testing LCD modules on aging}

The present invention relates to a liquid crystal display (LCD) module testing apparatus, and more particularly, to an LCD module aging test system and a test method for testing an LCD module for a predetermined time in a predetermined environment.

In general, the LCD module is a display device including a panel in which liquid crystal is injected between the substrate and the substrate, a driving unit for driving the panel, a backlight, and the like, and is widely used in notebook PCs, TVs, monitors, and the like.

These LCD modules are manufactured based on precise semiconductor technology, and require precise testing in the manufacturing process because they are high-precision systems that contain a myriad of devices. In particular, an aging test is required to improve the reliability of the devices. An aging test system for driving and testing the LCD module is required for the aging test. In general, to test the LCD module, a power supply (Vdd1 / Vdd2, data level, B / L, etc.) for operating the LCD and driving signals (Vsync, Hsync, CLK, RGB data, etc.) for driving the pixels are required. The LCD aging test system must provide these signals.

However, the conventional aging test system has a problem that it takes a lot of time to test because it must manually adjust the Vdd voltage / current, B / L voltage / current, etc. at the beginning of the test to satisfy the characteristics required for each LCD module. . Furthermore, in order to simultaneously test various LCD modules, it is necessary to be able to vary parameter values in a wide range, and a power supply of sufficient capacity is required, but this requirement has not been satisfied in the past.

An object of the present invention is to provide an LCD module aging test system and a test method which can automatically set various parameters according to the LCD module to be tested in order to solve the above problems and perform an aging test.

1 shows a schematic configuration of an aging system according to the present invention;

2 is a detailed block diagram of an aging system according to the present invention;

3 is a detailed configuration diagram of the control board shown in FIG.

4 is a detailed configuration diagram of the driving board shown in FIG.

5 is an operation flowchart of an aging system according to the present invention;

6 is an example of an operation screen according to the present invention;

7 is an example of a password input screen according to the present invention;

8 is an example of a module registration screen according to the present invention;

9 is an example of a pattern registration screen according to the present invention;

10 is an example of a pattern editing screen according to the present invention;

11 is an example of an NG information display screen according to the present invention;

12 is an example of a current monitor screen according to the present invention.

* Explanation of symbols for main parts of the drawings

102: system setup controller 202-1 to 202-8: power supply

210-1 to 210-8: Aging group 211: LCD aging control board

212-1 ~ 212-8: LCD aging drive board 213-1 ~ 213-8: Buffer board

214-1 ~ 214-8: Inverter 220-1 ~ 220-8: LCD module

301: communication unit 302: control unit

303: ROM 304: drive board connection

305: power distribution unit 306: current voltage detection unit

In order to achieve the above object, the system of the present invention can set a test condition and an operating condition for an aging test, provide a system setup controller for controlling the entire operation, and provide a power source for the test according to a control signal. In the aging test system, which can test the LCD module with the unit aging test system including the power supply,

The unit aging test system receives test-related data from the system setup controller and transmits the test-related data to the plurality of driving boards, and provides status information to the system controller by comparing the monitoring current voltage received from the driving board with a limit value. Control board; At least one driving board receiving test-related data from the control board to generate an internal pattern signal during an internal pattern test, and supplying power to the LCD module at a set timing; A buffer board receiving a driving signal from the driving board and providing a driving signal suitable for a test module; And an inverter receiving power and supplying power necessary for the backlight of the LCD module.

In addition, the method of the present invention to achieve the above object, the method for aging test a plurality of LCD modules, the step of displaying the operation screen when the power is turned on; Selecting a maintenance menu from the operation screen to set a test pattern or register a module; Specifying the type and aging conditions of the test target LCD module for each aging group or, if testing with the same module, specifying and setting the test target LCD module type and aging conditions at one time; When the aging test is started, testing each LCD module under a set condition and providing a predetermined screen according to an operator's operation; And ending the aging test when the set aging time expires.

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

1 is a view showing the configuration of the aging test system according to the present invention, a large aging test system for the n unit aging test system (110-1 ~ 110-n), and for the manual control of each unit aging test system n remote controllers 120-1 to 120-n: RCB, and a system setup controller 102 for centrally managing n aging test systems. The system setup controller 102 is a computer equipped with a program for operating and managing an aging test system, and can be connected to a host computer. In the embodiment of the present invention, the unit aging test system is capable of testing 64 LCD modules at once.

2 is a detailed block diagram of a unit aging system according to the present invention. In the embodiment of the present invention, the unit aging test system is divided into eight groups (or blocks: 210-1 to 210-8), and each group ( Or block) is divided into eight channels so that eight LCD modules can be tested per group (block). Therefore, 64 LCD modules can be tested by one unit aging system, and a plurality of such unit aging test systems can be connected to aging tests of many LCD modules as shown in FIG. 1. In such a unit aging test system, a separate power supply device 202-1 to 202-8 may be mounted for each group to provide various voltages required by the LCD module.

2, the system setup controller 102 collectively controls eight groups 210-1 to 210-8, and each group is referred to as one LCD aging control board (hereinafter, simply referred to as control board; 211). And eight LCD aging drive boards (hereinafter, simply referred to as drive boards; 212-1 to 212-8), eight buffer boards (213-1 to 213-8), and eight inverters (214-1 to 214-8). ) And one power supply unit 202-1 to 202-8 is connected to supply power to each group.

As illustrated in FIG. 3, the LCD aging control board 211 includes a communication unit 301, a controller 302, a drive board connection unit 304, a power distribution unit 305, and a current voltage detection unit for communicating with a system setup controller. It consists of 306 to distribute the drive signal and power to the eight drive board (212-1 ~ 212-8).

Referring to FIG. 3, the communication unit 301 interfaces communication with the system setup controller and transfers the detected data to the system setup controller 102 through the voltage and current detector 306. The controller 302 transmits a signal received from the system setup controller 102 to each drive board through the drive board connection unit 304 with reference to the data of the internal ROM 303 and controls the power distribution unit 305. Adjust the power applied to the LCD module to the set value of the system setup controller. The power distribution unit 305 distributes the power received from the power supply device 202-1 to the LCD module, and the drive board connection unit 304 drives the control board 211 to the drive boards 212-1 to 212-8. Connect with.

As shown in FIG. 4, the LCD aging driving boards 212-1 to 212-8 include a control board connector 401, a pattern generator 402, a buffer board connector 403, a control logic 404, and a switching. The controller 405 generates an internal pattern to provide a driving signal, and supplies power to the LCD module at a set timing.

Referring to FIG. 4, the control board connection unit 401 is connected to the control board to transfer the data received from the system setup controller 102 to the pattern generator 402, and the pattern generator 402 of the system setup controller. A predetermined drive pattern is generated according to the set value. The buffer board connection unit 403 transmits the driving pattern signal of the pattern generator 402 to the buffer board, and the control logic 404 is a signal for controlling the timing of the power applied to the LCD module according to the timing set at the system setup. Is transmitted to the switching unit 405, and the switching unit 405 applies power to the LCD module under the control of the control logic 404.

Referring back to FIG. 2, the buffer boards 213-1 to 213-8 receive driving patterns and power from the driving boards 212-1 to 212-8 and convert them into driving signals of a signal standard required by the LCD module. To provide. The signal specification provided in the embodiment of the present invention is determined according to the LCD module as a TTL drive signal, an LVDS drive signal, a TMDS drive signal, or the like. The inverters 214-1 to 214-8 generate and provide power for the backlight of the LCD module.

The remaining groups 210-2 to 210-8 also have the same configuration as that of the first group, and aging test of 64 LCD modules LCM1 to LCM64 can be performed at once by eight groups. The aging test sequence according to the present invention edits and registers a pattern to be displayed in a maintenance mode, specifies an LCD module type to be tested, and registers the same LCD for all 64 modules in an operator mode. Start the aging test by deciding whether to test the module or to test different types of LCD modules by group. At this time, during the aging test, the temperature, current monitor and NG status submenus can be selected to monitor the test results and progress on the corresponding screen.

Next, the operation of the aging test system of the present invention configured as described above will be described in detail with reference to FIG.

When the aging test system is powered on, an operator screen as shown in FIG. 6 appears on the screen of the system setup controller (S1).

Referring to FIG. 6, a sub-menu item (Aging Start, Aging Stop, Time reset, NG Status, Maintenance, Current monitor, Close) button is displayed on the right side of the operation screen, and this item button is selected to perform a desired function. Can be. The whole menu can be divided into maintenance menu and operator menu. In the maintenance menu, pattern editing, registration, new model LCM registration, and driving board signal check to be displayed in the engineer area can be performed. In the operator menu, you can set the aging temperature, start / stop the LCD aging test, monitor the current, and check the NG generation channel during aging. At this time, the system setup controller is a panel PC that controls the aging test system, and has a touch screen function so that the operator can easily operate with a finger or a pen tip.

When the Maintenance menu is selected in the sub screen of the operator screen, a screen for selecting a password and a screen (Pattern Registration, Module Registration, Data signal Check) as shown in FIG. Appears, enter the password and screen in this screen and click the 'confirm' button to move to the screen (S2, S3). In other words, the maintenance mode screen is used by engineers to register new models when they are released, edit display patterns, and register them as pattern groups. Also, it is possible to check whether there is an error in the data signal of the driving board. The maintenance mode screen includes a pattern registration screen, a module registration screen, a signal check screen, and the like.

When the module registration screen is selected, a module registration screen as shown in FIG. 8 appears. The module registration screen is a screen that provides a function for the engineer to pre-register the specifications of the LCM when a new module to be released is released. The registration details include LCD pixels, VDD1 / VDD2, signal voltage, dot clock, horizontal / vertical data, pattern interval time, and pattern group to be tested. The registered LCM can be freely used by the operator in the test model window of the operation screen (S4).

When the pattern registration screen is selected, the pattern registration screen opens as shown in FIG. The pattern registration screen is a screen of a function of generating and registering aging test patterns, and may register a plurality of aging test pattern groups. When the pattern editing item is selected in the pattern registration screen, the pattern editing screen is displayed so that a pattern editing screen as shown in FIG. 10 is displayed to generate a pattern necessary for an aging test. The pattern generated in the pattern editing screen is registered in the pattern name window after being given a name (S5, S6).

If the signal check screen is selected, the data signal of the driving board may be inspected according to a self-diagnosis procedure (S7).

Subsequently, when the setting for the maintenance menu is completed, the operating environment is set again in the operator screen. That is, it is determined whether the LCD module to be tested on the operation screen is the same or different for each group (block) in the entire group, and when testing different modules for each group (block), the type of LCD module to be tested for each group (block) And when the aging condition is set, and the test with the same module, if the module and the aging condition is specified only in the first group (block), the whole is set the same (S8 to S10).

After the setting is completed as described above, the aging test is started by clicking the 'Aging start' button on the operation screen (S11).

Each test state in the aging test is displayed in blocks 1 to 8 of the operation screen. Each block consists of eight channels, and the aging test status for each channel is indicated in color. Green indicates a normal aging channel, and red indicates a channel where a Low or High Limit occurred during the LCM aging test. It also shows the temperature set by the operator, the current temperature and the current time.

During the aging test, if the 'NG state (NGtatus)' menu is selected on the operator screen, the NG (No Good) state screen is displayed as shown in FIG. The NG status screen is a screen that provides the operator with the reason and time when the problem occurs in each channel during aging operation. The reason for the problem is when the lower limit and the upper limit are exceeded (S12).

When the current monitor menu is selected in the operation screen during the aging test, a current monitor screen is displayed as shown in FIG. 11. The current monitor screen is a screen for monitoring the consumption current measurement result of VDD1 / VDD2 of each channel during the aging system operation (S13).

The operating conditions can be changed by selecting the operation screen or the maintenance menu. In particular, by manually clicking the 'Auto / Manu' button on the operation screen, the remote control device (RCB) can be examined precisely while varying the test conditions (S14, S15).

Subsequently, if it is determined that the set aging test time has expired, the aging test is continued and the corresponding screen is displayed according to the operator's operation, and when the expiration time is reached, the aging test is terminated (S16).

As described above, the aging test system according to the present invention can automatically perform the aging test according to the set value while meeting the requirements of the various LCD modules. In particular, it is possible to extend the unit aging test system as needed to aging test many LCD modules at once, and the operator can easily monitor various conditions using the touch screen on the operation panel. And because different aging conditions can be set for each group (block), it is possible to aging test various kinds of LCD modules at once.

Claims (6)

It is possible to set test condition and operation condition for aging test, and to set up the LCD module as a unit aging test system including a system setup controller for controlling the whole operation and a power supply for supplying power for the test according to the control signal. In an aging test system that can be tested, The unit aging test system, A control board receiving test-related data from the system setup controller and transferring the test-related data to a plurality of driving boards, and providing status information to the system controller by comparing the monitoring current voltage received from the driving board with a limit value; At least one driving board receiving test-related data from the control board to generate an internal pattern signal during an internal pattern test, and supplying power to the LCD module at a set timing; A buffer board receiving a driving signal from the driving board and providing a driving signal suitable for a test module; And Aging test system, characterized in that it comprises an inverter for receiving the power to supply the power required for the backlight of the LCD module. The method of claim 1, wherein the control board Refers to a communication unit for interfacing communication with the system setup controller, a power distribution unit for distributing power received from the power supply device to the LCD module, a drive board connection unit for connecting the control board to the drive board, and internal ROM data. And a control unit for transmitting a signal received from the communication unit to the driving board connection unit, and controlling the power distribution unit to adjust the power applied to the LCD module to a set value of a system setup controller. According to claim 1, wherein the driving board A control board connecting part for connecting to the control board, a pattern generating part for generating a predetermined driving pattern according to a setting value received from the control board connecting part, and for receiving a driving pattern from the pattern generating part and transferring the driving pattern to the buffer board; A buffer board connection part, a control logic for providing a power on / off timing control signal according to the control data received from the control board connection part, and a switching part for turning on / off power applied to the LCD module according to the control signal of the control logic. An aging test system, characterized in that. The method of claim 1, wherein the buffer board An aging test system comprising converting a driving pattern received from the driving board into any one signal standard among a TTL driving signal, an LVDS driving signal, and a TMDS driving signal and providing the same to a LCD module. In the aging test method for aging test of multiple LCD modules, Displaying an operation screen when the power is turned on; Selecting a maintenance menu from the operation screen to set a test pattern or register a module; Specifying the type and aging conditions of the test target LCD module for each aging group or, if testing with the same module, specifying and setting the test target LCD module type and aging conditions at one time; When the aging test is started, testing each LCD module under a set condition and providing a predetermined screen according to an operator's operation; And The aging test method comprising the step of ending the aging test when the set aging time expires. The method of claim 5, wherein the providing of the predetermined screen comprises: The aging test method characterized in that when the operator selects the NG state during the aging test, the fault information generated during the test is provided, and when the current monitoring is selected, the current value of each module is displayed.