JPH09318929A - Liquid crystal display device and method for correcting display unevenness - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily eliminate display unevenness and to display a high-definition picture. SOLUTION: This liquid crystal display device is provided with a liquid crystal cell 10 and a driving circuit driving the cell 10. A correction signal obtained by measuring the intrinsic display unevenness occurring on the display screen of the cell 10 and correcting the display unevenness is stored in the memory 36 of the driving circuit. In the case of displaying a picture, the driving circuit drives the cell 10 in accordance with data obtained by adding the correction signal stored in the memory 36 to the display data inputted from an outside part.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device for a computer, a liquid crystal display device used for a liquid crystal television, etc., and a display unevenness correction method for correcting display unevenness of the liquid crystal display device.

[0002]

2. Description of the Related Art In recent years, liquid crystal display devices have been used as display units for relatively simple components such as clocks and calculators, and also have large capacities such as personal computers, word processors, terminal equipment such as office automation equipment, and liquid crystal televisions. Widely used as a display device of

Generally, a liquid crystal display device is constructed by combining a liquid crystal cell and a backlight unit. The liquid crystal cell includes an array substrate on which pixel electrodes, switching elements, signal lines, scanning lines, and the like are formed, and an opposite substrate on which counter electrodes, color filters, and the like are formed. They are attached to each other via a sealing material and face each other with a predetermined gap. Liquid crystal is sealed between these substrates. The backlight unit includes a light guide plate arranged to face the liquid crystal cell, and a light source such as a fluorescent lamp provided at one end of the light guide plate.

[0004]

In the liquid crystal cell having the above structure, the distance between the array substrate and the counter substrate is set to a very small value of several microns. Therefore, when fine dust or the like enters the gap between the array substrate and the counter substrate in the manufacturing process, the gap between the substrates slightly changes and appears as interference fringes on the display screen. Further, when forming electrodes, signal lines, etc. on a glass substrate, the film quality may be subtly changed by individual liquid crystal cells, and display unevenness may occur.

On the other hand, in the backlight unit,
Since the light source is provided at the edge of the light guide plate, the edge of the screen effective display area tends to be brighter than the center, and the display area slightly away from the edge of the effective display area looks dark. I will end up. When such light and darkness is evaluated on the entire display screen, it is observed as band-shaped luminance unevenness extending in the horizontal direction.

The display unevenness appearing on the display screen is different from the display unevenness caused by the design which occurs in the same place and the same degree (shade) in all liquid crystal display devices and the place and degree of occurrence in each liquid crystal display device. There is display unevenness due to manufacturing.

The display unevenness due to the backlight unit is often the display unevenness due to the design. However, it takes a long time to improve the display unevenness due to the change of the shape or the pattern of the light guide plate, and it is necessary to take prompt measures. It has become difficult.

Further, since display unevenness due to manufacturing varies in place and degree for each individual liquid crystal display device, in order to improve it, it is necessary to make design changes so that display unevenness itself does not occur due to defect analysis. Yes, improvement takes a long time.

When the number of liquid crystal display devices having such display unevenness is small, if a limit sample is set and it is judged that the display cannot be used and has no commercial value, these liquid crystal display devices are It has been abandoned.

As described above, in the conventional art, once display unevenness occurs on the display screen, there is no effective means for quickly removing the display unevenness, and the liquid crystal display device which exceeds the limit of commercialability is discarded. There was nothing to do, and it was also inferior in economic efficiency.

The present invention has been made in view of the above points, and an object thereof is a liquid crystal display device and a display unevenness correction method capable of easily removing display unevenness due to design or manufacturing and displaying a high-quality image. To provide.

[0012]

In order to achieve the above object, a liquid crystal display device according to the present invention according to claim 1 is a liquid crystal cell having a liquid crystal layer provided between two substrates facing each other. A driving means for driving the liquid crystal cell according to display data, wherein the driving means stores a correction signal for correcting display unevenness occurring on the display screen of the liquid crystal cell, and And a control means for driving the liquid crystal cell by adding a correction signal.

According to a second aspect of the present invention, there is provided a liquid crystal display device comprising a liquid crystal cell having a liquid crystal layer provided between two substrates facing each other, and driving means for driving the liquid crystal cell according to display data. The driving means adds a correction signal to the display data and a storage means that stores a correction signal for matching the brightness of each pixel forming the display screen of the liquid crystal cell with a predetermined value. And a control means for driving the liquid crystal cell.

According to a third aspect of the correction method of the present invention, a liquid crystal cell constituted by providing a liquid crystal layer between two substrates facing each other, and driving means for driving the liquid crystal cell according to display data. In the correction method for correcting the display unevenness of the liquid crystal display device including, the luminance of each pixel forming the display screen of the liquid crystal cell is measured, and the measured luminance is compared with a predetermined reference value, A correction signal including a coordinate position of a pixel in which an error between the measured brightness and the reference value is outside a predetermined range, and correction data including correction data for correcting the error is created, and the created correction signal is stored in a storage unit. It is characterized in that the storage means for storing and storing the correction signal is attached to the drive means of the liquid crystal display device, and the correction signal is added to the display data.

According to the liquid crystal display device having the above structure, the storage means provided in the drive means stores the correction signal for correcting the inherent display unevenness occurring on the display screen of the liquid crystal cell. Then, at the time of displaying an image, the driving means drives the liquid crystal cell according to the data obtained by adding the correction signal stored in the storage means to the display data input from the outside. Thereby, a desired image is displayed in a state in which the display unevenness or the brightness unevenness of the liquid crystal cell is corrected.

Further, according to the display unevenness correction method of the present invention, the display unevenness of the display screen of the liquid crystal display device itself to be corrected is measured, and the correction signal for each liquid crystal display device is created according to the measurement result, and the storage means is provided. To store. Then, by attaching this storage means to the drive means of the liquid crystal display device,
The display signal unique to each liquid crystal display device is corrected using the correction signal.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail below with reference to the drawings. As shown in FIGS. 1 and 2, the liquid crystal display device includes a liquid crystal cell 10 and a backlight unit 12 that is disposed so as to face the back surface side of the liquid crystal cell.

In the liquid crystal cell 10, an array substrate 16 formed by forming a large number of pixel electrodes 14, signal lines, scanning lines, switching elements and the like (not shown) on a glass substrate, and a counter electrode 18 etc. on the glass substrate. And a counter substrate 20. The array substrate 16 and the counter substrate 18 are
The sealing material 22 is attached with a predetermined gap. The liquid crystal layer 24 is enclosed in the gap between these substrates.

The backlight unit 12 comprises a fluorescent lamp 25 as a light source, a light guide plate 26 provided facing the array substrate 16, a diffusion sheet 27, and a prism sheet 28.

Further, as shown in FIGS. 1 and 3, a plurality of X-driver ICs 30 for supplying video signals are connected to a plurality of signal lines of the liquid crystal cell 10, and a scanning signal is supplied to the scanning lines. The Y-driver IC 32 is connected. A control circuit 34 as a control unit, a memory 36 as a storage unit for storing a correction signal described later, and a connector 38 are connected to the X and Y-driver ICs 30 and 32. Further, the X-driver IC 30 includes a grayscale voltage generation circuit 40 and a DC / DC converter 42,
A DC / DC converter 42 is connected to the Y-driver IC 32.

Incidentally, these X, Y-driver IC3
0, 32, the control circuit 34, the memory 36, the gradation voltage generating circuit 40, the DC / DC converter 42, etc.
Drive means for driving the.

The following display unevenness correction signal is stored in the memory 36. That is, when the liquid crystal display device configured as described above is driven to be lit, display such as display unevenness A and interference fringes B on the display screen of the liquid crystal cell 10 due to manufacturing, as shown in FIG. There are cases where unevenness or display unevenness C due to the design of the backlight unit 12 occurs as shown in FIG. Therefore, the memory 36 stores a correction signal for correcting such display unevenness of each liquid crystal display device.

The display unevenness correction signal measures display unevenness for each liquid crystal display device and is stored in the memory 36 as data corresponding to the measurement result. FIG. 5 shows a correction signal generator for writing the display unevenness correction signal in the memory 36.

The correction signal generator 50 includes a measurement sheet 52 for measuring display unevenness and a signal generator 54 for generating a correction signal according to the measurement result and writing the correction signal in the memory 36. The measurement sheet 52 is formed to have substantially the same size as the display screen of the liquid crystal cell 10 and also has a built-in CCD arranged over substantially the entire surface.
The measurement sheet 52 is connected to the signal generator 54 via a flexible cable 56. At the time of measuring the display unevenness, the measurement sheet 52 is superimposed on the display screen of the liquid crystal cell 10 with the liquid crystal display device turned on, and the luminance of each pixel of the liquid crystal cell is measured.

On the other hand, the signal generator 54 is similar to that shown in FIGS.
As shown in FIG. 5, a mounting portion 58 for mounting the semiconductor package as the memory 36, a comparator 60 for comparing the brightness of each line measured by the measurement sheet 52 with a preset reference value, and a comparison result by the comparator Calculating unit 62 for calculating and outputting a correction signal corresponding to the correction signal output from the calculating unit 62 and the memory 36 mounted on the mounting unit 58.
A writing unit 64 for writing to

When the measurement data is input from the measurement sheet 52, the comparator 60 compares the measurement value of each pixel of the liquid crystal cell 10 with the reference value, and inputs the comparison result to the arithmetic unit 62. When the difference between the measured value and the reference value is outside the predetermined range, the calculation unit 62 outputs correction data that erases the difference between the measured value and the reference value, and a correction signal that includes the coordinate position of the pixel. And
This correction signal is sent to the writing unit 64 and written in the memory 36.

After the above operation is performed on the entire display screen of the liquid crystal cell 10, the memory 36 in which the correction signal is written
Is removed from the mounting portion 58 and mounted at a predetermined position provided on the measured circuit board of the liquid crystal display device.

In the liquid crystal display device configured as described above, when display data is input from an image signal source such as a computer, video, tuner, etc. through the connector 38, a correction signal is added to the display data by the memory 36. Then, it is input to the control circuit 34. Then, the control circuit 34
Drives the X-driver IC 30 and the Y-driver IC 32 based on the display data to which the correction signal is added,
An image corresponding to the display data is displayed on the liquid crystal cell 10.

At this time, since the correction signal is added to the display data, the brightness of the display non-uniformity generation portion of the liquid crystal cell 10 is corrected to the predetermined reference brightness by the correction signal, and therefore the display screen of the liquid crystal cell is displayed. , A desired image is displayed with no display unevenness.

According to the liquid crystal display device configured as described above, the liquid crystal display device is provided with the memory 36 that stores the correction signal for correcting the display unevenness which is preliminarily measured and is unique to each liquid crystal display device. It is possible to eliminate various display unevenness due to the design and manufacturing of the device and display a high-quality image without display unevenness. In this case, since the display unevenness is measured for each liquid crystal display device and a unique correction signal corresponding to the measurement result is stored in the memory 36, the display unevenness can be accurately corrected for each liquid crystal display device. it can.

Further, since the display unevenness is corrected electrically, it is not necessary to change the design of the backlight unit, the design of the liquid crystal cell 10 itself, or the like as in the conventional case, and it is easy and short time. Thus, it becomes possible to efficiently improve the display unevenness. Then, it becomes possible to use a liquid crystal cell, which has been discarded due to a large amount of display unevenness, as a good product, and it is possible to improve the product yield and the economical efficiency.

The present invention is not limited to the above-described embodiment, but can be variously modified within the scope of the present invention. For example, a so-called active matrix type liquid crystal cell has been described in the above embodiment, but the present invention is not limited to this, and a simple matrix type liquid crystal cell may be used. Further, the correction signal may be set based on the difference between the measurement value of the measurement sheet and the average value of the brightness of the entire display screen of the liquid crystal cell.

[0033]

As described above in detail, according to the present invention, a liquid crystal display device capable of easily removing display unevenness due to design or manufacturing and displaying a high-quality image, and a display unevenness correcting method are provided. To provide.

[Brief description of drawings]

FIG. 1 is a perspective view showing a liquid crystal cell of a liquid crystal display device according to an embodiment of the present invention.

FIG. 2 is a sectional view of the liquid crystal display device.

FIG. 3 is a block diagram schematically showing the configuration of the entire liquid crystal display device.

FIG. 4 is a plan view showing an example of display unevenness on the display screen of the liquid crystal cell.

FIG. 5 is a perspective view showing a correction signal generator for manufacturing a memory storing a display unevenness correction signal.

FIG. 6 is a block diagram schematically showing the configuration of the correction signal generator.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Liquid crystal cell 12 ... Backlight unit 14 ... Pixel electrode 16 ... Array substrate 18 ... Counter substrate 24 ... Liquid crystal layer 25 ... Fluorescent lamp 36 ... Memory 50 ... Correction signal generator 52 ... Measurement sheet 54 ... Signal generator

Claims (3)

[Claims] 1. A liquid crystal cell comprising a liquid crystal layer provided between two substrates facing each other, and driving means for driving the liquid crystal cell in accordance with display data. It has a storage means for storing a correction signal for correcting display unevenness occurring on the display screen of the cell, and a control means for driving the liquid crystal cell by adding the correction signal to the display data. Liquid crystal display device. 2. A liquid crystal cell comprising a liquid crystal layer provided between two substrates facing each other, and driving means for driving the liquid crystal cell in accordance with display data, wherein the driving means comprises the liquid crystal. Storage means for storing a correction signal for matching the brightness of each pixel forming the display screen of the cell with a predetermined value; and control means for adding the correction signal to the display data to drive the liquid crystal cell, A liquid crystal display device comprising: 3. A display unevenness of a liquid crystal display device comprising a liquid crystal cell having a liquid crystal layer provided between two substrates facing each other, and a driving means for driving the liquid crystal cell according to display data. In the correction method for correcting, the brightness of each pixel forming the display screen of the liquid crystal cell is measured, the measured brightness is compared with a predetermined reference value, and the error between the measured brightness and the reference value is measured. A correction signal including a coordinate position of a pixel outside the predetermined range and correction data for correcting the error is created, the created correction signal is stored in a storage unit, and the storage unit storing the correction signal is created. Is attached to the driving means of the liquid crystal display device, and the correction signal is added to the display data.