CN1585074A - Electrode structure of plasma planar displaying device - Google Patents
Electrode structure of plasma planar displaying device Download PDFInfo
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- CN1585074A CN1585074A CN 200410048811 CN200410048811A CN1585074A CN 1585074 A CN1585074 A CN 1585074A CN 200410048811 CN200410048811 CN 200410048811 CN 200410048811 A CN200410048811 A CN 200410048811A CN 1585074 A CN1585074 A CN 1585074A
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Abstract
An electrode structure for plasma planar display consists of at least first, second and third electrodes. The second electrode is equipped with transparent polarities at upper and lower sides of an auxiliary electrode to form two discharge centers located between the transparent polar system of the first electrode and one transparent polarity of the second electrode, and between the transparent polar system of the third electrode and the other transparent polarity of the second electrode, so as to make each luminary unit have two discharge centers.
Description
Technical field
The present invention relates to a kind of electricity slurry flat-panel screens (PDP), and particularly starch the electrode structure of flat-panel screens relevant for electricity.
Background technology
Because multimedia developing rapidly makes the user more and more high to the acousto-optic equipment requirements of periphery.Chang Yong cathode ray tube or claim camera tube (Cathode Ray Tube in the past; CRT) display of type because volume is too huge, is being bragged about in light, thin, short, the little epoch now, does not gradually apply demand.Therefore, there are many flat-panel screens technology to be developed in succession in recent years, as LCD (Liquid CrystalDisplay; LCD), electricity slurry flat-panel screens (Plasma Display Panel; And Field Emission Display (Field Emission Display PDP); FED), become the main flow of following display gradually.Wherein, be subjected to gazing at greatly as full-color display unit with electricity slurry flat-panel screens (PDP), it has the large scale display area, particularly is applied to large scale TV or outdoor display board.This is because the display capabilities that PDP has high image quality stems from the light spontaneous emission form that it has wide viewing angle, and response at a high speed.And, be very suitable for large-sized monitor because production process is comparatively simple.
In color PDP, produce ultraviolet ray by gas discharge, excite phosphor body to launch visible light and form display effect.According to the discharge mode of PDP, color PDP simply can be divided into AC type (AC) and once-through type (DC) two classes.In AC type PDP, on electrode, be coated with protective layer, this makes AC type PDP have long useful life and higher display brightness.Therefore, in display effect, luminous efficiency and on useful life, AC type PDP generally is better than once-through type PDP.
Usually in AC type PDP, three-electrode structure be can use, shared (Common) electrode, scanning (Scan) electrode and address (Address) electrode comprised.Three-electrode structure is the surface discharge form, and switches or keep discharge by applying voltages to bit address electrode.Fig. 1 is the schematic top plan view of the electrode structure of general electricity slurry flat-panel screens.See also Fig. 1, this electrode structure is formed in the upper substrate that image shows a side mostly, comprises structure electrode of opposite 10 and electrode 12, and one of them is a scan electrode, and another is a common electrode.No matter and electrode 10 or electrode 12 all are made of transparency electrode 14 and auxiliary electrode 16, wherein transparency electrode 14 generally is made of for example indium tin oxide (ITO) transparent electrode material of (by the mixture of indium oxide and tin oxide) that forms, and can use through visible rays.And compare with metal, the electrical conductivity of transparency electrode 14 is relatively low, therefore must increase narrow on transparency electrode 14 and has the auxiliary electrode 16 of satisfactory electrical conductivity, promotes its electrical conductivity, and the material of auxiliary electrode can be made of black silver for example.
Luminescence unit (Emitting Cell) 20 is divided into by the barrier rib 24 in the following plate structure, promptly forms luminescence unit 20 between barrier rib 24, shown in the dotted rectangle zone among Fig. 1.General system utilizes the highly reflective material to constitute barrier rib 24.In addition, auxiliary electrode 16 is crossed each luminescence unit 20 that becomes row to arrange, and is connected to a signal supply unit (not shown), uses the gas discharge of the specific luminescence unit of control.And the discharge centers 22 of each luminescence unit 20 is between two transparency electrodes 14, shown in the dashed circle zone among Fig. 1.Between the luminescence unit 20 of different lines, generally can form black line structure 18, in order to the light under covering.
When applying a voltage to this specific luminescence unit, electrode discharges and forms electric field therein, makes that the electronics of enclosing the mist in the luminescence unit is quickened, and with ionic bombardment.This moment, ionization electron bump neutral particle was ionized into electronics and ion at a high speed with neutral example, thereby the electric pulpous state attitude that becomes of discharge gas, generated ultraviolet light (UV).By the phosphor body in the UV optical excitation luminescence unit, make redness (R), green (G), blue three look phosphor powders such as (B) can produce visible light again, and then show image.
In the known PDP upper plate electrode structural design, each luminescence unit only has a discharge centers.Therefore, when PDP discharged, so the electric field strength maximum in the luminescence unit center was in the violent discharge of luminescence unit center generation.Because violent discharge concentrates near the discharge centers, can cause the discharging efficiency of known PDP panel and life-span not good.In addition, known electrode structure produces excessive peak current because the area of transparency electrode is excessive when discharge, except increasing the circuit element load, but and influences the operating voltage range of life of product and panel.
Summary of the invention
The object of the present invention is to provide a kind of electrode structure of electricity slurry flat-panel screens, have at least two discharge centers in each luminescence unit, using provides discharging current and zone uniformly.
Another object of the present invention is to provide a kind of electricity slurry flat-panel screens, use the electrode structure of above-mentioned pair of discharge centers, to improve the panel life-span.
According to purpose of the present invention, electrode structure of the present invention comprises that one first electrode, a third electrode and one second electrode are between first electrode and third electrode.Wherein, first electrode system is made of one first auxiliary electrode and one first transparency electrode that is positioned at first auxiliary electrode, one side, second electrode system by one second auxiliary electrode and be positioned at its up and down second, third two transparency electrode of both sides constituted, third electrode then is made of one the 3rd auxiliary electrode and one the 4th transparency electrode that is positioned at the one side.And first transparency electrode system is relative with second transparency electrode, forms a discharge centers, and the 3rd transparency electrode system is relative with the 4th transparency electrode, forms another discharge centers.
Purpose according to the present invention, the present invention's electricity slurry flat-panel screens comprises: one first substrate and one second substrate; Several bit address electrodes are between first substrate and second substrate; Several luminous row are between first substrate and bit address electrode, and wherein each luminous row comprises one first electrode, a third electrode and at least one second electrode between first electrode and third electrode; And, several barrier ribs are between luminous row and bit address electrode, and be staggered with the address unit, make luminous row be divided into several luminescence units, wherein each luminescence unit has one first discharge centers between first electrode and second electrode, and one second discharge centers between second electrode and third electrode.
In preferred embodiment of the present invention, can be changed at the part of electrode.For example, first electrode can be selected whether to be connected to same signal supply unit with third electrode, and becomes the branch of same electrode.And, can select with first electrode and third electrode as scan electrode, second electrode is as common electrode, perhaps with first electrode and third electrode as common electrode, second electrode is as scan electrode.
Perhaps, can design at auxiliary electrode and transparency electrode.For example, the first above-mentioned auxiliary electrode, second auxiliary electrode and the 3rd auxiliary electrode can select to make pectination, have a main line and several branch lines.Transparency electrode can be coupled on the branch line of auxiliary electrode, and can design strip or faciola shape, and perhaps the main line with auxiliary electrode has distance.In addition, also can have hollow region in the auxiliary electrode of second electrode, for example for being parallel to the elongated strip of second auxiliary electrode.
In addition, the present invention more can allow first distance between first transparency electrode and second transparency electrode, is different from the second distance between the 3rd transparency electrode and the 4th transparency electrode, and makes the discharging gap difference of two discharge centers.And, can between two luminous row, add black line structure and come shield lights.
Beneficial effect of the present invention is, use electrode structure of the present invention, even discharge is provided, improves discharging efficiency, improves luminosity, increases product useful life, increases panel operating voltage range, balance point ignition voltage and advantages such as efficient and dispersion discharge peak currents but have.
Description of drawings
Fig. 1 is the schematic top plan view of general electricity slurry flat-panel screens electrode structure.
Fig. 2 is the schematic top plan view of the electrode structure of the two discharge centers of the present invention.
Fig. 3 is preferred embodiment one of according to the present invention, the schematic top plan view of electricity slurry flat-panel screens electrode structure.
Fig. 4 is the auxiliary electrode schematic top plan view of the electrode structure of Fig. 3.
Fig. 5 is according to preferred embodiment of the present invention, the auxiliary electrode schematic top plan view of another electrode structure.
Fig. 6 does according to another preferred embodiment of the present invention, the schematic top plan view of electricity slurry flat-panel screens electrode structure.
Fig. 7 is according to a preferred embodiment more of the present invention, the schematic top plan view of electricity slurry flat-panel screens electrode structure.
Fig. 8 is the electricity slurry flat-panel screens volume rendering schematic diagram with electrode structure of the present invention.
Fig. 9 is according to another preferred embodiment of the present invention, shows the schematic cross-section of electricity slurry flat-panel screens electrode structure.
Figure 10 is according to another preferred embodiment of the present invention, shows the schematic cross-section of electricity slurry flat-panel screens electrode structure.
Embodiment
Below be to utilize several embodiment, PDP electrode structure of the present invention is described.In order to make narration of the present invention more detailed and complete, can be with reference to description of the following example and the diagram of cooperation Fig. 2 to Fig. 7.
The invention provides a kind of electrode structure with two discharge centers, is in each luminescence unit, forms two discharge centers.Wherein, the auxiliary electrode of common electrode is the center that is positioned at luminescence unit, and forms transparency electrode in the both sides of the auxiliary electrode of common electrode.The auxiliary electrical polar system of scan electrode is positioned at the both sides up and down of luminescence unit, can be controlled by same signal supply unit or different signal supply unit, and inboard at the auxiliary electrode of scan electrode, that is the position at close luminescence unit center formation transparency electrode, so can in same luminescence unit, form two discharge centers.The position of above-mentioned common electrode and scan electrode can be changed mutually, that is the luminescence unit center is scan electrode, and both sides are common electrode up and down.
Fig. 2 is the schematic top plan view of the electrode structure of the two discharge centers of the present invention.Please refer to Fig. 2, this electrode structure is formed in the upper substrate that image shows a side mostly, comprises several tools electrode 100 at regular intervals, electrode 102 and electrode 104, and wherein electrode 100 belongs to similar electrode with electrode 104.For instance, if electrode 100 is a scan electrode with electrode 104, then electrode 102 is a common electrode; If electrode 100 is a common electrode with electrode 104, then electrode 102 is a scan electrode again.
No matter electrode 100, electrode 102 all are made of interconnected transparency electrode and auxiliary electrode with electrode 104, wherein transparency electrode is made of transparent electrode material, and for example indium tin oxide (ITO) can be used through visible rays.And the purpose of auxiliary electrode is in order to increase the electrodes conduct degree, can be made of metal such as aluminium, cobalt, silver, molybdenum, chromium, tantalum, tungsten, iron, copper and alloy thereof, and perhaps the preferably constitutes as conductivity antireflection material such as black silver.In general, auxiliary electrode is not had a transparency.
For instance, electrode 100 is that transparency electrode 108a and auxiliary electrode 110a by strip constituted.102 transparency electrode 108b ' of electrode, transparency electrode 108b by strip " constituted with auxiliary electrode 110b; wherein transparency electrode 108b ' and transparency electrode 108b " lay respectively at the both sides up and down of auxiliary electrode 110b, and transparency electrode 108b ' is positioned at the same side, position with transparency electrode 108a, but does not contact with each other.Electrode 104 is made of the transparency electrode 108c of strip and auxiliary electrode 110c, wherein transparency electrode 108c and be positioned at and transparency electrode 108b " the same side, but do not contact with each other.Therefore, as shown in Figure 2, be auxiliary electrode 110a, transparency electrode 108a, transparency electrode 108b ', auxiliary electrode 110b, transparency electrode 108b from top to bottom in regular turn ", the repetitive structure of transparency electrode 108c and auxiliary electrode 110c.
Therefore luminescence unit 112 has two discharge centers, be respectively the discharge centers 114 that is positioned between transparency electrode 108a and the transparency electrode 108b ', and be positioned at transparency electrode 108b " and transparency electrode 108c between discharge centers 116, shown in the dashed circle zone among Fig. 2.
Except as shown in Figure 2, the auxiliary electrode that each is luminous classifies mean level vertical bar shape as directly with outside transparency electrode is connected, also can be designed to comb shape with auxiliary electrode, utilizes the branch line of pectination auxiliary electrode prolongation to be connected with transparency electrode, as shown in Figure 3.Wherein, more clear for the description that makes the pectination auxiliary electrode, the present invention system is illustrated in it among Fig. 4 separately.Please consult Fig. 4 earlier, the auxiliary electrode 110a of pectination comprises the luminescence unit 112 of crossing each one-tenth row arrangement, and be connected to the main line 150 of signal supply unit (not shown), and vertically extend from main line 150 1 sides, and position several branch lines 152 between luminescence unit 112.The auxiliary electrode 110b of pectination comprises the main line 154 at luminescence unit 112 centers of crossing each one-tenth row arrangement, and from main line several branch lines 156 that both sides vertically extend about in the of 154.And the auxiliary electrode 110c of pectination comprises the luminescence unit 112 of crossing each one-tenth row arrangement, and is connected to the main line 158 of signal supply unit (not shown), and vertically extends from main line 158 1 sides, and position several branch lines 160 between luminescence unit 112.The above-mentioned main line branch line number of arranging in pairs or groups can freely change, and the invention is not restricted to this.
Then, consult Fig. 3 again, when the comb-shape electrode structure of Fig. 4 was applied in the electrode structure of two discharge centers, the branch line (as the branch line among Fig. 4 152, branch line 156 and branch line 160) of auxiliary electrode 110a, auxiliary electrode 110b and auxiliary electrode 110c was an aligning barrier rib 106 usually.Therefore, the opaque branch line of auxiliary electrode can't cover the emitted light of selfluminous cell 112.And the transparency electrode in each electrode more can only be coupled on the branch line of pectination auxiliary electrode.For instance, the transparency electrode 108a of electrode 100 system and its auxiliary electrode 110a also not exclusively join, and only are coupled on the branch line (as the branch line among Fig. 4 152) of auxiliary electrode 1100a.Therefore, with Fig. 2 by comparison, the area of transparency electrode 108a has reduced many.In like manner, the transparency electrode 108b ' of electrode 102 and transparency electrode 108b " and the area of the transparency electrode 108c of electrode 104 also therefore reduce.Because discharging gap may be defined as the distance between two transparency electrodes, therefore in this embodiment, discharge centers 114 is all d0 with the discharging gap of discharge centers 116.Only for as shown in Figure 3 the fine strip shape with arcuation edge, other is strip or other band shape etc. for example for the transparency electrode shape of above-mentioned collocation pectination auxiliary electrode, change optionally, and the present invention is limited to this.
In the electrode structure of the present invention, the auxiliary electrode that is positioned at each luminous row center more can have hollow region as shown in Figure 5.See also Fig. 5, pass the center of luminescence unit 112 in auxiliary electrode 110b system, the width of its main line 154 is wide than Fig. 4, and has the hollow region 162 of several the elongated strips parallel with main line 154 at it.Wherein, the shape change optionally of above-mentioned hollow region 162, and relative position and the indefinite of hollow region in luminescence unit 112 or electrode structure also can be selected to be moved, and the present invention is neither to be limited to this.In addition, the hollow region 162 auxiliary electrode 110b with main line 154 and branch line 156 that is not limited to arrange in pairs or groups uses, and for example strip auxiliary electrode 110b of Fig. 2 that also can arrange in pairs or groups the invention is not restricted to this.
In the structure of Fig. 2 of the present invention and Fig. 3, there is no black line structure between each luminous row and exist.But the present invention also can add black line structure between each luminous row, as shown in Figure 6 in a preferred embodiment.Please refer to Fig. 6, between luminous row I and luminous row II and luminous row II and the luminous row III, all separated, make that the light-shielding property between each luminous row is better with black line structure 170.
And the present invention more can make change on discharging gap, makes the discharge centers of two discharge centers in the discharge cell inequality, as shown in Figure 7.Please join Fig. 7, under the situation that does not change the original width of luminous row, electrode 102 integral body up can be moved by original position, reduce the distance of electrode 100 and electrode 102, and increase the distance of electrode 102 and electrode 104.So in this electrode structure, the discharging gap of discharge centers 114 is d
1, and the discharging gap of discharge centers 116 is d
2, d wherein
2>d
1Perhaps, do not changing the former width of luminous row and do not changing under the situation of original position of auxiliary electrode, then can move and change the width of discharging gap the position of the transparency electrode of electrode.For example, transparency electrode 108b ' is moved toward the direction of transparency electrode 108a, and with transparency electrode 108b " move toward the direction of transparency electrode 108c.The method of above-mentioned change discharging gap only for for example, the invention is not restricted to this.
And, above-mentionedly constitute luminous row only for for example by an electrode 100, electrode 102 and electrode 104, in single luminous row, more can add one and constitute more luminescence center with top electrode 102, the invention is not restricted to this.In addition, the size of above-mentioned electrode structure and ratio, the for example distance of width, discharging gap, transparency electrode and the auxiliary electrode of electrode 102 and electrode 100 and electrode 104 and the distance between the luminous row etc., all visual product needed change the invention is not restricted to this.
Fig. 8 is the volume rendering schematic diagram with electricity slurry flat-panel screens of the above-mentioned electrode structure of the present invention.Please read Fig. 8, electricity slurry flat-panel screens comprises a upper substrate 200 and an infrabasal plate 202 at least.On infrabasal plate 202, have a plurality of bit address electrodes that is arranged in parallel 206, and an electric inducing layer 212 covers on the bit address electrode 206.A plurality of barrier ribs that are arranged in parallel 106 are formed on the electric inducing layer 212, and are placed on respectively between the address electrode 206 and are staggered with bit address electrode 206.Certainly, the present invention does not limit the barrier rib 106 of strip shown in Figure 8, also can use various barrier wall structure.Between barrier rib 106, be colored fluorescent layer 210.Inboard at upper substrate 200, that is with the equidirectional side of infrabasal plate, have electrode 100, electrode 102 and electrode 104, electrode 100 is made of auxiliary electrode 110a and transparency electrode 108a, electrode 102 is by auxiliary electrode 110b and transparency electrode 108b ' and transparency electrode 108b " constitute; electrode 104 is made of auxiliary electrode 110c and transparency electrode 108c, and wherein transparency electrode 108a is relative with transparency electrode 108b ', transparency electrode 108c and transparency electrode 108b " relative.Above-mentioned electrode 100, electrode 102 constitute luminous row with electrode 104.Certainly, the invention is not restricted to only have luminous row, and can have several luminous row.In addition, on the upper substrate 200 and form electric inducing layer 204 and protective layer 208 and cover on electrode 100, electrode 102 and the electrode 104.The figure number identical with Fig. 1 among Fig. 8 is the representative same components, can be mutually with reference to than than.
Fig. 9 and Figure 10 are the schematic cross-section of electricity slurry flat-panel screens electrode structure of the present invention, and wherein electric inducing layer 204 is to be covered on the electrode structure with protective layer 208.As described above, when selecting second electrode, have the phenomenon of discharge instability as scan electrode, therefore the electric inducing layer 204 below the auxiliary electrode 110b of second electrode 102 can be thickeied, as shown in Figure 9, to avoid this phenomenon; Perhaps on the protective layer below the auxiliary electrode 110b 208, add the last layer not active membrane (Discharge DeactivationFilm) 214 of discharging, as shown in Figure 10, to avoid the phenomenon of discharge instability.
By the invention described above preferred embodiment as can be known, electrode structure of the present invention is that original luminescence unit is divided into two, form luminescence unit two times, inferior luminescence unit 120 as shown in Figure 2 and time luminescence unit 122, therefore the ultraviolet light of the discharge centers of each time luminescence unit is diffused into the distance at luminescence unit edge, the ultraviolet light of more known discharge centers as shown in Figure 1 22 is diffused into the distance at luminescence unit edge for short, therefore can avoid the loss of the ultraviolet light of discharge centers.Make that its distribution is comparatively even because the present invention can reduce the loss of ultraviolet light, therefore can effectively improve the luminosity of phosphor body.
And electrode structure of the present invention is when gas discharge, and its region of discharge is distributed in two zones of luminescence unit, it is comparatively even to discharge, can avoid the center of concentrations, and cause the shortcoming of known panel damage, so can prolong the useful life of product at luminescence unit.
In the electrode structure of the present invention, can be because two discharge centers and comb electrode provide electric field uniformly, the more uniform ray of acquisition by this.And since comb electrode than traditional auxiliary electrode more near discharge centers, make that the opereating specification of electricity slurry flat display driving voltage is broad more, also help to drive operating period signal input at a high speed.In addition, when comb electrode is made of antireflection material, more can promote the demonstration contrast of electricity slurry flat-panel screens; When the usable floor area of transparency electrode is few, can reduce its power consumption when keeping discharge.In addition,, can increase its number of anti-the electric current, and the light shaded areas is reduced if make the auxiliary electrode that passes the flat light emission center have hollow region.
Of the present invention pair of discharge centers electrode structure, when the inferior luminescence unit in the same luminescence unit is designed to have different discharging gap, the advantage that can have balance point ignition voltage (Firing Voltage) and ignition effectiveness, and because difference discharge time of two luminescence units so can be disperseed the peak current of discharge time.
In more detail, because luminous efficiency and ignition voltage and discharging gap connect the increase trend that has a direct ratio, that is when discharging gap big more, ignition voltage is high more, but luminous efficiency is good more, and ignition voltage is excessive because will use high-tension more type of drive, can increase many to driving cost.Therefore, see also Fig. 7, have in two discharge centers structures of different discharging gaps because discharging gap d in the present invention
2Greater than discharging gap d
1, therefore can utilize lower ignition voltage to drive time luminescence unit 120 earlier, and therefore produce active particle and be diffused into time luminescence unit 122, make time luminescence unit 122 when not reaching former higher point ignition voltage, also can drive.And, obtain the preferable luminous efficiency of time luminescence unit 122 simultaneously.And also because time luminescence unit 120 early discharges, inferior luminescence unit 122 later discharges are so can disperse and reduce peak current.
And of the present invention pair of discharge centers changes the ignition voltage of twice luminescence unit except above-mentioned utilization changes discharging gap, also can utilize to change to lure electric body thickness to change ignition voltage.For instance, see also Fig. 8, general write cycle, system control bit address electrode 206 and scan electrode discharge, and that a certain luminescence unit or inferior luminescence unit are come is luminous, and the cycle of keeping utilizes the scan electrode in same luminescence unit or the inferior luminescence unit to discharge to keep illumination effect with common electrode again.Therefore, suppose that electrode 100 and electrode 104 are scan electrode, and electrode 102 is a common electrode, if make in the luminescence unit, electrode 100 as scan electrode is different with the thickness of the electric inducing layer 204 of electrode 104 belows, perhaps make counter electrode 100 and electrode 104 and be positioned at electric inducing layer 212 thickness of bit address electrode 206 tops different, can make that so also electrode 100 is inequality with the ignition voltage of the inferior luminescence unit of bit address electrode 206 intersection location with the ignition voltage and the electrode 104 of the inferior luminescence unit of bit address electrode 206 intersection location in this luminescence unit.
Though the present invention discloses as above with preferred embodiment; right its is not in order to limiting the present invention, anyly has the knack of this skill person, without departing from the spirit and scope of the invention; when can doing various changes and retouching, so protection scope of the present invention is as the criterion when looking claims person of defining.
Claims (27)
1. an electricity is starched the electrode structure of flat-panel screens, it is characterized in that comprising:
At least one first electrode comprises at least:
One first auxiliary electrode; And
One first transparency electrode, it is connected in one of this first auxiliary electrode side;
At least one second electrode comprises at least;
One second transparency electrode;
One second auxiliary electrode; And
One the 3rd transparency electrode, wherein this second transparency electrode and the 3rd transparency electrode system is connected in the both sides up and down of this second auxiliary electrode; And
At least one third electrode comprises at least:
One the 3rd auxiliary electrode; And
One the 4th transparency electrode, it is connected in a side of the 3rd auxiliary electrode;
Wherein this second electrode system is between this first electrode and this third electrode, this first transparency electrode is relative with this second transparency electrode, the 3rd transparency electrode is relative with the 4th transparency electrode, and constitute at least one first discharge centers between this first electrode and this second electrode, constitute at least one second discharge centers between this second electrode and this third electrode.
2. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein this first electrode is to be connected to same signal supply unit with this third electrode.
3. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein then this second electrode is a common electrode if this first electrode and this third electrode are scan electrode; If this first electrode and this third electrode are common electrode, then this second electrode is a scan electrode again.
4. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein this first electrode and third electrode are common electrode, and the two or two electrode is a scan electrode.
5. the electrode structure of electricity slurry flat-panel screens according to claim 4 is characterized in that this second electrode below wherein is equipped with a thicker electrics layer that lures.
6. the electrode structure of electricity slurry flat-panel screens according to claim 4 is characterized in that wherein the protective layer of this second electrode below is provided with the not active membrane of discharging.
7. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein this first auxiliary electrode is a pectination, has a main line and a plurality of branch line, again those branch lines and being positioned at and this first transparency electrode homonymy.
8. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein this second auxiliary electrode is a pectination, has a main line and a plurality of branch line, and those branch lines be positioned at this main line on time both sides.
9. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein the 3rd auxiliary electrode is a pectination, has a main line and a plurality of branch line, and those branch lines and the 3rd transparency electrode are positioned at homonymy.
10. the electrode structure of electricity slurry flat-panel screens according to claim 1 is characterized in that wherein having at least one hollow region in this second auxiliary electrode.
11. the electrode structure of electricity slurry flat-panel screens according to claim 10 is characterized in that wherein this hollow region is for being parallel to the elongated strip of this second auxiliary electrode.
12. the electrode structure of electricity slurry flat-panel screens according to claim 1, it is characterized in that wherein having one first distance between this first transparency electrode and this second transparency electrode, have a second distance between the 3rd transparency electrode and the 4th transparency electrode, and this first distance is inequality with this second distance.
13. the electrode structure of electricity slurry flat-panel screens according to claim 1, the electrics layer that lures that it is characterized in that this first electrode wherein, this second electrode and this third electrode below has different-thickness, and this lure electric system be positioned at the upper substrate of this electricity slurry flat-panel screens or infrabasal plate one of them.
14. an electricity slurry flat-panel screens is characterized in that comprising at least:
One first substrate and one second substrate;
A plurality of bit address electrodes are between this first substrate and this second substrate;
A plurality of luminous row are between this first substrate and those bit address electrodes, and wherein each those luminous row comprises at least:
One first electrode;
At least one second electrode; And
One third electrode, wherein this second electrode system is between this first electrode and this third electrode; And
A plurality of barrier ribs are between those luminous row and those bit address electrodes, and be staggered with those address unit, make those luminous row be divided into a plurality of luminescence units, wherein each those luminescence unit has one first discharge centers and one second discharge centers, and this first discharge centers system is between this first electrode and this second electrode, and this second discharge centers system is between this second electrode and this third electrode.
15. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that more comprising that a plurality of fluorescent layers are between those barrier ribs.
16. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that more comprising that at least one black line structure is between those luminous row.
17. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that wherein this first electrode is to be connected to same signal supply unit with this third electrode.
18. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that wherein this first electrode and this third electrode are scan electrode, this second electrode is a common electrode.
19. the electrode structure of electricity slurry flat-panel screens according to claim 18 is characterized in that wherein being positioned at the thickness that one of this first electrode below first lures electrics layer, and is positioned at one of this third electrode below second and lures the thickness of electrics layer inequality.
20. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that wherein this first electrode and this third electrode are common electrode, this second electrode is a scan electrode.
21. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that wherein the discharging gap of this first discharge centers is also inequality with the discharging gap of this second discharge centers.
22. the electrode structure of electricity slurry flat-panel screens according to claim 14 is characterized in that wherein:
This first electrode is made of one first auxiliary electrode and one first transparency electrode that is connected in one of this first auxiliary electrode side at least;
This second electrode is made of one second auxiliary electrode and one second transparency electrode and one the 3rd transparency electrode that are connected in the relative both sides of this second auxiliary electrode at least, and this first transparency electrode is relative with this second transparency electrode; And
This third electrode is made of one the 3rd auxiliary electrode and one the 4th transparency electrode that is connected in the 3rd auxiliary electrode at least, and the 3rd transparency electrode is relative with the 4th transparency electrode.
23. the electrode structure of electricity slurry flat-panel screens according to claim 22 is characterized in that wherein this first auxiliary electrode is a pectination, has a main line and a plurality of branch line, and this first transparency electrode system is connected on those branch lines.
24. the electrode structure of electricity slurry flat-panel screens according to claim 22 is characterized in that wherein this second auxiliary electrode is a pectination, has a main line and a plurality of branch line, and this second transparency electrode and the 3rd transparency electrode are to be connected on those branch lines.
25. the electrode structure of electricity slurry flat-panel screens according to claim 22 is characterized in that wherein the 3rd auxiliary electrode is a pectination, has a main line and a plurality of branch line, and the 4th transparency electrode system is connected on those branch lines.
26. the electrode structure of electricity slurry flat-panel screens according to claim 22 is characterized in that wherein having at least one hollow region in this second auxiliary electrode.
27. the electrode structure of electricity slurry flat-panel screens according to claim 22, it is characterized in that wherein having one first distance between this first transparency electrode and this second transparency electrode, have a second distance between the 3rd transparency electrode and the 4th transparency electrode, and this first distance is inequality with this second distance.
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| CN102044558A (en) * | 2010-11-12 | 2011-05-04 | 深圳丹邦投资集团有限公司 | Transparent conductive substrate of organic light-emitting display device and production method thereof |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5900694A (en) * | 1996-01-12 | 1999-05-04 | Hitachi, Ltd. | Gas discharge display panel and manufacturing method thereof |
| JPH10255667A (en) * | 1997-03-05 | 1998-09-25 | Pioneer Electron Corp | Surface discharge type plasma display panel |
| JP2002042666A (en) * | 2000-07-27 | 2002-02-08 | Matsushita Electric Ind Co Ltd | Gas discharge display device |
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2004
- 2004-05-25 CN CNB2004100488115A patent/CN1326181C/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102044558A (en) * | 2010-11-12 | 2011-05-04 | 深圳丹邦投资集团有限公司 | Transparent conductive substrate of organic light-emitting display device and production method thereof |
| CN102044558B (en) * | 2010-11-12 | 2013-08-21 | 深圳丹邦投资集团有限公司 | Transparent conductive substrate of organic light-emitting display device and production method thereof |
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| Publication number | Publication date |
|---|---|
| CN1326181C (en) | 2007-07-11 |
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