1333801 九、發明說明: 【發明所屬之技術領域】 本發明為-種電絲示器面板結構,特別係指一種將 顯示器面板中第-基板之藍色次晝素區上所對應輔助電極 之間距加大之電漿顯示器面板結構。 • 【先前技術】 ' &溫是用來測量光源色彩的度量單位,度量單位以γ • ( Kelvin )表示,色溫在電視(發光體)或攝影(反光體)上 是可以用人為的方式來改變的,例如在攝影上我們可以用 '白《熱燈(3,20ίΓΚ)來控制色溫,或者我們在鏡頭上加上紅 色濾光鏡,過濾掉紅色光線使照片看起來色溫偏高;色溫 較高時,色彩偏藍、紫,稱為「冷色調」(c〇ld T〇ne ), 色溫較低時,色彩偏黃、紅,稱為「暖色調」(Warm T〇ne )。 目前電漿顯示器製造時之標準色溫為740(ΓΚ,而一般 φ 未經特殊處理之電漿顯示器,顯示器面板之色溫均有偏低 的現象,約在5000〜600(ΓΚ左右。在電漿顯示器顯示面板 之R、G、B三色當中’影響色溫的比重為β > r > g,因 此要改善習知電漿顯示器顯示面板色溫偏低的現象,針對 藍色次晝素加以改良之效率為最佳。 如第1圖所示’係為美國公告第6, 713, 960號專利, 其係以調整透明電極之面積大小,得到具有較佳白色色溫 以改良電漿顯示器顯示器。美國公告第6,713,960號專利 5 1333801 揭露在一掃描電極2,透明電極2bR、2bG、2bB的寬度是 依照顏色而變化’所以在Y軸,透明電極2bR、2bG、2bB 之相關的透明電極寬度WRO,WG1, WB1可以成為 WB1>WR0>WG1。同樣的,在支撐電極3,透明電極北卜北。 3bB的寬度是依照顏色而變化,所以在^,透明電極3. ' 3bG、綱之相關的透明電極寬度WRO, WG1,WB1可以成為 • WB1>WR0观。隨著寬度的變化程度,電漿顯示面板可以在 # 不用控制輸入增盃(輪入增益將導致色調數的衰退)的情況 下調整白色色溫到達一適當的值。 【發明内容】 本發明之目的’係藉由調整電漿顯示器顯示面板第一 基板上監色次晝素區所對應輔助電極之間的間距,使藍色 次晝素區之發光面積加大,以增加電漿顯示器之色溫。 為了達到上述之目的’本發明提供一種電漿顯示器面 鲁板結構,包括:一第一基板及一第二基板。第一基板包括·· 弟一基材,一透明電極。透明電極係成對的形成於該第 基材上,並設置於第二基板其每一紅色、綠色、藍色次 晝素區之相對應位置;多數個輔助電極,係由複數條導體 成對的形成於該些透明電極上,並與該些透明電極電性連 接’且每一藍色次畫素區上所對應輔助電極之間距,係大 於、、工色久晝素區上所對應輔助電極之間距或綠色次書素區 上所對應輔助電極之間距;一黑紋層(Black Stripe),形 6 ⑶ 38〇l 成於該第一基板上,且對應於該第二基板中該些次晝素區 以外之位置,·一透明介電層,係覆蓋於該透明電極與該累 紋層上;一保護層,係覆蓋於該透明介電層之上方。 第一基板至彡包含.一第一基材;一阻隔壁,形成於 該第二基材上,用以當作第一基板與第二基板間的支撐 物,區隔並使三種顏色螢光體不互相混合;一螢光發色層, 係將不同顏色之螢光體,分別塗料不同之該些阻隔壁 内,以形成紅色、綠色及藍色次畫素區;以及一位址電極, δ又置於母一 |玄阻隔壁所形成之區域内。 為使對本發8月的㈣、構造特徵及其功能有進一步的 了解,茲配合圖式及相關實施例詳細說明如下: 【實施方式】 如第2圖所示’係為單一晝素單元之剖面分解實施例 圖。本實施例習知之電渡顯示器面板結構,其包括:一第 基板10及-第二基板2〇。在第二基板2〇上,形成有多 數個相同面積之藍色、紅色及綠色次晝素區,而在第一美 板10上,輔助電極13之間的間距,其對應於第一基板Γ。 上’藍色次晝素區上所對應輔助電極之間距£大於红色次 晝素區上所對應輔助電極之_F或綠色次晝素區上 應輔助電極之間距F。 第—基板10包括:一第一其锊 . 12 ^^^ ^ 土材11,夕數個透明電極 成對的形成於該第—基板1Q上;多數個輔助電極η, 丄 :對的形成於該些透明電極12上,並與該透明電極12電 連接。其中監色次畫素區上所對應辅助電極之間距E, =大於紅色次晝素區上所對賴助電極之間距F或綠色次 j W所對應辅料極之間距F ;—黑紋層14,形成於 =-基板1G上;—透明介電们5,係覆蓋於該透明電 極12與έ亥黑紋層14上.一仅·>#赶1 η 保濩層16,係覆蓋於該透明介 电增15之上方。 、秀明L基材^ ’其可以為一透明玻璃或一透明踢板。而 二’係藉由面的展開,當在輔助電極13提供電 夕二,m場,進而激發氣體產生電漿效應而放出紫 门)/透明電極以可以為氧化銦錫導電膜(ίτο ilm)或一氧化錫(Sn〇2)電極其中之一者。 輔助電極13,為了則㈣定的氣 透明電極12上製作辅助電 特別在 η - ic ^ ^ U以增加導電度,輔助電極 (c ^ /c ) p二材質所製成’其可以為鉻/銅/鉻 複δ材料或銀㈤㈣其中之-者。當使用鉻 _c_:r)複合材料時,其 = 透明電極12之基板上,依次 、製k在附有 刻製程依次將金屬钱刻以曰圖,然後已濕絲 黑紋層14,或稱為黑色對二的,a—)。 衆顯示器的影像對比,其係製作於9主要係用以改良電 13旁’其製作方式有兩種、“反10的輔助電極 為直接圖案印刷法,印刷黑 I333W1 再蝕刻成所需的圖 色水料,另一種為印刷感光性漿料後 案0 ==15’係由透明的介電玻璃材料所構成,此 透㈣介電玻璃材料印刷 <透月電極12與黑紋層14上,或者亦可以乾膜 加以製作。透明介電層15的 、工 叙透明度要達到85%1333801 IX. Description of the Invention: [Technical Field] The present invention relates to a wire display panel structure, and particularly relates to a distance between auxiliary electrodes corresponding to a blue sub-tenk region of a first substrate in a display panel. Increase the structure of the plasma display panel. • [Prior Art] ' & temperature is a measure of the color of the light source. The unit of measure is expressed as γ • ( Kelvin ). The color temperature can be artificially used on television (illuminator) or photography (reflector). Changed, for example, in photography we can use 'white' (3,20ίΓΚ) to control the color temperature, or we add a red filter to the lens, filter out the red light to make the photo look high color temperature; color temperature is better When high, the color is blue and purple, which is called "cool tone" (c〇ld T〇ne). When the color temperature is low, the color is yellowish and red, which is called "Warm T〇ne". At present, the standard color temperature of the plasma display is 740 (ΓΚ, and generally φ without special treatment of the plasma display, the color temperature of the display panel is low, about 5000~600 (about ΓΚ. in the plasma display Among the three colors of R, G, and B of the display panel, the specific gravity of the influence color temperature is β > r > g. Therefore, it is necessary to improve the phenomenon that the color temperature of the display panel of the conventional plasma display panel is low, and the blue secondary pigment is improved. The efficiency is the best. As shown in Figure 1, the US Patent No. 6, 713, 960, which adjusts the size of the transparent electrode to obtain a better white color temperature to improve the display of the plasma display. No. 5,333, 801 discloses a scanning electrode 2, the widths of which are varied according to color, so the transparent electrode widths WRO, WG1 of the transparent electrodes 2bR, 2bG, 2bB on the Y-axis, WB1 can be WB1 >WR0> WG 1. Similarly, in the support electrode 3, the transparent electrode is north. The width of 3bB varies according to the color, so in the transparent electrode 3. '3bG, the related The bright electrode widths WRO, WG1, WB1 can be • WB1> WR0. With the degree of width change, the plasma display panel can be adjusted without controlling the input cup (the wheel gain will cause the tonal number to decay). The white color temperature reaches an appropriate value. [The object of the present invention] is to adjust the spacing between the auxiliary electrodes corresponding to the secondary color region of the first substrate of the plasma display panel to adjust the blue color. The light-emitting area of the prime zone is increased to increase the color temperature of the plasma display. In order to achieve the above object, the present invention provides a plasma display panel structure comprising: a first substrate and a second substrate. The first substrate comprises · · a substrate, a transparent electrode. The transparent electrodes are formed in pairs on the first substrate, and are disposed on the second substrate, corresponding to each of the red, green, and blue sub-tendin regions; The auxiliary electrodes are formed by pairing a plurality of conductors on the transparent electrodes and electrically connected to the transparent electrodes and the auxiliary electrodes corresponding to each of the blue sub-pixel regions The distance between the auxiliary electrodes on the greater than, the work color, and the auxiliary electrode on the green sub-segment area; a black stripe, 6 (3) 38〇l And a transparent dielectric layer covering the transparent electrode and the tired layer; and a protective layer covering the first substrate; and corresponding to the position of the second substrate Above the transparent dielectric layer, the first substrate to the first substrate comprises a first substrate, and a barrier wall is formed on the second substrate to serve as a support between the first substrate and the second substrate , and the three color phosphors are not mixed with each other; a fluorescent color layer is used to paint different color phosphors in different barrier walls to form red, green and blue secondary paintings. The prime region; and a single address electrode, δ is placed in the region formed by the mother-side barrier. In order to further understand (4), structural features and functions of the present invention in August, the drawings and related embodiments are described in detail as follows: [Embodiment] As shown in Fig. 2, the profile is a single halogen element. Decompose the embodiment diagram. The conventional ferroelectric display panel structure of the present embodiment includes a first substrate 10 and a second substrate 2A. On the second substrate 2, a plurality of blue, red, and green sub-alloy regions of the same area are formed, and on the first sheet 10, the spacing between the auxiliary electrodes 13 corresponds to the first substrate Γ . The distance between the auxiliary electrodes corresponding to the upper blue sub-salvation region is larger than the distance F between the auxiliary electrodes on the _F or green sub-tenoxine region corresponding to the red sub-tend region. The first substrate 10 includes: a first 锊. 12 ^^^ ^ soil material 11, a plurality of transparent electrodes are formed in pairs on the first substrate 1Q; a plurality of auxiliary electrodes η, 丄: pairs are formed on The transparent electrodes 12 are electrically connected to the transparent electrodes 12. The distance E between the auxiliary electrodes corresponding to the sub-pixel area of the color-adjusting color is greater than the distance F between the auxiliary electrodes of the F-assisted electrode or the green sub-j W on the red sub-tend region; the black layer 14 Formed on the =-substrate 1G; - a transparent dielectric 5 covering the transparent electrode 12 and the black layer 14 of the έ . 一 一 & & & & & & & 16 16 16 , , , The transparent dielectric increases above 15. , Xiu Ming L substrate ^ ' can be a transparent glass or a transparent kick plate. And the second 'system by the surface expansion, when the auxiliary electrode 13 provides electricity, the m field, and then the gas is excited to produce a plasma effect to emit the purple door) / transparent electrode to be an indium tin oxide conductive film (ίτο ilm) Or one of the tin oxide (Sn〇2) electrodes. The auxiliary electrode 13 is made of (4) for the auxiliary electrode of the gas transparent electrode 12, especially for η - ic ^ ^ U to increase the conductivity, and the auxiliary electrode (c ^ /c ) p is made of material - which may be chromium / Copper/chromium complex δ material or silver (f) (four) among them. When the chromium_c_:r) composite material is used, it is on the substrate of the transparent electrode 12, and in turn, the metal is engraved with a pattern in the engraving process, and then the wet black layer 14 is called For black to two, a-). The image contrast of the public display is made in 9 main systems to improve the electric 13 side. There are two ways to make it. The anti-10 auxiliary electrode is a direct pattern printing method, and the printing black I333W1 is etched into the desired color. The water material, the other is to print the photosensitive paste, the case 0 == 15' is composed of a transparent dielectric glass material, and the transmissive (tetra) dielectric glass material is printed on the moon-transparent electrode 12 and the black layer 14 . Or it can be made by dry film. The transparent dielectric layer 15 has a transparency of 85%.
^上表面平整度要小於2mm、不可有氣泡產生及 南的耐電壓性等性質。 較 保4層16,係由氧化鎂(如〇)材料所構成。 第二基板20至少包含:―第二基材21以及—阻隔壁 8’形成於該第二基材21上,用以當作第一基板1〇與第二 基板20間的支撐物(spacer),並區分出一放電空間於第— 基板1〇及第二基板20之間。另-目的是為了防止、區隔 亚使二種顏色螢光體不互相混合。 螢光發色層23,係將不同顏色之榮光體,分別塗佈 於不同之阻隔壁8 Μ,以形成紅色次晝素區R、綠色次晝 素區G及藍色次畫素η,相鄰兩色間不可有混色之現象一。 營光發色層23可以吸收紫外線以發出不同波長的色光。 位址電極24(address electrode),設置於每一該 阻隔壁8所形成之區域内’電激顯示器_般可區分為錢 型與交流型兩種,近年來電衆顯示器的發展皆以交流型為 主流’交流型㈣顯示器之位址電極24’主要功能是作為 寫入資料用’因此又稱為資料電極(data electrode),位 址電極24是直線形,其位置必須配合第-基板10之透明 電極12及輔助電極13電極位置,否則無法正確的寫入資 料。 如第3圖所不’係為本發明之一種直條狀X—卜η排 歹J方式之電水顯不器面板結構實施例圖。直條狀 排列方式,係依照錢顯示器面板,其第—基板1()之輔助 電,13其排列方式而定義之,其中該χ代表第—極性,也 就疋㈣X所對應之輔助電極13為第—極性,而Υ代表第 二極性’也就是說該γ所對應之輔助電極13為第二極性。 因為兩相鄰之輔助電極13林同極性,因此兩輔助電極 13間存有壓降,所以必須保持適當之間距。因此本實施例 ㈢X γ X γ排列方式,輔助電極13位於非次畫素區兩側之 最J間距D係大於或等於·微米(_),而每一對輔助電 ° 13 ”藍色_人晝素區上所對應輔助電極之間距&係為挪. 至350微米(μιπ)之間。又每一對輔助電極13其紅色次畫 素區上所對應輔助電極之間距F或綠色次晝素區上所對應 輔助電極之間距F,係為3〇〇微米(μπ〇。 如第4圖所示,係為係本發明之一種格子狀 排列方式之電漿顯示器面板結構實施例圖。格子狀 χ-Υ-Υ~Χ排列方式,係依照電漿顯示器面板,其第一美板 10之輔助電極i3其排列方式而定義之,其中該X餘第 1333801 -極性’也就是說該χ所對應之輔助電極13為第一極性, 而代表第二極性,也就是說該γ所對應之輔助電極13 為第二極性。因為兩相鄰之輔助電極13為相同極性時,因 此電位相同’所以兩相同極性之輔助電極13才目鄰排列,其 間距可以大幅的縮短。因此本實施χ_γ一γ_χ之排列方式,、 -辅助電極13位於非次晝素區兩側之最小間❹係大於或等 • 於60微米(μηι),而每一對輔助電極13其藍色次晝素區上 •戶斤對應輔助電極之間距Ε係為320S 350微米(叩)之間, 又每-對辅助電極】3其紅色次畫素區上所對應輔助電極 之間距F或綠色次畫素區上所對應辅助電極之間距f,係 為 300 微米(μη)。 如第5圖所示,係為本發明之一種蜂巢狀χ-Yu排 列方式之電漿顯示器面板結構實施例圖。本實施例輔助電 極13之排列方式為χ_γ一γ—乂排列方式,且位於每一次畫素 • 1兩側之每一對輔助電極13,係形成一蜂槽狀或一平:條 列狀。又辅助電極(13)位於非次畫素區兩側之最小間距乃 f大於或等於60微米㈣,而每一對輔助電極13其藍色 次晝素區上所對應輔助電極之間距E係為32〇至 —)之間,又每-對輔助電極13其紅色次晝素區上= 應輔助電極之間距F或綠色次晝素區上所對應輔助電極之 間距F,係為300微米(μιη)。 藉由將藍色次晝素區上所對應輔助電極之間距F加 1333801 大’使得藍色次晝素區B之開口率提高’因而使得藍色次 晝素區B之發光面積得以加大,因為藍色為高色溫之色 系,因此藍色對提升色溫的功效,較其它紅色及綠色更為 顯著,而本發明可以在不藉由阻隔壁8來改變各次晝素之 面積’也可以在不調整透明電極12大小之情況下,達到提 升電漿顯示器面板色溫之功效。 藉由本發明之實施,至少可達下列之功效: 一、藉由本發明之實施,可以在不藉由阻隔壁來改變 各次晝素面積之情況下,達到提升f漿顯示器面板色溫之 功效。 一㈣尽發明之貫施,可在不調整透明電極大小的 月況下,達到提升電漿顯示器面板色溫之功效。 唯以上所述,僅為本發明之較佳實施例, 限制本發明的範圍。即大凡依本申月b 均等變乂 申明專利範圍所做之 ^支化及修飾’仍將不失本發明之要義所在 發明之精神及範圍,故都應視為本 況 Θ之近一歩貫施狀 【圖式簡單說明】 Ρ _1!知調整透明電極 *板之結構示意圖。 1電衆顯示器顯示面 第2圖料單—畫素單元之剖面分解實施例圖。 12 1333801 第 圖係為-直條狀X-Y|Y排列方式之電裝顯示器面板 結構實施例示意圖。 第 圖係為:格子狀X~Y、Y~X排列方式之電漿顯示器面板 結構實施例示意圖。 第 圖係為一蜂巢狀XU—χ蚶丨 X排列方式之電漿顯示器面板 結構實施例示意圖。 【主要元件符號說明】^The upper surface flatness should be less than 2mm, no bubble generation and south voltage resistance. The 4 layers 16 are made of magnesium oxide (such as germanium). The second substrate 20 includes at least: a second substrate 21 and a barrier wall 8 ′ formed on the second substrate 21 to serve as a spacer between the first substrate 1 and the second substrate 20 . And distinguishing a discharge space between the first substrate 1 and the second substrate 20. Another purpose is to prevent and separate the two color phosphors from mixing with each other. The fluorescent chromonic layer 23 is formed by applying different color glory bodies to different barrier walls 8 Μ to form a red sub-album zone R, a green sub-album zone G and a blue sub-pixel η. There should be no mixed color between the two adjacent colors. The camping chromophoric layer 23 can absorb ultraviolet light to emit colored light of different wavelengths. Address electrodes 24 are disposed in the area formed by each of the barrier walls 8. The 'electrical display _ can be divided into two types: money type and AC type. In recent years, the development of the electric display has been AC type. The main function of the address electrode 24' of the mainstream 'AC type (four) display is as a data for writing, so it is also called a data electrode. The address electrode 24 is linear and its position must match the transparency of the first substrate 10. The electrode 12 and the auxiliary electrode 13 are in the electrode position, otherwise the data cannot be correctly written. FIG. 3 is a diagram showing an embodiment of a straight-line X-b 排J-type electro-hydraulic panel panel structure according to the present invention. The straight strip arrangement is defined according to the money display panel, the auxiliary circuit 13 of the first substrate 1 (), wherein the χ represents the first polarity, that is, the auxiliary electrode 13 corresponding to the 四(4)X is The first polarity is the first polarity, and the auxiliary electrode 13 corresponding to the γ is the second polarity. Since the two adjacent auxiliary electrodes 13 are of the same polarity, there is a voltage drop between the two auxiliary electrodes 13, so it is necessary to maintain an appropriate distance. Therefore, in the third embodiment of the third embodiment of the X γ X γ arrangement, the most J-space D of the auxiliary electrode 13 on both sides of the non-sub-pixel region is greater than or equal to · micrometer (_), and each pair of auxiliary electricity is 13 ” blue _ person The distance between the auxiliary electrodes on the halogen region is between 0 and 350 μm, and the distance between the auxiliary electrodes on the red sub-pixels of each pair of auxiliary electrodes 13 is F or green. The distance F between the auxiliary electrodes corresponding to the prime region is 3 〇〇 micrometers (μπ〇. As shown in Fig. 4, it is a diagram of a structure of a plasma display panel structure which is a lattice arrangement of the present invention. The arrangement of the χ-χ-Υ~Χ is defined according to the arrangement of the auxiliary electrode i3 of the first US plate 10 according to the plasma display panel, wherein the X-Yi 1333801-polarity means the place The corresponding auxiliary electrode 13 has a first polarity and represents a second polarity, that is, the auxiliary electrode 13 corresponding to the γ is a second polarity. Since the two adjacent auxiliary electrodes 13 have the same polarity, the potential is the same. Two auxiliary electrodes 13 of the same polarity are arranged next to each other The spacing can be greatly shortened. Therefore, in the present embodiment, the arrangement of χγ-γ_χ, the auxiliary electrode 13 is located on both sides of the non-sub-dielectric region, and the minimum inter-system is greater than or equal to 60 micrometers (μηι), and each pair The auxiliary electrode 13 has a blue secondary halogen region. The auxiliary electrode between the auxiliary electrode and the auxiliary electrode is 320S 350 micrometers (叩), and each auxiliary electrode has a corresponding auxiliary electrode on the red sub-pixel region. The distance f between the auxiliary electrodes corresponding to the F or green sub-pixel area is 300 micrometers (μη). As shown in Fig. 5, it is a honeycomb type Y-Yu arrangement plasma display of the present invention. The embodiment of the panel structure is shown in the embodiment. The arrangement of the auxiliary electrodes 13 is χγ-γ-乂 arrangement, and each pair of auxiliary electrodes 13 on each side of each pixel•1 forms a bee-like or a flat. The stripe is arranged. The minimum spacing of the auxiliary electrode (13) on both sides of the non-sub-pixel region is f is greater than or equal to 60 micrometers (four), and the auxiliary electrode corresponding to the blue sub-tend region of each pair of auxiliary electrodes 13 The distance between the E system is between 32 〇 and -), and each - The auxiliary electrode 13 has a red sub-halogen region = the distance between the auxiliary electrodes is F or the distance between the auxiliary electrodes corresponding to the green sub-tendon region is F, which is 300 micrometers (μιη). The distance between the corresponding auxiliary electrodes is increased by F plus 1333801, which increases the aperture ratio of the blue sub-tenoxine region B. Thus, the light-emitting area of the blue sub-tenoxine region B is increased, because blue is a color system of high color temperature. Therefore, the effect of blue on the color temperature is more remarkable than that of other red and green colors, and the present invention can change the area of each pixel without using the barrier wall 8', and the size of the transparent electrode 12 can be adjusted without adjusting the size of the transparent electrode 12. To achieve the effect of improving the color temperature of the plasma display panel. By the implementation of the present invention, at least the following effects can be achieved: 1. By the implementation of the present invention, the effect of increasing the color temperature of the f-panel display panel can be achieved without changing the area of each pixel by the barrier wall. One (4) to achieve the effect of improving the color temperature of the plasma display panel without adjusting the size of the transparent electrode. The above is only the preferred embodiment of the invention, and the scope of the invention is limited. That is to say, the syllabus and the modification of the patent scope of the present invention will not be lost. [Simplified description of the diagram] Ρ _1! Know the structure of the transparent electrode * board. 1Electronic display display surface Fig. 2 is a cross-sectional decomposition example of the pixel unit. 12 1333801 The figure is a schematic diagram of a structural embodiment of a straight-line X-Y|Y arrangement of an electrical display panel. The figure is a schematic diagram of a structural embodiment of a plasma display panel in a grid-like X~Y, Y~X arrangement. The figure is a schematic diagram of a structural embodiment of a plasma display panel in a honeycomb XU-χ蚶丨 X arrangement. [Main component symbol description]
2 掃描電極 2bR、2bG、2bB 透明電極 3 支撐電極 3bR 、 3bG 、 3bB 透明電極 WRO ' WG1 ' WB1 透明電極寬度 8 阻隔壁 10 第一基板 11 第一基材 12 透明電極 13 輔助電極 14 黑紋層 15 透明介電層 16 保護層 20 第二基板 21 第二基材 1333801 23 螢光發色層 24 位址電極 R 紅色次晝素區 G 綠色次畫素區 B 藍色次晝素區 D 最小間距 E 藍色次晝素區上所對應輔助電極之 間距 F 紅色或綠色次晝素區上所對應輔助 電極之間距 X 第一極性 Y 第二極性2 Scanning electrodes 2bR, 2bG, 2bB Transparent electrode 3 Supporting electrodes 3bR, 3bG, 3bB Transparent electrode WRO ' WG1 ' WB1 Transparent electrode width 8 Barrier wall 10 First substrate 11 First substrate 12 Transparent electrode 13 Auxiliary electrode 14 Black layer 15 transparent dielectric layer 16 protective layer 20 second substrate 21 second substrate 1333801 23 fluorescent color layer 24 address electrode R red sub-dioxin region G green sub-pixel region B blue sub-divinity region D minimum spacing E. The distance between the auxiliary electrodes on the blue sub-alkaline region is the distance between the auxiliary electrodes of the red or green sub-tend region. The first polarity Y is the second polarity.
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