TW498299B - Drive method for AC plasma display panel, plasma display unit and AC plasma display panel - Google Patents

Abstract

The object of the present invention is to make a plasma display device low in cost by decreasing the number of driving ICs for column electrodes. Row electrodes Xi (i=1 to n) are arranged along the vicinity of the right and left ends of this PDP and the column electrodes Wj (j=1 to m) are arranged along the vicinity of the upper and lower ends and cross the row electrodes Xi. The column electrodes Wj and Wm+1-j are connected in common. The row electrodes YL1 to YLn from nearby the left end to nearby the center and the row electrodes YR1 to YRn from nearby the right end to nearby the center are arranged alternately with the row electrodes X1 to Xn. In a 1st address period, a scan pulse Vax1 is applied to the respective row electrodes Xi in order a voltage Vaw1 based upon image data is applied to the respective column electrodes Wj in synchronism with the application of the pulse Vax1. In the main period, a vertical scanning pulse Vay1 is applied to the row electrodes YL1 to YLn, which are set to the ground potential. In a 2nd address period, the voltages applied to the row electrodes YL1 to YLn and row electrodes YR1 to YRn are changed to each other.

Description

Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 498299 A7 ---_ B7 V. Description of the Invention (i) [Technical Field to which the Invention belongs] The present invention relates to an AC plasma display panel (hereinafter referred to as "AC-PDP") Driving method, AC-PDP, and plasma display device, in particular, low-cost technology for plasma display device. [Conventional Technology] There have been various studies on the use of electric paddle display panels (PDPs) in thin televisions or display monitors. One of the ACNPDPs with memory function is the surface-discharge type AC-PDP. The structure of this AC-PDP is described below with reference to FIG. 10. FIG. 10 is a perspective view showing a part of the structure of the AC-PDP 101 of the first conventional technology, and the AC-PDP of this structure has been disclosed in, for example, Japanese Unexamined Patent Publication No. 7-140922 and Japanese Unexamined Patent Publication No. 7-287548. There are instructions. As shown in Fig. 10, the AC-PDP 101 includes a front glass substrate 102 serving as a display surface, and a rear glass substrate 103 disposed opposite the front glass substrate 102 and the discharge space U1. The two glass substrates 102 and 103 are installed in a state in which the top of the partition wall 110 abuts a dielectric layer 106A described later, but for the convenience of description on FIG. 10, “the two glass substrates 102 and 103 are not shown. Pulled apart. On the surface of the front glass substrate 102 on the side of the discharge space 111, each pair of column electrodes 104 and column electrodes 105 (each of which is a transparent electrode) are formed in pairs. However, as shown in FIG. 10, a part of each surface of the column electrodes 104 and 105 is formed with a low-impedance metal auxiliary electrode (also referred to as a "mother electrode" or a "bus electrode") for supplying a current from a circuit portion. 1104a, 1 () 5a 'includes the metal auxiliary electrode called "column electrode 1 0 4", "column ------------ · strong clothing ------ -Ϊ ^ Β ---- „—— (Please read the precautions on the back before filling in this page) This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) 1 311845 498299 f Λ Ministry of Economy Printed by the Intellectual Property Bureau Staff Consumer Cooperative

II A7 B7 V. Description of the Invention (2) Pole 105 ". A dielectric layer 106 is then formed so as to cover the two columns of electrodes 104 and 105. As shown in FIG. 10, a protection film 107 made of MgO (manganese oxide) or the like may be formed on the surface of the dielectric layer ι〇6 by a vapor deposition method or the like. In this case, it includes The dielectric layer ι06 and the protective film ι07 are collectively referred to as a "dielectric layer 106A". On the other hand, on the surface ill side of the rear glass substrate 103, the row electrodes 10 and 10 are extended in a state of orthogonal (three-dimensional cross) to the column electrodes 104 and 105, and adjacent to each other. A partition wall 11 is formed between the row electrodes 108 and parallel to the row electrodes 108. The partition wall no has the function of separating the discharge cells, and the function of supporting the PDP from the pressure of the atmospheric pressure. Then, a U-shaped groove is formed on the above surface of the rear glass substrate 103 and the two side walls facing the adjacent partition wall 110. The U-shaped groove is used as a unit to have a red (R) phosphor layer 109R for light emission, Either the green (G) phosphor layer 109G for light emission or the blue (B) phosphor layer 109B (also referred to as the "phosphor layer 109") for the phosphor layer covers the row electrode 108. The states are arranged in a belt shape in a predetermined order. In addition, there is an AC-PDP with a structure in which a dielectric layer is provided on the above surface of the rear glass substrate 103 in a state of covering the row electrode 108, and a partition wall 110 and a phosphor layer i09 are disposed on the dielectric layer. The front glass substrate 102 and the rear glass substrate 103 are sealed to each other at peripheral edges (not shown in FIG. 10), and the space (discharge space η 丨) between the two glass substrates 102 and 103 is at or below atmospheric pressure. A discharge gas such as a Ne-Xe mixed gas and a He-Xe mixed gas is pressure-sealed. The above AC_PDP 101 uses the three-dimensional intersection of column electrode tangent 4, 105 and row electrode 108 -------------- I ------ subscription ------------ (Please read the precautions on the back before filling out this page) This paper size is applicable to Chinese National Standard (CNS) A4 (210 X 297 mm) 2 311845 498299 A7 V. Description of the invention ((Please read the precautions on the back before Fill out this page) The cross section forms a discharge cell ("light-emitting unit" or "display unit") of the PDP. For example, when AC-PDP 101 is used to display full-color PDp, it is used to emit light in red and green. And blue light emitting uses three discharge cells to form a pixel. Figure 10 shows the structure of one pixel of AC-PDP 101. In the following description, the light emitting unit obtained by lighting the light emitting unit of the full light emitting color is illuminated. The horizontal line in the column direction or the arrangement of pixels required to display the horizontal line is called a "display line." According to the configuration of AC_PDP 101, a predetermined voltage can be applied to a pair of column electrodes 104 and 105 to make a display line (belonging to Discharge cells) lighting (selection). Three discharge cells forming a pixel as described above are horizontal The arrangement of lines side by side is also called a “strjpe arrangement.” In AC-PDP101, a discharge space 1U extending along the long side of the column electrode 108 from the partition 1001 in the partition can be distinguished as a tritium (column). The "light-emitting area" or "display area" of the discharge cells of the electrode pairs 104, 105, and (ii) the area between the adjacent electrode pairs 104, 105 (or a plurality of discharges arranged along the above-mentioned long sides) (Adjacent areas), that is, "non-light-emitting areas" or "non-display areas" that have nothing to do with pDp display light emission. In the following description, the printing department of the Intellectual Property Bureau's Consumer Cooperative Cooperative Department of the Ministry of Economic Affairs is a light-emitting area that constitutes a discharge cell with respect to plutonium. ⑴) will form the structure of the non-light-emitting area in the discharge space 111, that is, the structure between the discharge cells adjacent to each other along the long direction of the row electrode 108 is referred to as "non-discharge cells (or non-light-emitting cells, Or non-display unit). " In the gap between adjacent column electrodes 104 and 105, the gap between the two column electrode pairs 104 and 105 paired to form the discharge of the discharge cell is called "discharge gap 2 front gap" DG ", On the other hand (ii) each belongs to the neighbouring 311,845 M scale, and applies the Chinese National Standard (CNS) A4 χ 297 public love) --- 498299 11 printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 V. Description of the invention (4) Connection The gap between the two column electrodes 104 and 105 facing each other in the discharge cell is called a non-discharge gap (or back gap) NG. " The non-discharge cell here seems to have a discharge space 111 (non-discharge area) formed by the three-dimensional intersection of the two column electrodes 104, 105 and the row electrode 108, as the discharge cell (to which each adjacent discharge cell belongs), but The distance 5 of the non-discharge gap NG of the AC_PDP 101 is large enough to prevent the discharge from occurring. f Next, AC_Pdp 201 of the second conventional technique will be described with reference to FIGS. 11 and 12. FIG. 11 shows a plan view of AC% pDp 021 of the second conventional technique, and FIG. 12 shows a vertical cross-sectional view along line u in the u-th figure. An AC-PDP having the above-mentioned structure is disclosed in, for example, Japanese Patent Laid-Open No. 6-1226. As shown in Figs. 11 and 12, the AC_PDP 201 includes a front glass substrate 202 as a display surface, and a rear glass substrate 203 disposed opposite the front glass substrate 202 with a discharge space 211. A column electrode 204 and a column electrode 205 are alternately formed on the surface on the side of the discharge space 21 of the front glass substrate 202 at equal intervals. Similarly to the AC_PDP 100, the column electrodes 204 and 205 may be composed of a combination of transparent electrodes and a mother electrode. In this case, the electrodes formed by the transparent electrode and the mother electrode are referred to as the r-row electrodes 204 and 205 ". A dielectric body 206 and a protective film 207 (collectively referred to as a "dielectric body layer 206A") are sequentially formed on the column electrodes 204 and 205. A row electrode 208 is formed on the rear glass substrate 203 in a state of being orthogonal (three-dimensionally crossing) on the column electrodes 204 and 205, and a dielectric layer 212 is formed in a state covering the row electrode 208. The two glass substrates 202 and 203 are opposed to each other with a partition wall 210 interposed therebetween. As shown in Figure 11, the space between the two glass substrates 202 and 203 is formed by the two glass substrates 202 and 203 and the next wall. ^ -------- ^ --------- ^ (please first Read the notes on the reverse side and fill out this page) This paper size is applicable to Chinese National Standard (CNS) A4 (210 X 297 mm) 4 311845 498299 Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 V. Invention Description (5 ) Several hexagonal columnar discharge spaces 211. As shown in the top view in FIG. U, the partition wall 210 is arranged at a position where the center of each discharge space 211 approximately coincides with the intersection of the gap between the adjacent column electrodes 204 and 205 and the row electrode 208. The gaps between the adjacent column electrodes 204 and 205 of the AC-PDP 201 here form a discharge gap DG, and non-discharge gaps, that is, non-discharge cells, do not exist. As described above, a discharge cell formed by the three-dimensional parent forks of the column electrodes 208, 2 05 and the row electrode 208 of the AC-PDP 201 is surrounded by the partition wall 210 and is thereby separated from the adjacent discharge cells. As shown in FIG. U, a row electrode 208 can be divided into a part facing the discharge space 2 丨 丨 and a part facing the partition wall 2 10 ′. The two parts are arranged to discharge side by side along the long side direction of the row electrode 200. One-half pitch of the arrangement pitch of the unit is alternately repeated. A phosphor layer 209 of the same emission color is coated on each of the dielectric layers 212 of the plurality of discharge cells arranged side by side along a row electrode 208 and the side wall surface (part of) of the partition wall 210. That is, a plurality of discharge cells for emitting light of any one of red (R), green (G), and blue (B) are arranged side by side along a column electrode 208. In other words, a luminescent color (or display color) of one color corresponds to one column electrode 208. Therefore, in AC-PDP 210, three discharge cells for each light-emitting color arranged in a triangle (R, G, and B in FIG. 11 represent an arrangement ^ an example) constitute one pixel for white display, and the arrangement of the above-mentioned discharge cells is also It is called "triangular arrangement". Other configurations such as discharge gas are the same as those in the first conventional technique. ~ Next, the display operation principle of the AC-PDP 101 (or 201) will be described. First, apply a pulse voltage between the column electrodes 104, 105 (204, 205) to apply the Chinese National Standard (CNS) A4 specification (210 X 297 mm) at this paper scale. 3 311845 ------- install --- ----- Order —-------- (Please read the notes on the back before filling this page) 498299 A7

6 311845 Please read the notes of the memorandum before filling in this page k tr V. Description of the invention (7) Animation can be displayed when discharging or erasing. One of the driving methods of AC-PDP 1101 (refer to FIG. 10), which is a more specific driver of the conventional PDP, is explained with reference to FIG. 13 as shown in Japanese Unexamined Patent Publication No. 7160218 (or Japanese patent). 2772753) a driving method that cannot be opened. Figure 13 shows the timing diagram of the driving waveforms in one of the partitioning methods of this driving method. In the following description, 'for each of the n column electrodes 104, it is referred to as "column electrode Xi (i = 1 to η)", and for each of the n column electrodes 105, it is referred to as "column electrode to ..." The J electrodes Υ1 to Υη are driven by a single driving signal (voltage), and the η bars are collectively referred to as "column electrodes 1. The row electrodes 10S of the stripe are also referred to as" row electrodes Wj "(j = i to m) . The partition (SF) shown in FIG. 13 is a day frame (fr_) (F) divided into one of a plurality of periods for displaying an image, and a partition is also referred to as a "reset (⑽t) period", " "Address period" and "maintenance discharge period (referred to as the sustain period or display period)". Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs ~ During the“ reset period ”, the visible traces of the end of the immediate zoning will be eliminated, and start-up will be provided to increase the discharge probability during consecutive address periods (Prlming )particle. Specifically, a full write pulse voltage Vp is applied to all column electrode edges to the voltage between the column electrode γ and the column electrode γ, which can cause self-erasing discharge, thereby eliminating display traces. At this time, a pulse voltage Vp is applied to the row electrode Wj. Secondly, in the "address period", the selection of the matrix only selects the discharge to be displayed and reads its discharge early "and forms the" address discharge "in the discharge cell. As shown in Fig. 13, the scanning electrode is first applied to the column electrode in order to scan the pulse (cns) A4 size (21G x 297 public love) _ 7 311845 498299 A7 V. Description of the invention (8 red Vxg, for this lighting The row electrode Wj to which the discharge cell belongs is applied with a pulse voltage VwD according to the day image data, thereby causing the row electrode Wj and the column to be charged (please read the precautions on the back before filling this page). "Write discharge" occurs between the poles X1 During the address period, a sub-scan pulse Vysc is applied to the column electrode Y. At this time, a potential difference (Vxg + Vysc) is applied between the column electrode xi and the column electrode γί. The potential difference (Vxg + Vysc) itself does not start to discharge However, in order to use the previous write discharge as a trigger (tngger), a “write sustain discharge” (transferable) potential difference can immediately occur between the column electrodes and the force. Because of the above-mentioned address discharge, as described above, A positive or negative wall charge will be accumulated on the surface of the dielectric layer 106A (refer to FIG. 10) of the discharge cell so that only a sustain pulse Vs can be applied to perform a sustain discharge. The "address discharge" is described by ① Gate & row electrode w & select 1 ± ground "write discharge" and ② "discharge sustain discharge" which occurs between column electrode phantom and column electrode ¥ 1 by triggering it Printed by the Consumer Goods Agency of the Intellectual Property Bureau of the Ministry of Economic Affairs ~ In contrast, the discharge unit will not have an address discharge when the picture is displayed from time to time (that is, during the sustain discharge), so when the No discharge occurs between the column electrodes Xi and Yl of the discharge sheet 2. Of course, no wall charges will be accumulated. The address period enters the sustain discharge period. During the sustain discharge period: a sustain pulse Vs is applied between the column electrodes Yi to thereby The discharge cell performing the above-mentioned write operation is continuously maintained during this period. For the row electrode WJ, a voltage Vs2 set to approximately Vs / 2 is applied to the row electrode WJ. The purpose of applying the voltage Vs2 is The specifications of this paper are ⑵q χ tear public hair) 8 311845 Α7 Α7 Printed by the Consumers' Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs 5. Description of the invention (9) In order to transfer from the address period to the sustain discharge period Over time, the sustain discharge can start steadily. [Problems to be Solved by the Invention] However, according to the conventional AC-PDP and its driving method, one row of discharge cells arranged side by side in the vertical direction of the screen corresponds to one row electrode (data line). Therefore, as the number of row electrodes increases as the PDP becomes more refined, the driving circuit (generally integrated circuit) that supplies a predetermined voltage to the row electrodes also increases. Therefore, the cost of forming a plasma display device increases. problem. In order to solve the above-mentioned problems, the present invention has a first object to provide an AC plasma display panel driving method that reduces the manufacturing cost of a plasma display device even if the row electrodes are increased. Still another object of the present invention is to provide an AC-type plasma display panel having an optimum structure for achieving the above-mentioned object. The present invention also provides a plasma display panel using an alternating type plasma display panel which can achieve the above-mentioned object i, and a plasma display device having an alternating-current plasma display panel which can achieve the second object as above The third objective. [Means for solving the problem] The method for driving an alternating-current plasma display panel of the invention claimed in item 1 of the patent scope is to have an address electrode formed by a strip-shaped portion with a price of __, (an integer of one); T discharge cells belonging to the first 7 winds, each of the ▼ -shaped parts; and t discharge cells are associated with the relationship of a thunder generation i Μ Μ, and with the aforementioned address to which the discharge belongs early, The t-strip-shaped portion of the address electrode that is described as a three-dimensional cross-shaped strip-shaped portion is arranged in a three-dimensional shape. The scanning electrode is used by the t-strip-shaped portion of the paper rule. 9 311845

Aw ^ ----- 1 --------- (Please read the notes on the back before filling out this page) A7 V. Description of the invention (1〇) Formation 'and when the strips are the same as before The relationship is related to the sustain electrodes that are paired with a pair of strip-shaped parts; and before the small electrode and one of the sustain electrodes, covering the aforementioned scanning electrode and the aforementioned address electrode. The characteristics of each band are as follows: For and for the "predetermined power supply of the scan electrode, and before the formation of the aforementioned sustain electrode: ^ points, each of the _ pieces of the t discharge cells in which the predetermined power is applied is equal to the shape portion. Among them, 苐 1 electricity is repeated, and the 1 to 2+, electric early 70 band is applied to the voltage of 1 to 2 different types of sustaining electrodes, so that only the aforementioned one: ... The company has formed the desired discharge early. The driving method for the invention of item 2 of the declared patent scope is a driving method for applying for a special military plasma display board. The application of the n-th parent plasma display panel is Mining method /, ^ formation of the aforementioned t-shaped strip-shaped electrode is a strip-shaped electrode Stream-type electric paddle display board. Line drive (2 application 2 = 2: "AC plasma display _ Driving method of printed display board for employee consumer cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs, 2 = item or item 2 of the AC type The first potential difference between the above-mentioned maintaining fan of the plasma electrode to which the first voltage is applied and the force between the band-shaped portion of the scanning electrode and the band-shaped portion of the scanning electrode that is paired is greater than the applied potential. The second potential difference between the band-shaped portion of the just-mentioned sustaining electrode with the aforementioned pressure and the band-shaped portion of the scanning electrode with respect to the above-mentioned scanning electrode is (4) the AC-type invention of the invention in the fourth patent scope. The driving method of the pulp display panel is the paper size of the AC plasma display panel of the third patent application scope (21Q χ 297) ---- 1〇311845 A7 A7 Write this page Consumer stamp 11 E. Description of the invention (u driving method, where the second potential (5) of the patent application scope item 5 is set to about zero. The driving method is the patent application scope of the streamlined Denso display board |

The driving method of the plasma display panel is: during the period of the pre-set voltage during the alternating current of any one of the two items, the scanning electrode is applied in order | ^ Dimensional red one of the aforementioned t | 5 electrodes is selected with i '' and the pressure is maintained at a constant speed. The ▼ -shaped part applies the aforementioned second electric driving method of the invention of the 6th invention of the patent application scope: the patent application scope of the board: the driving method of the type electric purple display board, and the father of the middle brother $ 之 帛Flow ^ ^ ^ ^ The eighth description of the parent flow-type plasma display panel and a plurality of the aforementioned scan electrodes and the aforementioned sustain electrodes in each of the aforementioned t strip-shaped portions of the sustain electrodes ―: the aforementioned first! In the desired period, before the application of the electric charge = one of the paired voltages of the aforementioned plurality of band-shaped parts, each pair of them, the aforementioned band-shaped strips of the electrode are selected in order to apply the predetermined The method of driving (the method of the AC-type electric display panel with the invention claimed in item 7 of the scope of patent application 7) is a method of the AC-type plasma display board with the scope of application of the patent item 6, which makes Each of the aforementioned ^ Η: each of the aforementioned blades applies the aforementioned period of the first voltage in common ^ After the aforementioned period, the aforementioned band to which the aforementioned sustaining electrode of the aforementioned sustaining electrode to which the aforementioned second voltage is applied belongs belongs to the aforementioned Discharge unit, When the two of the aforementioned scanning electrode and the aforementioned address electrode to which the discharge cell belongs form the auxiliary discharge. Knife tm (CNS) A4 (210χ 297 public love) 311845 A7 A7 11 Printed by the Employees ’Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs V. Description of the invention (12, please be dedicated ;: The invention of the invention of 8 items of the "driving method of the display panel," Fuzhong in the second paragraph of the sixth item of the AC-type electrical display panel with a plurality of sustain electrodes After the preceding periods have ended, for the aforementioned discharge cells which have been selected from among δχa and applied with the aforementioned first voltage when the period = ground is applied to the aforementioned period of the aforementioned first voltage, the aforementioned discharge cells, When the above-mentioned scanning unit that the discharge unit belongs to, the second auxiliary discharge unit and the two band-shaped portions of the sustaining electrode can be adapted (used 9) to apply for the invention of the 9th invention. The plasma display panel is an AC-type plasma display panel for the method of driving the AC-type electric π of any one of the first to the eighth items of the plasma display second / month 1 feature, which is less than the direction of the parallel display lines They are not adjacent to each other and belong to two of the two address electrodes One of the shape parts has a plurality of the aforementioned discharge cells capable of forming a desired distribution gap; the same as the aforementioned discharge cells = on the same plane and belonging to the aforementioned two strip-shaped partial gaps of the address electrodes === The discharge gap is more difficult to form a non-discharge non-discharge early 70, and the aforementioned non-discharge unit and the aforementioned discharge == the money bill is at least along a partition that is separated by eight σ across the display line, and the address is described The aforementioned two strip-shaped portions 2 of the electrode have a shape and size that are incorporeal and have a cross shape between the two mentioned above. (10) The display device according to the invention in the scope of patent, which is characterized by: Equipped with an AC-type electro-polymer display panel driven by the driving method of any of the items i to 8 of the scope of patent application: AC-type electro-polymer display panel driven by: ^ 's scale standard suitable financial family standards (CNS;) A4 specifications (21Q χ 297 public love) ----- 12 31184: ^ I ------ t --------- 4 (Please read the notes on the back before filling this page) 498299 Α · 7 V. Description of invention (13) or AC plasma display panel with item 9 of the scope of patent application. [Embodiment of the invention] Poor "implementation shape A. Configuration of plasma display device 60 Fig. 1 is a block diagram showing the overall configuration of the plasma display device 60 of the first embodiment. As shown in FIG. 1, the plasma display device 60 includes AC_pDp Η; driving circuits 16, 17, 153, and 154 that supply predetermined voltages to the column electrodes of the PDP 61; and driving circuits 18 that supply predetermined voltages to the row electrodes A control circuit 40 that controls the driving circuits 16, 17, 153, 154, and 18, and a power circuit 41 that generates a predetermined voltage to supply the driving circuits 16, I ?, 153, 154, and 18; The driving section of the plasma display device 60 includes driving circuits 16, 17, 153, 154, and 18. Each constituent element is described below. The AC-PDP 61 in FIG. 1 only shows the arrangement relationship of the modes of the electrodes when viewed from the display surface side, and other components such as the partition wall and the phosphor are related to the conventional AC-PDP (for example, in FIG. 10). aC_PDP 101). In the following description, the vertical and horizontal directions are based on the plasma display device 60 as viewed from the display surface side of the AC-PDP 61, and the descriptions of the above directions correspond to the vertical and horizontal directions in FIG. The structure of AC_PDP 61 is based on the conventional AC_PDp, but one of its two pair of column electrodes is divided into left and right parts in the central part of the PDP. In detail, as shown in Fig. I, (a) n of the column electrodes XI to Xn (any of the following n columns are also referred to as "column electrode magic" (i = 1 to n)) are parallel to each other The ground is formed between the left end and the right end of this PDP 'm row electrodes w 1 to Wm (any of the following m articles is also called (please read the precautions on the back before filling this page) binding The paper printed by the Ministry of Intellectual Property Bureau's Consumer Cooperatives applies the Chinese national standard (CNS) A4 specification (210 X 297 mm) 13 311845 498299 V. Description of the invention (14) Please read the precautions before filling the line economy Printed by the Ministry of Intellectual Property Bureau's Consumer Cooperative: The row electrodes Wjj (j = 1 to m)) are formed parallel to each other in the direction crossing the column electrodes XI to Xm (stereo) between the upper end of the PDP and the lower end. ㈣ is the column electrode to YLn (any of the following n-bar is also referred to as "column electrode YLi" (bu i to n)) parallel to the column electrode Xuxn, formed from near the left end to the center of this PDP, On the other hand, n column electrodes YR1 to YRn each parallel to the column electrode XUXn (hereinafter η order Any - also known Article "column electrodes YRi" (i = i to n)) formed by a right end to the vicinity of this volume of the vicinity of the center. The above-mentioned column electrodes YL1 to YLn, YRi to YRn and the column electrodes XI to Xn are arranged alternately. Here, the column electrodes YL1 to YLn intersect with the m / 2 row electrodes wi to Wm / 2 (stereo) in the left half of the m bars, and the column electrodes YR1 to ¥ 1 ^ and the m in the right half of the m bars The / 2 row electrodes Wm / 2 + 1 to Wm (stereoscopic) cross. The column electrode YLi and the column electrode YRi are each paired with the column electrode Xi (hereinafter also referred to as “(column) electrode pair Xi, YLi”, “(column) electrode pair Xi, YRi”), and the column electrode pair and Each (three-dimensional) intersection of the row electrodes forms a discharge cell ("light emitting unit" or "display unit"). Here, the discharge cells formed by the column electrode pair Xi, YLi (or yRi) and the row electrode Wj are represented as "discharge cells of a matrix (i, j)". In the following description, the row electrodes YL1 to YLn are also referred to as "row electrodes YL1 to YLn for the left side", and the row electrodes YR1 to YRn are also referred to as "row electrodes for the right YR1 to YRn". For the AC-PDP 61, a dielectric body (layer) is formed in a state covering the column electrodes Xi to Xn and the column electrodes YL1 to YLn, YR1 to YRn (not shown in the first figure, 'refer to the dielectric layer 10 of FIG. 10]. (Or 106A)). Here, as long as there are column electrodes XI to Xn and column electrodes YL1 to YLn, YR1 to YRn to this paper size, the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 14 311845 498299 A7 V. Description of the invention (15 ) If at least one side is covered by a dielectric, the AC-PDP memory function due to wall charges can be obtained, so that the driving method of separating the address period from the sustain period shown in FIG. 13 can be applied. The driving circuit 18 is constituted by a W driving circuit 181 for driving the 1C 182. The W drive circuit 181 can be used to input a control signal of a control circuit 40 described later and a supply voltage of the power supply circuit 41 to generate a predetermined pulse voltage. Then, the 1C 182 is driven to output the predetermined pulse voltage generated by the w driving circuit 181 according to the control signal of the control circuit 40. As shown in Fig. 1, the row electrode W1 and the row electrode ... are commonly connected to one of the predetermined output terminals of the driving 1C 182, and similarly, the row electrode W2 and the row electrode Wm-1 are commonly connected to one of the predetermined output terminals of the driving IC 182. That is, in the plasma display device 60, the row electrodes at the left and right symmetrical positions and the row electrodes Wm + 1_ "are connected to a predetermined output terminal with the row electrode Wm / 2 and the row electrode Wm / 2 + i as a boundary. Therefore, the predetermined pulse voltage is applied to the row electrode Wj and the row electrode Wm + 1-j in common. The drive circuit 16 is composed of a drive circuit 161 equivalent to the w drive circuit 181 and a drive IC 162 equivalent to the drive IC 182. The X driving circuit 161 can be used to input the control signal of the control circuit 40 and the supply voltage of the power supply circuit 41 to generate a predetermined pulse voltage. The plural output terminals of the driver ^ are the odd-numbered electrodes connected to the column electrodes χι to χη. When the driver 1C 162 applies a predetermined pulse voltage generated by the X driver circuit 161 according to the control signal of the control circuit 40, ( Scan) on the odd-numbered column electrodes. On the other hand, the driving circuit 17 is a j driving circuit 171 equivalent to the XI driving circuit 161 and a driving IC 162 311845. The paper standard is applicable to the Chinese National Standard (CNS) iTK721〇x 297 mm)

JO A7 V. Description of the invention (16) Equivalent driver IC 172 is constituted ′ when the output terminal of the driver 10: 172 is an even-numbered electrode connected to the column electrodes X1 to Xn. The drive circuits 153 and 154 are formed of a Y drive circuit equivalent to the W drive circuit 181 (therefore, they are also referred to as "y drive circuits 153 and 154" with the same reference symbols). In particular, the column electrodes YL1 to YLn are commonly connected to the wheel output terminals of the γ drive circuit 153 and to the output of the Y drive circuit 154. The output terminals are commonly connected to the column electrodes ^ to YRnt > Y drive circuits M3, J 154 are also Each is referred to as "the left-side γ drive circuit 153" and "the right-side circuit 154". The control circuit 40 generates a control signal based on the input image signal S and outputs the control signal to the driving circuits 16, 17, 18, 153, and 154. B-AC-PDP 61 driving method Β -1 driving principle First, the discharging control principle of the discharge cell of Cong Qing 61 will be described. Row electrodes that are connected in common to the driver IC 182 and can supply the same voltage (each corresponding to a "strip-shaped portion" of the address electrode, collectively referred to as "address electricity,") any two discharges to which Wj, Wm + H belong The cell is, for example, 15 矩, and each discharge cell has a row of electrodes (each corresponding to the "belt-shaped portion" of the sustain electrode, and the aggregate "sustain electrode") is YRi2. For each column electrode, if the n column electrodes are collectively referred to as a "scan electrode", a band-shaped portion of the scan electrode can be formed. Then, for each discharge cell of the above matrix (11, J) '(12, ㈣-j), under the state that the same voltage is applied to the I electrodes Wj Wm + lj (address electrode), the Chinese standard is also applied to the paper size. (C; NS) A4 specifications (2; Norwegian 16 311845 Zhuang clothes -------- order --------- line (please read the precautions on the back before filling this page) 498299 A7 Economy Printed by the Ministry of Intellectual Property Bureau's Consumer Cooperative

498299 B7 V. Description of the invention (18) "The sustaining discharge period (or the sustaining period # λ Ji ^ five periods. Each driving method of the driving method, the site setting period and the subsidy period has complex characteristics, but the reset period and the sustaining discharge period The driving method with eight uses is "a", for example, the conventional method not shown in Figure 13 can be used. The driving method is used. The five periods B-2-1 reset period are detailed below. ^ It is assumed that the writing pulse ¥ (voltage vPy) is fully supplied to the column electrodes YL1 to ^ and the column electrodes YR1 to YRn in the same manner as the conventional driving method. Thus, the display traces at the end of the previous partition are eliminated and supplied. The starting particles are used to increase the probability of discharge during consecutive first and second address periods. A pulse voltage Vpw (electricity repeating vpw) is applied to all the row electrodes Wi. To Wm in sequence with the above-mentioned pulse electricity MVpy. The purpose of applying this pulse voltage Vpw is to avoid the discharge between the electrodes W1 to Wm and the column electrodes YL1 to YLn, YR1 to YRn due to the application of the above pulse voltage Vpy, and to set about the intermediate potential of the pulse voltage Vpy as and .For example set to electricity Voltage Vpy = 330V, voltage Vpw = 100V. B-2-2 During the first address period, printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs during the first address period, the left-side column electrodes YL1 to YLn belong to the discharge cells. 'In the subsequent sustain discharge period, the discharge cells which are turned on to selectively cause the address discharge (formed by the write discharge and the write sustain discharge as described above). In detail, it is a conventional driving method. Similarly, the scan pulse Vax 1 (voltage Vaxl) is sequentially applied from the column electrode X1 to the column electrode Xη, and the pulse voltage Vawl is applied to the row electrodes W1 to Wm in synchronization with when the pulse Vaxl is applied according to the image data (equivalent to the input image signal). (The size of the paper is applicable to China National Standard (CNS) A4 (210 X 297 mm 18 311845 498299 A7

------------ ιφ Mil! --- • —Order ---------------- (Please read the notes on the back before filling this page) This paper size applies to China National Standard (CNS) A4 (210 χ 297 mm) 19 311845 ^^ 8299 A7

498299 A7 B7 V. Description of the invention (21)

The address operation of the discharge cells to which Xi YLi belongs, followed by the address operation of the odd-numbered row electrode pairs Xi and the discharge cells to which Yi belongs. This also applies to the second address period described later. B-2-3 Subsidy Period Order It is best to prevent address discharge (write discharge and write sustain discharge) from occurring in the discharge cells to which the right-side column electrodes YRi to YRn belong. However, an address discharge may occur between the electrodes Xi and Wj during the initial discharge of the address discharge. As described above, if a discharge occurs between the electrodes X1 and Wj, a number of positive wall charges and negative wall charges will each be formed above the column electrodes and the row electrodes Wj. At this time, if the above-mentioned state of charge enters the period from the column electrode on the right to the second address of the discharge cell to which it belongs, the normal address operation may not be performed. That is, when an address discharge does not occur in the discharge cell forming the address discharge, a light emission occurs during the sustain discharge period when the light is turned on as early as 7L (so-called non-lighting). When a (mis) discharge occurs in a discharge cell that should not form an address discharge, it is unnecessary to light the lamp during the sustain discharge (so-called mis-lighting). Also, the wall charges above the electrodes X1 and Wj will narrow the voltage limit of each pulse voltage during the second address period. Therefore, before entering the second address period, ① keep the wall charge state of the discharge cell to which the left-side column electrode YLi belongs after the address operation in the first address period ends, and ② make the right-side column electrode YRi The wall charge of the electric cell in which the discharge occurs within the corresponding discharge cell during the address period is reduced to at least the above-mentioned non-lighting and the like. As shown in FIG. 2, all the columns ^ X1 i Xn and the right-side column electrodes YR1 to YRn are first applied at the same timing at the beginning of this subsidy period.

This paper scale applies Chinese national standard (cns) A4 specifications (2W reverse 21 311845 498299 A7 V. Description of the invention (22) Apply pulse voltage vhxl (voltage Vhxl), pulse voltage vhyi (voltage Vhy 1), and use the column electrode on the left YL i to YLn and the row electrode—to the center are connected to the ground potential. At this time, the voltage Vhxl and the voltage vhyi are set to the same potential (for example, 180V). According to the above voltage setting, since the column electrode edge is the same as the right column electrode YRl Potential, so the electrodes Xi, Wj · and the electrodes YRi, wj between the right-side column electrode YRi will generate a > discharge (the auxiliary discharge). As the above discharge can reduce the electrode x W; above Wj On the other hand, the above-mentioned voltage Vhxl is applied to the column electrode Xi, and the left-side column electrode YLi is at ground potential, so the discharge cell to which the left-side column electrode belongs has a discharge due to the address during the first address period. The generated wall charge discharge cell will discharge between the electrodes Xi and YLi when the wall charges overlap the above-mentioned applied voltage (second auxiliary discharge). However, due to the above-mentioned electrodes Xi, YLi The 'discharge' will reverse the polarity of the wall charge above each electrode of the discharge cell to the polarity after the end of the first address period. The clothing is printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs and then aligned at the following timing. The left side uses column electrodes YL1 to YLn to apply a pulse voltage Vhy2 (voltage Vhy2), and the column electrodes X1 to X11, the right side uses column electrodes YR1 to YRn and row electrodes W1 to Wm to form a ground potential. For example, the set voltage Vhy2 = 180V. The application of the above voltage will cause the discharge cells in the discharge cells belonging to the left column electrodes YL1 to YLii to contain wall charges (for the polarity reversal after the first address period as described above) to discharge again (second auxiliary discharge). .Also, the above-mentioned first auxiliary discharge of the discharge unit can also be regarded as the second auxiliary discharge. Therefore, it can be said that the paper size of the discharge unit applies the Chinese National Standard (CNS) A4 specification (210 x 297 mm) 22 311845 498299 A7 V. Description of the invention (23) (Please read the precautions on the back before filling out this page) The second auxiliary discharge is formed twice. The result (the result of the second auxiliary discharge is formed twice) When the wall charge state (or potential relationship formed by wall charges) of the discharge cell will return to the state after the end of the first address period. On the other hand, because of the right column electrodes YR1 to YRn, column electrodes χι to Xn, and rows The potentials of the electrodes W1 to Wm are at the ground potential, so the discharge cells belonging to the right column electrodes YR1 to YRn will not discharge. As described above, after the end of the subsidy period, ① the discharge cells belonging to the left column electrode YLi will not change. The state of the wall charge can reduce the wall charge of the discharge cells belonging to the right-side column electrode YRi. As a result, the normal address operation can be performed in the second address period, and the voltage tolerance of each pulse voltage during this period can be extended to the extent that discharge can occur between the electrodes. Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. Due to the driving action during this subsidy period, the effect of stabilizing the charge state of the discharge cells to which the left column electrodes YL1 to YLn belong can be achieved. The reason is as follows. Generally, the discharge and wall charge states between predetermined electrodes are stabilized by repeating the discharge. At this time, through repeated discharge, the wall charge will gradually increase to reach a stable state (stable amount). Therefore, the discharge cells belonging to the left column electrodes YL1 to YLn where wall charges are formed during the first address period. Because of the pulse voltage during the subsidy period and the discharge between the column electrode pairs Xi and Yu (the second auxiliary discharge), Compared with a state in which the discharge is performed only once during the first address, the wall charge is increased and stabilized. As a result, the driving method can more surely start the sustain discharge during the sustain discharge period. In particular, according to this driving method, there is a subsidy period between the first address period and the sustain discharge period and the second address. The paper size of this paper applies Chinese national standards (CMS ^ T ^ i (21〇x 297 mm) 23 311845 Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs ~ ^ L _ V. Invention Description (24)-\ So it is effective for the above-mentioned effects of wall charges. Because the polar charges are not stable during the subsidy period or the second When a pulse voltage is applied to the column electrodes 9 to Xl1 or the row electrodes W1 to Wm during the address period, an expected discharge will be induced to cause the wall charges to disappear ', so that the non-lighting state during the sustain discharge occurs. B4-4 Address 2 During this period, you will implement the driving action of the second address period after the subsidy period. In this second address period, the above-mentioned address operation of the first address period is performed on the discharge cells to which the right column electrodes 1 to YRn belong. The scanning pulse Vax2 (voltage Vax2) equivalent to the above-mentioned pulse voltage is applied to the column electrodes XI to χη in the same manner as in the first address period, and is synchronized when the pulse Vax2 applies the same pulse voltage Vawl to the rubidium electrodes W1 to Wm. Pulse voltage Va w2 (voltage Vaw2). Especially during the second address period, an L pulse voltage (first voltage) Vay2 (voltage Vay2) equivalent to the pulsed electric dust i is applied to the right-side column electrodes YR1 to YRn, and the left side is used The column electrodes YL1 to YLn are set to the ground potential (the second voltage is such that the potential difference (first potential difference) between the column electrodes χί and YRi is greater than the potential difference (second potential difference) between the column electrodes Xi and YLi). At this time, for example, a voltage is set Vawl = voltage

Vaw2, voltage Vaxl = voltage Vax2, voltage Vayl = voltage Vay2. Due to the above driving operation, the discharge cells to which the left-side column electrodes YL 丨 to YLn belong will not be discharged, and the address operation may be performed on the discharge cells belonging to the right-side column electrodes YR1 to YRn. Similarly to the first address period, the potential of the left-side column electrodes YL1 to YLn is set to the voltage Vax2 during the second address period (the above-mentioned voltage ^ -------- ^ ---- ----- Line (Please read the precautions on the back before filling this page) This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) 24 311845 Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 V. Description of the invention (25) One voltage Vax2 is equivalent to the second voltage, and when the potential difference (the second potential difference) between the column electrodes X ″ and YU is the potential difference 0), it can more reliably prevent the column electrodes YL1 to YLn The discharge cell generates a discharge. B-2-5 During the sustain discharge period, after the address operation of all the discharge cells is completed in the first and second address periods, the drive operation in the sustain discharge period is performed. Specifically, as shown in Figure 2 No. For all the column electrodes χι to χη and all the column electrodes YU to YLii 'YR1 to YRn, the sustain pulse Vsx (voltage Vsx) and the sustain pulse Vsy (voltage Vsy) are alternately applied, and prescribed regulations are applied for each partition. The number of times. By applying the above voltage, a discharge sheet with an address discharge is generated. A sustain discharge in this zone will occur. If the voltage Vsx and voltage νπ are set to 18 volts with the same potential as the above-mentioned voltages Vhxl, Vhyl, and Vhy2, then the power supply in the i-th figure can be formed with a smaller number of power supplies. Advantages of the circuit 41 or the plasma display device 60. As described above, the driving method of the AC-PDP 61 according to the first embodiment (or the plasma display device 60) is because the m-line electrodes of the AC-PDP 61 are provided. W1 to Wm use two groups to apply a common voltage to drive ac_PDP 61, so the more conventional plasma display device can halve the number of row electrode drive 1C 182. Therefore, the plasma display device 6 is used. Compared with the conventional plasma display device, the cost can be greatly reduced. As shown in FIG. 1, the plasma display device 60 has two Y driving circuits 153 and 154, which are larger than the number of driving circuits of the conventional paddle display device. However, the unit price of the drivers 1C 162, 172, and 182 for each electrode is higher than that of the driver circuits 153, 154, 161, 171, and 181, and (ii) the driving IC ----------- Shang- ------ ^ Order --------- (Please read the notes on the back before filling this page) Use the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 25 311845 498299 A7 V. Description of the invention (26) (Please read the precautions on the back before filling this page) etc. The cost is based on the cost of one output terminal In the calculation, the cost increase caused by the increase in the number of output terminals of the γ driving circuit is compared, and the cost reduction effect caused by the decrease in the number of output terminals of the row electrode driving IC is much greater. From this viewpoint, it can be said that the plasma display device 60 is used. The cost reduction effect obtained is more significant. The drive circuits 16, 17 for the column electrodes XI to Xn may be provided at, for example, one of the left side of the AC-PDP 61. However, if the drive circuits 16, 17 of the column electrodes χm to χη are collectively provided on the left side of the AC_PDP 61, for example, the assembly density of the installation space on the left side of the AC-PDP 61 will increase. Therefore, as shown in FIG. 1, the 'plasma display device 60 divides the driving circuits for the column electrodes XI to χη and arranges them around the AC-PDP 61, respectively. Here, the output terminal of the drive circuit 16 is connected to the left end of the odd-numbered electrode of the column electrode XI, and the output terminal of the drive circuit 17 is connected to the right end of the even-numbered electrode. Therefore, the entire AC-PDP can be suppressed by the two circuits 16 The uneven brightness of the day image caused by the difference in the impedance of the delicate circuit of 17 and 17. Furthermore, since the driving circuits 16, 17 and Y driving circuit 153, and the employee's consumer cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs are printed and arranged close to the connected electrodes, the wiring resistance can be reduced by the amount of layers, and The impedance of each wiring is equalized. Therefore, according to the plasma display device 60, comparing the plasma display devices in which the driving circuits 16, 17, 153, and 154 are arranged in a centralized manner can achieve a good recognition effect. From the viewpoint of the circuit installation space and visibility as described above, the arrangement of the constituent elements using the plasma display device 60 shown in Fig. 1 is good. For the electrodes of XI to χη of AC-PDP 61, it is divided into the upper paper standard Chaojinmujia Standard (CJNS) A4 specification (21〇χ 297 public love) 26 311845 A7 A7 Member of the Intellectual Property Bureau of the Ministry of Economic Affairs X Consumption The cooperative prints 5. The description of the invention (27) The next two parts (grouping) can be driven. The difference implementation α is described next with reference to the timing chart shown in FIG. 3 to describe another method applicable to the AC-PDP 61. Each of the figures ("to") in Figure 3 is the same as (a) to (d) in Figure 2. It is also possible to use a pulse whose polarity is reversed from that of the pulse voltage shown in FIG. 3. This driving method can be applied to the plasma display device 60 of Fig. 1. As shown in Fig. 3, the driving method of the second embodiment is to divide a partition into three periods of "reset period", "address period" and "sustain discharge period". This driving method particularly has a characteristic of the driving method during the address period '. Therefore, the following description will focus on this. As for the driving method during the reset period and the sustaining discharge period, the driving method of the first embodiment (or the conventional driving method as shown in FIG. 13) can be used, so only these are used. As shown in FIG. 3, in the driving method, the scan pulse Vax (voltage Vax) is sequentially applied from the column electrode to the column electrode X1 during the address period. At this time, during the first half of the scan pulse Vax being applied to the column electrode Xi, a pulse voltage (first voltage) Vay (voltage Vay) is applied to the left column electrodes YL1 to YLn, and the right column electrodes YR1 to YRn are set to the ground potential. (Second voltage), and the pulse voltage Vaw (voltage Vaw) of the day image data of the discharge cells according to the matrix (i, j) is synchronized with the pulse voltage Vay and applied to the row electrodes Wj (and Wm + 1-j). For example, set the voltage Vax = (-180) V, the voltage Vay = 60V, and the voltage Vaw = 40V. The pulse voltage Vay is pulse voltages Vayl and Vay2 (refer to the drawing) corresponding to the driving method of the first embodiment, and is used to reliably control whether or not the address operation is performed. , Install -------- I order ------- I-- (Please read the precautions on the back before filling this page)

498299

V. Description of the invention (28) (Please read the precautions on the back before filling in this page) Then the voltage applied to the left column electrode YLi and the right column electrode yri to YR11 is replaced in the second half of the scan pulse Vax. That is, the left column electrodes YL1 to YLn are set to the ground potential (second voltage), and a pulse voltage (first voltage) Vay is applied to the right column electrodes YR1 to YRn, and according to the matrix (i 'm + 1-j) The pulse voltage Vaw of the image data of the discharge unit is applied to the row electrodes Wm + 1-j (and Wj) in synchronization with the pulse voltage Vay. As described above, the application period of the scan pulse Vax is divided into two during this address period. The address operation of the discharge cells belonging to the left column electrodes YL1 to YLn is performed for one of the two divided periods, and the address operation of the discharge cells belonging to the right column electrodes YR1 to YRn is performed for the other period. This driving method can achieve the same effect as the driving method of the first embodiment in reducing the number of column electrode driving ICs 82. Third Embodiment The third embodiment describes another AC-PDP to which the driving methods of the first and second embodiments described above can be applied. Printed by the Intellectual Property Office of the Ministry of Economic Affairs and Consumer Affairs Agency. Fig. 4 is a plan view showing the structure of the AC-PDP 71 in the third embodiment. Fig. 5 is an enlarged view of the main part in Fig. 4. ac-PDP 71 has its features in the structure of the electrode and the partition wall (also known as "barrier rib" or "r rib arch"). The following description will focus on this. Figures 4 and 5 only show AC -PDP 71 with electrodes and partitions drawn out. The other components of the ac-PDP 71 can be the same as those of the conventional AC-PDP. Therefore, the same components as those of the AC-PDP 101 and 201 (refer to Figures 10 to 12) are denoted by the same reference numerals and their descriptions are cited. This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 public love) 28 311845 498299 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 — ~ --- BI -_____ 5. Description of the invention (29) As shown in Figs. 4 and 5, on the side of the glass substrate 102 (refer to Fig. 10) showing the structure of the AC-PDP71, there are η column electrodes χι and ^ CH, which are called "column electrodes Xi" (i = 1 to ^, Wang and η column electrodes Υ1 to Υη (any of the η bars are called "column electrodes γ" "(丨 1 to η)) are arranged alternately. On the other hand, the rear glass substrate 10 ( (Refer to the figure) side, m row electrodes W1 to Wm are provided in a direction that intersects the column electrodes X1, Yi three-dimensionally (any one of the m rows is called r row electrodes Wj "(jy to m)). The front glass The substrate 10 and the rear glass substrate 103 are arranged opposite to each other in a predetermined distance while maintaining a predetermined distance. The space between the two substrates i 02 and 〇〇3 is separated from the adjacent two row electrodes Wj and Wj + 1. The provided partition is divided into a plurality of discharge spaces 111. Specifically, the discharge spaces on the rear glass substrate 10 are the same as those of the AC-PDP 101. On the surface between the sides 111, there are row electrodes W1 to Wm (equivalent to the row electrode 108 in Fig. 10) extending in a first direction D1 parallel to the surface, and perpendicular to the first direction D1 in the surface. The second direction D2 is arranged at equal intervals. The first and second directions D1 and D2 are referred to here as the vertical and horizontal directions of the display screen of AC_PDP 71. The partition 10 is the same as the partition 110 in the figure 10 The ground is formed into a strip shape along the first direction D1. The U-shaped groove formed by the above surface of the rear glass substrate 103 and the two opposite side walls of the adjacent partition wall 10 is arranged in units of the U-shaped groove There is a phosphor layer 109R, 109G, or 109B for each luminescent color. A dielectric layer is provided on the above surface of the rear glass substrate 103 so as to cover the row electrodes wi to Wm, and the dielectric layer is formed on the dielectric layer. A partition wall and a phosphor layer 109 can also be provided on the body layer. This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 public love) 29 311845 C Please read the precautions on the back before filling in this page}

».1 n ϋ nn 18 I -JL Ding · — IIII Cao · A7 A7 Printed by the Intellectual Property Bureau of the Ministry of Economic Affairs, Consumer Cooperatives This paper is printed in accordance with China National Standard (CNS) A4 (210 X 297 public love) 30 V. Description of the invention (30) On the other hand, on the glass substrate 102, the column electrodes Xi, γ, the thunder gate η] of the substrate 102 is added from * 1, and the second direction is on the surface on the side of the side of the preparation workshop. The mother electrodes Xbl and Ybl of Yanjizhi and their one end are m connected to a predetermined position (to be described later) of the mother electricity and Ybl, for example, forming four corners ^ sun and moon electrodes Xt, Yt (specify if necessary, such as "Transparent electrode drawing, ^" is formed by adding [] to indicate its belonging relationship with the parent electrodes Xbi and Ybi). The mother electrodes Xbl to Y, and YM to Ybn of each of the n n electrodes are arranged parallel to each other and are alternately arranged at equal intervals in the first direction. The impedance of the mother electrode version and yw is preferably lower than that of the transparent electrodes + iXt and Yt. In the fourth and fifth graphs, the opaque electrodes Xt and Yt are arranged on the surface on the discharge space side of the front glass substrate 102, and the mother electrodes Xbl and Ybl are arranged on the surface when the ends of the transparent electrodes are covered. The above structure may be a structure in which the stacking order of the two electrodes is reversed. Then, similarly to the AC-PDP 101, a dielectric layer 106 (or 106) is formed in a state of covering the column electrodes χ to ❹ and the 仃 electrodes γ to to γη. At least one of the column electrodes XI to χη or the column electrodes Y1 to Υη is covered with a dielectric to obtain a memory function composed of wall charges of the AC-PDP. Therefore, the address period shown in FIG. 13 can be applied. Drive method separate from maintenance period. The transparent electrodes Xt and Yt will be described in detail below. In the following description, a plurality of fields formed by a matrix of two mother electrodes Xbl to Xbn, Ybl to Ybn, and (m + i) barrier ribs 10 shown in Figs. 4 and 5 are each referred to as a "unit Realm AR ". It can also be considered here that each unit area AR is composed of column electrodes XI to Xn and Y1 to γη (or the gap between two adjacent column electrodes) 311845 I · 1 --- I-^ ------- -(Please read the notes on the back before filling out this page) 498299 A7 _. B7 V. Description of the invention (31 The three-dimensional intersections with the row electrode ^ to the heart are also formed. Not only the two-dimensional element shown in Figure 4 The two AR fields are perpendicular to the first and second directions D1, and the extended three-dimensional fields. The third direction D3 is the end of each transparent electrode X 各个 connected to the mother electrode Xbl. The mother electrode X1M protrudes in the i-th direction and in the middle-square area. Another ^ m adjacent to the f-unit area AR is hung in Di Shitian. The individual transparent electrodes Xt in the ith direction are different from each other in the m-th direction. The transparent electrode Xt protruding in the direction will not form a stretched recognition door. Then it will extend to the same side as me. The transparent price will be the same! The m transparent electrodes Yt will be installed with a monthly electricity. In order to be connected to the mother electrode Ybi, the protruding direction is different from the first direction 伸出 and protrudes in the unit area AR. For example, f 5 Riding heart _ with pole Xt and transparent electrodes. The edges of each protruding side are in a predetermined gap (equivalent to the discharge gap as described later) in the same unit area AR. The opposite sides of the transparent electrode The distance between the gaps (or the gap (or distance) dgl from the "gap gap"), and the length of the opposite portion of each edge of the transparent electrode Xt, Yt, ..., is called "the width of the gap DG (or the length W and The ㈣ between the edges of the opposite 母 of two adjacent parent electrodes (equivalent to a non-discharge gap as described later) is called a "gap ng", and the interval (or distance) between the two edges is called "(gap NG) ()) Interval (or distance) ngl ". The AC-PDP 71 is provided with the above-mentioned electrodes χι to χη, η to η, and due to the different sizes of the gaps dgl and ngi of the gaps DG and NG, it can be applied by control The voltage of the electrodes Xi, Yi (or Υί · 1) Γ4 in the adjacent column, 'This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 public love) 31 311845 Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 498299 A7 ------ -B7 ____ V. Invention Theory (32) The gap NG does not discharge and causes the gap dg to discharge. Therefore, each (three-dimensional) unit area AR can be distinguished as having the above-mentioned gap formed by the above-mentioned transparent electrodes xt, Yt (hereinafter also referred to as "discharge gap ( Or the front gap) ")" discharge cell (or discharge field) c "in the unit area AR of DG, and the above-mentioned gap formed by 0 without transparent electrodes Xt and Yt and with parent electrodes Xbi and Ybi (or Ybi-I) (hereinafter Also referred to as "non-discharge gap (or back gap)") NG's "non-discharge cell (or non-discharge field) NC" in the unit area AR. At this time, as shown in FIG. 6, with the AC-PDP 71 as a whole, the discharge cell C (or the discharge gap DG as shown in FIGS. 4 and 5) and the non-discharge cell NC (or as shown in FIGS. 4 and 5) The non-discharge gaps NG) are alternately arranged in directions parallel to and perpendicular to the display lines (second and first directions D2 and D1), and the discharge cells c (or the discharge gaps DG) are not adjacent to each other in the above two directions. However, a plurality of non-discharge gaps NG may be adjacent to each other in the first and second directions D1 and D2. Fig. 7 shows an example of the above structure. AC_ |.,? 71 eight. Hachiman-1 > 〇71 (and Hachi & ^? 0? 72 in FIG. 9 described later) are adjacent to each other in a (plurality) gap extending along the two parent electrodes (in the second direction D2). Two of them form a "display line". However, AC-PDP 71A uses the adjacent three of the gaps between the two adjacent parent electrodes to form a "display line". For another example, when the light emission color is monochrome (the phosphor has only one kind and the state without phosphor), the display line is formed by one of the above gaps. Next, a plasma display device having AC-PDP 71 will be described with reference to FIG. Fig. 8 is a schematic block diagram showing the overall configuration of the plasma display device Kawasaki of the third embodiment. As shown in FIG. 8, the plasma display device includes: C ^ AC-PDP 71; specifications for each column of electrodes X1 to χη, γ 丨 to Υη, and row (cnS) A4 (21. x 2 ^ 7 ^ inverse) 32 311845 ^ -------- ^ --------- line (please read the precautions on the back before filling this page) A7 V. Description of the invention (33 electrode W1 1 Wm supply pre ^^ voltage The driving circuits 14, 15, and 18 are used to control the driving circuits 40, 15, and 18 of the driving circuits; and the power circuits that generate pre-voltages to be supplied to the driving circuits 14, 15, and 18 ". Also, the plasma display device The driving section of 70 includes driving circuits 14, 15 and 18. f The control circuit 40 first generates a control signal based on the input image signal s and outputs it to the driving circuits 14, 15 and 18. As shown in FIG. 8, the driving circuit 14 is represented by X The drive circuit 141 and the drive 1C 42 are constituted. The X drive circuit 141 can be used to input the control signal of the control circuit 40 and the supply voltage of the power supply circuit 41 to generate a predetermined pulse voltage. A plurality of wheel-out terminals of the drive 1C 142 are each connected to the column Electrode to

For the corresponding electrode in Xl1, the drive 1C 142 applies a predetermined pulse voltage (scanning ground) generated by the above X fj J Ί $ 1 I to the drive circuit 141 according to the control signal of the control circuit 40 and applies it to each column of electrodes XI to χη. The drive circuit 15 is composed of a γ drive circuit 151 and a Υ drive circuit 152 (collectively referred to as “γ drive circuits”) which are equivalent to the above-mentioned drive circuit 141. However, the n-numbered column electrodes Υ! To Υ η are odd numbers (odd-numbered columns). The column electrode cores are commonly connected to the output terminals of the γ drive circuit 151, and the even-numbered (even-numbered) column electrodes Y1 are commonly connected to the wheel ^ terminals of the Y | g moving circuit 152. Thus, the column electrode Y1 can be The odd-numbered electrode and the even-numbered electrode in Υη each supply the same electric dust. The driving circuit 18 is formed by the driving circuit 18 corresponding to the driving circuit 141 described above and the driving 182 corresponding to the driving IC 142. Driving 1C Each of the multiple output terminals of 182 is a unit consisting of two rows consisting of one odd row and one even row. For example, as shown in Figure 8, this paper size is applicable _ National Standard (CNS) A4 Specification (210 X 297 Public love) 33 311845 ------------ # 壮 衣 ——: —— Order ----------- (Please read the precautions on the back before filling this page} A7 A7 34 V. Description of the invention (34) For example, if two rows of electrodes are connected to each other in succession, Pu also uses the above 71 A (refer to Figure 7) is connected to the driver IC i82 in the plasma display device (; for example, the row electrodes to Wm are connected in three consecutive rows (the row electrode%,% + 1, l㈣ is a multiple of 3) as a unit Output terminal ^ The plasma display device of the above configuration can be applied to the driving methods of the first embodiment and the second embodiment described above. The two row electrodes (Ac_pDpm) connected in common to the row electrodes W1 to Wm ( ac_pdp 71A is three rows of electrodes) The general term is equivalent to "address repair is equivalent to" striped part. "And all columns are charged ... equivalent to" scan electrodes "'all column electrodes γι ... general phase: sustain electrodes" and columns The electrodes X1 to χη and γι to γη each correspond to a strip-shaped portion of each electrode. The difference between the shape of the electrode and the electrode 1 is difficult. It is used to apply the same-to-electricity method to the two adjacent row electrodes of the AC loss P71. There are means for connecting the electrodes of the row to each of the input terminals of the driver 71 to the driver IC 182 in a predetermined way, and (b), the wiring name itself Μ M and W, the terminals of the above input terminals Pattern ^ means of body opening / forming into an integrated shape, etc. This section! For the example, another example other than the above-mentioned means is illustrated in Fig. 9. Fig. 9 shows a plan view of the structure of the AC-PDP72 of this ninth example when viewed from the display surface side of the PDP (equivalent to that of Fig. 4). Top view). As shown in Figure 9, AC_PDp 72 has its characteristics from the row electrode to the medical structure, while the column electrode 丨 X1 to M1 ... the other constituent elements of the next door ... This paper standard applies the Zhongguanjia standard ( CNS) A4 size ⑵G χ 297 public love 311845

-------------- Install C. Please read the phonetic on the back? Please fill in this page for more information) m ί I n-i I port, * 1 [11. ----- 498299 A7 B7 5. AC-PDP 71 (refer to Figure 4) of the invention description (35) is the same. Therefore, in the following description, the first modification will be described with the row electrode as the center, and other components equivalent to the AC-PDP 71 will be denoted by the same symbols and their descriptions will be cited. (Please read the precautions on the back before filling this page) As shown in Figure 9, AC-PE) The m / 2 row electrodes WW1 to WWm / 2 provided in the P 72 each have the AC shown in Figure 4. -The two adjacent row electrodes (striped parts of the address electrode) in PDP 71 Wj 'Wj + 1 (but ′ are odd numbers) are integrated shapes and sizes. That is, when the rows of electrodes WW1 to WWm / 2 are on the surface of the discharge space U1 side of the rear glass substrate 103 (refer to FIG. 10), and the plan view of FIG. 9 is shown as a projection of AC-PDp 72 on the surface , Taking two adjacent U-shaped grooves 1 〇u as a unit, forming the approximate center of the υ-shaped groove 10u along the first direction when one of the two U-shaped grooves οου ( The area near the axis (axis) near the u-shaped groove ι〇υ to the other side. Since the row electrodes WW1 to WWm / 2 are each connected to the driving IC 182

One of the predetermined output terminals can be driven to the AC-PDP 72 using the same driving method as the AC-PDP 71. The electrodes 1 to wwm / 2 during this trip are each arranged across the two discharge spaces ηm next door 10, and then Ac_Pdp is printed 72 by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, and the discharge unit C and the non-discharge unit Since the NCs are alternately arranged in the first and second directions D1 and D2, the AC_PDP 72 can be driven without occurrence of erroneous discharge. According to AC-PDP 72, compared with AC-PDP 71, the number of row electrodes is smaller, so it is possible to reduce the cost of AC_PDP. Since the width of the row electrode (the dimension along the second direction D2) is larger than that of AC-PDP 71, the position correction of the row electrode formation step is easy. Therefore, it is not necessary to apply the Chinese National Standard (CNS) to this paper scale at this step. A4 specification (21 × χ297 mm) 35 311845 A7 A7 Consumers of the Ministry of Economics and Technology 5. Consumption of Invention (36) The advantage of seeking high processing accuracy. Variations of the driving methods of the first and second embodiments described above can be applied to AC-PDP 61, 71, and 72, as well as customary loss ρ 2101 (refer to Figures 11 and 12). . That is, the AC_PDp which can control the voltage (potential difference) of each discharge cell by supplying the discharge of each of the saponin C can be controlled by the above-mentioned driving method. The first to third embodiments described above are described with the case where the address electrodes are formed by two strip-shaped portions. However, it is clear that the above-mentioned driving methods can also be used for AC-PDPs having address electrodes having a plurality of strip-shaped portions. [Effects of the Invention] According to the first item of the scope of the application, even if the same voltage is applied to the strip-shaped portions of the t strips forming the address electrodes, the scan electrodes and the sustain electrodes belonging to a predetermined discharge cell The potential difference between the two strip-shaped parts = is set to a value that can form the desired discharge, and the potential difference between the same strip-shaped parts for which the ^ discharge unit is set is not sufficient. ^ Any discharge value can only be set at The above-mentioned predetermined discharge, & _ electricity early 70 forms the above-mentioned desired discharge. Therefore, a driving circuit can be used to press 4 € to the strip-shaped portion, compared to the plasma display device '81 for the same strip-shaped driving circuit forming the same strip-shaped portion of the address electrode. Provide a cost-effective electric paddle display device. (2) According to the invention in item 2 of the scope of the patent application, when a scanning electrode has t discharge cells, the above can be obtained. 0) Listed fields and electrodes (with Chinese paper standard (CNS)) A4 specifications (210 X 297 public love) '36 —— 311845 t -------- ^ --------- line (please read the precautions on the back before filling this page) A7 B7 5 (37) The invention according to item 3 of the scope of patent application. Only the discharge cells belonging to the strip-shaped portion to which the first voltage is applied can form the above-mentioned desired discharge, and can reliably prevent other discharge cells from discharging. According to f, please invent the invention in item 4 of the patent scope, and in comparison, please use the drive method in item 3 of the patent scope to more reliably prevent the above-mentioned other discharge orders.

Student discharge. X (5) According to the invention in item 5 of the scope of patent application, any one of the above effects can be achieved. (6) The invention according to item 6 of the scope of patent application can achieve any of the effects (1) to (.) (7) The invention according to item 7 of the scope of patent application can reduce the application of the second voltage during the above period. The wall charge formed above the scan electrode and the address electrode of the discharge cell to which the strip-shaped portion of the sustain electrode belongs. Therefore, for the next selection, the strip-shaped portion of the sustain electrode to which the first voltage is applied can more reliably form the strip. Desirable discharge. Furthermore, the tolerance of each applied voltage in the next period can be expanded. (8) According to the invention in claim 8 of the scope of patent application, the discharge cell in which the above-mentioned desired discharge is formed during the above period can be enlarged. • Stable wall charges stored above the scan electrode and above the sustain electrode. Therefore, the wall charge can be used to reliably form a sustain discharge. Furthermore, the tolerance of each applied voltage in the next period can be expanded. (9) According to the scope of the patent application The invention of claim 9 is compared with an alternating-current plasma display panel with a strip-shaped portion provided with address electrodes on each of the non-discharge cells or the discharge cells and the non-discharge cells divided by the partition wall. In this case, the paper size of the strip can be reduced to the Chinese National Standard (CNS) A4 (210 X 297 mm) 37 311845 498299 A7 B7 5. The number of invention description (38) points. This can reduce the exchange The cost of a plasma display panel. As a result of the integration, the width of the electrode pattern is increased, making it easy to correct the position of the address electrode formation step, which has the advantage that this step does not require a high degree of processing accuracy. The invention of the tenth aspect of the patent application can provide a plasma display device that can exhibit any of the effects (1) to (9) above. [Simplified description of the drawing] Fig. 1 shows the plasma of the first embodiment. A block diagram of the overall configuration of a display device. Fig. 2 shows a timing chart of a driving method of an AC plasma display panel according to the first embodiment. Fig. 3 shows a method of driving an AC plasma display panel according to the second embodiment. Timing chart. Fig. 4 is a plan view for explaining the structure of the AC plasma display panel of the third embodiment. Fig. 5 is an enlarged plan view of the main part of the structure of the AC plasma display panel of the third embodiment. Fig. 6 is a schematic plan view showing the arrangement of discharge cells and non-discharge cells of the AC plasma display panel of the third embodiment. Fig. 7 is a diagram for explaining another structure of the AC plasma display panel of the third embodiment. Top view. Fig. 8 is a block diagram showing the overall configuration of the plasma display device of the third embodiment. Fig. 9 is an AC type for explaining the first modification of the third embodiment. --------- --II --- (Please read the precautions on the back before filling out this page) Order · Participated in the Intellectual Property Bureau of the Ministry of Economic Affairs's Consumer Cooperatives. The printed scale is applicable to the Chinese National Standard (CNS) A4 specification (210 X (297 mm) 38 311845 498299 A7 V. Description of the invention (39) Top view of the structure of the electric display panel. Fig. 10 is a perspective view showing an AC-type electric power source of the first conventional technique. Structure of the display board Fig. 11 shows a plan view of an AC-type electric destruction of the second conventional technique.构造 The structure of the display board. Figure 12 shows the AC electric propeller of the second conventional technology. ^ ^ ^ Plasma_The vertical cross-sectional view of the structure of the display board. ~ Figure 13 is used to explain the conventional AC electric award — Timing chart of the driving method of the chanting board. Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs [Description of component symbols] 10 15, 16, 17, 17, 151, 152 153, 154 40 41 60 > 70 61, 71, 71A, 72 111 C D1, D2 DG NC NG Vaw, Vawl, Vaw2 Vay, Vayl, Vay2 W1 to Wm WW1 to WWm / 2 XI to Xn Y1 to Yn Next door driving circuit Control circuit Power circuit Plasma display device AC type plasma Display panel discharge space discharge cell direction discharge gap non-discharge cell non-discharge gap voltage 'voltage (first voltage) ^ electrode (striped part) row electrode (address electrode) column electrode (striped part, stripe column electrode (striped Shape two f shape electric book 311845 (Please read the precautions on the back before filling this page) Install tr --------.

Claims (1)

498299 A8S8D8 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 2, 311845 VI. Patent application scope 1 ~ --- --- 1. The driving side of an AC electric beam display panel (t is an integer of two or more) The shape of the two rr poles; the address of the knife / cheng belongs to the strips of the t strips and the discharge cells of the t discharge cells are 7 ^. Although the discharge belongs to the three-dimensional strip strips, Put = single formation 'and the V-electrodes in which the strip-shaped portions belong to the one-to-one relationship with the aforementioned t discharges as early as 7L, and are paired with the strip-shaped portions belonging to the foregoing scanning electrodes of the cell; And the M-inch electricity covers at least the dielectric of the scan electrode and the sustain electrode, which is characterized in that a predetermined voltage is commonly applied to each of the strip-shaped portions of the address electrode, and that Each of the aforementioned strip-shaped portions applies a predetermined voltage, and the order of forming the aforementioned t-strip-shaped portion of the sustain electrode is applied to the strip-shaped portion to which one of the t discharge cells belongs. Pressure, and the second voltage is applied so that only the discharge cells formed in a desired portion of the strip other sustain discharge electrodes are formed. • For example, the driving method of the AC plasma display panel under item 1 of the scope of patent application, in which the aforementioned t-strip-shaped portion forming the aforementioned scanning electrode is used. The paper size is applicable to China National Standard (CNS) A & grid (210 X 297). Public love-^ -------- ^ --------- line (please read the precautions on the back before filling out this page) 41 ', apply for patented AC strip type electrode Plasma display board. As mentioned in the patent application-the exchange method of item No.!, In which the aforementioned voltage is applied: the driving square part of the second board is for the aforementioned shame of the electrode before being paired with the band-shaped part. The i-th potential difference between the strip-shaped portions is: 2: the front portion of the two electrodes is larger than when the strip-shaped portion becomes larger. The second potential difference between the strip-shaped portions of the electrodes is as stated. The AC method of the third item of the patent scope 'wherein the aforementioned second potential difference is set approximately at :: the driver of the board I: Shen: technical secondary school: the second driver of the AC-type electric display panel of the second item: Yu Yanshu The scanning electrode is applied with the aforementioned predetermined period of electricity-stop =! Select the aforementioned ^ band shape of the aforementioned sustaining electrode Do you choose the first voltage in the section and apply the second electricity to the band-shaped part other than the selected one of the above-mentioned sustain electrodes? 6. The AC-type plasma display panel as described in the scope of patent application! The driving side == The aforementioned AC-type plasma display panel has a plurality of the aforementioned trace electrodes and the aforementioned sustain electrodes, and the aforementioned is applied to each of the t strip-shaped portions of the aforementioned plurality of sustain electrodes in common. In the period of the first voltage, one of the aforementioned strip-shaped portions of the scanning electrode paired with the plurality of the aforementioned strip-shaped portions to which the aforementioned i-th voltage is applied is selected one by one to apply the predetermined voltage. Y, 7. The paper size of the driver of the AC-type plasma display panel with the scope of the patent application No. 6 is applicable to the Zhongguanjia Standard (CNS) A4 size coffee 311845 ΦΜ. ------- ^ ------- --Line i (Please read the notes on the back before filling this page) 498299 il 498299 A8 B8 C8 D8 6. The scope of the patent application is that the discharge cells are _ oblique — a one-to-one relationship 'and belong to the description of the scanning electric current when the discharge is early. Pairs of sustaining lightning poles; a dielectric that can cover at least one of the scanning electrode and the sustaining electrode; and a non-HJlt wind power installed on the same surface and belonging to the discharge gap of the aforementioned address electrode, which is more difficult to form a discharge A plurality of non-discharge cells in the gap, and the t discharge cells are, are placed on the same surface and are arranged adjacent to each other with at least one of the non-discharge cells in a direction parallel to the display line, and the AC The plasma display panel further includes: the aforementioned non-discharge unit and the aforementioned discharge--earth s *, or one of the non-discharge early or at least along the wall and the direction of the wall It is separated from each other and the two adjacent bands of the aforementioned address electrodes are integrated and have a shape and size across the mouth of the partition. 10. The type of electric paddle display The device is characterized by comprising: an AC plasma display panel; and a driving unit of the AC plasma display panel, and the AC plasma display panel has a strip-shaped portion (where t is an integer of two or more). The formed address electrode, the paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) '311845 (Please read the precautions on the back before filling this page) e Bi nnnnn n- ^ r— 口 ， nnnnl OBI i Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 43 498299 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economy When the discharge cell belongs to the aforementioned position, and is arranged in a three-dimensionally intersecting manner, the four-fold strip-shaped portion is formed by a “strip-shaped portion, and when this electrode, the discharge cells are U ΟΛ ▼ the strip-shaped portion is as described above. t Ping 4 belongs in a one-to-one relationship, and describes the paired dimensions of the aforementioned strip-shaped portions of the scanning electrode; 1Γ covers at least the scanning electrode and the dielectric of M, and one of electrical T The driving unit is scheduled to be: electric on: described: and the aforementioned strip-shaped portions of the address electrode collectively apply a voltage to the aforementioned strip-shaped portions of the scan electrode, and then add 0, to form the aforementioned sustain electrode. One of the t-shaped strips: I! ^ Is the strip-shaped portion to which one of the discharge cells within t discharge early belongs to 1 ', and a second voltage is applied to the other strip-shaped portions forming the aforementioned sustain electrode so that only the aforementioned one The discharge cell forms the discharge. η. For an electro-polymer display device according to item 10 of the scope of patent application, the AC-type electrical display panel further includes a plurality of non-discharge cells arranged on the same surface and belonging to the address electrodes, and each of the discharge cells has The paper size for forming the desired discharge is applicable to the Chinese National Standard (CNS) A4 specification (21 × 297 public love 44 311845 A8 B8 C8 D8, the patent application scope of electrical clearance, on the other hand, each of the aforementioned non-discharge cells has ^ ^ It is said that it is more difficult to form a non-discharge gap between discharges, and that the aforementioned t discharge cells are arranged in the same area as described above, and at least one or more of the non-discharges are arranged in a direction parallel to the display line. The units are arranged adjacent to each other, and the AC-type plasma display panel is further provided with a. Α partitions the non-discharge unit and the discharge unit or the non-discharge unit at least along a direction crossing the display line, and The at least one contiguous band portion of the address electrode is integrated and has a shape and size across the partition wall. I 1 IIII-IIIIIII β I! III (please read the notes on the back before filling out this page) Printed on the paper standard of the China National Standards (CNS) A4 Specifications (210 X 297 mm) 311 845 45