KR100683148B1 - Aging operating circuit of lcd device - Google Patents

Abstract

The present invention relates to an aging driving circuit of a liquid crystal display device which downloads and stores LCD variety information on an aging test model from the outside and automatically sets the driving circuit to correspond to the variety. Receives and stores the varieties of information about the LCD drive from the PC (PC), and reads the information on the LCD drive during aging to set the drive circuit and to drive the LCD module, and the CPU Receives the LCD type information related to the drive circuit setting from the CPU unit and stores it, and transmits the varietal information to the CPU unit during aging to set the drive circuit, and receives the pattern generation information from the CPU unit. FPGA that generates driving patterns, generates current detection control signals, generates various relay control signals related to power supply, and generates control signals during manual operation A flash ROM (ROM) storing the CPU program, an FPGA serial ROM (ROM) storing the FPGA driving program, a PLL unit generating a clock for driving an LCD module, a pattern data and a clock from an external lighting tester, And a LVDS input / output unit configured to receive the horizontal synchronizing signal, the vertical synchronizing signal, and the data enable signal, and output the received pattern data, the main signal, and the pattern data generated by the driving circuit and the signal.

Description

Aging driving circuit for liquid crystal display device {AGING OPERATING CIRCUIT OF LCD DEVICE}

1 is a driving circuit diagram for aging of a liquid crystal display according to the present invention.

Explanation of symbols for the main parts of the drawings

11.Control PC 12.CPU

13.FPGA 14.EEPROM

15. Flash ROM 16. FPGA Serial ROM

17.PLL 18.LVDS Input / Output

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a module of a liquid crystal display, and in particular, to download and store LCD variety information about an aging test model from the outside, and to automatically set the driving circuit to correspond to the variety. The present invention relates to a drive circuit for aging a liquid crystal display device.

In general, the liquid crystal display device has been realized with high image quality due to the development of technology, and the image quality of the liquid crystal display device is increased day by day in the order of VGA, SVGA, XGA, and SXGA, thereby satisfying the requirements of the user.

Therefore, in order to manufacture the liquid crystal display device which is divided into several levels as described above, many manufacturing processes are performed according to the manufacturing operation of the manufacturing apparatus equipped for each level. Among various manufacturing processes for manufacturing the liquid crystal display device, there is an aging process for testing the characteristics and reliability over time of the liquid crystal display device. The aging equipment accommodates a plurality of liquid crystal modules and changes the temperature or humidity therein to evaluate the characteristics and reliability of the liquid crystal display module.

The aging process is almost the last step of the manufacturing step. The semi-assembled liquid crystal display module product is placed in a heat cycle oven to stabilize the quality of the entire liquid crystal display and to stabilize the ACF compression.

Therefore, it is possible to improve the performance of the liquid crystal display by performing uniform display of the liquid crystal display.

What is important in the aging step is to preliminarily drive the liquid crystal display and inspect the operating state, and to output the drive signal for preliminarily driving the liquid crystal display.

In order to drive the SVGA class liquid crystal display, the frequency applied to the current aging facility is about 40 MHz. When a drive signal for driving the liquid crystal display panel is output from one drive signal output device, a buffer is used. A central distribution system is constructed to preliminarily drive a number of liquid crystal display panels to test their performance.

In the prior art, varietal information (power, resolution, clock frequency, timing, etc.) for lighting the LCD module is limited in the driving circuit, and it is mechanically responded by using a switch when changing the aging input LCD varieties.

Therefore, it is impossible to cope with the LCD models other than the built-in LCD varieties, and there is a difficulty in causing and maintaining a defective LCD product due to a defective switch.

In addition, there is no defect check function of the driving circuit, there must be a process for performing a driving circuit operation inspection from time to time, and it is difficult to inspect the driving circuit of up to 1000 sheets.

However, the driving circuit of such a conventional liquid crystal display device is limited because the varietal information for lighting the LCD module is embedded in the driving circuit, and it is mechanically responded by using a switch when changing the aging input LCD varieties. Other LCD models are impossible to respond to, and there is a difficulty in causing and maintaining LCD products due to defective switches.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to download the LCD variety information for the aging test model (Aging test model) from the outside to store it, and to drive the drive circuit to correspond to the variety. An object of the present invention is to provide an aging driving circuit for a liquid crystal display device which can be set automatically.

Aging drive circuit of the liquid crystal display device of the present invention for achieving the above object,                     

Receives and saves varieties of information on LCD drive from an external control PC, reads information on LCD drive during aging, sets up a driving circuit and controls the LCD module. And an EPIROM unit configured to receive the LCD variety information related to the driving circuit setting from the CPU unit and store it, and to transmit the varietal information to the CPU unit to set the driving circuit during aging, and pattern generation information from the CPU unit. Generates an LCD driving pattern, generates a current detection control signal, generates various relay control signals related to power, generates a control signal during manual operation, a flash ROM for storing the CPU program, and drives the FPGA. FPGA serial ROM (ROM) to store program, PLL unit to generate LCD module driving clock, pattern data and clock from external lighting tester, horizontal sync signal and vertical And an LVDS input / output unit configured to receive the synchronization signal and the data enable signal, and output the received pattern data, the main signal, and the pattern data generated by the driving circuit and the signal.

The downloaded LCD type information includes LCD module driving power, timing values (clock, horizontal sync signal, vertical sync signal, data, enable signal), aging test pattern, and pattern display time for LCD display. It is set automatically by the control of a CPU.

The aging drive circuit further includes a drive circuit failure check function for checking whether the synchronization signal is abnormal and whether the driving power supply is open or short, and transmits a result to an external control PC when a failure occurs. .

The aging driving circuit further includes a function of sensing a current value, sets a low limit and a high limit value of the current value, and transmits the result data to the outside.

Hereinafter, an aging driving circuit of the liquid crystal display according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a driving circuit diagram for aging of a liquid crystal display according to the present invention.

The driving circuit for aging according to the present invention includes a central processing unit (CPU), EPIROM, and an FPGA chip to download LCD variety information for an A aging test model from an external control PC and store it in an EEPROM. It automatically responds to LCD models of various varieties by automatically setting the driving circuit to correspond to the varieties.

In addition, information on the aging test pattern (aging test pattern) is also stored in the EEPROM to cope with various aging conditions.

The configuration first receives varietal information on LCD drive from an external control PC 11 and stores it in the EEPROM 14, and sets the drive circuit by reading the LCD drive information from the EEPROM 14 at the time of aging. A function of driving the LCD module, providing pattern generation information to the FPGA 13 to control the operation of the FPGA 13, controlling the selection of the LCD driving power, and transferring the sensed current value to the control PC 11. Receives the CPU varieties and the LCD varieties information related to the drive circuit settings from the CPU 12, and stores them, and transmits varieties information to the CPU 12 and the FPGA 13 and the power control unit during aging Receive the pattern generation information from the CPU 12 and generate the LCD drive pattern, generate the current detection control signal, generate various relay control signals related to the power supply, and during manual operation. FPGA 13 for generating a control signal and the CPU A flash ROM 15 for storing a program, an FPGA serial ROM 6 for storing the FPGA driving program, a PLL 17 for generating an LCD module driving clock (30 to 75 MHz), and external lighting. Pattern data and signals generated by receiving pattern data and clock, horizontal sync signal (H_Sync) / vertical sync signal (V_Sync), data enable signal (data enable signal) from the tester, and main signals and driving circuits. It comprises a LVDS input and output unit 18 for outputting the.

The aging driving circuit according to the present invention has an open / short check of the LCD power supply and a check circuit for abnormality of the synchronous signal therein, and outputs abnormal data to the outside in the event of an abnormality, thereby automatically performing a defective check of the driving circuit. The CPU circuit is configured for these operations.

Such an aging driving circuit of the liquid crystal display according to the present invention has the following effects.

The LCD varieties can be downloaded by downloading the LCD varieties through the interface with the control PC external to the drive circuits. By storing and coping with LCD varieties, it is possible to cope with various kinds of LCD.

In addition, since the LCD variety information is a value that can be input programmatically from the control PC, the correspondence of the LCD variety of the driving circuit can be diversified, refined, and signalized.                     

Therefore, the efficiency according to the LCD varieties of the aging in-line system (aging in-line system) is maximized, and the driving circuit manufacturing cost according to the varieties are reduced.

Claims (4)

In the aging drive circuit of the liquid crystal display device, Receives and saves varieties of information on LCD drive from an external control PC, reads information on LCD drive during aging, sets up a driving circuit and controls the LCD module. ; An EPIROM unit for receiving the LCD variety information related to the driving circuit setting from the CPU unit, storing the LCD variety information, and transmitting the variety information to the CPU unit to set the driving circuit at the time of aging; An FPGA unit generating an LCD driving pattern by receiving the pattern generation information from the CPU unit, generating a current detection control signal, generating various relay control signals related to a power supply, and generating a control signal during manual operation; A flash ROM storing the CPU program, an FPGA serial ROM storing the FPGA driving program, and a PLL unit generating a clock for driving an LCD module; It includes an LVDS input / output unit for receiving pattern data and clock, horizontal synchronizing signal and vertical synchronizing signal, and data enable signal from an external lighting tester and outputting the received pattern data and the pattern data and signals generated by the main signal and the driving circuit. The drive circuit for aging of the liquid crystal display device characterized by the above-mentioned. The method of claim 1, The downloaded LCD type information includes LCD module driving power, timing values (clock, horizontal sync signal, vertical sync signal, data, enable signal), aging test pattern, and pattern display time for LCD display. It is set automatically by control of CPU, The drive circuit for aging of a liquid crystal display device. The method of claim 1, The aging drive circuit further includes a drive circuit failure check function for checking whether the synchronization signal is abnormal and whether the drive power is open or shorted, and transmitting a result to an external control PC when a failure occurs. Aging drive circuit for liquid crystal display devices. The method of claim 1, The aging driver circuit further includes a function of sensing a current value, sets a low limit and a high limit value of the current value, and transmits the data to the outside as a result.

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