KR20080044673A - Plasma display panel - Google Patents

Abstract

A plasma display panel is provided to improve the bright room contrast by enlarging a width of colored barrier rib bridge at a center portion of the panel. A front substrate(15) colored by a first color and a rear substrate(10) are opposite to each other, and barrier ribs(13) are interposed between the front and rear substrates to define plural discharge cells(19), and have a vertical barrier rib(13b) formed in a first direction, and a first barrier rib(13aa) and a second barrier rib(13ab) formed in a second direction. A barrier rib bridge(111) is connected to the first and second barrier ribs. A phosphor layer(14) is formed in each discharge cell. Display electrodes(16) are in the second direction formed on the front substrate. The whole image display region has a first image display region formed at a center of the front substrate, and a second image display region formed at an edge of the front substrate.

Description

Plasma Display Panel {PLASMA DISPLAY PANEL}

1 is a partially cutaway perspective view of a plasma display panel according to an exemplary embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along line II-II of FIG. 1.

3 is a plan view illustrating an image display area of a plasma display panel according to an exemplary embodiment of the present invention.

4 is a detailed plan view of a part of the second image display area of FIG. 3.

FIG. 5 is a partial detailed plan view of the first image display area of FIG. 3.

6 is a detailed plan view of a part of the first image display area of FIG. 3 according to another exemplary embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: back substrate 11: address electrode

12: back dielectric layer 13: bulkhead

13a: horizontal partition member 13aa: first partition member

13ab: second partition member 13b: longitudinal partition member

14: phosphor layer 15: front substrate

16: display electrode 16a: sustain electrode

16b: scanning electrode 16c: bus electrode

16cb, 16bb: bus electrode 16aa, 16ba: transparent electrode

17: front dielectric layer 18: protective layer

19: discharge cell 111: partition wall (Bridge)

112: exhaust passage 30: panel

30a: first image display area 30b: second image display area

H ₁ : first height H ₂ : second height

BW ₁ : 1st width BW ₂ : 2nd width

The present invention relates to a plasma display panel, and more particularly, to a plasma display panel having improved image quality by improving a structure of a partition wall bridge.

In a typical AC surface discharge type plasma display panel, an address electrode is formed on a rear substrate, and a dielectric layer covers the address electrode. In addition, a partition wall is formed in a stripe shape on the dielectric layer to partition a discharge cell, and a phosphor layer is formed inside the discharge cell.

Display electrodes are formed on the front substrate facing the rear substrate, and a dielectric layer and a protective layer are sequentially formed. The display electrode includes a transparent indium tin oxide (ITO) transparent electrode and a metal bus electrode. On the other hand, the display electrode is formed to cross the address electrode of the back substrate.

The discharge cells are formed in a matrix or stripe form in the plasma display panel. These discharge cells are partitioned by partition walls and are formed at points where the display electrodes of the front substrate and the address electrodes of the rear substrate cross each other.

On the other hand, under bright conditions, that is, bright room conditions, external light is incident to the inside of the panel, and the image generated in the discharge cell overlaps the external light. As a result, the bright room contrast is lowered and the image display capability of the plasma display panel is lowered. In addition, when the external light is incident on the panel, if the reflected brightness is large, the reflected light and the image overlap, thereby degrading the image display ability.

The present invention is to provide a plasma display panel with improved emotional image quality that a viewer feels by improving the structure of a barrier rib of a specific region in an image display area.

According to an embodiment of the present invention, a plasma display panel includes a front substrate and a rear substrate facing each other at intervals, and an address electrode formed to extend in a first direction on the rear substrate, and between the front substrate and the rear substrate. A vertical partition member formed in one direction and a first partition member and a second partition member formed in a second direction crossing the partition cell to partition discharge cells, wherein the first partition member and the second partition member are disposed in the first direction. Barrier ribs forming a gap between adjacent discharge cells, a barrier bridge connected to the first barrier member and the second barrier member and colored, a phosphor layer formed inside the discharge cell, and the front substrate. And a display electrode extending in the second direction crossing the first direction, wherein the entire image display area includes a center of the front substrate. Includes a first image display area at the center portion and a second image display area at the edge portion of the front substrate, and the area ratio occupied by the partition bridge in the first image display area is higher than the second image display area. .

In the plasma display panel according to the embodiment of the present invention, it is preferable that the width of the barrier rib formed in the portion corresponding to the first image display area is greater than that of the second image display area. It is also preferable that the number of barrier bridges disposed between the pair of discharge cells adjacent in the first direction formed in a portion corresponding to the first image display area is greater than that of the second image display area.

In the plasma display panel according to an exemplary embodiment of the present invention, it is preferable that the partition bridge is colored blue or black. In addition, the height of the partition wall bridge is preferably smaller than the height of the partition wall.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like elements throughout the specification.

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

1 is a partially cutaway perspective view of a plasma display panel according to an exemplary embodiment of the present invention, and FIG. 2 is a cross-sectional view taken along line II-II of FIG. 1.

As shown, the plasma display panel includes discharge cells 19 partitioned by the partition 13 between the back substrate 10 and the front substrate 15 and address electrodes formed corresponding to the discharge cells 19. 11) and the display electrode 16.

The rear substrate 10 and the front substrate 15 face each other at predetermined intervals. In addition, the address electrode 11 is formed on the upper surface of the rear substrate 10 in a first direction (y-axis direction in the drawing). In addition, one address electrode 11 is disposed in parallel with another address electrode 11 adjacent thereto.

In addition, a back dielectric layer 12 is formed on an upper surface of the back substrate 10, and the back dielectric layer 12 covers the address electrode 11. The address electrode is formed of a conductive metal such as silver (Ag), and is preferably chemically stable so as not to react with the back dielectric layer 12 and the back substrate 10.

The lower surface of the front substrate 15 is formed by extending the display electrodes 16 in a second direction (x-axis direction in the drawing). In addition, one display electrode 16 and another display electrode 16 adjacent to each other are disposed in parallel to each other.

As shown, the display electrode 16 includes a sustain electrode 16a and a scan electrode 16b, and the sustain electrode 16a and the scan electrode 16b are transparent electrodes 16aa and 16ba and a bus electrode, respectively. (16ab, 16bb). Further, these relationships have a structure in which the bus electrodes 16ab and 16bb are formed on the lower surfaces of the transparent electrodes 16aa and 16ba. In addition, the transparent electrodes 16aa and 16ba are spaced apart from each other by a predetermined distance to form a discharge gap Gap.

Meanwhile, the transparent electrodes 16aa and 16ba are made of a transparent material such as indium tin oxide (ITO) to easily transmit visible light, but the conductivity is not good because the electrical resistance is high. However, the bus electrodes 16ab and 16bb may easily apply a voltage to the transparent electrodes 16aa and 16ba using a metal material such as silver (Ag) having high conductivity.

The front dielectric layer 17 is formed on the bottom surface of the front substrate 15. In addition, the front dielectric layer 17 has a structure covering the display electrode 16. The front dielectric layer 17 protects the display electrode 16 from discharge. In addition, the front dielectric layer 17 accumulates wall charges to facilitate discharge in the discharge cells 19.

The front dielectric layer 17 is covered with a protective layer 18. In addition, the protective layer 18 is a transparent material that not only easily transmits visible light emitted from the phosphor layer 14 but also protects the front dielectric layer 17 from discharge. In addition, the protective layer 18 serves to lower the discharge start voltage by increasing the secondary electron emission coefficient, thereby creating an environment in which discharge easily occurs in the discharge cell 19.

A partition 13 is formed between the protective layer 18 and the back dielectric layer 12. As shown, the partition wall 13 includes a horizontal partition member 13a and a vertical partition member 13b. The horizontal partition member 13a is formed to extend in the second direction (x-axis direction in the drawing), and the vertical partition member 13b is formed to extend in the first direction (y-axis direction in the drawing). In addition, the horizontal partition member 13a and the vertical partition member 13b cross each other. In the present embodiment, the horizontal partition member 13a and the vertical partition member 13b partition the discharge cells 19 in the form of a matrix.

In more detail, the horizontal partition member 13a includes a first partition member 13aa and a second partition member 13ab, and the first partition member 13aa and the second partition member 13ab They are placed next to each other at intervals. In addition, an exhaust passage 112 is formed between them. As illustrated, the exhaust passage 112 extends in a second direction (x-axis direction in the drawing). In addition, a partition bridge 111 is formed in the exhaust passage 112.

As shown in FIG. 2, both ends of the partition wall bridge 111 are connected to the first partition wall member 13aa and the second partition wall member 13ab. Meanwhile, the partition wall bridge 111 may be formed together with the first partition member 13aa and the second partition member 13ab or may be formed by a separate process from these.

As shown in the drawing, the first height H ₂ of the center portion of the barrier rib 111 is lower than the second height H _{1 of} the first barrier member 13aa or the second barrier member 13ab. As a result, the gas of the discharge cell 19 can be easily exhausted through the exhaust passage 112, and gas can be easily filled in the discharge cell 19.

In an embodiment of the present invention, the exhaust passage 112 is formed in the second direction (x-axis direction in the drawing), but in other embodiments, may be formed in the first direction (y-axis direction in the drawing). In addition, according to the shape and structure of the partition 13, it is natural that the shape of the exhaust passage 112 can be formed in various ways.

In an embodiment of the present invention, the partition wall bridge 111 is colored. In order to color the partition bridge 111, a coloring pigment and a metal element (Cr, Ni, etc.) may be added. In addition, detailed description about the kind and coloring method of the said coloring pigment is abbreviate | omitted.

In general, when the barrier rib 13 and the barrier rib 111 are made of the same material, the barrier rib 13 and the barrier rib 111 are simultaneously formed. On the other hand, it is preferable that the partition 13 and the partition bridge 111 are colored together to increase the black portion of the panel. In general, the partition wall 13 may include low melting glass (Glass) powder, an organic solvent (resin / coloring agent, etc.) or a filler (aluminum, metal powder), and the like. The partition bridge 111 may also be formed of the material of the partition wall 13. Not much different

The discharge cells 19 according to the embodiment of the present invention may be formed in various forms such as a stripe or delta in addition to the matrix form. The partition 13 of this type prevents crosstalk between the discharge cells 19 during discharge and provides a surface on which the phosphor layer 14 is applied.

The discharge cell 19 is filled with a discharge gas which is an inert gas (for example, a mixed gas of Ne and Xe). This discharge gas causes a discharge between the sustain electrode 16a and the scan electrode 16b. The plasma is formed by the discharge, the phosphor layer 14 is excited by the ultraviolet rays generated in the plasma, and the visible light generated in the excited phosphor layer 14 is combined to realize an image.

3 is a plan view illustrating an image display area of a plasma display panel according to an exemplary embodiment of the present invention.

As shown, the plasma display panel 30 includes a first image display area 30a and a second image display area 30b. The first image display area 30a is located at the center of the panel 30, and the second image display area 30b is located at the edge of the panel 30.

In order to view the image represented by the panel 30, the viewer's eyes are concentrated in the center part. In particular, if the edge quality is better than the image quality in the center part, the image quality is generally reduced. In addition, if the image quality of the center part is better than the image quality of the edge, the overall emotional picture quality becomes higher. Therefore, in order to increase the emotional image quality that the viewer feels, it is necessary to increase the image quality of the center portion more than the edge portion. In the embodiment of the present invention, the center portion of the image display area preferably includes the center of the entire area.

In the embodiment of the present invention, the structure of the partition wall bridge 111 of the second image display area 30b is different from that of the partition wall bridge 111 of the first image display area 30a. As a result, the image quality of the first image display region 30a is higher than that of the second image display region 30b.

In particular, in the embodiment of the present invention, the black part ratio and the clear room contrast of the first image display area 30a are higher than the second image display area 30b, and the reflection luminance is low. A more detailed description will be further described with reference to FIGS. 4 to 6.

4 is a partial plan view of the second image display area 30b of FIG. 3, and FIG. 5 is a partial plan view of the first image display area 30a of FIG. 3.

The difference between FIG. 4 and FIG. 5 is that the width of the partition wall bridge 111 is different. More specifically, in FIG. 4, the partition wall bridge 111 has a first width BW ₁ , while in FIG. 5, the partition wall bridge 111 has a second width BW ₂ .

As shown, the second width BW ₂ is greater than the first width BW ₁ . Therefore, the ratio of the partition wall bridge 111 per unit area in the image display area is also higher in FIG. 5 than in FIG. 4. As a result, the black portion and the clear room contrast of the panel are higher in FIG. 5 than in FIG. 4, and the reflection luminance is lower.

In an embodiment of the present invention, the bridge 111 may be colored black, blue or brown. In addition, in another embodiment of the present invention, the partition wall 111 may be colored in various other colors, including three primary colors (Magenta, Cyan, Yellow), and the like.

6 is a detailed plan view of a part of the first image display area of FIG. 3 according to another exemplary embodiment of the present invention.

FIG. 6 is compared with FIG. 4. The difference between FIG. 4 and FIG. 6 is that the number of partition bridges 111 is different. In more detail, in FIG. 4, one discharge cell 19 is adjacent to at most two partition bridges 111. In contrast, in FIG. 6, one discharge cell 19 is adjacent to at most four partition bridges 111. Therefore, the ratio of the partition wall bridge 111 per unit area in the image display area is also higher in FIG. 6 than in FIG. As a result, the black part ratio and the clear room contrast of the panel in FIG. 6 are improved and the reflection luminance is lower than in FIG. 4.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

As described above, according to the plasma display panel according to the present invention, the width of the colored partition wall bridge in the center portion of the panel is increased so that the black portion ratio and the clear room contrast of the center portion are improved, and thus the overall image quality is increased. have.

In addition, by increasing the number of colored partition wall bridges in the central portion of the panel, the black portion ratio and the bright room contrast of the central portion are improved, thereby increasing the overall image quality.

In addition, as the image quality of the center portion of the panel is increased, the emotional image quality of the viewer watching the panel is increased.

Claims (5)

Front and rear substrates facing each other at intervals; An address electrode formed to extend in the first direction on the back substrate; A vertical partition member formed in the first direction between the front substrate and the rear substrate, and a first partition member and a second partition member formed in a second direction crossing the partition substrate to partition discharge cells, and the first partition member And the second partition member includes: a partition wall forming a gap between discharge cells neighboring in the first direction; A partition wall bridge connected to the first partition member and the second partition member and colored; A phosphor layer formed inside the discharge cell; And A display electrode formed on the front substrate and extending in the second direction crossing the first direction; The entire image display area is A first image display area of a central portion including a center of the front substrate; And A second image display area at an edge of the front substrate; And an area ratio of the partition bridge in the first image display area is higher than that of the second image display area. According to claim 1, And a width of the barrier bridge formed in a portion corresponding to the first image display area than the second image display area. According to claim 1, And a greater number of barrier bridges disposed between the pair of discharge cells neighboring in the first direction than the second image display area and formed in the portion corresponding to the first image display area. According to claim 1, The partition bridge is a plasma display panel that is colored blue or black. According to claim 1, And a height of the barrier rib is smaller than a height of the barrier rib.

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