CN1555081A - Plasma display panel - Google Patents

Abstract

A plasma indication panel includes a first baseboard, a second baseboard and multiple blocking walls forming multiple discharging units between the two baseboards. Multiple master electrodes are placed on the second baseboard, every discharge unit is connected to two adjacent master electrodes by the multiple master electrodes containing auxiliary electrodes, among which, the multiple master and auxiliary electrodes constitute an addressing electrode.

Description

Plasmia indicating panel

Technical field

The present invention relates to a kind of AC type plasma displaying panel, particularly relate to a kind of main electrode structure of AC type plasma displaying panel.

Background technology

Plasma display (Plasma Display Panel is called for short PDP) is a kind of slim display, and its main characteristic is to accomplish the screen of oversize, ultrathin, to save a large amount of screen spaces.The principle of luminosity and the fluorescent lamp of plasma display are similar, it is inert gas injecting in the vacuum glass groove, make inert gas generation plasma effect and emit ultraviolet ray with the voltage pressing mode, this moment, ultraviolet ray shone the fluorescence material of coating on the glass guide channel wall surface, can make the fluorescence material inspire redness, green or blue visible light.So, the screen of plasma display can combine by luminous voluntarily unit by hundreds thousand of, each flat light emission comprises the tiny bulb of three kinds of colors of red, green, blue (R, G, B) again, make up cleverly and produce different colors via three primary colors, formed the picture that we saw then.

Please refer to Fig. 1, it shows the schematic diagram of existing plasma display 10.The structure of existing plasma display 10 mainly is made of a top glass substrate 12 that be arranged in parallel and a lower glass substrate 14, and has a gap between the upper and lower glass substrate 12,14, charges into inert gas (as: Ne, Xe) to form a discharge space 16.Top glass substrate 12 surfaces are provided with many group transverse electrodes, each group transverse electrode includes one first to be kept electrode (sustaining electrode) 18 and 1 second and keeps electrode 20, and first, second is kept electrode 18,20 and all includes an extension electrode 181,201 and an auxiliary electrode (bus electrode) 182,202 separately.In addition, include a dielectric layer 24 on top glass substrate 12 surfaces and cover transverse electrode, and a protective layer 26 covers dielectric layer 24.

Lower glass substrate 14 is provided with a plurality of barrier ribs (barrierrib) 28, be arranged at abreast on lower glass substrate 14 surfaces, be used for discharge space 16 is separated into a plurality of discharge space groups, wherein each discharge space group is defined as and includes a red discharge space 16R, a green discharge space 16G and a blue discharge space 16B.In addition, plasma display 10 also comprises a plurality of vertical above-mentioned first and keeps the longitudinal electrode that electrode 18 and second is kept electrode 20, is arranged on lower glass substrate 14 surfaces between two barrier ribs 28, is used as addressing electrode (addresselectrode) 22.

In addition, under a red fluorescence layer 29R coats in the red discharge space 16R on glass substrate 14 surfaces and barrier rib 28 sidewalls; One green fluorescence layer 29G coats on the interior lower glass substrate of green discharge space 16G 14 surfaces and barrier rib 28 sidewalls; One blue fluorescent body 29B coats on the interior lower glass substrate of blue discharge space 16B 14 surfaces and barrier rib 28 sidewalls.

The mode of operation of existing plasma display 10, promptly between electrode, feed a driving voltage, for example in first, second keeps electrode 18,20 and addressing electrode 22 apply voltage, it can form a plasma between two electrodes in discharge space 16, and along with the increase that applies voltage, its isoionic scope can be extended to first, second keeps electrode 18,20 position, so utilize high voltage that the inert gases in the discharge space 16 are dissociated and produce ultraviolet light, then ultraviolet light can be beaten in redness, green, blue fluorescent body 29R, 29G, on the 29B, to send red that common people can see, blue, green three kinds of colors, three primary colors are after different proportion mixes, and visible light is conveyed in common people's the sight line via top glass substrate 12.

Please refer to Fig. 2, Fig. 2 is the plane graph of the existing structure of plasma display device of expression.A plurality of barrier ribs 28 are a strip structure, and be arranged on the lower glass substrate in the mode that is parallel to each other, yet, existing line style addressing electrode 22, because its CHARGE DISTRIBUTION is even, one discharge cell 161 time is easy to generate electric charge in discharge and goes to the phenomenon of the discharge cell 162 in next door via the space, so will form the interference between display unit (cell), and then influence the display quality of plasma display.

United States Patent (USP) has the electrode design that discloses a kind of novel AC type plasma displaying panel for No. 6479932, it uses a kind of addressing electrode structures, it has the width of broad at discharge portion, at absence of discharge narrower width is arranged partly, drive border (Driving Margin) to improve, but this kind electrode design breaks easily, then can therefore produce point defect (point defect) if broken string takes place, and causes the decline of rate of finished products.

Summary of the invention

In view of this, in order to address the above problem, the object of the present invention is to provide a kind of Plasmia indicating panel with palisading type addressing electrode, by in discharge cell by a plurality of main electrodes are arranged, and each main electrode has auxiliary electrode to connect each main electrode at region of discharge, the palisading type addressing electrode that forms like this, owing to auxiliary electrode is arranged at region of discharge, has the driving border that bigger plasma control range can improve plasma display, and be connected to each other with auxiliary electrode each other because of having a plurality of main electrodes, can overcome prior art and open circuit, form the problem of the rate of finished products of defective effect display because of the addressing electrode broken string promptly causes.

For achieving the above object, the invention provides a kind of Plasmia indicating panel, comprising: one first substrate and one second substrate; A plurality of barrier ribs form a plurality of discharge cells between first substrate and second substrate; A plurality of main electrodes are positioned on second substrate, and wherein each discharge cell is by there being a plurality of main electrodes; And at least one auxiliary electrode is positioned on second substrate, and auxiliary electrode connects two adjacent main electrodes in the discharge cell, and wherein a plurality of main electrodes and auxiliary electrode constitute an addressing electrode.

For reaching above-mentioned purpose, the present invention provides a kind of Plasmia indicating panel in addition, comprising: one first substrate and one second substrate; A plurality of barrier ribs form a plurality of discharge cells between first substrate and second substrate; A plurality of main electrodes are positioned on second substrate, and each discharge cell is by there being a plurality of main electrodes; And at least one auxiliary electrode is positioned on second substrate, auxiliary electrode connects in the discharge cell two adjacent main electrodes, a plurality of main electrodes and auxiliary electrode constitute an addressing electrode, wherein the addressing electrode of addressing electrode and adjacency is connected to form a shared addressing electrode outside the viewing area of Plasmia indicating panel, and wherein each shared addressing electrode is not connected to each other.

Description of drawings

Fig. 1 shows the schematic diagram of existing plasma display.

Fig. 2 shows the plane graph of existing structure of plasma display device.

Fig. 3 A shows first embodiment of the invention plasma display barrier rib and electrode structure plane graph.

Fig. 3 B shows another electrode structure plane graph of first embodiment of the invention plasma display.

Fig. 3 C shows first embodiment of the invention plasma display another electrode structure plane graph again.

Fig. 4 shows second embodiment of the invention plasma display barrier rib and electrode structure plane graph.

Fig. 5 shows third embodiment of the invention plasma display barrier rib and electrode structure plane graph.

Fig. 6 shows fourth embodiment of the invention plasma display barrier rib and electrode structure plane graph.

Fig. 7 shows fifth embodiment of the invention plasma display barrier rib and electrode structure plane graph.

Fig. 8 shows sixth embodiment of the invention plasma display barrier rib and electrode structure plane graph.

The drawing reference numeral explanation

Prior art

Existing plasma display～10; Header board～12;

Back plate～14; Discharge space～16;

First keeps electrode～18; Second keeps electrode～20;

Extension electrode～181,201; Auxiliary electrode～182,202;

Dielectric layer～24; Protective layer～26;

Barrier rib～28; Red discharge space～16R;

Green discharge space～16G; Blue discharge space～16B;

Addressing electrode～22; Red fluorescence layer～29R;

Green fluorescence layer～29G; Blue fluorescent body～29B;

Discharge cell～161; Neighboring discharge cells～162;

The technology of the present invention:

Barrier rib～302,402,602,802;

Rectangle discharge cell～304;

Discharge cell～504,704,718;

Row electrode～306,406,506,608,706,808;

Main electrode～716,816,818;

First main electrode～308,408,508,610,708,810;

Second main electrode～310,410,510,612,710,812;

Auxiliary electrode～312,412,512,614,712,814;

Hexagon discharge cell～404,604,804;

Linear pattern barrier rib～502,702;

Dark space～606,806;

Share addressing electrode～720,820.

Embodiment

First embodiment

Please refer to Fig. 3, Fig. 3 shows the plane graph of first embodiment of the invention plasma display barrier rib and electrode structure.Plasma display of the present invention comprises a header board and a back plate, and a plurality of barrier rib 302 is formed on the plate of back, and forms a plurality of closed rectangle discharge cells 304 between back plate and header board.In the present invention, its header board and back plate are glass substrate.

As shown in Figure 3A, a plurality of row electrodes 306 are formed on the header board, extend at the horizontal edge upper edge in rectangular resistance next door 302 directions X.A plurality of palisading type addressing electrodes are formed on the plate of back, and each closed rectangle discharge cell 304 is by there being a palisading type addressing electrode, its palisading type addressing electrode comprises a plurality of main electrode and at least one auxiliary electrodes that extend along the Y direction, represents with first main electrode 308 and second main electrode 310 in its a plurality of main electrodes of present embodiment.In discharge cell 304, first main electrode 308 includes at least one auxiliary electrode 312 with 310 of second main electrodes and is connected first main electrode 308 and second main electrode 310, and auxiliary electrode 312 can be to connect first main electrode 308 and second main electrode 310 by any way, it for example is mode with Fig. 3 A, auxiliary electrode 312 extends connection first main electrode 308 and second main electrode 310 along directions X, shown in Fig. 3 B, it can also be for connecting first main electrode 308 and second main electrode 310 along a direction that tilts.In addition, shown in Fig. 3 C, its auxiliary electrode 312 also can connect two adjacent main electrodes 308,310 for the electrode with certain width.Its auxiliary electrode 312 is positioned at the discharge portion of discharge cell, because its electrode configuration mode has the isoionic scope of bigger control, can obtain preferred discharging efficiency, and its distance that is preferably auxiliary electrode 312 and barrier rib 302 is 20 μ m～50 μ m.

Second embodiment

Please refer to Fig. 4, Fig. 4 shows the plane graph of second embodiment of the invention plasma display barrier rib and electrode structure.Plasma display of the present invention comprises a header board and a back plate, and a plurality of barrier rib 402 is formed on the plate of back, and forms a plurality of closed hexagon discharge cells 404 between back plate and header board.In the present invention, its header board and back plate are glass substrate.

As shown in Figure 4, closed hexagon discharge cell 404 is arranged in the mode of triangle picture element.In addition, being formed with row electrode 406 on header board extends at the hypotenuse upper edge of hexagon barrier rib 402 directions X, each closed rectangle discharge cell 404 is by there being a palisading type addressing electrode, its palisading type addressing electrode comprises a plurality of main electrode and at least one auxiliary electrodes that extend along the Y direction, represent with first main electrode 408 and second main electrode 410 in its a plurality of main electrodes of present embodiment, its first main electrode 408 and second main electrode 410 for include a plurality of along third direction and along the four directions to the zigzag electrode that roughly extends that straightway constituted that extends along the Y direction, wherein each straightway is crossed over two adjacent discharge cells.

In each discharge cell 404, first main electrode 408 includes at least one auxiliary electrode 412 with 410 of second main electrodes and is connected first main electrode 408 and second main electrode 410, and auxiliary electrode 412 can be to connect two adjacent main electrodes 408,410 by any way.Its auxiliary electrode 412 is positioned at the discharge portion of hexagon discharge cell 404, owing to have bigger plasma control range, therefore can obtain preferred discharging efficiency, and its distance that is preferably auxiliary electrode 312 and barrier rib 302 is 20 μ m～50 μ m.

The 3rd embodiment

Please refer to Fig. 5, Fig. 5 shows the plane graph of third embodiment of the invention plasma display barrier rib and electrode structure.Plasma display of the present invention comprises a header board and a back plate, and a plurality of linear pattern barrier ribs 502 are formed on the plate of back, and extends in directions X along the Y direction be separated into a plurality of discharge cells 504 between back plate and header board.In the present invention, its header board and back plate are glass substrate.

As shown in Figure 5, a plurality of linear pattern row electrodes 506 are formed on the header board and along directions X and extend, a plurality of palisading type addressing electrodes are formed on the plate of back, wherein each discharge cell 504 is by there being a palisading type addressing electrode, its palisading type addressing electrode comprises a plurality of main electrode and at least one auxiliary electrodes that extend along the Y direction, represent with first main electrode 508 and second main electrode 510 in its a plurality of main electrodes of present embodiment, in discharge cell, first main electrode 508 includes at least one auxiliary electrode 512 with 510 of second main electrodes and is connected first main electrode 508 and second main electrode 510, and auxiliary electrode 512 can be to connect two adjacent main electrodes by any way.Its auxiliary electrode 512 is positioned at the discharge portion of discharge cell 504, owing to have bigger plasma control range, can obtain preferred discharging efficiency, and its distance that is preferably auxiliary electrode 512 and barrier rib 502 is 20 μ m～50 μ m.

The 4th embodiment

Please refer to Fig. 6, Fig. 6 shows the plane graph of fourth embodiment of the invention plasma display barrier rib and electrode structure.Plasma display of the present invention comprises a header board and a back plate, a plurality of hexagon barrier ribs 602 are formed on the plate of back, and between back plate and header board, be separated into a plurality of hexagon discharge cells 604 along Y direction extension, and arrange along flat Y direction, 618 of each discharge cell 616 discharge cells adjacent with the Y direction, have a dark space 606 and be communicated with above-mentioned two discharge cells 616,618, and between two discharge cells 616,618 of each discharge cell 604 corresponding to adjacent lines.In the present invention, its header board and back plate are glass substrate.

As shown in Figure 6, a plurality of row electrodes 608 are formed on the header board and in the hypotenuse upper edge of hexagon barrier rib 602 Y direction and extend, a plurality of palisading type addressing electrodes are formed on the plate of back, wherein each discharge cell is by there being a palisading type addressing electrode, its palisading type addressing electrode comprises a plurality of main electrode and at least one auxiliary electrodes that extend along the Y direction, represent with first main electrode 610 and second main electrode 612 in its a plurality of main electrodes of present embodiment, in discharge cell, first main electrode 610 includes at least one auxiliary electrode 614 with 612 of second main electrodes and is connected first main electrode 610 and second main electrode 612, and auxiliary electrode 312 can be to connect two adjacent main electrodes by any way.Its auxiliary electrode 614 is positioned at the discharge portion of discharge cell 604, owing to have bigger plasma control range, can obtain preferred discharging efficiency, and its distance that is preferably auxiliary electrode 614 and barrier rib 602 is 20 μ m～50 μ m.

The 5th embodiment

Please refer to Fig. 7, Fig. 7 shows the plane graph of fifth embodiment of the invention plasma display barrier rib and electrode structure.Plasma display of the present invention comprises a header board and a back plate, and a plurality of linear pattern barrier ribs 702 are formed on the plate of back, and extends in directions X along a Y direction be separated into a plurality of discharge cells 704 between back plate and header board.In the present invention, its header board and back plate are glass substrate.

As shown in Figure 7, a plurality of linear pattern row electrodes 706 are formed on the header board and along directions X and extend, a plurality of palisading type addressing electrodes are formed on the plate of back, wherein each discharge cell is by there being a palisading type addressing electrode, its palisading type addressing electrode comprises a plurality of main electrode and at least one auxiliary electrodes that extend along the Y direction, represent with first main electrode 708 and second main electrode 710 in its a plurality of main electrodes of present embodiment, in discharge cell 704, first main electrode 708 includes at least one auxiliary electrode 712 with 710 of second main electrodes and is connected first main electrode 708 and second main electrode 710, and auxiliary electrode 712 can be to connect two adjacent main electrodes by any way.Its auxiliary electrode 712 is positioned at the discharge portion of discharge cell 704, owing to have bigger plasma control range, can obtain preferred discharging efficiency, and its distance that is preferably auxiliary electrode 712 and barrier rib 702 is 20 μ m～50 μ m.Palisading type addressing electrode 714 in its discharge cell and the palisading type addressing electrode 716 in the discharge cell along directions X in abutting connection with this discharge cell 718 are connected to form outside the viewing area of Plasmia indicating panel shares addressing electrode 720, and wherein each shared addressing electrode is not connected to each other.

The 6th embodiment

Please refer to Fig. 8, Fig. 8 shows the plane graph of sixth embodiment of the invention plasma display barrier rib and electrode structure.Plasma display of the present invention comprises a header board and a back plate, a plurality of barrier ribs 802 are formed on the plate of back, and between back plate and header board, be separated into a plurality of hexagon discharge cells 804, and each discharge cell there is a dark space 806 to communicate with each other along the Y direction along Y direction extension.In the present invention, its header board and back plate are glass substrate.

As shown in Figure 8, a plurality of row electrodes 808 are formed on the header board and along hexagonal hypotenuse and extend, a plurality of palisading type addressing electrodes are formed on the plate of back, wherein each discharge cell is by there being a palisading type addressing electrode, its palisading type addressing electrode comprises a plurality of main electrode and at least one auxiliary electrodes that extend along the Y direction, represent with first main electrode 810 and second main electrode 812 in its a plurality of main electrodes of present embodiment, in discharge cell, first main electrode 810 includes at least one auxiliary electrode 814 with 812 of second main electrodes and is connected first main electrode 810 and second main electrode 812, and auxiliary electrode 814 can be to connect two adjacent main electrodes by any way.Its auxiliary electrode 814 is positioned at the discharge portion of discharge cell, owing to have bigger plasma control range, can obtain preferred discharging efficiency, and its distance that is preferably auxiliary electrode 814 and barrier rib 802 is 20 μ m～50 μ m.Palisading type addressing electrode 816 in its discharge cell and be connected to form outside the viewing area of Plasmia indicating panel along the palisading type addressing electrode of the discharge cell of 45 ° of direction adjacency and share addressing electrode 820, wherein each shared addressing electrode is not connected to each other.

The invention is characterized in that Plasmia indicating panel forms the palisading type addressing electrode structures, by in discharge cell by a plurality of main electrodes are arranged, and each main electrode is formed with auxiliary electrode at region of discharge and is connected to each other, the palisading type addressing electrode that forms like this, owing to auxiliary electrode is arranged at region of discharge, has the driving border that bigger plasma control range can improve plasma display, and having a plurality of main electrodes is connected to each other with auxiliary electrode each other, can overcome prior art and open circuit the rate of finished products of formed defective effect display because of the addressing electrode broken string promptly causes.

Though the present invention discloses as above with preferred embodiment; right its is not in order to limit the present invention; those skilled in the art can do some and change and retouching without departing from the spirit and scope of the present invention, so protection scope of the present invention should be looked the accompanying Claim person of defining and is as the criterion.

Claims (29)

1. Plasmia indicating panel comprises:

One first substrate and one second substrate;

A plurality of barrier ribs form a plurality of discharge cells between this first substrate and this second substrate;

A plurality of addressing electrodes are positioned on this second substrate, wherein each discharge cell is by the addressing electrode of a correspondence, each addressing electrode comprises a plurality of main electrodes, and at least one auxiliary electrode, and this auxiliary electrode connects two adjacent main electrodes in this each discharge cell.

2. Plasmia indicating panel as claimed in claim 1, wherein this one first substrate and one second substrate are glass substrates.

3. Plasmia indicating panel as claimed in claim 1, wherein this auxiliary electrode is apart from this barrier rib 20 μ m-50 μ m.

4. Plasmia indicating panel as claimed in claim 1, wherein this main electrode and this auxiliary electrode are orthogonal.

5. Plasmia indicating panel as claimed in claim 1, wherein this main electrode and this auxiliary electrode press from both sides an acute angle.

6. Plasmia indicating panel as claimed in claim 1, wherein those barrier ribs are the rectangular resistance next door.

7. Plasmia indicating panel as claimed in claim 6, wherein this plasma display floater comprises that still a plurality of row electrodes extend at this upper edge, rectangular resistance next door one first direction.

8. Plasmia indicating panel as claimed in claim 1, wherein those barrier ribs are the hexagon barrier rib, and those discharge cells are arranged in a rounded projections arranged mode.

9. Plasmia indicating panel as claimed in claim 7, wherein each main electrode include a plurality of along a third direction and along a four directions to the zigzag main electrode of roughly extending that straightway constituted of extending along second direction, wherein each straightway is crossed over two adjacent discharge cells.

10. Plasmia indicating panel as claimed in claim 8, wherein this plasma display floater comprises that still a plurality of row electrodes roughly extend along a first direction on this hexagon barrier rib.

11. Plasmia indicating panel as claimed in claim 1, wherein those barrier ribs are linear, and extend along a second direction.

12. Plasmia indicating panel as claimed in claim 11, wherein this plasma display floater comprises that still a plurality of row electrodes extend along a first direction.

13. Plasmia indicating panel as claimed in claim 1, wherein those discharge cells are hexagon and arrange along parallel line direction, between the adjacent discharge cell of each discharge cell and line direction, have a dark space and be communicated with above-mentioned two discharge cells, and between two discharge cells of each discharge cell corresponding to adjacent column.

14. Plasmia indicating panel as claimed in claim 13, wherein this plasma display floater still comprises a plurality of row electrodes, and wherein those row electrodes comprise a plurality of first line segment and one second line segments on this barrier rib, roughly extend along column direction and extend.

15. Plasmia indicating panel as claimed in claim 1, wherein each addressing electrode and adjacent addressing electrode are connected to form a shared addressing electrode outside the viewing area of this plasma display floater, and each shared addressing electrode is not connected to each other.

16. a Plasmia indicating panel comprises:

One first substrate and one second substrate;

A plurality of barrier ribs form a plurality of discharge cells between this first substrate and this second substrate;

A plurality of addressing electrodes are positioned on this second substrate, wherein each discharge cell is by the addressing electrode of a correspondence, each addressing electrode comprises a plurality of main electrodes, and at least one auxiliary electrode, and this auxiliary electrode connects two adjacent main electrodes in this each discharge cell, wherein each addressing electrode and adjacent addressing electrode are connected to form a shared addressing electrode outside the viewing area of this plasma display floater, and each shared addressing electrode is not connected to each other.

17. Plasmia indicating panel as claimed in claim 16, wherein this one first substrate and one second substrate are glass substrates.

18. Plasmia indicating panel as claimed in claim 16, wherein this auxiliary electrode is apart from this barrier rib 20 μ m-50 μ m.

19. Plasmia indicating panel as claimed in claim 16, wherein this main electrode and this auxiliary electrode are orthogonal.

20. Plasmia indicating panel as claimed in claim 16, wherein this main electrode and this auxiliary electrode press from both sides an acute angle.

21. as the described Plasmia indicating panel of Shen claim 16, wherein those barrier ribs are the rectangular resistance next door.

22. Plasmia indicating panel as claimed in claim 21, wherein this plasma display floater comprises that still a plurality of row electrodes extend at this upper edge, rectangular resistance next door one first direction.

23. Plasmia indicating panel as claimed in claim 16, wherein those barrier ribs are the hexagon barrier rib, and those discharge cells are arranged in a rounded projections arranged mode.

24. Plasmia indicating panel as claimed in claim 23, wherein each main electrode include a plurality of along a third direction and along a four directions to the zigzag main electrode of roughly extending that straightway constituted of extending along second direction, wherein each straightway is crossed over two adjacent discharge cells.

25. Plasmia indicating panel as claimed in claim 23, wherein this plasma display floater comprises that still a plurality of row electrodes roughly extend along a first direction on this hexagon barrier rib.

26. Plasmia indicating panel as claimed in claim 16, wherein those barrier ribs are linear, and prolong a second direction and extend.

27. Plasmia indicating panel as claimed in claim 26, wherein this plasma display floater comprises that still a plurality of row electrodes extend along a first direction.

28. Plasmia indicating panel as claimed in claim 16, wherein those discharge cells are hexagon and arrange along parallel direction, between the adjacent discharge cell of each discharge cell and line direction, have a dark space and be communicated with above-mentioned two discharge cells, and between two discharge cells of each discharge cell corresponding to adjacent column.

29. Plasmia indicating panel as claimed in claim 28, wherein this plasma display floater still comprises a plurality of row electrodes, wherein those row electrodes comprise a plurality of on this barrier rib first line segment and be parallel to second line segment of column direction, roughly extend along column direction and extend.

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