KR100723089B1 - Plasma display panel - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel, wherein a floating electrode that forms a filtering role between a pair of X and Y sustain electrodes when a sustain electrode is formed on a front substrate is formed and maintained. By alleviating the difference in the thickness of the dielectric film between the portion where the electrode is located and the sustain electrode, R, G, B wavelengths, especially B wavelengths reflected from the phosphors are absorbed by the dielectric film to prevent the transmittance from decreasing. It is a technology capable of realizing images of high brightness and high quality.

Description

Plasma display panel

1 is a cross-sectional view of a typical plasma display panel.

FIG. 2 is a graph illustrating comparison between transmittances of region I and region II in the plasma display panel of FIG.

3 is a sectional view of a plasma display panel according to the present invention;

<Description of Symbols for Main Parts of Drawings>

10, 30: back substrate 11, 31: address electrode

12, 18, 32, 39: dielectric film 13, 33: partition wall

14, 34: phosphor 15, 35: front substrate

16, 36: sustain electrode 17, 38: bus electrode

19, 40: protective film 37: floating electrode

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel (hereinafter referred to as a PDP), which is a type of flat panel display device, and more particularly, to a plasma display panel that improves transmittance of wavelengths reflected from a phosphor according to a thickness of a dielectric film on a front substrate. will be.                         

In recent years, with the rapid development of ultra-high density semiconductor manufacturing technology and ultra-high vacuum technology, research on new micron-sized triode tube devices has been vigorous, and CRTs and liquid crystal displays (CRTs) have been applied to displays. Attention is directed to developing a new flat panel display device having the advantages of an LCD.

Among them, a color plasma display panel using gas discharge is a typical flat panel device that has reached the stage of studying the yield method and manufacturing process required for mass production in the stage of studying the driving method and the structure.

In general, a plasma display panel forms X and Y electrodes for sustain discharge on a front substrate on the display surface side, and two substrates including an address electrode for writing data and a phosphor on the opposite back substrate are bonded to each other and subjected to an exhaust process. It is formed by performing a gas encapsulation step.

1 is a cross-sectional view of a general plasma display panel.

First, a display electrode including a sustain electrode 16 and a bus electrode 17 for compensating for the resistance of the sustain electrode 16 is formed on the front substrate 15. Although not shown, the display electrode is shown. A black strip layer is formed therebetween, and a transparent dielectric film 18 and a protective layer 19 are formed on the entire surface of the structure.

In addition, an address electrode 11 for writing data is disposed on the rear substrate 10, and a dielectric film 12 is formed on the entire surface of the back substrate 10, and a partition wall is formed to prevent crosstalk between adjacent cells. (13) is formed, and R, G, and B phosphor layers 14 are coated on the wall surface surrounded by the partition wall 13 and on the dielectric film 12.

There is a difference in thickness of the dielectric film 12 formed on the region I between the sustain electrode 16 and the sustain electrode 16 on the front substrate 15.

FIG. 2 is a graph illustrating comparison between transmittances of region I and region II in the plasma display panel of FIG. 1.

In FIG. 1, it can be seen that the transmittance in the region I, in which the sustain electrode 16 is formed, is excellent at about 80% for the B, G, and R wavelengths, but the transmittance in the region II between the sustain electrodes 16 is determined by the wavelength. It can be seen that there is a difference.

In particular, it can be seen that the transmittance of the B wavelength is reduced to about 60% in the II region.

As described above, the plasma display panel according to the related art has a problem in that, since the thickness of the dielectric film is large between the sustain electrodes, the transmittance of the B wavelength is lowered, and thus the overall brightness and margin are lowered, thereby degrading the display panel quality.

The present invention is to solve the above problems, an object of the present invention is to form a floating electrode between the sustain electrode in order to prevent the transmittance of the wavelength according to the thickness of the dielectric film to be emitted from the fluorescent material The present invention provides a plasma display panel capable of improving the luminance of a panel by improving the transmittance of and reproducing a high quality image.

Plasma display panel according to the present invention for achieving the above object,

A back substrate comprising a plurality of address electrodes, a dielectric layer on the address electrode, barrier ribs formed on both sides of the address electrode, and a phosphor layer formed between the barrier ribs;

A front substrate comprising a plurality of sustain electrodes formed to intersect the address electrodes, a bus electrode and a stripe layer formed on the sustain electrodes, a dielectric film and a protective layer formed on an entire surface thereof;

A plasma display panel comprising: a discharge gas sealed and filled in a discharge space between the front substrate and the rear substrate;

By controlling the thickness difference between the dielectric film on the sustain electrode and the dielectric film on the front substrate between the sustain electrodes in the unit cell of the front substrate, between the region where the sustain electrode is formed and the sustain electrode where the sustain electrode is not formed. Characterized in that the member for adjusting the transmittance difference between the region is provided.

Hereinafter, a plasma display panel according to the present invention will be described in detail with reference to the accompanying drawings.

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

The address electrode 31 for writing data is disposed on the rear substrate 30, the dielectric film 32 is formed on the entire surface of the back substrate 30, and the partition walls 33 are formed to prevent crosstalk with adjacent cells. ), And R, G, and B phosphor layers 34 are coated on the wall surface surrounded by the partition wall 33 and on the dielectric film 32.

In addition, a display electrode including a sustain electrode 36 and a bus electrode 38 for compensating for the resistance of the sustain electrode 36 is formed on the front substrate 35. A black strip layer is formed therebetween, and a transparent dielectric film 39 and a protective layer 40 are formed on the entire surface of the structure. The floating electrode 37, which is a transparent electrode, is formed in the region II between the sustain electrodes 36 to reduce the thickness difference of the dielectric film 39 between the region I and the region in which the sustain electrode 36 is formed. The wavelength reflected from the phosphor layer 34 decreases the amount absorbed by the dielectric layer 39 to improve the transmittance of the R, G, and B wavelengths in the II region. In particular, the transmittance of the B wavelength may be maximized.

At this time, the floating electrode 37 is formed to a thickness of 1000 ~ 20000Å by applying ITO or PbO-B ₂ O ₃ -SiO ₂ .

Thereafter, a process such as sealing and gas injection is performed to complete the plasma display panel.

As described above, in the method of manufacturing the plasma display panel according to the present invention, a floating electrode which performs a filtering role between a pair of X and Y sustain electrodes when the sustain electrode is formed on the front substrate is formed so that the sustain electrode is positioned. By alleviating the difference in the thickness of the dielectric film between the portion and the sustain electrode, R, G, and B wavelengths, particularly B wavelengths, reflected from the phosphors are absorbed by the dielectric film, thereby preventing the transmittance from being lowered. There is an advantage that an image can be realized.

Claims (5)

A back substrate comprising a plurality of address electrodes, a dielectric layer on the address electrode, barrier ribs formed on both sides of the address electrode, and a phosphor layer formed between the barrier ribs; A front substrate comprising a plurality of sustain electrodes formed to intersect the address electrodes, a bus electrode and a stripe layer formed on the sustain electrodes, a dielectric film and a protective layer formed on an entire surface thereof; A plasma display panel comprising: a discharge gas sealed and filled in a discharge space between the front substrate and the rear substrate; By controlling the thickness difference between the dielectric film on the sustain electrode and the dielectric film on the front substrate between the sustain electrodes in the unit cell of the front substrate, between the region where the sustain electrode is formed and the sustain electrode where the sustain electrode is not formed. And a member for adjusting a difference in transmittance between regions of the plasma display panel. delete delete The method of claim 1, And the member is formed by applying PbO-B ₂ O ₃ -SiO ₂ . The method of claim 1, And the member is formed by applying ITO.

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