KR101597024B1 - Liquid crystal display device for testing and how to upload an image pattern - Google Patents

Abstract

In the present invention, when a high-resolution still image signal in a computer is output to a liquid crystal display panel (= liquid crystal display) to be inspected and it is judged whether the screen is abnormal (normal or bad) The present invention relates to an image pattern uploading method and apparatus that can significantly improve data processing speed, increase the productivity, and shorten the inspection process.
(HDMI) terminal B for inputting still image data A, which is an image pattern in which high-resolution image data stored in a PC or MICRO-PC is output, is provided on one side of the HDMI terminal B And a RGB conversion converter C for converting the still image data A into an RGB digital signal is constituted at the rear end of the signal line connected to the HDMI terminal B, (D) for uploading RGB digital signals (high-resolution still image data) transmitted from the HDMI terminal (B) at a very high speed by the programmed resources, (N) for temporarily storing the RGB digital signals (high-resolution still image data) for the purpose of present use, and the one end and the other end of the volatile memory (Q) for outputting a digital signal, which is still image data, to a liquid crystal display (LCD, OLED, etc.).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an image pattern uploading device for inspecting a liquid crystal display,

In the present invention, when a high-resolution still image signal in a computer is output to a liquid crystal display panel (= liquid crystal display) to be inspected and it is judged whether the screen is abnormal (normal or bad) The present invention relates to an image pattern uploading method and apparatus that can significantly improve data processing speed, increase the productivity, and shorten the inspection process.

In recent years, liquid crystal display panels (LCDs) including LCDs and OLEDs have been rapidly increasing in size, and they have not been able to reliably maintain high-definition resolution in accordance with the level of consumer demand. It is difficult to survive.

Therefore, in the process of professionally producing LCD and OLED, a screen inspection process (visual inspection, etc.) is performed to test whether there is an abnormality in image quality ahead of the shipment of the product.

However, in the conventional screen inspection method, a high-quality image file stored in the HDD or SDCard from a PC or a MICRO-PC is downloaded from a LAN or USB and stored as a picture file (BMP) in an image pattern uploading device, (DDR, DDR2), it takes a lot of time to read the image before it is scanned to the uploading device (due to the limitation of the hardware performance of the image pattern uploading device, The productivity is greatly lowered.

That is, in the conventional method of first uploading the panel inspection image data BMP,

 (Delay time) due to the irrational internal processing system (input method, CPU processing capability, nonvolatile memory speed, volatile memory speed) in the PC or MICRO-PC, Not only does it take a lot,

Especially, in the case of a large-sized high-quality image with a large capacity, it takes more time, and it is urgent to improve the efficiency, quality and productivity of the inspection work.

Therefore, according to the present invention, an image (pattern) necessary for screen inspection is downloaded as a video signal from a PC or a MICRO-PC and converted into a digital signal, and immediately stored in a volatile memory (DDR, DDR) A new uploading method that can significantly reduce the uploading time of the required image data to 1/10 or more compared with the conventional one (speeding up the storage speed by minimizing the delay time), shortening the display inspection process and improving productivity The technical problem has been accomplished by focusing on providing the device.

In order to examine a screen state of a liquid crystal display (LCD, OLED, etc.), the present invention for achieving the above technical object is a method for checking a screen state of a liquid crystal display (LCD, OLED, etc.) An image pattern uploading device (uploading means for quickly transferring the image pattern selected from the PC or MICRO-PC to the liquid crystal display) that can be installed between the MICRO-PC and the liquid crystal display (internal or external) The HDMI terminal B is configured to receive the still image data A as an image pattern output from the high-resolution image data stored in the PC or the MICRO-PC, and the still image data A And a second line of the RGB conversion converter C is connected to an RGB digital signal transmitted from the HDMI terminal B, (D) for performing high-speed uploading of high-resolution still image data (high-resolution still image data) by the programmed resources, and the RGB digital signals (high-resolution still image data ) For temporarily storing the digital still image data for the purpose of present use and a signal conversion for outputting a digital signal which is still image data to a liquid crystal display (LCD, OLED, etc.) at a subsequent stage of the FPGA semiconductor (D) Quot; Q ".

According to the present invention configured as described above, the high-resolution image file can be directly transferred to the internal volatile memory (DDR, DDR2) of the slotted inspection apparatus without passing through the central processing unit (CPU) of the PC or MICRO-PC through the screen capture method, So that it is possible to quickly upload several image data to the inspection apparatus,

In addition, ultra-high-quality images input via the existing LAN and USB can be independently controlled at high speed without being influenced by any processing system (input method, CPU processing capability, nonvolatile memory speed, volatile memory speed) inside the PC or MICRO-PC It can be directly processed in the internal high-speed volatile memory, and the processing speed can be greatly reduced from the existing one.

More specifically, since the image outputted on the screen can be directly stored in the volatile memory of the image pattern uploading apparatus having a relatively high processing speed, there is an advantage that the delay time for uploading can be remarkably improved, There is an effect that the device setting time can be reduced,

In addition, it is possible to set up image data uploading of several hundreds of images by minimizing the occurrence of such delay time, and it is advantageous to increase the inspection efficiency of the panel and to minimize the fault discrimination.

1 is a conceptual diagram of a conventional slotted inspection apparatus
Fig. 2 is a schematic view of the operation of a preferred slotted inspection apparatus according to the present invention.
3 is an enlarged conceptual diagram of an FPGA and SCB1 and SCB2 of the slot inspection apparatus of the present invention.

The image pattern uploading apparatus and method for inspecting a liquid crystal display of the present invention will be described in more detail with reference to the accompanying drawings.

First, an image pattern uploading apparatus for inspecting a liquid crystal display, which is one of the features of the present invention,
In constructing an image pattern uploading device that can be installed between a PC or a MICRO-PC and a liquid crystal display (internal or external) to check the screen status of a liquid crystal display (LCD, OLED, etc.)
An HDMI terminal B for receiving still image data A, which is an image pattern in which high-resolution image data stored in the PC or MICRO-PC is output,
A RGB conversion converter C for converting the still image data A into an RGB digital signal is formed at the rear end of the signal connected to the HDMI terminal B,
The following line of the RGB conversion converter C constitutes an FPGA semiconductor D for uploading the RGB digital signal transmitted from the HDMI terminal B at a very high speed by the programmed resource,
A volatile memory (N) temporarily storing the RGB digital signals for current use is formed on one side and the other side connected to the FPGA semiconductor (D)
A signal conversion unit Q for outputting RGB digital signals, which are still image data, to a liquid crystal display (LCD, OLED, etc.) is constituted at a subsequent stage of the FPGA semiconductor D,
In the FPGA semiconductor (D)
SCB 1 (G) for sending the converted still image data A through the RGB conversion converter C to the next line;
FIFO 1 (J), which is an array of registers allocated to a succeeding line of SCB 1 (G) to express data transferred from SCB 1;
And MCB 1 (J), which is a block allocated to the output line of the FIFO 1 (J) and which stores the still image data received from the FIFO 1 (J) M);
FIFO 2 (K), which is an array of registers allocated to the subsequent line of the MCB 1 (M) and for processing still image data stored in the volatile memory (N) via the MCB 1 (M);
SCB 2 (H), which is assigned to the FIFO 2 (K) following line and sends the still image signal transferred from the FIFO 2 (K) to the next line;
And a buffer P which is allocated to a subsequent line of the SCB 2 (H) and outputs a still image signal transmitted from the MCB 2 (H) to the outside, program logic of the program is organized.
Between the SCB 2 (H) and the SCB 1 (G)
The MCB 2 (F) for storing a given still image signal in a nonvolatile memory (E) capable of long-term storage for the next use purpose without sending out a given still image signal to the outside according to the selection of the SCB 2 (H) ) May be further configured,

A nonvolatile memory (E) capable of long-term storage is connected to the other side of the FPGA semiconductor (D) connected with the MCB 2 (F) by the control of the MCB 2 (F) . ≪ / RTI >

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The still image data stored in the volatile memory N may be output to the liquid crystal display R for inspection as described above,

If necessary, stored in a separate nonvolatile memory E for the next use,

When the same still image data is requested in the future inspection, it is not necessary to capture still image from PC or MICRO-PC,

It may be more useful since it is called up from the nonvolatile memory E and used.

The above image pattern uploading apparatus and method for inspecting a liquid crystal display of the present invention capture still image signals outputted through the HDMI terminal (B) of a PC or MICRO-PC as described above, convert them into RGB digital signals, Since the high-speed uploading operation can be performed at high speed through the signal conversion unit Q, which is quickly stored in the memory N and then output to the liquid crystal display R at a high speed through the signal conversion unit Q, It is a useful invention that greatly contributes to productivity as well as speed.

B: HDMI terminal C: RGB conversion converter
D: FPGA Semiconductor E: Nonvolatile Memory
F: MCB2 memory control section G: SCB1 signal exchange section
J: FIFO1 data arrangement section M: MCB1 memory control section
N: volatile memory K: FIFO2 data array unit
H: SCB2 signal exchange part P: buffer
Q: Signal conversion unit R: Liquid crystal display

Claims (5)

In constructing an image pattern uploading device that can be installed between a PC or a MICRO-PC and a liquid crystal display (internal or external) to check the screen status of a liquid crystal display (LCD, OLED, etc.)

An HDMI terminal B for receiving still image data A, which is an image pattern in which high-resolution image data stored in the PC or MICRO-PC is output,
A RGB conversion converter C for converting the still image data A into an RGB digital signal is formed at the rear end of the signal connected to the HDMI terminal B,
The following line of the RGB conversion converter C constitutes an FPGA semiconductor D for uploading the RGB digital signal transmitted from the HDMI terminal B at a very high speed by the programmed resource,
A volatile memory (N) temporarily storing the RGB digital signals for current use is formed on one side and the other side connected to the FPGA semiconductor (D)
A signal conversion unit Q for outputting RGB digital signals, which are still image data, to a liquid crystal display (LCD, OLED, etc.) is constituted at a subsequent stage of the FPGA semiconductor D,

In the FPGA semiconductor (D)
SCB 1 (G) for sending the converted still image data A through the RGB conversion converter C to the next line;
FIFO 1 (J), which is an array of registers allocated to a succeeding line of SCB 1 (G) to express data transferred from SCB 1;
And MCB 1 (J), which is a block allocated to the output line of the FIFO 1 (J) and which stores the still image data received from the FIFO 1 (J) M);
FIFO 2 (K), which is an array of registers allocated to the subsequent line of the MCB 1 (M) and for processing still image data stored in the volatile memory (N) via the MCB 1 (M);
SCB 2 (H), which is assigned to the FIFO 2 (K) following line and sends the still image signal transferred from the FIFO 2 (K) to the next line;
And a buffer (P) for outputting a still image signal, which is allocated to a subsequent line of the SCB 2 (H) and is transmitted from the MCB 2 (H), to the outside. Image pattern uploading device for display inspection.
The method according to claim 1,
Between the SCB 2 (H) and the SCB 1 (G)
The MCB 2 (F) for storing a given still image signal in a nonvolatile memory (E) capable of long-term storage for the next use purpose without sending out a given still image signal to the outside according to the selection of the SCB 2 (H) Wherein the image pattern uploading apparatus further comprises:
3. The method of claim 2,
A nonvolatile memory (E) capable of long-term storage is connected to the other side of the FPGA semiconductor (D) connected with the MCB 2 (F) by the control of the MCB 2 (F) And the image pattern uploading device for inspecting the liquid crystal display.

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