527577 五、發明說明(1) 本發明是有關於一錄 種交流記憶體型電滎顯二不15,且特別是有關於-display Panel)的驅動 託m〇ry type plasma 交流記憶體型電聚顯示器具有許多優點,諸如 電子設備中’作為輪出資料的顯示裳 艮 複數個(以256色的灰= f動似Fr咖)是由 示動作是由8個依-既定電/序顯之不Λ為士例/每個影像畫框顯 * rfFf ^ ^(Sub'f-e) „ ^,,0,1A « S:〇:SF7之既定順序排列,而每個次圖框顯示動作則分別 由 >月除(Erase)、掃描(Scan)、及維持放電(Sustain) 個步驟所完成。而電漿顯示器是由一個具有清除期間 (Erasingperiod)、寫入期間(WrUing peri〇d)、維持期 間(Sustaining peri0d)的驅動信號所驅動。清除期間會 利用時間長度較維持脈衝更短的電壓脈衝以清除每個發光 胞(cell)的殘餘離子。寫入期間則會利用電壓大小較維持 脈衝更高的電壓脈衝以將外部資料寫入。維持期間會施加 固疋頻率的父流電壓脈衝(AC voltage pulse)以避免無法 點燃(Ignition miss)或顯示錯誤(Wrong display)、並得 到適當的電力邊際(Power margin)。 請參考第1B及1 C圖,此為現有電漿顯示器的剖面示意 圖及平面示意圖。如第1B圖所示,電漿顯示器是由前玻璃 基板(Front glass substrate)2 及後玻璃基板(Rear527577 V. Description of the invention (1) The present invention relates to a recorded AC memory type electronic display device 15 and, in particular, to a driver panel of a display panel), a type of AC memory type electro-polymer display having Many advantages, such as the display of multiple rotations in electronic devices (with 256 colors of gray = f moving like Fr coffee) are shown by the action is based on 8-the predetermined electricity / sequence display is not Example / Each image frame is displayed * rfFf ^ ^ (Sub'f-e) ^ ^, 0, 1A «S: 〇: SF7 is arranged in the predetermined order, and the actions of each secondary frame display are respectively changed by > Erase, Scan, and Sustain steps are completed. The plasma display is made up of an erasing period, a writing period (WrUing period), and a sustain period ( Sustaining peri0d) is driven by the drive signal. During the erasing period, a voltage pulse shorter in duration than the sustaining pulse is used to clear the residual ions of each light-emitting cell. During the writing period, the voltage is higher than the sustaining pulse. Voltage pulse to write external data. During this period, a fixed-frequency AC voltage pulse will be applied to avoid Ignition miss or Wrong display, and get the appropriate power margin. Please refer to Sections 1B and 1 C Figure, this is a schematic sectional and plan view of a conventional plasma display. As shown in Figure 1B, the plasma display consists of a front glass substrate 2 and a rear glass substrate (Rear
527577 五、發明說明(2) glaSS substrateH連結而成。前玻璃基板2在相 於 玻璃基板1的表面形成有資料電極3以寫入外部資厂資 電極3的表面則定義有牆4以形成發光胞。後破璃、’ 相,應於前玻璃基板2的表面形成有互相平行土H 及定址電極8。貧料電極3與維持電極7及定址、 直。維持電極7及定址電極8的表面則 電和8互相垂 化鎮層)以保護維持電極7及定址電ϋ盖有介^層6(如氧 (發光胞區域)則沈積有勞光材料5(如鱗)另;卜以:與牆二 壓時發光。如第Κ圖及1D圖所示,電^加電 電漿顯示單元M ~LN所組成,其分別且有隹;f °午多列527577 V. Description of the invention (2) glaSS substrateH connected. The front glass substrate 2 has a data electrode 3 formed on a surface opposite to the glass substrate 1 to write external capital data. A surface 4 of the electrode 3 defines a wall 4 to form a light emitting cell. The rear glass and the 'phase' should be formed on the surface of the front glass substrate 2 with the soil H and the address electrodes 8 parallel to each other. The lean electrode 3 and the sustain electrode 7 are directly addressed. The surfaces of the sustaining electrode 7 and the addressing electrode 8 are electrically vertical to the ballast layer to protect the sustaining electrode 7 and the addressing electrode. The protection layer 7 is covered with a dielectric layer 6 (e.g., oxygen (light-emitting cell region) is deposited with a light-emitting material 5 (such as Scale) Another; Bu Yi: Luminous when pressed against the wall. As shown in Figure K and Figure 1D, the electric ^ plus plasma display units M ~ LN are composed of 分别 and 隹; f ° no more columns
Un)、定址電極8(包括γ〜γ)ΐϋ維持電極7(包括 、定址電極8(包括'〜^垂直的 (?括 Α丨〜ΑΜ)。維持電極7(包括 連且並極3(包括 :極8(包括VYN)彼此分離且獨立驅相動連 =持電賴包括VXn)及定址電極 ^ γ貧料^可藉 經由資料電極3(包括Α〜Α、啻λ +政 栝Yl〜YN)的控制, 胞。 1 Μ ”、、 電水顯示器的各個發光 器的==。圖二為第16至10圖所示習知之電裝顯示 除期間、二圖中所示,電漿顯示器是由一個具有; 期間中,所有維i電的‘『動:號所驅動。在清除 地點電㈣且所有定址電極8(包括ΥΑ)會連接 VM並沒。此時,資料電極3(包接括 ^料寫入。在寫入期間中,所有維持^ 第6頁 527577 五、發明說明(3) 極7(包括X〗〜XN)會施加_ 會根據定址信號^,依序 κ疋址電極8(包括 部資料。此時,定址電電極3(包括Αι〜Α«)寫入外 器(圖中未示)以取得定址^,Υ^Υν)會連結列位址解碼 會連結外部資料以進行心二育料電極3(包括VAM)則 極7(包括Xi〜Xn)及定址丁電寫極入以動勺作紅。在維持期間巾,維持電 期性的電壓脈衝Vs,# 1^Υι〜Υν)會父替施加一個周 在這種方法;,精由=發光胞的發光。 衝以清除殘餘離子,因此;;=間的動作是利用高電壓脈 電現象而形成發光區,胞的ΐ極間亦會產生放 ,. 丄 進而k成相當亮度的背景光。 杆、、主卜私从於電,顯示器的所有列電漿顯示器是同時進 :: ’因此提供至電漿顯示器的驅動信號亦需承受 較大負載,造成電力的浪費。 j而承又 有鑑於此,本發明的士热 器的驅動方法,可以大幅降ί目的就是提供種電浆顯示 改善螢幕亮度的對比性。·電漿顯不器的月景光’進而 本發明的另-個目的就是提供一種電聚顯示器的驅動 m可以大幅降低驅動信號的負載,進而節省使用時的 電力成本。 為達上述及其他目#,本發明乃提出一種電漿顯示器 :驅動方法及驅動電路。為降低背景光以改善螢幕的亮度 對比性、並減輕清除期間動作的電力負擔,本驅動方法是 將電漿顯示器的所有列電漿顯示單元分成複數組(如奇數 列電聚顯示單元及偶數列電装顯示單元兩組),每—影像Un), addressing electrode 8 (including γ ~ γ) ΐϋ sustaining electrode 7 (including, addressing electrode 8 (including '~ ^ vertical (? Including A 丨 ~ AM)). Sustaining electrode 7 (including continuous and parallel electrode 3 (including : The poles 8 (including VYN) are separated from each other and are independently driven and connected = the power supply includes VXn) and the address electrode ^ γ lean material ^ can be accessed via the data electrode 3 (including Α ~ Α, 啻 λ + 政 栝 Yl ~ YN ) Control, the cell. 1 M ”, the == of each light emitter of the electro-hydraulic display. Figure 2 shows the conventional display period of the electrical equipment shown in Figures 16 to 10, and the plasma display is shown in Figure 2. During the period, all the electric power is driven by the 'moving: number. At the clearing point, the electric power and all address electrodes 8 (including ΥΑ) will be connected to the VM. At this time, the data electrode 3 (including the ^ Data writing. During the writing period, all maintenance ^ Page 6 527577 V. Description of the invention (3) Pole 7 (including X〗 ~ XN) will be applied _ will be sequentially addressed κ 疋 address electrode 8 according to the address signal ^ (Including some data. At this time, the addressing electrode 3 (including Αι ~ Α «) is written into an external device (not shown) to obtain the address ^, Υ ^ Υν) will be linked to the column address decoding meeting. Link external data to make the heart 2 feedstock electrode 3 (including VAM), pole 7 (including Xi ~ Xn) and the addressing electrode write electrode to make the spoon turn red. During the maintenance period, the voltage pulse Vs for maintaining the electrical period is maintained. , # 1 ^ Υι ~ Υν) will be applied for one week in this method ;, fine = = luminescence of the light-emitting cells. To remove residual ions, so; the action between the = is formed using high voltage pulse phenomenon In the light-emitting area, the cells will also be placed between the poles of the cell, and then k will become a background light of considerable brightness. The rods, and the master are privately connected to the electricity, and all the plasma displays of the display enter at the same time: 'hence provided to The driving signal of the plasma display also needs to bear a large load, resulting in a waste of electricity. In view of this, the driving method of the taxi heater of the present invention can greatly reduce the purpose of providing a plasma display to improve screen brightness. The contrast of the moonlight of the plasma display device 'and another object of the present invention is to provide a driving m of the electro-polymer display, which can greatly reduce the load of the driving signal, thereby saving the power cost during use. The above and other items #, this The invention proposes a plasma display: a driving method and a driving circuit. In order to reduce the background light to improve the contrast of the brightness of the screen and reduce the power load of the operation during the clearing, the driving method is to display all the plasma display units of the plasma display. Divided into complex arrays (such as the odd-numbered columns of the electric display unit and the even-numbered columns of the electronic display unit), each image
第7頁 527577 五、發明說明(4) 二:數個依—既定順序排列之次晝框所構成。利用 以驅動該電ί ϊ間、。'維持期間、-清除期間的驅動信號 數個次蚩框不器的該複數列電漿顯示單元,以完成複 中,寫Γΐΐ 動作。其步驟包括⑴在該寫入期間 中,ίϋκ該等列電聚顯示單元。(2)在該維持期間 期間中^該此^,顯示單=的資料。以及⑻在該清除 數列電i息框之既定順序輸入清除信號至該等複 便至少複數組之一组。如此,背景光的亮度 胞區域至少可以、^於同時間因電極間放電而發光的發光 (榮幕的對比:等成:r且榮幕的亮度對比性亦可以倍增 於每個清除期Λ榮幕亮度除以背景光亮度)。另外,由 驅動信‘;=中只對一組電聚顯示單元進行清除動作, ,所需承党的負載亦可以降低。 是每個次不器的驅動方法中,該電漿顯示器可以 清除=彳t旦ϊ仃—次清除動作,或是每個畫框進行一次 奇數列電衆示器的:斤有列電漿顯示單元則可以分為 二.4不早兀及偶數列電漿顯示單元兩組。 列電漿:示法中’電聚顯示器的所有 及與維持電:::由彼此平行之維持電極、定址電極 库狩寬極、疋址電極互相垂直 电往 ί偶器的奇數列維持電極彼此相連:電 的清除動;ΐί電極彼此相連。因此,奇數列電衆顯示單: 數列疋址電極於地點電壓以達成。偶數列電漿顯= 第8頁 527577 五、發明說明(5) ___ ::?作則是施加高壓脈衝至偶數列 列疋址電極於地點電壓以達成。 、和、並維持偶 以酿ί外,本發明亦提供一種電漿顯示哭的酿說+ 二ΐ:個具有複數列電漿顯示單元的;Ϊ:Ϊ;路當用 電極、定址電極互相垂直的資止電極及與維持 f的驅動電路則是由列位址解碼哭該電漿顯示 數列維持電極驅動器、偶數;:::極驅動器、奇 號。定址電;據;器會產生定“ 奇數列維持電極驅動器示器的定 曰產生可數列維持電極驅動信號及偶數列雄j電極驅動器 號;外部資料驅動器會輸出外部資料。極驅動信 以控制上述各個元件寫;電二顯==驅動信號,藉 元及偶數列電漿顯示單元二在二二的可數列電漿顯示單 框之既定順序輪入清=除f間中,依該些次畫 複數組之一組。 。至該專硬數列電漿顯示單元的 在這種電漿顯示器的驅動電路 元及偶數列電漿顯示可數列電漿顯示單 行清除動作,或是的=序地進 在寫入期間中,★叙以二 序地進仃清除動作。 電極驅動器會維持—:1、,,持電極驅動器及偶數列維持 址解碼器輸出的二盡12址電極驅動器會根據列位 疋址仏號產生對應的電壓脈衝,藉以經由 «η 第9頁 ^/577 五、發明說明(6) 卜一資料驅動器窝 *入外部資粗 在維持期間中,*缸 '丨+ ° 電極及所有定Η $可數列维持電極驅動器、偶數列维持 衝,夢以完成敕伽極驅動器會交替地產生周期性的電壓脈 衝猎^成整個電聚顯示^ I ^ 為了讓本發明之上述和其他目的、作。 明顯易懂,下文特舉一較佳實施例,扦特徵、及優點能更 詳細說明如下I 、’配合所附圖式,作 圖式說明 第1Α圖疋現有電漿顯示器之晝樞顯 第1B圖是現有電漿顯示器的剖面禾=動作示意圖; 第1C圖是第1B圖電漿顯示器的平=意_ ; 第1D圖是第1B圖電漿顯示器的平兩二意圖; 平面示意圖; 電漿顯示器的 第4圖是本發明第一實施例之電裝 %的驅動信號 第5圖是本發明第一實施例之電 火_示器Page 7 527577 V. Description of the invention (4) 2: It consists of several sub-day frames arranged in a predetermined order. Use to drive the electricity. Drive signals during the 'maintenance period' and 'clear period' The plasma display units of the plurality of columns are used several times to complete the restoration and write Γΐΐ. The steps include: during the writing period, the columns of the electro-polymerized display units. (2) During the maintenance period, the information is displayed, and the data of the order is displayed. And, in the predetermined sequence of the clear sequence information box, a clear signal is input to at least one of the groups of the complexes. In this way, the brightness cell area of the background light can at least emit light at the same time due to the discharge between the electrodes (contrast of the glory screen: equal to: r and the brightness contrast of the glory screen can also be doubled in each erasing period) Curtain brightness divided by background brightness). In addition, only one set of electro-polymer display units is cleared by the driving letter ′; =, and the load of the required party can also be reduced. In the driving method of each secondary device, the plasma display can be cleared = 彳 t 旦 ϊ 仃 —one clearing action, or an odd-numbered column of electric display is performed once per picture frame: a column of plasma display The unit can be divided into two groups: 2.4 early and even-numbered plasma display units. Plasma Plasma: All and sustaining electricity of the 'Polymerization Display' in the display method ::: The sustaining electrodes parallel to each other, the addressing electrode library wide electrodes, and the addressing electrodes are perpendicular to each other to the odd-numbered columns of the sustaining electrodes. Connected: The electric clearing action; the electrodes are connected to each other. Therefore, the odd-numbered electric display list is: The number of address electrodes in the series is achieved by the voltage at the place. Plasma display of even-numbered columns = page 8 527577 V. Description of the invention (5) ___ ::: The rule is to apply high-voltage pulses to the voltage of the address electrodes of the even-numbered columns to achieve the voltage. In addition to the above, the present invention also provides a plasma display cry cry + two ΐ: a plasma display unit with a plurality of columns; Ϊ: Ϊ; road electrodes, address electrodes are perpendicular to each other The driving electrode and the driving circuit of the sustaining f are decoded by the column address. The plasma display shows a series of sustaining electrode drivers, even numbers; ::: pole drivers, odd numbers. Addressing electricity; according to; the device will generate a fixed number of odd-numbered columns of sustaining electrode driver indicator to generate a number of columns of sustaining electrode driving signals and even-number of columns of male electrode driver number; external data driver will output external data. Each component is written; electric two display == drive signal, debit element and even-numbered plasma display unit two. The predetermined sequence of the two-digit countable plasma display single frame turns into clear = divides f, and draws according to these times A group of a complex array. To the driving circuit element of this plasma display and the even-numbered plasma display of the special hard-line plasma display unit, the single-line clear operation can be displayed in a series of plasma displays, or = sequential entry in During the writing period, the sequence will be cleared in the second order. The electrode driver will maintain —: 1 ,, and the electrode driver and the even-numbered column sustain address decoder output the two 12-point electrode drivers according to the column address. No. 产生 generates corresponding voltage pulses, so as to pass «η page 9 ^ / 577 V. Description of the invention (6) 一 Data driver socket * Into external resources During the maintenance period, * cylinder '丨 + ° electrode and all fixed The number can be maintained by the electrode driver and the pulse can be maintained by the even-numbered column. The dream driver to complete the Gamma driver alternately generates periodic voltage pulses to hunt the entire electro-polymer display ^ I ^ In order to achieve the above and other purposes of the present invention. Obviously easy to understand, a special embodiment is given below. The features and advantages can be explained in more detail as follows: I. 'Cooperate with the attached drawings to illustrate the figure. Figure 1A. The daytime display of the existing plasma display. Figure 1 is a sectional view of a conventional plasma display. Fig. 1C is a plan view of a plasma display of Fig. 1B. Fig. 1D is a plan view of a plasma display of Fig. 1B. Fig. 4 of the display is a driving signal of Denso% according to the first embodiment of the present invention. Fig. 5 is an electric fire indicator of the first embodiment of the present invention.
第3圖是應用本發明方法第一實施 J 第2圖是習知電漿顯示器的驅動 禾意圖; 圖 的驅動電路 $ 11的驅動信號 圖 圖 圖 第6圖是本發明第二實施例之電 第7圖是本發明第二實施例之電辑 @的驅動電路 第8圖是本發明第三實施例之雷 火_示哭 @的驅動信號Fig. 3 is the first implementation of the method of the present invention. J Fig. 2 is a driving scheme of a conventional plasma display. Fig. 6 is a driving signal diagram of a driving circuit of Fig. 6. Fig. 6 is a circuit diagram of a second embodiment of the present invention. FIG. 7 is a driving circuit of the electric series @ of the second embodiment of the present invention. FIG. 8 is a driving signal of the lightning_show cry @ of the third embodiment of the present invention.
第10頁 527577 五、發明說明(7) 圖; 圖第9圖是本發明第三實施例之電漿顯示器的驅動電路 實施例 為降低背景光以改善榮幕的對比性、並減輕清除期間 動作的電力負擔,本發明乃將電漿顯示器的所有列電漿顯 示單元分成兩組,並在每次清除期間中,交替地只對二組 進行清除動作。如此’背景光的亮度便可以減半(由於同 日寸間因電極間放電而發光的發光胞區域減半),且 亦可以倍增(螢幕的對比性等於螢幕亮度除以 月厅、先焭度)。另外,由於每個清除期間 清除動作,驅動信號所需承受的負載亦可以降半。、’仃 發明‘ ί ϊ ί:要個J π-實施:’藉以詳細闡明本 定本發明。本發明的二俘I固車二佳實施例並不是用來限 所界定者為準。只際保濩砣圍仍應該依申請專利範圍 請參考第3圖,此為應 漿顯示器的平面示轰η 也 知月万去第一貫施例之電 有與第1圖電漿顯示相^更於說明及比對,第3圖中所 標號。如圖中所示/雷將^ μ的70件均使用相同或類似的 未圖示)所組成,=器是由許多列電椠顯示單元 定址電極8(包括/命別祕、有維持電極K包括Χ^Χν)、 極8(包括Υ^Υν)垂直的資二電包括Χπ)、定址電 7(包括Xl〜XN)被分為兩电,"· *(=括乂〜\)。維持電 π、、且,如.可數列維持電極 527577 五、發明說明(8) X1、X3、…)及偶數維持電極7^包括X 、 維持電極L(包括X〗、X3、…)彼此相丄且^、··.)。奇數列 (包括χ2、χ4、…)彼此相連且 :數 電極8(包括Υι〜γΝ)彼此分離且獨立驅 ^動。定址 由奇數列維持電極7l (包括χ χ 、 /貪料則可藉 巧極寫入電裝顯示器的= 呑月筝考第4圖,此為本發明第一每 χ先胞 的驅動信號圖。如圖中所示,電'之,漿顯示器 期間、寫入4日Μ 祕4士 u 电氷4不為仍是由具有清除 寫t期間、維持期間的驅動信號所驅 的驅=Γ,圖在、此個一 動作驅例:與維持期間的 Π號V依序由資料電極3(叫丄外 哭(Η中去Λ,疋址電極8(包括Υι〜Υν)會連結列位址解碼 二連Λ邻不Γ得定址㈣,資料電極3(包括乂〜Α«)則 進行寫入動作。在維持期間中,維持電 期性α〜χνϊ及定址電極8(包括Ά)會交替施加-個周 雷m ):坠脈衝Vs ’藉以維持發光胞的發光。此時,資料 電極3(包括VAm)亦沒有外部資料寫入。 ^ 士另夕i,清除期間則與習知驅動方法不同。在這個實施 二徂叙'月除期間只會針對奇數列電漿顯示單元Ll、L3、… 或偶數列電聚顯示單叫、、…的一組依次畫框之順序Page 10 527577 V. Description of the invention (7) Figure; Figure 9 is the driving circuit of the plasma display of the third embodiment of the present invention. The embodiment is to reduce the background light to improve the contrast of the glory and reduce the action during the clearing. In the present invention, all the plasma display units of the plasma display unit are divided into two groups, and in each clearing period, only two sets of clearing operations are performed alternately. In this way, the brightness of the background light can be halved (because the area of the light-emitting cells that emit light due to the discharge between the electrodes on the same day is halved), and it can also be doubled (the contrast of the screen is equal to the screen brightness divided by the moon hall, the first degree) . In addition, the load required to drive the signal can be halved due to the clearing action during each clearing period. ’仃 Invention‘ ϊ ϊ ί: A J π-implementation: ’To clarify the present invention in detail. The second preferred embodiment of the two-captive I fixed car of the present invention is not intended to be limited. According to the scope of the patent application, please refer to Figure 3, which is the flat display of the plasma display. It is also known that the electricity of the first embodiment of the Wanwan has the same phase as the plasma display of Figure 1. For explanation and comparison, reference numerals in FIG. As shown in the figure, the 70 pieces of Lei will use the same or similar (not shown), the device is composed of a number of columns of electric display unit addressing electrodes 8 (including / life secret, there is a sustain electrode K Including X ^ Xν), pole 8 (including Υ ^ Υν) vertical vertical power (including Xπ), addressing power 7 (including Xl ~ XN) are divided into two power, " * * (= brackets ~ \). The sustaining power π, and, for example, a series of sustaining electrodes 527577 V. Description of the invention (8) X1, X3, ...) and even-numbered sustaining electrodes 7 ^ include X, sustaining electrodes L (including X〗, X3, ...) are in phase with each other丄 和 ^ 、 ··.)). The odd-numbered columns (including χ2, χ4, ...) are connected to each other and the number electrodes 8 (including Υι ~ γN) are separated from each other and driven independently. The addressing is performed by the odd-numbered sustain electrodes 7l (including χ χ, / 贪), which can be written into the display of the electronic device = 呑 月 筝 考 Figure 4, which is the first driving signal diagram of each χ precursor of the present invention. As shown in the figure, during the display period of the display, the 4th day of the writing, the 4th day, and the 4th day of the day. The electric ice 4 is still not driven by the driving signal with the erasing and writing period, and the maintenance period = Γ. Here, this is an example of action: with the Π number V in the maintenance period, the data electrode 3 (called 哭 wai cry (Η 中 去 Λ, 疋 Address electrode 8 (including Υι ~ Υν)) will sequentially connect the column address decoding two Even if Λ is not Γ, the address ㈣ is obtained, and the data electrode 3 (including 乂 ~ Α «) performs the write operation. During the sustain period, the electrical maintenance period α ~ χνϊ and the address electrode 8 (including Ά) are alternately applied. Zhou Lei m): The falling pulse Vs' is used to maintain the luminescence of the light-emitting cell. At this time, the data electrode 3 (including VAm) is also not written with external data. ^ In addition, the erasing period is different from the conventional driving method. During the implementation of the second method, only the odd-numbered plasma display units L1, L3, ... or even-numbered plasma display units are displayed during the month division period. , A sequence of frames
第12頁 527577 五、發明說明(9) 依序進行清除動作。也就是說,若電聚顯示器 畫框(Sub-frame)中進行—次清除動作, 曰^ =個次 中是對奇數列電漿顯示單元Li、!^ 、…二二f n個久畫框 第n + i個次畫框中便是對偶數列電3聚顯示;:矛、動作時, 行清除動作。所謂清除期間’是指施加高電壓2 '^二···進 電極及連結地點電壓至定址電極達、 維持 的。因此,對奇數列電漿顯示單么達到,除殘餘離子的目 作即是施加高壓脈衝Vffl至奇數列維持電極?(·進^清除動 ,、…Μ連接地點電壓Vg至奇數列定址電極 。 γ3、…),而對偶數列電漿顯示單元L 、L 1 作亦即是施加高壓脈衝Vw2至偶*維持2電極7'(···進1清除動 ;4、…)及=地點電壓、至偶數列定址電極“ V。 貧料電極3(包括Αι、)並沒有外部資料寫 當然:’電漿顯示器亦可能根據其他時間單位 :作。不㉟,本發明強調的是:在同一時間内只會針。 列電漿顯不早疋或偶數列電漿生^ 因此背景光可大幅降低、榮幕對=;丁= 口強、且驅動k號的電力負載可大幅減輕。也因此,心 法可適用在依各種時間單位進行清除動作的。顯 法所需要搭g曰己的驅動=二%例’祝明實施本發明驅動方 δ月茶考弟5圖,如圖由私— β中所不,電漿顯示器的驅動電路 第13頁 527577 五、發明說明(10) 彳有,控制器1〇、列位址解碼器12、 1 4丨~ 1 4M、複數定址電極驅動哭〗6〜 * 、蚪驅動器 動器^、偶數維持電極 :1 ~可數列維持電極驅 部資料、並根據時脈信號控制器10會接受外 間、維持期間的驅動Ϊ 部資料驅動器14i〜14m、定址外 ”極驅動器18l、偶數維持電極驅動;I6;、可數列維 圖貫施例所述。隨後,定址電極哭° 2的動作’如第4 =操作期間產生相對應的電 -^更曰根據不同 20的維持動作、清除動作,1 e么山:以凡成電漿顯示器 14〜1 4 6 士合月于動作或疋經由外部資料驅動器 奇數列ΜΪ持電哭]t例來說’維持電極驅動器(包括 :電極驅動器16l,會在維持期間 :;A):: = 藉以維持各發光胞的亮度或者奇周= Π電;數維持電極驅動器%會在清除期 單元(勺括; 壓脈賊¥’藉以對奇數列電漿顯示 L 、 ^ Ll、Ls、…)及偶數列電漿顯示單元(包括L 、 ‘奇數歹fd/也清:動作。或者,維持電極驅動器(包 在寫入如門寺電極驅動器1 8l及偶數維持電極驅動器1 D會 I根攄:丨:加一個偏壓VK,1定址電極驅動器16丨, 立址解碼器1i輸出的定址信號νγ產生對應的電壓 曰以經由外部資料驅動器i 4广丨\讀入外部資料。 另外為進一步降低背景光亮度及驅動信號負載,電 第14頁Page 12 527577 V. Description of the invention (9) Perform the clearing operation in sequence. That is to say, if the erasing action is performed once in the sub-frame of the electro-focus display, the ^ = times are the plasma display units Li and O of the odd-numbered columns! ^, ... two two f n long picture frames The n + i second picture frame is an electric three-point display of even-numbered columns ;: When the spear is in action, the line is cleared. The so-called "clearing period" refers to the application of a high voltage of 2 '^ 2 to the electrode and the connection site voltage to the address electrode to maintain it. Therefore, does the plasma show that the odd-numbered columns are achieved, and the purpose of removing the residual ions is to apply a high-voltage pulse Vffl to the sustain electrodes of the odd-numbered columns? (· Clear, move, ... M connect the site voltage Vg to the odd-numbered addressing electrodes. Γ3, ...), and apply the high-voltage pulse Vw2 to the even * maintaining 2 electrodes for the even-numbered plasma display units L, L1. 7 '(··· Enter 1 to clear; 4, ...) and = site voltage, to the even-numbered addressing electrode "V. Lean electrode 3 (including Αι,) does not have external data to write. Of course:' Plasma display is also possible According to other time units: made. No problem, the present invention emphasizes that: only the needle will be at the same time. The column plasma is not too early or even the column plasma is generated ^ So the background light can be greatly reduced, the glory pair =; D = strong mouth, and the electric load driving k can be greatly reduced. Therefore, the mind method can be applied to the clearing operation according to various time units. The driving method required by the explicit method is g = two%. Figure 5 of the driver of the δ-month tea tester of the implementation of the present invention, as shown in the private-β, the driving circuit of the plasma display page 13 527577 V. Description of the invention (10) Yes, the controller 10, rank Address decoder 12, 1 4 丨 ~ 1 4M, plural addressing electrode driver crying 6 ~ *, 蚪 driver Actuator ^, even-numbered sustaining electrodes: 1 to a series of sustaining electrode driver data, and according to the clock signal, the controller 10 will receive external and driving during the maintenance period. Data driver 14i ~ 14m, external address driver 18l, even number Sustained electrode drive; I6 ;, countable dimension diagrams as described in the examples. Subsequently, the action of the address electrode cry 2 ° as in Section 4 = corresponding electricity is generated during the operation-^ More specifically, according to the different 20 maintenance actions and clearing actions, 1 e Mo Shan: Yi Fancheng Plasma Display 14 ~ 1 4 6 Shi Heyue cried in action or through an external data driver in an odd-numbered column.] For example, 'maintain electrode driver (including: electrode driver 16l, will be maintained during the maintenance period :; A): = = to maintain each light-emitting cell Brightness or odd cycle = Π electric; the number of sustain electrode driver% will be displayed in the clearing period unit (spoon included; press pulse thief ¥ 'to display L, ^ Ll, Ls, ...) on the odd-numbered plasma and even-numbered plasma display The unit (including L, 'odd number 歹 fd / also clear: action. Or, the sustain electrode driver (enclosed in writing such as the gate temple driver 181 and even number sustain electrode driver 1D will have one root): 丨: add a bias voltage VK, 1 addressing electrode driver 16 丨, the addressing signal νγ output by the address decoder 1i generates the corresponding voltage to read the external data through the external data driver i4. In addition, to further reduce the background brightness and drive signal load , Electricity first 4 pages