KR19990041964A - Electrode Structure of Plasma Display - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrode structure of a plasma display device (PDP), and in particular, to modify the phosphor coating shape generated by forming an address electrode on a lower substrate in the center of a discharge space to uniformize the luminance emitted to the front of the panel and The purpose is to improve the brightness.

In order to realize this, in the present invention, a parallel upper substrate and a lower substrate are joined by frit glass, a dielectric layer is formed on a sustain electrode of the upper substrate, a protective layer is formed on the dielectric layer, and a sustain electrode is formed on the lower substrate. In the color plasma display panel in which a partition wall is formed in a vertical direction to form a plurality of discharge spaces, an address electrode is formed parallel to the partition wall, and a phosphor is coated between the partition walls, wherein the address electrode of the lower substrate is formed. It is to be located on both sides of each discharge space.

Description

Electrode Structure of Plasma Display

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device (PDP), and more particularly, to a PDP electrode structure for modifying an electrode structure so that phosphors coated on the electrode form a stable discharge space.

1 illustrates a structure of a general three-electrode surface discharge PDP separating the upper structure and the lower structure. Referring to the structure, the upper structure includes an upper substrate 1 and a sustain electrode 3 formed on the upper substrate 1. And a dielectric layer 5 for holding surface charges generated during discharge of the sustain electrode 3, and a protective layer 6, and has a lower structure on the lower substrate 2 and on the lower substrate 2. The barrier electrode 7 is formed of an address electrode 4 formed on the surface of the upper substrate 1 and the lower substrate 2, and a partition wall 7 having a phosphor 8 coated thereon is formed to form a discharge space.

A cell is formed at a point where the sustain electrode 3 and the address electrode 4 cross each other, and these cells gather to form a plasma display panel PDP.

FIG. 2 is a cross-sectional view of the plasma display device after the upper and lower substrates of FIG. 1 are combined, and the upper structure is rotated 90 degrees for better understanding.

The image display process of any cell in the PDP according to the prior art configured as described above is as follows.

First, when a discharge start voltage of 150 V to 300 V is supplied to the sustain electrode line 3, a surface discharge (auxiliary discharge) occurs between the sustain electrode lines 3 to form wall charges on the inner surface of the discharge space.

After that, when an address discharge voltage is supplied to the sustain electrode 3 and the address electrode 4, an address discharge (main discharge) occurs between the sustain electrode 3 and the address electrode 4 and is injected into the discharge space. As the discharge gas is ionized into electrons and ions, ultraviolet rays are emitted, and the ultraviolet light is excited by the ultraviolet rays, and the visible light is emitted by the ultraviolet light, and the visible light passes through the upper substrate 1 to the outside. When it is emitted as, light emission of an arbitrary cell, that is, image display, can be recognized from the outside.

After that, when the sustain discharge voltage of 150 V or more is supplied to the sustain electrode line 3, sustain discharge occurs between the sustain electrode lines 3, so that light emission of any cell is maintained for a predetermined time.

However, in the light emitting structure of the conventional PDP, since the address electrode 4 is located at the center of the discharge space, the shape of the phosphor has a W shape in which the electrode forming surface is convex, which decreases the probability of the emitted light coming out. There is a problem in reducing the screen luminous efficiency.

The present invention is invented to solve the problems of the prior art as described above by dividing the address electrode to be located on both sides of the discharge space, the lower end of the discharge space formed by the coating shape of the phosphor is U-shaped or V-shaped The purpose is to ensure that the luminance of the emitted light is uniform and high brightness.

1 is a perspective view of an upper substrate and a lower substrate of a conventional plasma display device separated;

2 is a cross-sectional view of the panel according to the prior art.

3 is a cross-sectional view of the panel according to the present invention.

4 is a structure diagram of an address electrode of the present invention.

5 is a diagram showing phosphor light intensity distribution according to the shape of a discharge structure;

*** Explanation of symbols for the main parts of the drawing ***

101: upper substrate 102: lower substrate

103: upper electrode 104: lower electrode

105: dielectric layer 106: protective layer

107: partition 108: phosphor

The present invention will be described in detail below with reference to the accompanying drawings.

Referring to the configuration of the plasma display device to which the present invention is applied, as shown in FIG. 3 (as shown in FIG. 3 by rotating the upper structure by 90 degrees), the surface of the sustain electrode 103 formed on the upper substrate 101 is formed. A dielectric layer 105 is applied, a protective layer 106 is formed on the dielectric layer 105, and a partition wall 107 is formed on the lower substrate 102 in a direction perpendicular to the sustain electrode 103 to form a plurality of discharge spaces. In the PDP structure in which the address electrodes 104 are formed in parallel with the partition walls, the address electrodes 104 of the lower substrate 102 are divided to form the discharge spaces. It was formed to be located on both sides.

In addition, as shown in FIG. 4, the divided address electrodes 104 were formed as a common electrode by common at a pad part.

When the phosphor 108 is formed in the address electrode structure of the present invention as described above, since the address electrodes 104 are located at both sides, a U-shaped or V-shaped discharge space is formed as shown in FIG. 3.

The discharge space shape increases the probability that the light emitted from the phosphor 108 can come out to the outside, the barrier material is stably stacked during the printing process of the barrier rib 107, and the capacitance is reduced to achieve a stable driving waveform. Can be.

FIG. 5 shows the brightness intensity distribution of the phosphor according to the shape of the discharge space. In the conventional case, the brightness of the center is lower than that of the side, but the brightness of the center increases as the U-shaped and V-shaped discharge structures of the present invention are formed. It can be seen that it is evenly distributed in all places.

That is, since the height of the center portion of the phosphor 108 is lowered by the height of the address electrode, the discharge space structure formed by the phosphor is stably formed. The discharge structure increases the amount of emission to the entire surface of the panel of the emitted light, and thus screen emission. The brightness can be improved by about 20%.

As described above, the electrode structure of the present invention improves the discharge structure of the phosphor, thereby realizing uniformity of light intensity, and thereby improving the light emission luminance of the plasma display device.

Claims (2)

A parallel upper substrate and a lower substrate are joined by frit glass, a dielectric layer is formed on the sustain electrode of the upper substrate, a protective layer is formed on the dielectric layer, and a partition wall is formed on the lower substrate in a direction perpendicular to the sustain electrode. In the color plasma display panel to form a plurality of discharge space, the address electrode is formed parallel to the partition wall between the partition wall, the phosphor is coated between the partition wall, Wherein the address electrodes of the lower substrate are located on both sides of each discharge space. The method of claim 1, And the address electrode is divided on the partition wall side of the discharge space and is joined to the pad portion, which is an ineffective surface of the substrate, to form a common electrode.