KR0170447B1 - Plasma display device - Google Patents

Abstract

The present invention discloses a plasma display device.

The present invention is provided such that the display anode and the display cathode on the stripe are orthogonal to the substrates which are opposed to each other, and maintain a predetermined interval therebetween, and have partition walls for preventing cross-talk between the red, green, and blue phosphor layer cells in a predetermined pattern. The present invention relates to a plasma display device, characterized in that the area of the display cathode corresponding to each of the red, blue, and green phosphor cells is broadly formed in the order of low luminance of light among the blue, green, and green phosphor layers. It has the advantage of making the luminance constant.

Description

Plasma display elements

1 is an exploded perspective view of a conventional plasma display device.

FIG. 2 is a plan view showing a state in which electrodes and a fluorescent film pattern of the plasma display device shown in FIG. 1 are arranged.

3 is a plan view showing a plasma display device according to the present invention, showing the arrangement of the electrode and the phosphor layer.

4 is a plan view showing another embodiment of the plasma display device according to the present invention, showing the arrangement state of the electrode and the phosphor layer.

* Explanation of symbols for main parts of the drawings

41: display cathode 43: partition wall

51: display anode

The present invention relates to a plasma display device, and more particularly, to a plasma display device having an improved display cathode.

In general, the plasma display device is a line-sequential driving XY matrix type display device, which is roughly classified into a DC type and an AC type. The difference between these structures is that the DC type has an electrode exposed to a gas space and the AC type is covered with a dielectric. .

1 shows an example of a DC plasma display device among such plasma display devices.

This is because a plurality of parallel display cathodes 21 are formed on the back plate 20, and partition walls 23 are formed on the upper surface of the back plate 20 on which the display cathodes 21 are formed. do. In addition, the front plate 10 sealed with the back plate 20 is formed in a stripe shape in a direction orthogonal to the display cathode 21, and a display anode 11 corresponding to the display discharge region 22 is formed. As shown in FIG. 2, red, green and blue phosphor layers (R) (G) and (B) are respectively provided in the discharge region in a predetermined pattern. The configuration shown is particularly a plasma display element for display, where the display cathode 21 is composed of a surface electrode made of a metal strip. In the conventional plasma display device configured as described above, a predetermined pulse voltage is sequentially scanned on the display cathode 21 and a predetermined voltage is selectively applied to the anode to selectively select between the display cathode 21 and the display anode 11. The display discharge is caused to excite the phosphor by the ultraviolet rays generated during the discharge, thereby forming an image.

However, the driving of the plasma display device as described above causes a distance difference between the display cathode 21 and the display anode 11 in one discharge area formed by the partition wall, that is, in one cell, thereby causing electrical There was a problem in that the reaction was uneven and it was difficult to cause discharge. In more detail, since the display cathode 21 and the display anode 11 are formed in a stripe shape orthogonal to each other, the display cathode 21 and the display anode 11 within the discharge region formed by the partition wall 23. In the parts other than these intersections, a problem arises in that a distance difference occurs and a uniform discharge cannot be caused and luminance is not constant. In particular, the phosphor layer formed in each discharge region has a relatively low emission luminance of the red and blue phosphors excited by the ultraviolet rays generated during the glow discharge due to the characteristics of each phosphor, so that the white balance characteristics cannot be improved, and the luminance of the image is uniform. There was a problem that could not be done.

In order to solve such a problem, a pulse memory type plasma display device which extends light emission time within one field has been proposed. However, since a pulse delay voltage and a pulse display voltage are applied to the display anode, There was an indispensable point of increasing the line resistance and lowering the luminance.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a plasma display device in which the white balance characteristics can improve the resolution of an image by uniformly emitting luminance of red, blue, and green phosphor layers formed in each discharge region. The purpose is.

The present invention to achieve the above object,

Plasma display anodes and display cathodes are installed on the substrates facing each other at right angles, and are spaced at regular intervals and provided with a barrier rib for preventing crosstalk between red, green, and blue phosphor layer cells in a predetermined pattern. In the display element,

The area of the display cathode corresponding to each of the red, blue, and green phosphor cells is broadly formed in the order of the low bladder luminance among the red, blue, and green phosphor layers.

In the present invention, the display cathode corresponding to each of the phosphor layer cells is formed in a polygonal shape in which a through portion of a predetermined pattern is formed.

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

In the plasma display device according to the present invention, as shown in FIGS. 3 and 4, the display discharge area 42 is partitioned on the upper surface of the substrate on which the plurality of parallel display cathodes 41 are formed, thereby preventing crosstalk. The partition 43 is formed. In addition, the display anode 51 is formed on the substrate sealed with the substrate in a stripe shape in a direction orthogonal to the display cathode 41 and corresponding to the display discharge region 42. A phosphor layer is formed in a predetermined pattern in one discharge display area formed by the barrier 43, that is, inside a cell or on a lower surface of the substrate 50 opposite thereto, and a red phosphor in which the red phosphor layer is formed. The cell R, the blue phosphor cell B on which the blue phosphor layer is formed, and the green phosphor cell G on which the green phosphor layer is formed constitute one pixel. Here, the display cathode 41 located inside each phosphor cell (R) (G) (B) is formed in a wide area in the reverse order of the brightness of the light emission luminance of the phosphor. That is, the cross-sectional area of the display cathode 41B corresponding to the blue phosphor cell B is formed to be wider than the area of the display cathode 41R corresponding to the red phosphor cell R, and the display corresponds to the green phosphor cell R. The area of the cathode 41G is formed narrower than the display cathode 41R corresponding to the red phosphor cell R. As shown in FIG. The display cathodes 41B ', 41R', 41G 'corresponding to the respective phosphor cells R, G, and B may be formed in the shape of a polygon of the penetrating portion 60, as shown in FIG. It is preferable to form in the shape of the overlapped honeycomb.

In the plasma display device according to the present invention configured as described above, a predetermined pulse voltage is sequentially scanned on the display anode 41 and a predetermined voltage is selectively applied to the display anode 51 to display the display cathode 41 and the display. A display discharge selectively occurs between the anodes 51 to excite the phosphor layer by ultraviolet rays generated during discharge to form an image.

One discharge area formed by the partition 43 in the process of forming the image as described above, that is, the display cathodes 41B and 41R (corresponding to each phosphor cell (B) (R) (G) ( Since 41G) has different areas, the light emission luminance of each phosphor can be made constant by varying the degree of glow discharge. That is, the area of the display cathode 41B corresponding to the blue phosphor cell B of the blue phosphor layer having a relatively low luminous luminance is formed the widest, and the green phosphor cell G of the green phosphor layer having a relatively high luminous luminance is formed. By forming the corresponding area of the display cathode 41G to be the narrowest to control the generation of glow discharge, it is possible to adjust the amount of ultraviolet rays generated during the glow discharge to make the luminous luminance of each phosphor layer constant.

As described above, the plasma display device of the present invention can improve the white balance characteristics by adjusting the area of the display cathode corresponding to each phosphor cell formed by the partition wall to make the luminance of each phosphor uniform, thereby improving the brightness. Has the advantage of obtaining an image.

The present invention is not limited to the plasma display device, but can be applied to various flat panel image display devices.

Claims (4)

Plasma display anodes and display cathodes are installed on the substrates facing each other at right angles, and are spaced at regular intervals and provided with a barrier rib for preventing crosstalk between red, green, and blue phosphor layer cells in a predetermined pattern. A display device, characterized in that the area of the display cathode corresponding to each of the red, blue, and green phosphor cells is formed in the order of decreasing red, blue, and green phosphor layer light emission luminances. The display cathode according to claim 1, wherein the area of the display cathode corresponding to the area of the display cathode is smaller than that of the display cathode corresponding to the red phosphor cell, and the area of the display cathode corresponding to the blue phosphor cell is red. A plasma display device, characterized in that formed larger than the area of the display cathode corresponding to the phosphor cell. The plasma display device according to claim 1 or 2, wherein the display cathodes corresponding to the respective phosphor cells are formed in a polygonal shape having penetrating portions. The plasma display device according to claim 1 or 2, wherein the display cathode corresponding to the phosphor cell is formed in the shape of a honeycomb.