TW466525B - AC plasma display panel, plasma display unit and method of driving AC plasma display panel - Google Patents

Abstract

The purpose of the present invention is to provide an AC-PDP capable of suppressing or avoiding erroneous discharging. On the side with a back face glass substrate, column electrodes W1-Wm are arranged at a constant pitch in the first direction D1. Row electrodes X1-Xn, Y1-Yn are composed of (1) band-shaped parent electrodes Xb1-Xbn and Yb1-Ybn extending in the second direction D2 in such an arrangement that they are laid at a constant pitch alternately; and (2) transparent electrodes Xt and Yt in square shape with one-side ends connected to the parent electrodes Xb1-Xbn and the others Yb1-Ybn on that surface of a front face glass substrate on its side with the discharge space 111. The transparent electrodes Xt and Yt protrude into one of two unit regions AR adjoining in the first direction D1 in such a way as pinching the parent electrodes Xbi and Ybi with which one ends of the transparent electrodes are connected. Each unit region AR is divided into a discharge cell C having a discharge gap formed from the opposing edges of the transparent electrodes Xt and Yt, and a non-discharge cell NC not having any discharge gap, wherein the discharge cell C is not adjoining in the first direction D1 nor second direction D2.

Description

A: B7 M Ji Λ Intellectual Property Officer 1 ^ Fees :: ,, ',' (1. &quot;;;..; ancient five, description of the invention (1) [Technical field to which the invention belongs] The present invention is Regarding the structure and driving method of an alternating-current plasma display panel (hereinafter referred to as "r AC-PDP") and a plasma display device. [Knowledged technology J Plasma display panel (PD P)], a thin-type television is currently being carried out. Or display monitor research. Among them, as one of the AC_pDP with memory function, there is a surface discharge type AC-PDP: The structure of the AC-PDP is described below with reference to Fig. 25. Fig. 25 shows the extraction AC-PDP10 of the first conventional technology] A perspective view of a part of the structure, and the structure of AC-PDP101 01 is disclosed in, for example, Japanese Patent Laid-Open No. 7-140922 or Japanese Patent Laid-Open No. 7-28 7548. As shown in FIG. 25, AC-PDP 丨 01 is provided with a front glass substrate 102 as a display surface, and a discharge space sandwiched between the front glass substrate 丨 〇2! 丨 and a rear glass substrate 103 arranged oppositely In addition, although the two glass substrates 102 and 103 are arranged so that the top of the partition wall U0 abuts a dielectric layer described later 106A 'But in Figure 25, it is 1 ^ ^ Ling for the convenience of explanation, the state diagram of the two glass substrates 102 and 103 is shown in the figure is also the same. „In the front glass substrate 102, the electric space 丨On the surface of the Η side, η bars are extended to form column electrodes paired with each other from a pair of horses. 列 04 and column electrodes 丨 丨 White is a transparent electrode. But as the number! 0 ′ on the respective surfaces ... partially afraid. I The metal_assist electrode &lt; year is called the pole! 〇4 a 丨; at 3 o'clock this point is described in Figures 2 8 and 2 9 below (please read the precautions on the back before filling out this page) .-- ------- * 5 ^ ---.; \: Figure 5 shows the column electrode 丨 (u V has a nozzle to prevent the electric pain from the electric power to the electric current. ¾ Huide discharges It belongs to the station f, ：; ： .v. <.: 1 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 4 d 65/5 A7 _____B7_____ V. Description of the invention (2) “Column electrode 104”, “Column electrode 10 5 ". The dielectric layer 106 is formed, so that the two rows of electrodes 104 and 105 are covered. Also, as shown in Fig. 25, Mg is also formed on the surface of the dielectric layer 106 by a method such as evaporation. (Oxidation In the case of a protective film 107 composed of a dielectric such as magnesium), in this case, the dielectric layer 106 and the protective film 107 are also commonly referred to as "dielectric layer 106A." On the other hand, 'on the back glass On the surface on the side of the discharge space 111 of the substrate 103, m row electrodes 108 are formed so as to be perpendicular to (three-dimensionally intersect with) the column electrodes 104 and 105, and the adjacent row electrodes! A partition wall 11 extending parallel to the row electrode 108 is formed between 0 and 8 mm. The partition wall 110 is equipped with the task of separating the discharge cells, and is also useful for the task of supporting the PDP pillars that are not damaged by atmospheric pressure. Furthermore, in a U-shaped groove defined by the above-mentioned surface of the back glass substrate i03 and the two side wall surfaces adjacent to the adjacent partition wall 110, strips are arranged in a predetermined order in units of the U-shaped groove. ) Red (R) fluorescent layer 1009R for light emission, green (G) fluorescent layer 109G for light emission, or blue (B) fluorescent layer 109B for light emission (commonly referred to as "phosphor layer 109") Any one of the phosphor layers causes the electrode 108 to be covered. In addition, a dielectric layer is provided on the above surface of the back glass substrate 103 to cover the row electrode 108, and there is also an AC-POP having a structure in which a partition wall 110 and a phosphor layer 109 are arranged on the dielectric layer. The front glass substrate 102 and the back glass substrate 103 having the above structure are sealed to each other on a peripheral portion (not shown in FIG. 25), and a space between the two glass substrates 102 and 103 (discharge space 1 丨 1) ), A discharge gas such as a Ne-Xe mixed gas or a He-Xe mixed gas is sealed with a pressure below atmospheric pressure. In AC-PDP101, it is tied to the column electrode pair 104, 105 and row -----------..-- install ---------,-order ----. --- Line (please read the notes on the back before filling this page) This paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) 2 311850 A7 A7 Member of Intellectual Property Bureau of the Ministry of Economic Affairs 1 &quot; 1-:! 4-.:!':·^ V. Description of the invention (3) The three-dimensional intersection of electrode 108 is divided into two points, which is limited to one discharge cell (also known as | light-emitting unit) or No early yuan "). Then, as shown in AC-PDP10 1, when it is p π pDP for full-color display, three discharge cells each consisting of red light emission, green light emission, and blue light emission are formed! Pixels. At this time, Fig. 25 shows the structure of 1 day prime of π AC-PDP101. Here, in the following description, the necessary lines are the lines that make the light-emitting units of the full-emission color dots in the column direction of the obtained emission color or the arrangement of pixels required to display the squint line. At this time, if a predetermined voltage is applied to one of the column electrodes 104 and i05 in ⑻, the i display lines (the discharge cells to which they belong) can be lit (selected). In this way, an arrangement in which two discharge cells that are pixels are arranged side by side is also referred to as a “stripe arrangement_ 丨.” In AC-PDP10], “the length along the row of electrodes 108 divided by the partition wall 110” The discharge space extending in the direction 1i can be distinguished into the "light-emitting area" of the discharge cells to which (pair) electrode pairs 104 and 105 belong or &quot; the display area is adjacent to (ΪΓ) between the electrode pairs 104 and 105. Area (or adjacent areas of a plurality of discharge cells arranged along the above-mentioned length direction), and "non-light-emitting areas" or non-display areas that do not participate in the display light emission of the PDP. The structure of the non-light-emitting area in the light-emitting area that constitutes the plutonium discharge cell will be formed: 卽, the structure of the non-light-emitting area in the discharge electrode. Non-discharge generation η], or non-delivery first.

-(/ «S r :: · Ψ / Γ ;; f4 (Please read the notes on the back before filling in this page) Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs B7 V. Description of the invention (4) In the gap between the adjacent rows of electrodes 104, 105, (0) is paired and a discharge is formed in the discharge cell The gap between the two column electrode pairs 104 and 105 is called "discharge gap (or surface gap) D (}". On the other hand, '(ii) each of the adjacent discharge cells is relative to each other.' The gap between the two column electrodes 104, 105 is called "non-discharge gap (or back gap) Ng." At this time, 'non-discharge cells are the same as the discharge cells (these are adjacent discharge early cells)' There is a discharge space 1Π (non-discharge area) defined by the three-dimensional intersection of the two column electrodes 104, 105 and the row electrode log, but in AC-PDP101, the distance of the non-discharge gap ng is set It is wide enough so that no discharge occurs. However, a black insulating material is sometimes arranged on the non-discharge cells. At this time, the 'black insulating material is arranged It has a strip shape, and a black horizontal line can be seen on the display surface of the PDp, so it is also called a "black strip (Mack strip). The phosphor material itself is white when non-luminous, causing a problematic contrast. Secondly, the second conventional technique, AC-PDP201, is illustrated using Figures 26 and 27. Figure 26 shows the ACpDp2 of the second conventional technique. 〇1 structure plan, Figure 27 is a longitudinal sectional view taken along line II-II of Figure 2. AC-PDP with this structure is disclosed in, for example, Japanese Patent Laid-Open No. 0-12026. As shown in Figure 26 As shown in FIG. 27, ac_PDP201 is provided with a rear glass substrate 203 that is opposite to the front glass substrate 202 and the front glass substrate 202 as the display surface, and the discharge space 211 is opposed to each other. 202 of the discharge space 2 丨 丨 恻 on the surface is divided into -f installed ----.--- order ----: ---- Γ, line (Jing first read the precautions on the back before refer to this page )

: ^ ¾¾ • Intellectual property life expectancy H &quot; Fee ♦ · .. ^-11 A7 _______B7 __ V. Description of the invention (5) Column electrodes 2 0 4 and column electrodes 2 0 5 are formed at equal intervals by other fathers. In addition, Similar to the AC-PDP101 described above, the column electrodes 204 and 205 may be composed of a combination of a transparent electrode and a mother electrode. In this case, an electrode composed of a transparent electrode and a mother electrode is also referred to as a -column electrode. 2 04, 2 05: Then, a dielectric 206 and a protective film 20 7 are formed on the column electrodes 204 and 205 in this order (commonly referred to as the “dielectric layer 20 6A”) = extended on the back glass substrate 203 There are row electrodes 208 perpendicular to the column electrodes 204 and 205 (three-dimensional intersection), and a dielectric layer 212 is formed so as to cover the row electrodes 208. The two glass substrates 202 and 203 are opposed to each other via the partition wall 210. As shown in FIG. 26, the space between the two glass substrates 202'203 is divided into a plurality of angular columnar discharge spaces 2Π by the two glass substrates 202'2 03 and the partition wall 20. At this time, in the plan view of FIG. 26, a partition wall 2] 0 is arranged at the center of each discharge space 2 1 1 so that the gap between the adjacent row electrodes 204 and 205 and the row electrode 208 are partially intersected. Consistent. Here, in AC-PDP20, the gap between the adjacent column electrodes 204 and 205 becomes the discharge gap DG ', so there is no non-discharge gap, that is, there is no non-discharge cell = so, in AC-PDP20 丨'' A discharge shield element defined by the three-dimensional intersection of the column electrodes 204, 205 and the row electrode 20 is separated by the adjacent discharge cells surrounded by the partition wall 21 () (as shown in FIG. 26). 2 () 8 is composed of the part opposite to the discharge space 2 1 1 and the part m opposite to the partition 2] 0. And the two parts are along the row electrode :! Intersections of the main distances of the configuration spacing, .¾ are repeated to form: Ling Λ: ν 丨 绦, r Dang j '] &lt; ί · | t -¾ -¾ .. i ------- ..-, ,,. ________________________ ___......-_____ ,, ___________ ^: 'v; ·:%; K &gt;' 1 1 ^:! IH-m (锖 Read the precautions on the back first Fill in this page) Order --- 4 6 65 2 5 Printed by the Consumers ’Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 V. Description of the invention (6) Each dielectric layer 2 12 and the side wall surface of the partition 210 (part of it) ) Is coated with a matte layer 209 of the same luminescent color. That is, a plurality of discharge cells for light emitting colors of any one of red (R), green (G), or blue (B) are arranged along one row electrode 208 '. In other words, one row electrode 208 corresponds to one luminous color (or display color). Therefore, in AC-PDP201, "three discharge cells for each light-emitting color arranged in a triangle (one example of the arrangement is shown in Figure 26 as R, G, and B) is constituted for white display. The arrangement of 1 pixel of this type is also called "triangular arrangement". The other structures of the 'discharge gas' are the same as those of the first conventional technique. Here, a comparison is made between AC-PDP101 (and AC-PDP301, 401 described later) with discharge cells arranged in a stripe and AC-PDP201 with discharge cells arranged in a triangle, and the differences between the two structures will be explained. A. The electrodes are arranged on the AC-PDP1 0 1 side. If a predetermined voltage is applied to a pair of electrode pairs 1 and 1, the voltage applied to the row electrode 108 can be controlled to light up red, green, and blue. Each light-emitting unit. That is, a pair of column electrodes 104 and 105 correspond to one display line. On the other hand, in the "AC-PDP201", one pixel is composed of discharge cells for each light-emitting color arranged in a triangle, and each discharge cell is arranged one by one at a half pitch of its arrangement pitch. One display line (the light-emitting unit to which it belongs), and three consecutive row electrodes must be arranged, that is, a total of three column electrodes of a group of column electrodes 204, 205 and a column electrode 204 (or 205) adjacent thereto Apply voltage. The size of this paper is applicable to the national standard (CNS) A4 specification (2〗 0 X 297 mm) 6 ------ I ----.-- installation ---- II -I order · --- _---- T &quot; -line &lt; Please read the notes on the back before filling in this page) A7 ___B7_________ V. Description of the invention (7) Here is a three-dimensional view of the AC of the third conventional technology using AC -PDP301. The structure of AC-PDP301 is disclosed in, for example, Japanese Patent Laid-Open No. 5-2993. In addition, in the following description, in the AC-PDP301, the same component numbers are used for the same components as the AC-PDP10H already described (see Figure 25). As shown in Figure 28, AC-PDP30 丨 corresponds to the 25th The partition wall 110 of the AC-PDP101 shown in the figure has a partition wall 110 R arranged on the back glass substrate 103 side, a partition wall 110F1 arranged on the front glass substrate 102 side, and a strip-shaped partition wall 110F 2 arranged perpendicular thereto. At this time, with the partition wall 110F2, a plurality of discharge cells 3 side by side along the partition walls Π〇F1, 11 OR are separated separately. In AC-PDP301, the column electrode 104 ′ 105 is formed across the partition. The shape of the two discharge cells adjacent to the partition wall U0F2 and directly adjacent to the partition wall 110F2 are formed at equal intervals. In other words, the AC-PDP30 1 column electrodes 104 and 105 have the AC shown in FIG. 25 described above. -One of the two pairs of column electrodes of PDP101, AC-PDP301 (total of four), the shape of the two column electrodes located in the center is integrated. In addition, AC-PDP301 is connected to a plurality of column electrodes 104 (or column electrodes 10). 5) Grouping the even-numbered electrode and the odd-numbered electrode, and driving a in this group unit: AC-P DP with the same electrode structure as AC..PDP30 丨 revealed for example in g In Japanese Patent Laid-Open No. 9-16 0 5 2 5 'this M: -PDP is referred to as AC-PDP40 1 of the conventionally known technology, and it is explained using a perspective view of FIG. 29. In addition, \ (&gt; PDP40! And AC-PDP! 0! Structure and other constituent elements of the aphid. The same Yuanshe symbol is as shown in Figure 9 T; &gt; 〇? I. (); Yu 笊With Λ (.. PM:) P4 0)% s graph Λ (.. ---_ „π ------- ----------- 'ten 4〆.¾, Jia Chuang . 章 # .Λ] 崎 ， 洛 公 鬉 (Please read the precautions on the back before filling out this page)-装 -----

Order ---------- Line ------- I 4 6 85 2 5 Α7 Β7 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs V. Description of Invention (8) Next door to PDP301 iiOFl, 110F2. The AC-PDP401 'is driven by the same drive circuit as the AC-PDP301 as follows. That is, by separating the 1-frame period into an odd-numbered field and an even-numbered field to select a display unit driving method, so-called interlaced scanning is performed on the AC-PDP401 to prevent Disturbances caused by discharges between adjacent discharge cells. Thereby, it is not necessary to divide partition walls parallel to the column electrodes 104 and 105 of the discharge cells adjacent to each other along the row electrode 108. Therefore, the Ba (:-1 ^? 401 series has almost the same structure as the AC-PDP101 mentioned above, and has a higher resolution than ac-PDP101. Β. The shape of the makeup next door is shown as AC- PDP301 'When one column electrode 104, 105 is configured to span two discharge cells (or two display lines) adjacent to each other along the length of the row electrode 108, basically, there are It is necessary to arrange the partition wall and separate the two adjacent discharge cells from the width or short axis of the column electrode of the column electrode (except the partition wall parallel to the row electrode). At this time, AC-PDP401 shown in Figure 29 'When the phosphor layer 10 is extended parallel to the row electrode 108 (vertical to the column electrodes 104 and 105), that is, when the discharge cells for each light-emitting color are arranged in a stripe, as described above, By interlaced scanning, the next wall 11 oF2 along the display line can be omitted. In contrast, as shown in Figures 26 and 27, when the AC-PDP201 shown in Figures 26 and 27 is arranged in triangles, Since the phosphor layer 209 for each light emitting color is mixed in a direction parallel to the row electrode 208, it cannot be saved. Next door 210 », which means' It is not necessary to surround each discharge cell ----, --- Ί Order --I I .-- I Ί (锖 Please read the precautions on the back before filling this page> This paper Standards are applicable to China National Standard (CNS) A4 specifications (210 X 297 male if) 8 311850 A7 b / Short-term Economic and Intellectual Property Bureau s1- &quot; · Feihe &quot; -v ·· :: 5. Description of the invention ( 9) The shape of the partition next to the surrounding wall is not allowed. Here, when comparing the shape of the partition from the tooth points of the PDP manufacturing process, the ac-PDP shown in Figure 25 is used. a. The strip-shaped partition wall of the U1 net is superior to the shape of the partition wall of the ac-PDP ^ O! dizzy batch 1 shown in (b) Figure 26 and Figure 27. Below, this point will be explained. First, a field comparison When the phosphor layer is formed, (a) AC-PDP 1 〇1 as shown in FIG. 25, when the partition wall i 丨 〇 is stripe, it is necessary to use the above U-shaped unit formed by the partition wall 11 〇 and so on. It is sufficient to apply a phosphor for a predetermined luminescent color to the Li-shaped groove, so it is easy to align the partition wall 110 in the phosphor coating step. In contrast, as shown in FIG. 26 (b) And the next wall 210 shown in Figure 27 In the shape of the partition wall, it is necessary to coat the phosphors of each luminous color at half the pitch of the arrangement pitch of the discharge cells, so higher alignment is required than in phosphor coating steps such as AC-PDP! 0 丨Accuracy. In the exhaust step and the discharge gas conducting step of the gap ('discharge space') between the substrate and the back glass substrate before the bonding, the preferable ones are: (a) AC-PDP 丨 0丨 The conductance of the strip-shaped partition wall π is smaller than the partition wall 2 1 〇 of (b) AC ~ PDF> 201 which is divided into a discharge space completely surrounding the gap, and the discharge control from the PDP The point of view is that the strip-shaped wall of At — pop i () 丨 and the like 丨 1 〇 is more favorable + that is, in 'ρ Γ) P with strip-shaped sacrifice walls due to discharge.兔. Rabbit's electric 岈 particles will quickly% length toward Chaodian Yubi t 句 sentence extension · blink reading $ .μ 弟 必 电 6 to do :, r increase ¥ such as the discharge control of the discharge of the ten dead (please read the back first Please fill in this page again) —I mn dt.! 1 Ϊ-^^ * i 1— I l ·. Line IF n 11 1 1 i

V. Description of the invention (10) c. Utilization ratio of display surface resolution The resolution of display panels such as PDP depends on the number of display units formed in a predetermined display area. That is, if more display units are formed in a limited display area, the resolution becomes higher. In addition, in the case of the same resolution, the area of the display unit is increased as much as possible, which can improve the luminous efficiency of the display unit and the PDP. Therefore, it is better to increase the area of the part (display area) related to the display of the image as much as possible, while reducing the area of the part (non-display area) not related to the display of the image as much as possible. In view of this point, compared to (a) AC_PDP101 in Fig. 25, which has a non-display area, because (b) AC-PYP 201 in Fig. 20 and 27 'does not have a non-display area, so It can be said that AC_pDp201 is a more desirable structure in terms of luminous efficiency and resolution. In addition, 'when interlaced scanning and driving AC_Pdp4001 shown in Fig. 29', because the area equivalent to the non-discharge cell of AC-PDP101 in Fig. 25 is used as a discharge cell, it is better in resolution than AC_PDP201 More expected. However, during the interlaced scan, the display area adjacent to the display line is in a non-lighting state during the period during which the display line is lit, so when viewed instantly, the total area of the light-emitting unit controlled by lighting It is equivalent to AC-PDP101. In addition, the time required for one pixel to emit light by interlaced scanning is one and a half of the driving method when a non-discharged cell area is not used as a discharge cell. Therefore, in order to obtain a desired brightness, this driving method must be used. 2 times the frequency to drive. Next, the display operation principle of the AC-PDP101 (or 20 1) described above will be described. 15 First, a voltage pulse is applied between the column electrode pairs 104, 105 (204, 205) ---- I -------- * ------- ^ Order --- 1 I 1 --- ^ -line (please read the note on the back first and then fill out this page) Employees of the Intellectual Property Bureau of the Ministry of Economic Affairs and Consumer Co-operation Du Printed Paper Standards Applicable China National Standard (CNS) A4 specification (21 × χ297 mm) 10 -111850 A7 A7 Intellectual Property Bureau of the Ministry of Economic Affairs fee il \ V. Description of the invention (11) Discharge caused by the impact. Then, the phosphor layer 109 (209) is excited by the ultraviolet rays generated by the discharge, so that the discharge cells emit light. When this discharge is performed, the electrons or ions generated in the discharge space move toward the column electrodes 104, 105 (204, 205) having opposite polarities to each other, and accumulate on the column electrodes 104, 105 ( 204, 205) dielectric layer! On the surface of 06A (206A), the electric charges such as electrons or ions accumulated on the surface of the dielectric layer 106A (206A) are referred to as "wall charges". The electric field formed by the wall charges moves in the direction of weakening the electric field by the voltage applied to the column electrodes 104, 105 (204, 205), so that the discharge is rapidly eliminated as the wall charges are formed. After the discharge is extinguished, when a voltage pulse with a previously reversed polarity is applied between the column electrodes, 105 (204, 2G5), the electric field due to the overlap of the applied electric field and the electric field generated by the wall charge is essentially applied to the discharge. Space, so discharge can occur again. In this way, when a discharge occurs, a voltage lower than the voltage at the beginning of the discharge is applied (hereinafter referred to as "sustained electricity, which can generate a discharge, so Γ / ^ β is doped with U electricity 4, 1G5 (2Q4 (205, 205) to reverse the polarity of the sustain voltage (hereinafter, referred to as the sustain pulse, the discharge can be stably maintained, “rush”). Discharge: Material discharge 1 r This discharge is called-sustain the sustain discharge. Wall charges continue to be applied with sustaining pulses—noisy ..., the period is simply called 'erasing. Phase envy yi. — The situation of He annihilation' 1 here. The beginning of the discharge will be in the battle of Lei Α God.

Complement Magic I: Formation. Police Thunder ... Plant body layer K) 6A '咴 堃-坷 的 情. The form is called to write A .: ϊ, κ..,'.

s Drum ^: broadcast by the first._ 窝 〇I 1 --- Order --------- (Please read the precautions on the back before filling out this page) 1 ― 丨 ―called the Intellectual Property Bureau of the Ministry of Economic Affairs Printed by the Consumer Goods Cooperative 466525 A7 B7 V. Description of the invention (12) Characters, graphics, and images can be displayed by sustain discharge. In addition, writing, sustain discharge, and erasing can be performed at high speed, and animation can be displayed. Next, a more specific driving method of the conventional pDp will be described using FIG.30. As one of the mediating methods of the conventional AC-PDP101 (refer to No. 25), there is, for example, a driving method disclosed in Japanese Patent Laid-Open No. 7_16〇218 (or Japanese Patent No. 2772753). Fig. 30 is a timing chart showing driving waveforms in the i field (SF) of the box moving method. In addition, in the following description, "the n column electrodes each" are referred to as "column electrodes = i to η)" and each n column electrodes 105 are referred to as "column electrodes γ ^ = i to n)" 'Simultaneously' all of the column electrodes Y1 to Υη are driven by a single driving signal (voltage), collectively, n rows are also called r column electrodes γ "β, and the row electrodes 108 of each row are called" row electrodes Wj ". = 1 to. The sub-picture field (SF) shown in FIG. 30 is to divide the i frame (F) for image display into one of a plurality of periods. Here, the sub-picture field is further divided into "reset period", Three of "address period" and "sustained discharge period" (also referred to as a sustain period or display period). First of all, in the "reset period", it is used to erase the display history at the end time of the previous sub-field, and at the same time, supply of priming particles to increase the probability of discharge immediately after the address period. β specifically, 'all write pulses VP are applied between all of the column electrodes XI to χη and the column electrode 电压, and a full write pulse VP is generated to generate a voltage value of a self-erase discharge when they fall, so as to erase the display history. At this time, a voltage pulse Vp 1 is applied to the row electrode Wj. Secondly, in the "address period", the paper size of the factor matrix is selectively applied to the Chinese National Standards Complete (CNS) A4 standard (210 x 297 mm) 311850-! ----— Order -------- 1 line \. (Please read the regrets on the back before filling in this page)

AT V. Description of Invention (13) The discharge cell selected and displayed generates a discharge to form a discharge on the discharge cell; Specifically, as shown in FIG. 30, first, a scan pulse Vxg &lt; voltage value Vxg (&lt; 〇)) is sequentially applied to the column electrode Xi, and the row electrode is opposed to the row electrode. Wj cesium plus the voltage pulse VwD (voltage value VwD (&gt; 0)) of the image data causes a 1-discharge discharge between the row electrode Wj and the column electrode XY. " In addition, during the address period, a sub-scan pulse Vysc (voltage value Vysc (. &Gt; 0)) is applied to the column electrode \, and at this time, a potential difference (Vysc. Potential difference (vysc-vxg) 'is a potential difference that can trigger the previous write discharge and generate a sustain discharge directly between the column electrodes X1 and Yi, although it has not yet started to discharge. The discharge, like the construction, is the surface of the dielectric layer 106A (see FIG. 25) of the discharge cell: the product can be stored only by applying the subsequent sustain pulse Vs.

^ Ί ”, Weige discharge I or negative wall charge. Please read the precautions on the back before filling in this page) -Installation ---- --Order, i so ’&quot; address discharge_, by ① the column electrode t

Wj Consumption cooperation between employees of the Intellectual Property Bureau of the Ministry of Economic Affairs-£. ': .I ··: · selectively generated "write discharge —" and ② generated between electrode x and column electrode Yl-write In order to maintain the power of the enemy to constitute the electricity. In contrast, electricity and the two rose because of the discharge generation when the image is displayed (also in the state of being turned off: no electricity bill should be generated.) The accumulation of discharge life between the column electrodes X r γ is maintained during the period of hostile electricity. The cloth Π τ $ will be at -7Τ fe '•'% 'wall electricity ίύτ line -----: ¾ period: ¾ will become Ji · Read by earning X.. V. 'h-, 1 ·,' by correcting electricity; Ί 「哞 -ft ^ 〇b2 5 A7 I -_iZ ______ 5. Explanation of the invention (14) ------ ------ ·! Install --- (Please read the precautions on the back before filling out this page) The discharge cells that have performed the above-mentioned write operation will continue to be discharged during this period. In addition, the sustain discharge During the period, a voltage Vs2 set to an approximate voltage (vs / 2) is applied to the voltage value vs of the sustain pulse Vs on the row electrode%. This is because when moving from the address period to the sustain discharge period, The discharge can be started stably. [Problems to be Solved by the Invention] &lt; Problem 1 &gt; As described above, from the viewpoint of the controllability of the formation of the phosphor layer, the introduction of a discharge gas, and the discharge It is more advantageous to use a strip-shaped partition wall such as ACPDPl (n, etc., such as AC-PDP201 to completely surround the discharge cell. However, in AC_pDp with a strip-shaped partition wall, it is sometimes caused by the discharge. The charged particles rapidly expand toward the length of the strip-shaped partition wall, but it is easy to induce a mis-discharge between the discharge cells arranged along the partition wall. To prevent this mis-discharge, 1-line AC_PDP10.1 There is a non-discharge area or non-discharge unit between the discharge cells arranged next door. However, printed by the Consumer Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs. When the non-discharge area is set in this way, the non-discharge area will cause the utilization of the display area. In contrast, when the PDP is driven by interlaced scanning as described above, the non-discharge cell area of the AC-PDP101 is also used as the discharge cell. It can increase the resolution and increase the utilization ratio of the display area. However, "only one half of the display area is used for discharge at the moment of driving, so in order to obtain the same level of luminous brightness as the driving method without interlaced scanning", The number of applied pulses per unit time is increased by 311850. This paper size is applicable to the Chinese National Standard (CNS) A4 specification (210 X 297 meals). Intellectual Property Bureau of the Ministry of Economic Affairs-x &quot; Bu Fazhi A7 V. Description of the Invention (b) Necessity of institutions such as driving frequency. At this time, since it is necessary to increase the instantaneous power supply capacity of the power supply, as a result, the effect of improving the luminous efficiency may not be obtained. Assuming that the non-discharge cell area of the AC-PDP101 is also used as a discharge cell, and it is not necessary to drive with interlaced scanning, it is difficult to arrange the electrodes across a column and share two electrodes in the column. The discharge cell does not need to be provided with a partition wall for separating the two discharge cells (refer to the partition wall 1 丨 0F2 in FIG. 28), and it is difficult to prevent the induction of the wrong discharge between each other and drive. &lt; Problem point 2 &gt; Even in any one of the AC-PDPs 101 to 401 described above, an erroneous discharge from a discharge unit that is lit or should be lit to a discharge unit adjacent thereto may occur. induction. That is, the discharge cells which are arranged side by side along the display line are likely to exceed the barrier ribs because they share a column electrode pair ', and discharge occurs. For example, 'When there is a gap between the top of the partition wall and the side of the glass substrate opposite to the partition wall, or in the PDP process, a gap is formed due to a defect or breakage in the partition wall, etc., the charge particles caused by the discharge will pass through These voids diffuse and therefore easily pass over the partition wall and cause erroneous discharge. Therefore, the partition wall is required to have manufacturing accuracy and its own strength when manufacturing: And-for example, due to the electric field interference between adjacent discharge cells, a false discharge exceeding the partition wall may occur at this time. It is formed when the row electrode leaks from a predetermined position. Time Valley is prone to occur. Wu discharges in A [. P D p uu. For example, during the address period, due to the strong electric field in the space between the parent pin X ... and the fr electrode w Qiu H 彳 ..; f 砀 w: the configuration bit I --------- Order --------- I (Please read the notes on the back before filling this page) &quot; ^ 3 fe *-'9: 652 5 A7 B7 V. Description of the invention (16) When formed, it is easy for erroneous discharge to occur in adjacent discharge cells due to the strong electric field. &lt; Problem point 3 &gt; Also, in the case of setting black bars on the non-discharge area in AC-PDP101, the horizontal lines of black can be clearly seen in the boundary between the light-emitting area and the non-light-emitting area. Poor. The present invention is an inventor in view of the problems 1 to 3 described above. First, a first object of the present invention is to provide an AC plasma display panel capable of significantly suppressing / removing false discharges. And 'the second objective is the same as the realization of the first objective mentioned above, and is to provide an AC-type plasma display panel which can be manufactured with the same or easier process technology as that of the AC-PDP101 01 manufacturing method. Moreover, the first The three-purpose system is the same as the realization of the first and second objectives described above. 'It is to provide an AC-type plasma display panel which is more recognizable than the conventional AC-PDP. In addition, the “fourth object is to provide an AC plasma display panel that can further increase the driving voltage limit of the AC plasma display panel used to achieve the above first to third objectives, and can be driven stably.” The fifth objective is to provide a plasma display device including an AC plasma display panel capable of achieving the first to fourth objects. A sixth object is to provide a method for operating an AC-type plasma display panel suitable for achieving the first to fourth objects. [Means for Solving the Problem] (1) AC-type plasma related to the invention described in item 1 of the scope of patent application ------I ------- Xiang ----? 1— J— Order ---- i --- 1 line%.-(Please read the item on the back before filling this page) Printed on paper standards of the Ministry of Economic Affairs and Intellectual Property Bureau Employees' Cooperatives Applies to Chinese National Standards (CNS) A4 specification (210 X 297 mm) 16 311850 Consumption of employees of the Intellectual Property Bureau of the Ministry of Economic Affairs Λ: ί1: ··· 'A7 _B7_ V. Description of the invention (17) The display panel is characterized by having: And a plurality of non-discharge cells arranged on the same surface; and a plurality of non-discharge cells arranged on the same surface; and The discharge gaps' are arranged adjacent to each other through at least one of the aforementioned non-discharge gaps in a direction parallel to the display line. (2) The AC-type plasma display panel related to the invention described in item 2 of the patent application scope is an AC-type plasma display panel such as the item 1 of the patent application scope. It further includes: a first substrate: The second substrate in which the first substrate is oppositely disposed: a partition wall for dividing a space between the first substrate and the second substrate into a plurality of discharge spaces; the first electrode and the second electrode respectively extend in parallel to the foregoing A strip-shaped first portion on the display line: a second portion protruding toward the discharge cell side while being connected to the first portion, and a first electrode and a second electrode disposed on the first substrate side; covering the first portion A dielectric of at least one of the second electrode and the second electrode: and arranged on the second substrate 于 in a direction that intersects the first portion of the first and second electrodes with a three-dimensional cross-section At the same time, the band-shaped third electrode of the aforementioned discharge cell or the aforementioned non-discharge cell is limited. The aforementioned discharge gap is defined by each of the aforementioned-· ++ · and the second electrode. The two opposite edges of the fan discharge generation before Erdufen were formed: the aforementioned non-existent electrical gap was formed by combining the aforementioned first and second electrodes in each of the aforementioned parts. The Western phase to the number is divided into two. The two edges are formed into a '::' related to the application of the N 铓 enrollment item ^ Γ: Huiji II $ electric t (please read the precautions on the back before filling this page)

〇S5 2 5 A7 printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs. 5. The description of the invention (M) display board is an AC plasma display board such as the second item in the scope of patent application, in which the aforementioned first and second electrodes Each of the aforementioned second portions' is configured with the two edges constituting the discharge gap so as to be along the length direction of the third electrode. (4) The AC plasma display panel related to the invention described in item 4 of the patent application scope is the AC plasma display panel of item 2 or 3 of the patent application scope, wherein a plurality of the aforementioned first and second electrodes The arrangement is alternately arranged. Moreover, the discharge gap is arranged adjacent to each other through one or more of the non-discharge gaps in a direction perpendicular to the display line. (5) The AC plasma display panel related to the invention described in item 5 of the patent application scope is the AC plasma display panel of item 4 of the patent application scope, which is located between the first or second electrodes. The two aforementioned second parts of the aforementioned first part and two aforementioned discharge gaps located on both sides are connected to the aforementioned first or second electrodes sandwiched between the two discharge gaps. (6) The AC-type plasma display panel related to the invention described in item 6 of the scope of patent application is the AC-type electric paddle display panel of item 1 of the scope of patent application, which is provided with: a first substrate: The first substrate opposite to the first substrate is used to divide the space between the first substrate and the second substrate into partition walls of a plurality of discharge spaces: a first strip-shaped portion extending parallel to the display line, respectively. And a second, strip-like second portion extending along the lengthwise direction of the first portion while connecting the first portion and perpendicular to the lengthwise direction of the first portion, and protruding toward both sides through the first portion. The first electrode and the second electrode, which are partially configured and disposed on the first substrate side, are used to cover the foregoing and HI ^ 1 ϋ I It af I n ϋ n T— n ^ 1- I ^-04 · fj n I »« II nn 4— I l '-&lt; Please read the connotation on the back before filling this page) This paper size applies to China National Standard Season (CNS) A4 grid (210 X 297 mm) L8 311850 A7 Bureau of Intellectual Property, Ministry of Economic Affairs令. 咋 社 -.1; »&quot; V. Description of the invention (/ At least one of the second electrodes Lei Jie 艚 ... 1: 1 is arranged on the side of the second substrate above the first and second thunder poles. Jiu Jiu, +. Gu Jiji ’s first part of the fans-in the direction of three-dimensional intersecting, 'limits the aforementioned first and second electrodes, and at the same time, defines the plurality of band-shaped discharge cells or the aforementioned non-discharge cells. A third electrode; and a three-dimensional intersection between the gap at least adjacent to the second portion and the third electrode to define the non-discharge cell suppressor; and the discharge gap is defined in the first section. —The “non-discharge gap” formed by the two edges of the foregoing discharge m in each of the foregoing second portions of the second electrode and the opposite portion is formed by “in the foregoing” The non-discharge cell is formed by two edges of the opposite saki. (7) The AC-type electric display panel related to the invention described in item 7 of the scope of patent application is an AC-type plasma display board such as the scope of patent application item 6. Where 'front speed The suppression system is disposed on the second substrate side. (8) The AC plasma display panel related to the invention described in item S of the patent application scope is the AC plasma display panel of item 7 in the patent application scope, of which, The above-mentioned discharge suppression system has the same height as the aforementioned partition. (9) The AC-type plasma of the invention described in item 9 of the scope of patent application is the configuration of the discharge-suppression system as shown in the AC-type plasma display panel of the scope of patent application 6 On the aforementioned-substrate side, the aforementioned display panel, wherein the front system includes at least one of the aforementioned first and second electrodes, and a convex portion r *, Η for forming a front fan discharge suppressing body) ; About Jiajing patent scope fill in the item of the invention of the invention of the cross-shaped slurry display board. 涑 If the reading special and: Scope dishes h ΐ G item: item dagger; LH50 (Please read the back Note for this page, please fill in this page), · I ni I n a · nn 1 · c I- I nn 1 4 6 652 5 A7

The printed plasma produced by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs did not show up. Among them, the aforementioned discharge suppression system was not connected to the aforementioned building. (11) The AC plasma display panel related to the invention described in item n of the patent application scope is the AC plasma display panel of any one of the patent application scopes 6 to 10, wherein the aforementioned discharge suppression system is at least The first substrate side is black. (12) The AC-type plasma display panel related to the invention described in item 12 of the patent application scope is an AC-type plasma display panel as described in any one of the patent application scopes 6 to n, wherein a plurality of the aforementioned first And the second electrode are arranged alternately, and the discharge gap is arranged adjacent to each other through one or more of the non-discharge gaps in a direction perpendicular to the display line. (13) The AC plasma display panel related to the invention described in item 13 of the scope of patent application is the AC plasma display panel of any of scope 2 to 12 of the scope of patent application. Or when the AC plasma display panel is viewed on the second substrate side, the discharge cells are larger than the non-discharge cells. (14) The AC-type plasma display panel related to the invention described in item 14 of the scope of patent application is an AC-type plasma display panel of any one of the scope of patent applications 2 to 13 where the aforementioned partition wall is formed by A plurality of strip-shaped partition walls adjacent to the third electrode are arranged along the length direction of the third electrode, and the interval between the two partition walls adjacent to the third electrode is such that a portion that divides the discharge cell is set as Divide the portion of the aforementioned non-discharge cell 苋. (15) AC-type electricity related to the invention described in item 15 of the scope of patent application -ί —-install ----; ----— order ----.---.- (Please read the Note *? #. Please fill in this page again} This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 public love) 20 311850 * A7 A7 Intellectual Property Bureau of the Ministry of Economic Affairs_T-.. ^ f &quot; A &quot; .:-: _B7_ V. Description of the invention (21) The plasma display panel is an AC-type plasma display panel such as the scope of application for patents Nos. 2 to 4; wherein the partition wall is formed along the length of the third electrode. A plurality of strip-shaped partitions are arranged to divide the adjacent third electrodes. The interval between the two adjacent partitions is to form a portion that divides the discharge cells to be wider than a portion that divides the non-discharge cells. (16) The AC plasma display panel related to the invention described in item 16 of the scope of patent application is an AC plasma display panel of the scope of patent application items 2 to 12, wherein 'from the first or When the AC plasma display panel is viewed from the side of the second substrate, the size of the discharge cells and the size of the non-discharge cells are equal. : (1 7 :) The AC plasma display panel related to the invention described in item 17 of the scope of patent application is the AC plasma display panel of item 丨 of the scope of patent application, which further includes: a first substrate: A second substrate disposed opposite to the first substrate at a predetermined distance: a partition wall for dividing a space between the first substrate and the second substrate into a plurality of discharge spaces: strips respectively extending in parallel on the display line The first part of the shape: and the second part connected to the first part and perpendicular to the length direction of the first part, and the second part facing the two condyles through the first part: and arranged on the first substrate The first electrode and the second electrode on the side; used to be at least the square of the first second electrode: α and the sub-electrode are arranged on the second substrate side between the first and second electrodes. The directions of the three-dimensional cross-sections of each of the aforementioned -parts 1 define the aforementioned ... and second electrodes and simultaneously determine the previous fan discharge generation or the plural number of the aforementioned non-enemy mouse. The first electrode is then placed in a pen. :; 3! 'Ίν-' i ·. *.);-; ri '9 .. d _ Lian. try-: Meng, U: Weng Mi. Xu Dian S on: r; two: f ί filial piety> {Please read the notes on the back first (Fill in this page again); install ---- -----t-- 4 6 652 5 Consumption Cooperation by Employees of Intellectual Property Bureau of the Ministry of Economic Affairs, printed by A7. 5. Description of Invention (22) is formed. Each of the aforementioned second portions ′ of the aforementioned first and second electrodes is formed with opposite edges of the non-discharge cell opposite to the ridge. ⑽The AC-type electric display panel of the invention described in the 18th patent scope of the relevant patent application is the same as the AC-type electric condensing display of the 17th patent scope. Among them, a plurality of the aforementioned first and second electrode systems are alternately arranged. : In addition, the discharge gap is arranged adjacent to each other through at least one of the non-discharge gaps in a direction perpendicular to the display line. (19) The AC-type plasma display panel related to the invention described in item 19 of the scope of patent application is the AC-type plasma display panel of item 18 of the scope of patent application, which is located between the first and second electrodes. The aforementioned first part, and the two aforementioned second parts between the two aforementioned discharge gaps on both sides are connected to the aforementioned first or second electrode sandwiched between the two discharge gaps β (2〇). The AC-type plasma display panel of the invention described in item 20 of the patent application scope is the AC-type plasma display board of any one of item 17 to 19 of the patent application scope, wherein the first or second substrate side When the AC plasma display panel is viewed, the discharge cells are larger than the non-discharge cells. (2 1) The AC-type plasma display panel related to the invention described in item 21 of the patent application scope is the AC-type plasma display panel of any of the items 17 to 20 of the patent application scope-which is the first part of the foregoing It is linear, and in the second part of the first and second electrodes, a part of the edge side that forms the discharge gap through the first zipper is larger than that through the first ---- ------ Installation ----------- Order ----- I --- 1 · Thread (Please read the precautions on the back before filling in this page) National Standard (CNSM4 Regulation (210 X 297 mm) 22 3Π850 Intellectual Property Bureau of Ministry of Economic Affairs, Industrial and Consumer Consumption η.:. Ϊ́κϊ. Η A7 _B7__ V. Part of the Invention Description (23)) forming the aforementioned non-discharge gap Edge side part. (22) The AC plasma display panel related to the invention described in item 22 of the patent application scope is the AC plasma display panel of any of the patent application scopes 7 to 21 * The partition wall is a plurality of adjacent third electrodes arranged along the length direction of the third electrodes. The strip-shaped partition wall is adjacent to the two partition walls, and the portion dividing the discharge cell is set to be wider than the portion dividing the non-discharge cell. 13 [23] The invention described in item 23 of the scope of patent application The AC-type plasma display panel is the AC-type plasma display panel 1 according to any one of items 2 to 22 of the patent application range, wherein the first and second parts are made of an opaque conductive material. The second part has an opening. (24) The AC-type plasma display panel related to the invention described in item 24 of the patent application scope is an AC-type plasma display panel as described in any one of the patent application scopes 1 to 23, wherein The other parts are provided with a black insulating material. (25) The AC-type electric pad display panel related to the invention described in Item 25 of the scope of patent application is the AC-type plasma display board of Item 24 in the scope of patent application · where = the black insulating material is disposed on the first substrate Within the surface of the aforementioned discharge space side is on a region corresponding to the aforementioned non-discharge cell. Related to the application of the patent scope of the 26th Graphic Arts invention of the AC-type plasma display: r fe 洚 π to apply to Fanffi? -丨 The AC-type electric paddle display board with an umbrella. The front fan black cockroach f instrument configuration is described before. 述 fe ------------------- --- Order ----- ------ (Please read the back of the page; I will fill out this page before filling in this page) The employee cooperation cooperation printed by Funji Zou Intellectual Property Bureau 0 652 5 A7 ----- --- V. Description of the invention (24) &quot; '&quot; () The AC-type electric display panel related to the invention described in item 27 of the patent scope is the exchange of any one of the items 2 to 26 of the scope of patent application The width of the aforementioned first part of the plasma display panel "wherein" is uneven along the length direction of the aforementioned first part. (28) The AC-type electric display of the invention described in item 28 of the scope of patent application is not as the AC-type plasma display quilt of item 27 of the scope of patent application, in which the width of the aforementioned part- The narrower, and wider toward each end "(29) The AC plasma display panel of the invention described in item 29 of the scope of patent application 'is the same as the AC plasma display panel of scope 27 of the patent application' The aforementioned width of the first part is the wider in the center and narrower toward each end. (30) The plasma display device related to the invention described in item 30 of the patent application scope is provided with an exchange type plasma display panel as in any one of the patent application scope items 1 to 29. (31) The driving method of the AC plasma display panel related to the invention described in item 31 of the scope of patent application is the AC plasma display panel of the scope of patent application 23, in which a plurality of the first and The two electrodes are arranged alternately, and the discharge gap is a driving method of an AC plasma display panel arranged adjacent to each other through one or more of the aforementioned non-discharge gaps in a direction perpendicular to the display line, which is characterized in that: The discharge cells ′ disposed on one side across the first portion and the discharge cells disposed on the other side do not form a discharge at the same time. [Implementation Mode of the Invention] I--I ------ Equipment ---- Γ --- 'Ϊ Order · ---- It II 靖 (Please read the precautions on the back before filling in this page} This paper size applies Chinese national standard (CNS &gt; A4 specification (210 * 297 mm) 24 311850 Member of Intellectual Property Bureau of the Ministry of Economic Affairs χ · Consumption ^ $ ^. 1 ^ A7 --------- B7_____ V. Description of the invention (25) Figure 1 is a plan view showing the construction mode of the AC-PDP 51 1 in the first embodiment: Figure 2 is an enlarged view of the main part of the figure. In addition, PDP51 is located in the electrode and the partition wall (also known as-barrier wall). There are features in the structure of “barrier nb” ”or rib-), so this point will be described as the center, and only the electrodes and partitions with ac-PDP5] are shown in Figures 1 and 2. AC-PDP "1's other components can be equivalent to the previous aC_PC) P. Therefore, the same components as those of AC__pDp 丨 〇i to 〇1 (refer to Figures 25 to 29) can be applied. The same component symbols are attached and the description is referred to. This point is also the same in the following description of the second embodiment and later. As shown in Fig. 1 and Fig. 2, in AC-PDP51, On the side of the glass substrate (first substrate) 1 2 (refer to FIG. 25), η row electrodes (first or second electrodes) X1 to χη are alternately arranged (any of the η bars is called Column electrode X! "(丨 = 丨 to, and n column electrodes (second or first electrode) Υ 1 to y11 (refer to any one of η columns as r column electrode γΊ 0 = 1 to η)) : On the other hand, on the back glass substrate (second substrate) 丨 (3) (refer to 25th) side, m row electrodes 丨 third electrodes are alternately arranged in a direction intersecting with the column electrodes Xl and Yl) w 1 to Wm | Call any of the bars 丨 the dead electrode Wj "(j =〗 to m)), then the front glass substrate 1 〇2 and the back glass substrate 〇 03 are kept at a predetermined distance and the umbrella is sweating opposite At this time, the space between the two substrates 丨 () 2, 丨 03 is configured to divide the two row electrodes Wj. Wr of Zheng Zheng into several, so the electrical space! H.: Translation of t. And Λ, ί. Ρ Γ: »: μ: η (Please read the notes on the back before filling this page) Binding ---, JMn * 1 i L- I JI— nt— g-&gt; I -li- Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 6 6 5 2 5 A7 -__ B? ____ V. Discharge space of the invention description (26) The surface on the U side is equipped with row electrodes Wi to wm (corresponding to the row electrode 108 in FIG. 25), extending along the first direction D1 parallel to the surface 'and in the second direction D2 perpendicular to the first direction di in the surface' to Equidistant configuration. Here, the first and second directions di 'D2 are respectively the vertical and horizontal directions α in the display screen of AC-PDP51. Moreover, the partition wall 10 is the same as the partition wall 11 in FIG. 25 and runs along the first direction. D1 is arranged in a strip shape. Then, a phosphor layer for each light-emitting color is arranged on the U-shaped groove defined by the above-mentioned surface of the back glass substrate 103 and the two side wall surfaces facing the partition wall 10 adjacent to each other, in units of the U-shaped groove. Any of 109R, 109G, and 109B phosphor layers. In addition, a dielectric layer is provided on the above surface of the back glass substrate 103, so that the row electrodes W1 to Wm are covered, and a partition wall 10 and a phosphor layer 109 may be disposed on the dielectric layer. In the front glass substrate 102, the column electrodes xi, h are formed by strip-shaped mother electrodes (first portion) xb, Yb (particularly in the second direction) extending on the surface on the discharge space η 1 side of the substrate 102 in the second direction D2. If necessary, add an additional word such as "parent electrode Xbi, Ybi" (to make the belonging relationship of column electrodes xi, Yi clear), and connect m to one of them at a predetermined position (described later) of parent electrode Xbi, Ybi, such as A quadrangular transparent electrode (second part) Xt, Yt (especially if added with a "transparent electrode χΗ '" if necessary &amp; i' make the parent electrode Xbi, Ybi belong to a clear relationship). At this time ' η mother electrodes Xbl to Xbn, Ybl to ya "Each system is parallel to each other and is related to the first direction D1 and is alternately arranged at equal intervals. The impedance of the mother electrodes xbi and Ybi is preferably lower than the transparent electrodes Xt and Yt In addition, in the „---- install --- Ί --- ^-order ----- -----! Line f (Please read the note on the back first, and then fill out this page) This paper size is applicable to the Chinese National Standard (CNS) A4 standard (210x297 male cage) 26 ΤΓΤ85ΤΤ A7 A7 Intellectual Property Bureau of the Ministry of Economic Affairs. ¾. Fees include .sl * : f \% ： 'V. Description of the invention (27) 1 picture and 2nd figure' Although the transparent electrode Xt'Yt shown in the figure is arranged on the side of the discharge space side of the front broken glass substrate 102, the mother electrodes Xbi and Ybi are arranged in The above-mentioned surface has a structure that covers the transparent electrodes Xti and Yti, but may also have a structure in which the two electrodes are stacked in the opposite order. Then, as in AC-PDP101, a dielectric layer 106 (or 106 A) is arranged so as to cover the rows. The electrodes X i to χη and the column electrodes γ 1 to Υη 3 In addition, if at least one of the column electrodes XI to χη and the column electrodes γι to Υη is covered with a dielectric, the wall charge in the AC-PDP can be obtained. The induced 5th memory function is applicable to the driving method for separating the address period and the sustain period shown in FIG. 30 described above. Here, the transparent electrodes Xt and Yt will be described in detail. In addition, the following In the description, the figure i and the figure 2 are limited to 2n mother electrodes. Xbl to Xbn, Ybi to Ybn and (m + i) are next to each other, and a plurality of areas are divided into a matrix-like area, which are respectively referred to as "unit area AR / At this time, each unit area AR uses column electrodes XI to Xn and column electrodes γ 丨 to γη (or the gap between two adjacent column electrodes) and the three-dimensional intersection of row electrode w] are limited to each point and can also be captured = but the unit area AR is not all the first | The two-dimensional area is shown. The area relative to the two-dimensional area can also be referred to as the three-dimensional area extending in the second direction D3 perpendicular to both the first and second directions D! D2. ^ Each transparent electrode Χί 丨 ',-踹 is connected to the mother electrode Xb] "At the same time, the mother electrode 柽 Xb! Is dropped adjacent to the contention area of the first direction D 丨, R α, &gt;,., 丨 丨Μ M i 丨 m MM 4 bright electrode h is formed. 夼 钋 -----, .rc (Please read the precautions on the back before filling this page) Installation -------- Order ----- ---- line ------- A7

4 6 652 5 V. Description of the invention (28) Each adjacent transparent electrode Xt can be formed without protruding toward the same side. Similarly, m transparent electrodes Tt of each transparent electrode Y are formed, one end of which is connected to the mother electrode Ybi, and the protruding direction thereof is different from the first direction D1 and protrudes into the unit area AR. The shape β, especially the 'transparent electrode Xt and the transparent electrode Yt, is to form a desired discharge, and the edges in the same unit area AR are opposed to each other through a predetermined gap. In addition, the above-mentioned predetermined gap is equivalent to the above. Discharge interval DG, the term is also used hereinafter. This interval (or distance) is referred to as the "interval" or distance "dgl" of the rose gap DG and the edges of the transparent electrodes Xt, Yt forming the predetermined interval will be formed. The length of the facing part is called the width (or length) dgw of the r discharge gap DG ”. On the other hand, the gap 'between the edges adjacent to each other facing the two parent electrodes is equivalent to the non-discharge gap NG, and this term is also used hereinafter. This interval (or distance) is called "interval (or distance) ngl of non-discharge gap NG". AC-PDP51 is provided with the above-mentioned column electrodes XI to, Y1 to Yn ', and is caused by the difference in the sizes of the gaps dgl' ngl 'between the gaps DG and NG, and is applied to the adjacent column electrodes Xi to Yi ( Or Yi-1) voltage control, it is not necessary to generate a discharge on the gap NG and a discharge can be generated on the gap DG. Therefore, the unit area AR (three-dimensional) can be divided into ① the discharge cells C provided with the discharge gap DG formed by the transparent electrodes Xt and Yt, and 〇 without the transparent electrodes Xt, Yt and provided with the mother electrode Xbi, The non-discharge cell (or non-discharge area) NC of the above-mentioned non-discharge gap NG constituted by Ybi (or Ybi-1). At this time, as shown in Figure 3, the entire AC-PDP51 is the discharge cell C (or the first and second pictures — II — — fl — I order ·! Ί — ΙΊ · (Please read first Note on the back, please fill in the clothing page) The paper printed by the Employees' Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 28 311850

Hi. Ίΐ 1 *-5. Description of the invention (29 Electrical gap DG) and non-discharge unit NC (or non-discharge gap Ng in the same figure), 乂 are mutually arranged in a direction parallel to and perpendicular to the display line (second respectively) And the first direction D2, D1), and the discharge cells c (or the discharge gap DG) are not directly adjacent to each other in the above two directions. That is, the discharge gap is adjacently arranged through one or more non-discharge gaps N0 in the above two directions. At this time, as shown in FIG. 2 and FIG. 2, the discharge gap exists between one discharge gap DG located in an oblique direction. The two transparent electrodes are connected to the mother electrode Xbl or Ybl sandwiched by the two rose electrical gaps DG. Here, on the AC-PDP5 1, the two “adjacent lines” defined in the (plural) gap extending along the two adjacent parent electrodes (first direction D2) are used to define the “show off line” 3 In addition, for example, in When the luminous color is monochromatic (the case where the fluorescent precursor is a type and the case where there is no fluorescent substance), the display line is defined by one of the above-mentioned gaps. ^ Therefore, if it is based on AC-PDPM, for example, during the address period already described, even in the column electrodes X ,, Yl (or Yl_l) and the row: and partly 'especially the transparent electrode in the discharge cell c ... II; When a strong electric field is partially formed in the three-dimensional intersection of J, the existence of the discharge unit NC can also be dreamed of, and the discharge can be greatly suppressed, and the discharge can be avoided ... of the adjacent discharge unit (: Weito. ~ 9 o'clock, even if the arrangement positions of the row electrodes w1 to ^ deviate from the two adjacent camera rules, axes, it is possible to prevent false lightning by the existence of the non-discharge unit NC. In Zoufen I 〇, Zoufen, I ». · · M ± ^ ^ ^ 々1 丨 Bi is 4 reasons for γ-like reasons. Hmm κ Australian Ling Xue 轸 half 轸, ^ ^ € ^, 4, ： Ii. ： ^ ^ ^ ^ ： ... &quot; I. ---- ill--I ____ 'II 1 -----' I Order * ------ ----- I (please first Read the notes on the back and fill in this page; &gt;: 丨 iH5i; 4 6 652 5 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs Α7 Β7 V. Description of the invention (3〇) At least the discharge gap DG is not adjacent to Parallel to the display line The second direction D2 can be used. Even when the discharge gap is not adjacent to the vertical direction of the display line (the first direction D1), the AC-PDP can be suppressed or avoided in all aspects (for example, when the discharge is maintained) ) Occurrence of erroneous discharge. In addition, it is not necessary to arrange a plurality of non-discharge gaps NG adjacent to each other along the first and second directions D1, D2. As an example of this structure, AC when two non-discharge gaps NG are adjacently arranged -PDP5 1A is shown in Figure 4. At this time, in AC-PDP5 1A, the "display line" is defined by three adjacent ones with a gap between the two adjacent parent electrodes. Also, in AC-PDP5 1A However, since the mother electrodes xbl to xbn, Ybl to Ybn, the row electrodes wi to Wm, and the partition wall 10 can be formed in a straight line, it has an easier process than the conventional AC-PDP201 (same as the conventional AC-PDP101 (Manufacturing process) to manufacture the advantages of the ac-PDP51 "Secondly, the plasma display device equipped with the AC-PDP51 will be described using Fig. 5. Fig. 5 shows the overall configuration of the plasma display device 50 of the first embodiment. Block diagram. As shown in Figure 5, the plasma display device 50, tie Yes. The AC-PDP51 mentioned above; driving circuits 14, 15, 18 for supplying predetermined voltages to the column electrodes M to χη, Y1 to Υη and row electrodes W1 to Wm; and control circuits for controlling the driving circuits 4, 15, 18 40: and a power supply circuit 41 that generates a pre-amplified voltage for supplying to the driving circuits 14, 15, and 18. The driving section 'of the display device 50 includes driving circuits 丨 4, 15, 丨 8. First, the "control circuit 40 generates a control signal based on the input video signal S" and outputs it to the driving circuits 14, 15, and 18. As shown in Figure 5, the drive circuit 丨 4 is driven by the X drive 1 and installed ---------. J order --------- line (谙 first read the note on the back Please fill in this page for more details) Applicable to Chinese national standard (CNSM4 specification (21〇X 297 public love)) 30 311850 Λ7 Λ7 Driver of the Ministry of Economic Affairs * Property Bureau Canton 0 'Feet'-&:;!; "¥ Fifth, the invention description (h motion 1 C U2 constitutes. X drive 1 4 1 is the control signal from the control circuit 40 and the supply voltage from the power circuit 41 to generate a predetermined voltage pulse. Also 'each drive The multiple output terminals of 1C 142 are connected to the corresponding electrodes of column electrodes X1 to Xn. The driving IC1 42 will generate a predetermined voltage pulse (scanning) in the X driver 141 according to the control signal from the control circuit 40. ) Applied to each row of electrodes XI to 3 The driving circuit 15 is composed of a gamma driver equivalent to the X driver 141 described above (hence the same reference numerals and is also referred to as "gamma driver 15"). However, n column electrodes γι to γη are commonly connected to the output terminals of the γ driver 15 and the column electrodes Υ1 to γη The same voltage is supplied to the driver circuit. The driver circuit 8 is composed of a plurality of output terminals of the driver 1C 182, which are equivalent to the X driver ^ w driver 181 and the driver 1C 182 equivalent to the driver 1C 142. The corresponding electrodes of the electrodes W1 to Wm. The driving method of the AC-PDP51 performed by the plasma display device 50 is applicable to the previous driving method, such as the method shown in FIG. 30 described above. That is, In the 1 field (1 F) period is divided into a plurality of sub-fields (after sf 'more each sub-field is divided into _ reset period-' address period-'sustain discharge period ί display period). Drive the AC-PDP5. At this time, the period 'is synchronized with the sequential scanning of the column electrode X !, and the writing is performed on the two inverted discharge cells C arranged at the X 丨: I stand for narrow power and unavailable time: again during reset and miscellaneous time; \ Η ^ ί &gt; i (Please read the precautions on the back of 11 before filling this page) -Shang ------ --- Order --- ---- Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 6 652 5 A7 -------------- V. Description of Invention (32) W1 to Wm Of The electrode unit applies a predetermined voltage and drives the AC-PDP all at once. &Lt; Embodiment 2 &gt; Next, the AC-PDP52 of Embodiment 2 will be described using FIG. 6 corresponding to FIG. I. FIG. 6+ 'and FIG. In contrast, only the electrodes and partitions in AC_pDp52 are drawn. In addition, AC_pDP52 is compared with the AC_PDP51 mentioned above. Because it has characteristics in the structure of the partition, it will be explained with this point as the center β. As shown in Figure 6 'In AC_pDp52, same as AC-pDp51, the column electrodes X1 (ι = 1 to η) and the column electrodes YA = 1 to n) extend along the second direction D2 and are equally spaced in the first direction D1 Alternately, the row electrodes Wj (j = 1 to m) extend along the first direction D1 'and are arranged at equal intervals in the second direction D2. In particular, the partition wall 10A 'of AC-PDP52 has a band shape that snakes and the entire cross section is along the first direction D1. In detail, the interval (or distance) between the side walls of the adjacent partition 108 facing each other is formed in the partition dividing the discharge cell C into a more restricted non-discharge cell nc. width. At this time, 'when the shape viewed from the third direction D3 of the partition 10A' is formed into a slightly wavy shape having no steep corners as shown in FIG. 6 ', the occurrence of defects in the partition due to defects in the partition, etc. It is a linear bad situation. As shown in Fig. 6, "When AC-PDP52 is viewed from the third direction 03" Due to the shape of the partition 10A, the discharge cell C of the AC-PDP5 is larger than the non-discharge cell NC. So 'has the same display panel area and resolution ------------ I -install if -T ---. 1 order ----.-- II · line (please read first Note on the back, please fill out this page again) This paper size is applicable to Chinese National Standard (CNS) A4 grid (210 ^ 297 mm) 32 311850 A7 A7 Employees ’Intellectual Property Bureau, Ministry of Economic Affairs, Consumer Consumption-':. V. Invention Note that AC_PDP51 (33) degrees can make the area of the area related to image display larger than that of 'AC_PDP51'. Therefore, if AC-PDP52 is used, a PDp with the same size as the Mei cell c and the non-discharge cell NC (such as the Ac pDp above) can improve the utilization of the display area. At this time, the transparent electrode When the size of Yt is equal to that of AC_PDP51, the distance between the edge of the transparent electrode xt Yt in the -direction D1 and the partition wall is wider than that of -PDP51, so the number of electrons impinging on the discharge order of the partition wall can be reduced. As a result, It is possible to improve the luminous efficiency and to increase the area of the transparent electrodes xt and Yt larger than AC_pDp5i in response to the enlargement of the discharge cell [can increase the discharge itself and improve the luminous efficiency. In addition, AC-PDP52 makes it exist There is a non-discharging unit nc to define the shape of the partition wall 0A. At this point, it can be seen that the structure of the conventional AC-PDP2 () j (see Figures 26 and 27) without the non-discharging unit is obvious. At this time, the following effects can be obtained due to the presence of the non-discharge cell NC a. First, AC-PDP52 has two side wall surfaces opposite to each other with its adjacent partition wall 10A and a glass substrate provided with the partition wall 丨 〇A. 〇3 {see The “figure” described later extends in the first direction 丨) 1 丨 f-shaped groove, so you can directly use the formation of the phosphor layer in the linear wall next to the known A ('ΡΓφ | () 丨 etc.) Process · 'In other words. In the phosphor layer formation step, it is not necessary to require the same step as in the conventional AC-PDP201. The complex position alignment required by the service at this time' &amp; Λ (则 t 荣 Α 体 # f &amp; 士 骤 &amp; Current position by Ί? S 〇ί: ^ C Γ ^ .-i ·; Ψ ^.;-· V :. a:-^: S ,: (Please read the note on the back first Please fill in this page for more details)-! I i Order ------------ Line — 4 6 652 5 Δ7 A. / B7 V. Description of the invention (34) In the case of body paste, the phosphor layer 109 is As shown in Fig. 7, a characteristic fluorescent section 9 layer is formed. In addition, Fig. 7 is a longitudinal sectional view when the longitudinal section of the AA line in Fig. 6 is viewed from the direction of the arrow. From the nature of the process, the printing method, etc., can be applied to the U-shaped groove with the same amount of phosphor paste without the difference being the discharge cell C or the non-discharge cell NC. The results are shown in Figure 7 , Non-discharge cell NC in the phosphor layer 9 The film thickness (the dimension in the third direction D3) will become thicker than that of the discharge cell C. Because of the shape of the phosphor layer 9, AC-PDP52 can achieve a higher thickness than the conventional AC-PDP101 Utilization efficiency of ultraviolet rays. Because the phosphor layer 9 (height) can reduce the amount of ultraviolet rays generated by the discharge in the discharge cell C to reach the non-discharge cell NC. That is, in AC-PDP52 'The ultraviolet rays radiated to the non-discharge cell NC side are also converted into visible light in the phosphor layer 9 in the non-discharge cell NC and used as display light emission of the discharge cell C. Furthermore, in the conventional AC-PDP101 and the like, the ultraviolet rays generated by discharge are diffused in the direction along the row electrode (the length direction of the U-shaped groove), so that the periphery of the discharge cell may be thinly emitted. According to AC-PDP52, the above-mentioned ultraviolet rays can be effectively used, and the problem of the display quality can also be solved. In addition, the existence of the U-shaped groove described above is more advantageous than the conventional AC-PDP20 1 even in the exhaust step and discharge air-conducting step in the process of ρβρ and the discharge controllability during PDP driving. In addition, the AC-PDP52 can be shown by the plasma shown in Figure 5 that the paper size is applicable to the Chinese National Standard (CNS) A4 (210 X 297 mm) {Please read the precautions on the back before filling this page ) Assembling ------- I 丨 Order * ------Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs Printed 311850 A7 B7 V. Description of Invention (35) The device is driven by the same structure. This point is the same in each AC-PDP described after Embodiment 3 &lt; Embodiment 3 &gt; Secondly, the AC-PDP53 of the forest mode 3 will be described using a plan view corresponding to FIG. 8 of FIG. As shown in Figure 8, ac-PDP53 row electrode

Wj (j = 1 to m) and the partition wall 10 have the same structure as the ac-PDP5 1 (the arrangement pitch is also the same). In particular, the comparison between AC-PDP53 and ac-PDP5 1 described above has characteristics in the structure of the mother electrodes XAb and YAb forming the column electrodes, and therefore, the description will be centered on this point. As shown in FIG. 8, the mother electrode, YAb ', meanders and has a band shape along the second direction D2 as a whole. In detail, the mother electrodes XAb and YAb extend from ① along the second direction D? To define the discharge cell C and the non-discharge cell-like portion; and ② extend along the first direction D1 to form the partition wall 10. The overlapping parts are constituted-again, the adjacent parent electrodes XAb and YAb are symmetrical to a straight line (axis) parallel to the second direction D2. At this time, the adjacent parent electrodes XAb and YAb intersect the intellectual property of the Ministry of Economic Affairs.咼 Employees pay for cooperation. Spit (please read the precautions on the back before filling in this page). Line ---- the interval (or distance) between the edges of the saki by the discharge unit C (or the discharge gap DG) ng 1 2 It is wider (longer) than the interval ng of the non-discharge gap. In addition, although it depends on the structure of the AC_PDP or the type and gas pressure of the discharge gas enclosed in it: The interval of the Dg between the discharge cells is set to about Below 200 "m (for example,? 0 &quot; m} i instead of the interval of the effective electrical gap) ng 丨 is set at about 200α 丄 丨 for example, 26〇n; if it is based on this setting, then it would be like a professional electrician and a money electrician. _⑴ ^ can occur. Narrow power: ~ When ^ does take. Control 1 makes ineffective | ga! V 丨. 珞 ^ I ΙΗ ^ Ο Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 4 6 65 2 5 A7 __ B7 V. Description of the Invention (36) No discharge occurs. In this way, because of the shape of the above-mentioned mother electrodes XAb and YAb, the discharge cell C can be formed into a non-specification. The discharge unit NC is large, so it can improve the utilization ratio of the display area more than AC-PDP51. Therefore, it is the same as AC-PDP52, which can improve the discharge efficiency. At this time, if it is based on AC-PDP53, it is the same as AC-PDP5 1 and known The AC-PDP101 is the same and has the advantage that the partition wall can be formed in a straight line. In addition, 'the structure of the mother electrodes XAb and YAb in AC-PDP53 can also be combined' with the partition wall 10A of the AC-PDP52 mentioned above. &Lt; Embodiment 3 Modification &gt;

In addition, even in accordance with AC-PDP53A in FIG. 9, the discharge cell c can be formed larger than the non-discharge cell NC ', and the utilization ratio of the display area and the discharge efficiency can be improved. AC-PDP53 A has characteristics in the structure of the column electrodes χί and Yi, so it will be described with this point as the center D AC-PDP5; 3A, the transparent electrodes Xt, and Tt in AC-PDP53 (see FIG. 8) The shape and arrangement position of Yt are kept as they are. On the other hand, Yt has a structure in which linear mother electrodes Xb and Yb (see Fig. 1) are applied instead of the mother electrodes XAb and YAb. Therefore, the transparent electrodes Xt of AC-PDP53A,

Yt (second part) is connected to the mother electrodes xb and Yb, and at the same time, it protrudes to both sides with respect to the first direction D1 through the mother electrodes xb and Yb. Like the AC-PDP51 and the like, the discharge gap DG of the AC-PDP53A is formed by two opposite edges of the discharge cell c in the transparent electrodes Xt and Yt. On the other hand, a gap between edges of the discharge gap DG side far from the transparent electrodes Xt and Yt forms the non-discharge gap NG. Install this -------- 1 --- Γ to install --------, order ----.----- line- ', &lt; please read the precautions on the back before (Fill in this page) This paper size applies Chinese National Standard (CNS) A4 specifications (210 X 297 Gongchu 36 3U850 Λ7 Λ7 --Ministry tt &gt; Finance Check- r; ^ #-v: .. &quot;; i · '·' V. Description of the invention (37) The gap (or distance) of the gap is called "the gap (or distance) ngl A of the non-discharge gap NG" at this time "(the gap of the discharge gap DG 丨) &lt; (non-discharge gap NG interval nglA) &lt; (interval between the parent electrode Xb, ^ and the opposite edge) interval. Within the transparent electrode X ′ γt, a part of the above edge of the discharge gap DG is formed across the parent electrode Yb. 1 is larger than the above-mentioned edge side portion forming the non-discharge gap NG. Here, 'AC-PDP) 3A is relative to AC_pDp51. It is equivalent to moving the Qianming electrodes Xt, Yt beyond the mother electrode 4 u ^ electrodes Xb, Yb and facing Structure that is elongated on the opposite side to the discharge gap. pp Strictly. Therefore, in AC-PDP53A, the size of each discharge cell C and non-discharge cell NΓ ^ Zhao Zhe ^ is not consistent with the unit area AR described above (refer to the first figure, etc.). Duo ~ Yu Gan 4 &amp; In the plan view of FIG. 9, the area that extends adjacent to the 10th-universal D 丨 of the next door and 3 a aa ^ extending into the third direction D3 with respect to this area is divided into several areas. It can be divided by the discharge between Xt and Yt far away from each transparent electrode ^ flat_ _ Ί Ί Ί DG line of each edge in the second direction D2 卞 line (the ninth figure is Γ / &amp; 糸 乂 dashed line) divided into Plural areas, then 'the divided multiple areas + Αϊ _. The domain system can be distinguished as ① the unit area AR is wide along the first direction D 1, and the discharge gap DG can be used as the above-mentioned discharge gap DG. As the position held by the above-mentioned enemy electric power unit C: u ^. A ^ and ② are on the contrary smaller than the arbitrary area AR, and the non-discharge unit NC bounded by the above non-discharge gap \ 如此. As such, if AC-PDd-, „To Christine, because the discharge unit C 'is larger than the non-Chinese pen unit NC, so 靼 A rn., Company,` `一 P [.) Ρ Γ' i is higher than Description. Display area utilization and discharge rate 卜. Ii'Hy 戈 'Previous ltΛ &lt;: 『Go to 1 wall volume. 旳 Benefits 疋 &lt; Please read the notes on the back before filling in this page--binding --- ---- Line ---: PD PD ^ ^ A

!) P λβ ^: ί 4 6 65 2 5 A7-B7 V. Description of the invention (38) Compared with the above, it can sufficiently suppress the occurrence of shape defects such as pattern defects of the mother electrode. However, generally speaking, the closer the discharge cell is to the discharge gap, the DG luminous brightness tends to be Vietnam. This tendency tends to occur. As the coupling position of the transparent electrodes Xt, Yt and the mother electrode is further away from the discharge gap DG, the light emission brightness or light emission efficiency is reduced. Therefore, 'AC-PDP53 has higher luminous intensity than AC-PDP 53A. In addition, the structure of the column electrodes xi and Yi in AC-PDP53A can be combined with the above-mentioned partition wall 10A (refer to FIG. 6) or the black insulating material 30 described later. "Also, even the column electrodes in AC-PDP53A The structures of Xi and Yi can also be applied to Embodiments 7 and 8 described later. In addition, even with a structure in which the transparent electrode protrudes to both sides with the mother electrode in the first direction D1 'via the mother electrode, the discharge cell C and the non-discharge cell N C can have the same size by meandering the mother electrode. &lt; Modification 1 common to Embodiments 1 to 3 &gt; In addition, when the distance ngl of the non-discharge gap NG of AC-PDP53 is equal to AC-PDP51, the first direction of the transparent electrodes Xt, Yt of AC-PDP53 Since D1 is longer than AC-PDP51, the surface discharge formed between transparent electrodes Xt and Yt across the discharge gap DG can be made larger than AC-PDP51. At this time, when the height of the surface discharge (the dimension in the third direction D3) is too high, the discharge will hit the back glass substrate 103 (see Figure 25), and the electrons (energy) in the discharge will occur. Loss situation. In addition, even when a large amount of power is input to the AC-PDP5 I described above, the discharge state can sufficiently occur. This paper size is applicable to China National Standard (CNS) A4 &lt; 210 X 297 mm) 38 3 丨 1850 (Please read the intention on the back before filling in this page).-I ^ —1 II 1 I ^ -OJΛ ί I 1 · 1 i 11 (-Printed by the Consumers' Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 A7 Ministry of Intellectual Property «Property costs are longer than the distance between adjacent adjoining areas l) G ...- direction D1 The gap length ί or width: idgw2 'is greater than AC pDP5; the gap length dgwi. Refer to Figure 2 丨 Long another fiber along the sentence ⑴ 二 _ 陈 间 嗝, or distance; d &quot; "-Department and, (' ten 1) 丨; .H1 gap; h refer to the? Figure i is the same 5. Explanation of the invention (39) At this time, in order to keep the above-mentioned surface snow i ^^ applied, a higher voltage can be used to compensate for the loss caused by the impact, but in this case, it will cause Power consumption increases. On the other hand, as a method to prevent the impact of the surface discharge on the glass substrate on the back side and the side of the 03 side, there is a corresponding transparent electrode.

The method of increasing the height of Xt and Yt to increase the height of the partition wall 3 Furthermore, for example, by applying the electrode structure disclosed in Japanese Patent Application Laid-Open No. 9_231907 to AC-PDP53, the above surface discharge can also be suppressed or avoided The case where it hits the back glass substrate 103 side. Hereinafter, the AC-PDP54 of the first modification will be described using the eleventh plan view corresponding to the tenth plan view of the first drawing and the enlarged view of the main part of the tenth view. As shown in Fig. 10 and Fig. 11, the AC-PDP54 has the same structure as the AC-PDP51 except for the shapes of the transparent electrodes xAt and YAt. In particular, as shown in Figs. 10 and 11, the transparent electrodes XAt and YAt of AC-PDP5 4 are connected to the mother electrodes Xb and Yb, and at the same time, the electrodes are located diagonally through the mother electrodes Xb and Yb. Each protruding portion of the two discharge cells C in position. Then, as shown in FIG. 1I, a discharge gap DG is formed along each edge of the first direction D] of the transparent electrodes XAt and YAt disposed in each discharge cell C. At this time, 'When the shape of the unit area AR is vertically long' 长. The distance between the mother electrodes of Zheng Zheng ... Along the discharge gap along AC · P〗 P54 (Please read the precautions on the back before filling this page) —Binding ----------- Line · 'Π850 4 6 652 5 A7 B7 Printed by the Consumers ’Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs 5. Description of Invention (40) Therefore,' According to AC-PDP54, follow The size of the transparent electrodes XAt and YAt in a direction perpendicular to the length direction of the discharge gap DG (the second direction D2) is shorter than AC-PDP5 1, etc., so that the height of the surface discharge between the transparent electrodes XAt and YAt can be formed. Lower than ac-PDP51. Therefore, it is possible to suppress and avoid the impact of the above-mentioned surface discharge on the back glass substrate 103 side. In addition, 'the size of the entire discharge can be fully supplemented by increasing the gap length dgw2' at this time if AC-PDP53 is applied (see section 8) The structure of the mother electrode 'can keep the non-discharge cell NC small even if the discharge cell C is enlarged. In addition, the choice of the discharge gap DG as AC-PDP5 1 in the form of the second direction D2, or as Ac-PDP54, in the form of the form along the first direction D1, is defined according to the shape of the unit area ar. Just fine. That is, the above-mentioned effect can be obtained by forming the discharge gap DG along any one of the sizes in the first direction D1 or the second direction D2 of the unit area AR. In addition, in the method of adjusting the height of the above-mentioned partition wall to suppress and avoid the impact of the electric shock on the back glass substrate 103 side, the height of the partition wall is increased to increase the number of materials or processes. On the other hand, if AC-PDP54 is used, , There is an advantage that only the formation pattern of the transparent electrodes xt and Yt can be changed. In addition, the transparent electrode arranged in the discharge cell c of the second order is any one of the mother electrodes Xb and Yb which can be connected in the first direction D1 of the transparent electrode and arranged vertically. At this time, ① AC-PDP54 shown in Fig. 10 (and "Fig.") Can be formed by connecting two transparent electrodes existing between two discharge gaps DG located diagonally to the two discharge gaps. This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) 311850 ------------- installation ---- M ---: 1 order ---- Ί --- Ί LINE {Please read the unintentional matter on the back before filling out this page) A7: Qibu Smart Industry Bureau fee this,; Λ; 5. Description of the invention (41 DG mother electrode xb or above ( Hereinafter, it is referred to as a -connection form. ① ") 3 Then, as shown in AC-PDP54A shown in Fig. 12, 0 can also be formed by connecting the left transparent electrode in the upper left discharge cell c 'in Fig. 2 to the On the mother electrode Ybi, connect the right transparent electrode to the mother electrode Xb. At the same time, connect the left transparent electrode in the discharge cell c at the bottom right of the discharge cell c to the mother electrode Ybl. The transparent electrode is connected to the mother electrode Xbi + 丨 (the connection of the two transparent electrodes in the discharge cell C at the bottom right is the same as that in the first figure). One connection type ①, 0 can drive AC_PDP ', but it is known that there are the following differences. That is,' According to AC-PDP54 with connection type ① shown in Figure 10, it can be adjacent to each other with a bar! The transparent electrode (located in the 钭 direction) forms the same potential. Therefore, compared with AC_PDP54 with the above-mentioned connection form ②, the degree of electric field change in _p Dp as a whole can be eased. Therefore, 'AC-PDP54' can reach the ratio ac_pdP54A It can greatly suppress the effect of reactive power (electricity generated by panel capacitance regardless of discharge) a AC ~ PDP? 4, 54A transparent electrode XAt, YAt Regardless of the AC-PDP5 mentioned above, 5 丨 A, 52 -5 3 and the AC-PDP55, 58, and H mentioned later refer to Figures 丨 3, 丨 9, and 2 () of the hereinafter. Any of them can be applied. In this case (please read first (Notes on the back then fill out this page)

-IID n I Binding --- ---- line 丨. H If the height of the discharge is lowered, Chenbi can be lowered. As a result, the simplification of the wall-shaped capsule formation step and the original cost reduction can be obtained. : 1 &gt;! • viV1 Η: 4 6 65 2 5 Printed by the Consumer Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs

A7 V. Invention description (42) AC-PDP55 in state 4. As shown in Figure 13, the basic structure of the AC-PDP55 is the same as the AC-PDP51 already described. As shown in FIG. 13, in the non-discharge cell NC of the AC-PDP55, a black insulating material 30 is disposed on the front glass substrate 102 (refer to FIG. 25) side so as not to be on the back glass substrate 103 side. contact. The black insulating substance 30 can be formed by using the material and the forming process of the previous black strip. In addition, those who arrange the black insulating material 30 on the AC-PDP52 and the like already mentioned will be understood from the following description, and the AC-PDP56 and the like described later also apply. This kind of black insulating material 30 can improve the contrast of AC-PDP. That is, when the previously described (straight) black bars are set in the previous AC-PDP101, 'because the display line and the black bars can be clearly separated by horizontal lines, in other words,' because the discharge cells are sandwiched between adjacent black bars. Structure, so in a non-light-emitting state, the white phosphor layer will be conspicuous, and sometimes a sufficient contrast enhancement effect cannot be obtained. On the other hand, in the AC-PDP 55, since the rhenium and color insulating material 30 is disposed on the non-discharge cell NC, the insulating material 30 is dispersed throughout the AC-PDP. Therefore, if it is based on ac_pdP55, it can improve the contrast and discrimination more than the AC-PDP with the conventional black bar. In addition, "to obtain this effect", it is needless to say that the black insulating material 3 may be arranged in a region other than the discharge cell C. Furthermore, since the black insulating material 30 is disposed in the non-discharge cell Nc, the portion of the non-discharge gap NG in the discharge space 1 Π, that is, the non-discharge region becomes narrower than the portion of the black insulating material 30. If-in general, the narrower the discharge space, the less likely it is that a discharge will occur, by # this paper size applies the Chinese Circle Standard (CNS) A4 specification (210 X 297 mm) -------- --- I-Install ------- J — Order --------- Line- '· &lt; Please read the notes on the back before filling out this page &gt; _______B7_______ _______B7_______ «.Property Bureau 3: 丄 办-费. ;;: 彳 社;. ···· ::: 'V. Description of the Invention (43) The insulating substance 30 can more surely suppress the discharge of the non-discharge unit NC (misdischarge) ) happened. Conversely, from the viewpoint of preventing a discharge from occurring in the non-discharge cell NC, the height or thickness of the black insulating material 30 (the dimension in the third direction D3) may be limited. Here, when the black insulating material 30 is placed on the glass substrate 102 恻 facing the AC-PDP53 as described above, the distance ngl (see FIG. 8) of the non-discharge gap NG can be further reduced, so that the discharge cell C can be obtained. More magnification or high-resolution advancement effects. In addition, 'the black insulating material 30 is arranged so as not to contact the back of the back substrate substrate 103', that is, there is a gap between the front glass substrate 102 and the back glass substrate 103, so in the PDP process, the exhaust step And the discharge air-conducting step and the discharge controllability during PDP driving. Among them, the conventional AC-PDP20] does not cause a defect due to the structure in which the discharge premature element is completely surrounded by the partition °. Alternatively, it can also be on the back A black insulating material 30 is provided on the glass substrate 1 〇3 (refer to FIG. 25). In this case, for example, if a material for blackening is added to the material of the partition wall, a black insulating material 30 can be formed as a whole or a part of the partition walla. At this time, it is formed lower than the partition wall to avoid rabbits and the front glass substrate. 102 side contact. &lt;: Embodiment 5 &gt; In addition, in the AC .. PDPM and the like described above, since the front glass substrate 102 and the back glass-filled substrate 丨 03 are bonded, it is necessary to adjoin the wall! The predetermined barriers of 0 rooms are used to accommodate the transparent electrodes X 丨 γ 丨 and Α, respectively, and aligned at the position `` required '' at this time. Therefore, there is Lazy brother who sniffed (please read the notes on the back before filling out this page) ^^ 1 ^^ 1 _ I —Mf. 11 ti H 一 ΰ 'I It 1}' 1 -ί Ji I j — I ^^ 1 ^^ 1 nn Γ s It tt «I-if ·. 4 6 652 5 Printed by the Consumers’ Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 V. Description of the invention (44) And 'even on the front glass substrate 102 And / or the back glass substrate ι03 is distorted or distorted. 'The offset may also occur between the transparent electrodes Xt, Yt and the partition wall 10. Therefore, in the fifth embodiment, an AC-PDP capable of reducing the positional alignment accuracy in the above-mentioned bonding step is described. Fig. 14 is a schematic plan view illustrating the AC-PDP56, which is equivalent to the first picture already described. Fig. 15 is a schematic perspective view of the AC-PDP56. In Fig. 15, "the state where the two glass substrates 102 are pulled apart is shown for the sake of convenience" and the vicinity of the discharge suppressing body 31 described later is shown in a partial cross-sectional view. As shown in Fig. 14, the AC-PDP56 is provided with the same column electrodes XI to Xη and Υ1 to γη as the column electrodes 104 and 105 of the conventional AC-PDP401 shown in Fig. 29 described above. In detail, the column electrodes χί, Yi 'of AC-PDP56 are the parent electrodes Xbi, Ybi already described; and a strip-shaped transparent electrode (second direction extending along the second direction D2 of the parent electrode Xbi, Ybi) (Part) Xs, Ys (especially "i.e." transparent electrodes xsi, Ysi "if necessary," i "is added to clarify the attribution relationship with the mother electrodes Xbi, Ybi)" In AC-PDP56, the transparent electrodes Xsi, The width of Ysi is wider than the mother electrodes Xbi and Ybi, and the mother electrodes Xbi and Ybi are arranged at a slightly center in the width direction of the transparent electrodes Xsi and Ysi, and the transparent electrodes Xsi and Ysi and the mother electrodes Xbi and Ybi are connected to each other. In other words, the transparent electrodes Xsi'Ysi protrude toward both sides of the first direction D1 in a direction perpendicular to the longitudinal direction of the mother electrodes Xbi and Ybi via the mother electrodes Xbi and Ybi. In particular, the sizes of the gaps g between the adjacent transparent electrodes Xs and Ys are set to be equal, and the distance dg 1 (see FIG. 2) from the discharge gap DG described above is set. Standard (CNS) A4 specification (210 x 297 mm) 311850 I -------— Ί I ^ ---.-- I Ί (谞 Please read the notes on the back before filling this page) A7 A7 Economy Ministry of Intellectual Property &quot; _ 工 肖 费 '... II --- 4 \ Will be crying alone. The area Λ R is non-discharge generational; X: γ, π Technology and Electricity V. Invention Description (45) degrees. Furthermore, as shown in FIG. 14 and FIG. 15, the AC-PDP56 is in the arrangement relationship of FIG. 3 described above. The unit area AR (refer to FIG. 1) corresponding to the non-discharge cell NC is provided with Discharge suppressor 31 made of an insulating material. In detail, the discharge suppressor 3 1 is formed on the back glass substrate [〇3 side, and when AC-PDP56 is viewed from the second direction D3 *, it covers the portion corresponding to the non-discharge cells NC of the row electrodes W1 to Wm 'and is arranged At a position for covering the gap g between the adjacent transparent electrodes Xs' Ys. Moreover, the top of the discharge suppressing body 3 丨 front glass substrate 丨 〇2 side is set to the same height level as the top of the partition wall 10, and a gap is provided between them to make the discharge suppressing body 3丨 Not in contact with the next wall 10. In AC-PDP56, the discharge suppressor 31 is set to the same height level as the next wall. In other words, the discharge suppressor 3] is in contact with the dielectric layer 106A on the front glass substrate 丨 02 side. At the point where the adjacent transparent electrodes xs and the gaps g in nc intersect with the row electrodes wi to wm, there is no space where a discharge can be formed. Therefore, even if the gap g between the adjacent transparent electrodes XS and Ys is set to the same size as the gap dgl (see FIG. 2) of the discharge gap already described, Ac = Dps6 has the plural unit area ARi. Refer to FIG. 丨丨. It is also possible to distinguish the non-existing electric unit N ('and the old Lei Qin Shi (...) according to the heat of the discharge suppressor 1], in particular, by arranging at least the discharge suppressor 3 丨 at a transparent age. Thunder pole XrY ", jnh and row electrode WS f Wm: body U point on the price. 1 '· :: ^ 1λ, please read the precautions on the back before filling this page) Order. --- 1-- --I ii --- 4 # Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs 4 6 65 2 5 A7 --------------- 5. Description of the invention (secretary) Electrical gap DG 'In the adjacent transparent electrode Xs, the non-discharge gap ng is formed at the two edges of the opposite part of the non-discharge unit NC. According to AC-PDP5 6' The non-discharge unit is limited due to the presence or absence of the discharge suppressor 31. NC and discharge cell c, so with respect to each of the mother electrodes Xb, Yb ', not a plurality of transparent electrodes Xt, Yt such as ac-PDP5 1 described, but applicable 1 The strip-shaped transparent electrodes Xs, Ys. Therefore, as described in AC_PDP5i, etc., in the step of bonding the front glass substrate ι2 and the back glass substrate 103, each of the transparent electrodes Xt, Yt is not used to be accommodated in the adjacent The high-precision position alignment operation within a predetermined gap between the adjacent walls I 0. Furthermore, as described above, since the discharge suppressing body 31 that can be provided on the back glass substrate 103 side limits the non-discharge cell NC, In the combining step, the front glass substrate 102 and the back glass substrate 103 may be shifted, and when the front glass substrate 102 and / or the back glass substrate 103 are distorted, they may be formed in a solid manner. The discharge unit C and the non-discharge unit NO are so based on AC-PDP56, the position alignment accuracy in the above-mentioned paste and step can be relaxed compared with the AC-PDP5 1 described above, and the result can improve the yield. 'The discharge suppressing body 31 has the same level of height as the partition wall, so the discharge suppressing body 31 can be formed at the same time when the partition wall 10 is formed. For example, by using a screen having both patterns of the partition wall 10 and the discharging suppressing body 31, The screen printing method 'forms the partition wall once and the discharge suppressing body 31. Alternatively, for example, the raw material of the partition wall i 0, which is completely coated on the back glass substrate 10 side, may be patterned to form the partition wall 0 and discharge at the same time. The shape of the suppressor 31. The patterning is, for example, a photoresist to be arranged on the above-mentioned raw materials, or I — — I — I — {I 'j I —1 I!!-* II --- 1 I Ί I • '„(Please read the precautions on the back before filling this page) This paper size is applicable to Chinese National Standard (CNS) A4 (210 X 297 meals) 311850 Short-' &quot; Employees of the Ministry of Intellectual Property Bureau. &Quot; Feihe:-, '-*;' A7 ___B7_____ 5. The description of the invention (47) is that the above-mentioned raw material pattern with photosensitivity is exposed to the shape of the partition wall 10 and the discharge suppressor 31 by applying the sand blast method. 9 can be implemented in such a way. Since the individual formation steps for the discharge suppressing body 31 are not required, the increase of the number of processes and the complexity of the manufacturing process will not be incurred. In addition, since the discharge suppressing body 31 does not contact the partition wall 10 and there is a gap therebetween, it will not hinder the implementation of the exhaust step and the discharge air conducting step during the manufacture of AC-PDP = In addition, as shown in FIG. 16 As shown in AC-PDP56A, the discharge suppressing body 31 may be formed lower than the partition wall. Here, as shown in FIG. 6, when a phosphor layer 109 is disposed on the top of the glass substrate 10202 in front of the discharge suppressing body 31, the phosphor layer 109 and the discharge suppressing body on the top are disposed. The element constituted by 31 is called "discharge suppressor / In AC-PDP56, although a gap is provided between the discharge suppressor 3 1, 3 1 a and the dielectric layer 1 06A, the discharge suppressor 3] 3 丨 A gives the shape and size of the discharge suppressing body 3, 31A which can suppress the discharge formed in the non-discharge cell Nc. Specifically, 5 due to the above gap or discharge space! 1 1 is narrow in the non-discharge cell N [ The voltage required to form the old electricity is 'formed to be higher than the same voltage for the discharge unit 疋 L, and the shape and size of the discharge suppressing body 3b 3! A are set'. Even in this case, the discharge suppressing body 3 丨, 3丨 A is arranged at least adjacent to the gap g between the transparent electrode Xi Ys and the three-dimensional parent of the row electrode W! To m: In addition, as shown in Figure 丨 6, the discharge suppressor ... v, and塥 莹 jn contact: If you make such a situation. &Gt; As in · -------------installed · -------- order · -------- - Line (Please read the notes on the back before filling this page)

Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 466525 A7 B7 V. Description of the Invention (48) Therefore, it will not hinder the implementation of the above-mentioned exhausting step and the gas conducting step for discharging. &lt; Embodiment 6 &gt; The above-mentioned discharge suppressing body 31 is configured to set the discharge space 1Π of the non-discharge cell NC to be narrower than that of the discharge cell C, and set the applied voltage required for discharge formation to be larger than that of the discharge cell C to suppress A discharge is formed in the non-discharge cell NC. In view of the effect of the discharge suppressing body 31, an element equivalent to the discharge suppressing body 31 is formed on the front glass substrate 102 side, and the effect of the fifth embodiment can also be obtained. In the sixth embodiment, an AC-PDP57 having this type will be described using a longitudinal sectional view of Fig. 17. As shown in FIG. 17, AC-PDP57 is provided with a dielectric layer 116 having a predetermined thickness distribution on the front glass substrate 102 side, in place of the existing dielectric layer 106 (see FIG. 7) &lt; · In detail, the dielectric layer 116 is composed of an electrode coating portion 116C equivalent to the dielectric layer 106 described above, and a convex portion that is disposed in the non-discharge cell NC and protrudes from the electrode coating portion 116C toward the back glass substrate 103 side. 116T. In addition, as shown in FIG. 17, when the protective film 107 described above is provided on the surface on the back glass substrate 103 side of the dielectric layer 116, the element composed of the dielectric layer 116 and the protective film 107 is equivalent to The existing "dielectric layer 116A" and the element composed of the convex portion 116T and the protective film 107 on the convex portion 116T are regarded as "the convex portion (discharge suppressor) 116T of the dielectric layer 106A". At this time, the shape and size of the convex portions 116τ and 116TA are set so that the voltage required for the discharge to be formed in the non-discharge cell NC is higher than that of the discharge cell C. For example, if the thickness of the transparent electrode Xs and Ys of the electrode covering part 11 6C is set to about 25 / zm, the Chinese national standard (CNS) A4 specification (210 X 297 mm) will be applied from the transparent electrode xs and the paper size. ---------------- Η II -7 I Order * ιι—-ΙΙΙΊ * (Please read the precautions on the back of 蟥 before filling out this page) λ '_Β7_ V. Description of the invention ( 49)

The thickness or height from Ys to the top of the convex portion 1 1 6T or the convex portion 1 1 6TA is set to about 50 &quot; m. In particular, as with the discharge suppressing body 31, by disposing the above-mentioned convex portion 116T'H6TA at least at the three-dimensional intersection of the gap g between the adjacent transparent electrodes Xs and Ys and the row electrodes W1 to Wm, the unit The area AR is non-discharge unitized. In AC-PDP57, the convex portions Π 6T and 1! 6TA of the dielectric 1 1 6 are equivalent to the above-mentioned discharge suppressors 3 i and 3 1 A (refer to Figures 14 to 14). (Figure 16), the non-discharge cell NC and the discharge cell C = the dielectric layer 1 1 6 can be defined by the following method according to the presence or absence of the convex portions 1 1 6T and 1 丨 6TA. First, a dielectric paste is applied on the entire surface of the front glass substrate 102 side to form an electrode coating portion 丨 1 6C ° Second, using a stencil corresponding to the pattern of the convex portion 丨 16T, the electrode coating portion 1 1 6 C A dielectric paste is applied to form a free H6T. The drying and firing steps of the dielectric paste can also be performed separately after the formation of each electrode coating portion 16C and the convex portion Π 6T, or once after the formation of the convex portion Π 6T. If AC-PDP57 is used, the following effects can be obtained at the same time when the effects of Embodiment 5 described above are obtained: That is, the above-mentioned convex portions 丨 1 6T, 丨 6TA are on the front glass substrate 丨 and the back glass substrate 1 0 3 The fitting step 骒 中 is because it is next door to guide and abut! U-shaped groove formed by 0 'so it is not easy to send _ ±. Front glass substrate 丨 〇2 and back glass substrate 丨 〇; the result of the editing situation' can improve the yield, please read the precautions on the back before filling this page Gutter and i® rr: tired; X picture body 3'i body * X5il Yin Sang, employee consumer cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs 4 6 65 2 5 Α7 __Β7 V. Description of the invention (50) 116 convex portion 116TA (not The convex portion 116T of the dielectric layer 116 provided with the protection 暝 107 may also be in a form in contact with the phosphor layer 109 on the back substrate 103 side. In this case, the shape and size of the protective film 107 on the convex portion 1 i 6T or the convex portion 116TA of the dielectric layer 106A are not in contact with the partition wall 10. &lt; Modified Example 1 common to Embodiments 5 and 6 &gt; In addition, as with the previously described black insulating material 30 (refer to FIG. 13), the discharge suppressing body 31 and the convex portions of the dielectric layer 116 are made 6T. At least a part of the front glass substrate 102 on the front side of the UI6 TA is formed in black to obtain high contrast and visibility. Also, for AC-PDP56, 56A, 57, 57A, using the snaked partition 10 A (see Figure 6) or snaked mother electrode X Ab v YAb, the size of the discharge cell C and the non-discharge cell NC can also be made. different. &lt; Embodiment 7 &gt; Next, an AC-PDP58 according to Embodiment 7 will be described with reference to Fig. 19 which is a plan view corresponding to Fig. 1. In addition, in order to avoid complication of the drawings, the row electrodes W1 to Wm are omitted in FIG. 19. As shown in FIG. 19, 'In the AC-PDP58, a protruding electrode (second part) xk' Yk is disposed at the same position as the transparent electrode χί and Yt (in particular, if necessary, such as "protruding electrodes Xki, Yki ”Is added in order to clarify the attribution relationship with the mother electrodes Xbi and Ybi), instead of the transparent electrodes xt and Yt (see FIG. 1 etc.). In detail, the protruding electrodes xk and Yk have It is the same size or appearance size as the transparent electrodes Xt and Yt already described. On the other hand, a shape with openings X〇, γ〇 or 〇 ---- IIII imlji ^-! J ! 1 * ^, 乂. (阅读 Please read the note on the back 4: Fill this page first) This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 50 311850 Λ7 V. Description of the invention (η) In particular, the protruding electrodes Xk and Yk and the mother electrodes Xb and Yb are made of an opaque conductive material. In this case, the protrusions can be formed at one time by using the same metal material as the mother electrode as the opaque conductive material. The electrodes Xk 'Yk and the mother electrodes Xb and Yb. For example, it is possible to use an evaporation method or a printing method. In this way, AC-PDP58 can be used to reduce the number of steps compared to AC-PDP5} described above because it does not require the formation of step 1 of the transparent electrodes Xt and Yt. It simplifies the number of steps for forming the column electrode. As a result, the cost can be reduced. In AC-PDP58, the entirety of the column electrodes XI to Xn, Y1 to Yr] is made of an opaque conductive material as described above, but it is provided on the protruding electrodes Xk and Yk. There are openings χ〇 and γ〇 so that more visible light can be taken out. In addition, even if the protruding electrodes Xk and Yk are in this shape, the discharge can be sufficiently caused by the oozing caused by the extension of the electric field distribution from the electrode when a voltage is applied. Formed and continued. In addition, when the external dimensions of the protruding electrodes Xk and Yk are large, the form of ac-PDP5 8A shown in FIG. 20 can also be formed. That is, as shown in FIG. 20. xk 'Yk (outer shape) is slightly at the center of the mouth; along the second direction D2, the connecting portions Xka and Yka formed by the opaque conductive material are provided in the AC-PDP58A, and the holes 柽 Xk, Yk. Department has two two openings' γ〇. In addition, The opening of the electrode χ k γ k makes the width of each part larger than the electrodes Xk and Yk more fine. However, the 'resistance of the electrode Xk must be reduced to the details' and the resistance value of γι &lt; will increase. .. In view of each column of electric current X 丨 Α χη Y; to 之 ι (permissible, voltage drop. Department of clothing y: I 柽 ή '$ χΓ Electric term 念 and the offensive electricity to the place -n H-nn I · 1 1 s 1 .1 I ^ inn ^ *-WJ_ &gt; n 1 t * rmnn I I. &lt; Please read the notes on the back before filling out this page) 466525 Employee Consumer Cooperatives, Intellectual Property Bureau, Ministry of Economic Affairs

A7 V. Description of the invention (52) The current value is determined. When the conventional driving method shown in FIG. 30 is directly applied, the voltage drop will increase according to the above-mentioned increase of the resistance values of the protruding electrodes Xk and Yk. As a result, the limit of the 'driving voltage' becomes smaller as the voltage drop increases. Therefore, "Even if the widths of the portions of the protruding electrodes Xk and Yk are made thinner, the decrease in the limit of the driving voltage can be suppressed, and the AC-PDP58 and 58A can be operated stably." This driving method will be described below . Fig. 21 is a timing chart for explaining the driving method, and is a timing chart for maintaining a discharge period. In addition, the reset period and the address period are, for example, a conventional driving method shown in Fig. 30 and the like can be applied. In order to facilitate the understanding of the following description, a writing operation is performed on all the discharge cells during the address period. First, as shown in (c) of FIG. 21, the sustain pulse Vsa is applied to the column electrode Xi + 1 between time t1 and {2; as shown in (a) of FIG. 21, after that Between time t3 and time t4, a sustain pulse Vsa is applied to the column electrode Xi. At this time, as shown in (d) of FIG. 21, a sustain pulse Vsb is applied to the column electrode Yi + i between time u and time t4. Then, between time t5 and time t6, a sustain pulse Vsa is applied to the column electrode Xi +]; and between time t7 and time t8, a sustain pulse Vsa is applied to the column electrode phantom. At this time, as shown in (b) of FIG. 21, the sustain pulse Vsb β is applied to the column electrode Y1 between the time and the time t8 ', and the sustain pulses Vsa, Vsb are applied a predetermined number of times. With the application of the sustain pulses Vsa and Vsb, a sustaining Mei electricity can be generated in the discharge cells c defined by the column electrodes Yi and XHl at times t1 and t6, and at the column electrodes Xi + 1 at times t2 and t5. The M-scale scales defined by Yi + 1 are applicable to the Zhongguanjia Standard (CNS) X.4 specifications and 297 (Public Love). '一 ^ -------- Order --------- 1 · ^ (Please read the precautions on the back before filling in this page> Economic and Intellectual Property Bureau

* 4. A7 V. Description of the Invention (μ) A sustain discharge is formed in the discharge cell c ... At time ί3] 5, a sustain discharge is generated in the discharge cell C defined in the column. In addition, t t7 supplies the discharge electrode defined by the same electromagnetism as the column electrode X1 and the column electrode, and the column electrode ㈣ and the column electrode X 丨 supply the same voltage as the column electrode X1). A sustain discharge is generated on each discharge element C. At this time, focusing on, for example, the discharge cells C disposed on both sides of the column electrode Yi, 'the% of the column electrode is shifted on one side and the time on one side and the sustain discharge is changed, and the parent electrode Ybi cannot be interposed between the column electrode Yi. The discharge cells C arranged on one side and the discharge cells c arranged on the other side do not form a discharge at the same time. Therefore, on the column electrode Yi, the discharge current of the discharge cell C defined by the column electrode + 丨 can flow at times t1 and t6, and on the other hand, the column electrode Xi can flow at times t3 and t5. The discharge current of the defined discharge cell C. Therefore, according to the driving method shown in Section 21 (i), compared with the conventional driving method (refer to Section 30 (ii)) in which the discharge currents of all the discharge cells C arranged on both sides of the column electrode Yj flow simultaneously, it flows to the column electrode The current can be halved when the alkali is reduced. Of course, this is a proper result for all the column electrodes X1 to Xn Y1 to Υπ, and the width of the electrode Xk is emphasized by the indentation: then even if, for example, the column electrodes X 丨 to χΓί Resistance values from Y i to Υ η: It is also possible to ensure the same driving voltage limit-by this, the opening σ rate of the protruding electrode Xk. Yk can be increased and stable driving of AC-.PDP.58, 8A can be achieved. Off-chip, it is also used to replace the electrode of the bumsindole U figure with an opaque conductive material; waiting for the station electrode X υ. V 丨! T 时 丨 ⑽) HI --------- I --------- (谞 Please read the precautions on the back before filling in this page) 4 6 652 5 Printed by the Intellectual Property Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs Α7 Β7 V. Description of Invention (54) In the plan view shown in the figure, Ac-PDP58 has an opening in a part inside the discharge cell C of an electrode made of the opaque conductive material. χ〇, Υ〇 and set a predetermined aperture ratio. In addition, AC_pDp of the conventional AC-PDP101 series of electrodes 104 and 105 is constituted by only metal electrodes without using a transparent electrode, which is disclosed in Japanese Patent Laid-Open No. 10-149774. The AC_PDP disclosed in this bulletin is the same as the known AC-PDP101. It forms a display line with a pair of (2) column electrodes. Therefore, the driving method shown in FIG. 21 cannot be applied to this AC-PDP. This is because in the driving method of Fig. 21, a plurality of discharge cells c constituting one display line are staggered at every predetermined group to form a sustain discharge. Here, the above-mentioned group means that each of the discharge cells c disposed on both sides of the column electrode Y1 is equivalent, for example. In other words, in the AC-PDP disclosed in this publication, the sustain discharge of each discharge cell c constituting the display lines cannot be formed in groups. &lt; Embodiment 8 &gt; Next, the AC-PDP61 of Embodiment 8 will be described using a schematic plan view of FIG.23. The AC-PDP61 is characterized by the features of the mother electrodes xb and Yb. Therefore, this point is drawn in FIG. 23 for illustration. The constituent elements other than the mother electrode Xb and the dagger are applicable to, for example, those equivalent to AC-PDP51. If you compare Figure 23 and Figure 1 already described, it can be understood that in the ac-PDP 51, the widths of the mother electrodes Xb and Yb or the dimensions perpendicular to the strip-shaped length direction are fixed. In contrast, AC -The width of the mother electrode xb, Yb of PDP61 is narrower near the center, in detail, I of Α〇_ρ〇Ρ61 ^ ----- Γ — ------- i (please first Read the notes on the reverse side and fill out this page> This paper size applies the Chinese National Standard (CNS) A4 specification (⑽χ S97 公 爱) 54 311850 MEM member of the Intellectual Property Bureau: Price:: i; ^ Show A7 V. Description of the invention (55) The widths of the mother electrodes Xb and Yb are close to each other in the ac-PDP. The mother electrodes Xb 'Yb of the system AC-PDPdI have the same degree of life, and they turn over to each end Yu fc. -PDP6] The resistance values of the mother electrodes Xb and Yb 敕: The mother electrodes Xb and Yb of AC-PDP51 are lower by a — the ratio is therefore 'according to AC-PDP6], as long as the electricity | Γί is lower than the ac button ac The degree of Xb, Yb can reduce the voltage drop of the mother electrode 八, Hachisuo, and Succeed. As a result, as the above voltage drop decreases, the limit of the driving voltage can be enlarged, and the stability can be more stable. Moving AC, _pDp6 ^ Here, in order to reduce the voltage drop caused by the mother electrode Xb, the shape of the mother electrode of AC, pDp6] and Yb can be reversed at the center and each end. That is, as shown in the figure, the width of the mother electrode milk and yb can also be set near the AC_PDP end portion to the AC-PDP5k mother electrode Xb, which is about the same degree and more toward the center. Yes, for each row of electrodes χ] and γ 丨, the predetermined voltage operation is supplied. Since it is performed from the end of the mother electrode Xb 丨 '%, AC-PDP6 i A _ can be greatly removed from the end. Reducing the voltage drop near the center of the larger voltage drop therefore 'according to AC-PDP6 j A. Compared with the above-mentioned AC POP6 j, the boundary of the above driving voltage can be further expanded, and driving can be more stable :,

In addition, in AC-PDP6 and 6a, 'As long as the width of the mother electrode Xb. 75 is increased, the light from the discharge cell C can be blocked and the brightness can be increased: r ~ Λ ("DP., 1 low, but' in CR! Ί Cathode tube 丨 display cry I &quot;-μ., ./I ί.U ... PDP Toshima Shixun U Cheng pet 'u t1 gauge. Wear F -------- Order-- ------- ^ --- {Please read the notes on the back before filling out this page} 466525 A7 ------ B7__ V. The description of the invention (56) is degraded. In other words From the viewpoint of discrimination, it can be said that the brightness of the center is higher than that of the left and right AC PDP6 丨, which is more practical than the PDP61A. Therefore, the shape of the 'mother electrodes Xb, Yb 耻 肚 ^ m ^ 〇 corresponds to It is only necessary to appropriately limit the two viewpoints of the extension of the driving voltage limit and the assurance of visibility. In addition, the “mother electrode X1 of the eighth embodiment” Yb Xilaican ^ The shape of eight D can be applied to each AC_PDP already described . &lt; Other Modifications &gt; In the AC-PDP51 and the like described above, although the transparent electrode is formed into a quadrangle along the equal sides, as long as the shape of the discharge gap d described above can be formed, any other shape may be used. This point is also the same in AC pDp58 and "A's protruding electrodes Xk and Yk." In AC-PDP51, etc., although the front glass substrate 102 is described as a display surface, it is described by using The transparent electrodes are used to form the row electrodes W1 to wm, and the back glass substrate 103 can also be used as a display surface. At this time, opaque electrode materials can also be used on the transparent electrodes Xt, Yt, and the like to form the electrodes xt, Yt and other integrated electrode patterns such as the parent electrodes xbl to Xbn, γM to Ybn, etc. Furthermore, technical ideas such as AC-PDP5 +1 can also be applied to the relatively 2-electrode type AC-PDP. At this time, for example, borrow Discharge cells and non-discharge cells can be formed by controlling the thickness of the discharge space between the opposite electrodes (for example, using the black insulating material 30 or the discharge suppressor 31, etc.). [Effect of the invention] (1) According to the application For the invention in the item of patent scope, please install i ----_-- Order -------- 1-^ in the display line (please read the precautions on the back before filling in this page) Printed by the Intellectual Property Bureau Employee Co-operative Cooperatives Paper Size Standard (CNS &gt; A4 Specification (210 297 mm) ) 56 311850 Jing ¾ Village Intellectual Property Bureau _ τ, :: ^ Fei He. Du Yin Θ η »850 Λ7 B7_______ V. Description of the invention (57) There is a non-discharge gap between the two discharge gaps Therefore, compared with the conventional AC-type plasma display panel in which a discharge gap is arranged adjacently along this direction, it is greatly suppressed when the display line is driven. This prevents the discharge of the electric unit due to various reasons (and The electric house and electric field used for the control of the discharge caused erroneous discharges of other discharge cells. (.2) According to the invention in the scope of patent application No. 2, it is in the so-called three-electrode surface discharge type AC plasma display panel. (3) According to the invention in the third scope of the patent application, the reduction of the discharge can greatly reduce the electron (energy) loss in the discharge, so the luminous efficiency can be improved. (4) ) According to the invention in the scope of patent application No. 4, the effect of any one of the above (1) to (3) can be obtained in the full range of the AC-type electric display panel a (5) According to the scope of patent application No. 5 According to the invention, it is possible to obtain the same effect as the above (4). In particular, when this connection type is applied to the AC plasma display panel under the scope of patent application No. 3, it can greatly suppress the invalid electricity &lt; please read the precautions on the back before filling this page) -installation ---- ---- Order --------- Line ------

If n n ill-nk n i 4 6 65 2 5 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 ______B7____ V. Description of the invention (58) The electric suppressor is next door. Therefore, an increase in the number of processes and a complication of the processes are not caused, and a discharge suppressor can be formed. (9) According to the invention in the ninth scope of the patent application, in the bonding step of the first substrate and the second substrate, the convex portion serving as the discharge suppressor becomes a guide for the plurality of discharge spaces divided by the partition wall. Guide, so it is possible to achieve the effect that the position deviation of the first substrate and the second substrate is less likely to occur. (10) According to the invention of claim 10 in the scope of patent application, since there is a gap between the discharge suppressing body and the partition wall, it does not interfere with the exhaust step and the discharge air conducting step during the manufacture of the AC plasma display panel. (11) The invention according to item 11 of the scope of patent application can obtain higher contrast and discernibility. (12) According to the invention in item 12 of the scope of patent application, any of the effects (6) to (11) can be obtained on the AC plasma display panel. (13) According to the invention in item 13 of the scope of patent application, when having the same display panel area and resolution, 'the utilization ratio of the display area is higher than the AC plasma display panel with the same size as the discharge cells and non-discharge cells (application The scope of patent No. 16 is large, so it can improve the luminous efficiency. Moreover, when the area of the display panel and the size of the discharge cells are formed to be the same as those of the AC-type plasma display panel under the scope of the patent application No. 16, a higher-resolution AC-type plasma display panel can be realized. (14) According to the invention in item 14 of the scope of the patent application, when a phosphor layer is formed on the two adjacent walls adjacent to the U-shaped groove formed by, for example, the second substrate, the non-discharge cell of the phosphor layer can be used The part inside is bigger than that, please read the precautions on the back before filling in this page) 1 Pack ... ** — Order ---- —-^ This paper size _ Zhongguanjia Standard (CNS) A4i grid coffee χ 2 listening director 58 311850 A7 A7 Staff of the Intellectual Property Bureau of the Ministry of Economic Affairs 洵 社: ^% B7 V. Description of the invention (59) The part inside the electric unit is thick. In this way, the part of the ultraviolet rays generated by the discharge generated in the discharge cell, which is radiated toward the non-discharge cell side, can be converted into visible light on the glory body layer in the non-discharge cell, that is, arranged linearly with the partition wall. Compared with the AC plasma display panel, the utilization efficiency of ultraviolet rays can be improved: At this time, due to the difference in the thickness of the phosphor layer described above, because the portion constituting the non-discharge cell in the discharge space will be narrower than the portion constituting the discharge cell, Therefore, the effect of more surely preventing the occurrence of lightning in non-discharge cells can be obtained. (丨 ”According to the invention in the scope of patent application No. 丨 5, even when the partition wall is formed in a straight line, the discharge cell can be formed larger than the non-discharge cell. Therefore, it is possible to sufficiently suppress the defect or the defect of the partition wall that is prone to occur when the partition wall snakes. Broken, etc. (16) According to the invention of the patent application scope V 1 u, since the next wall is formed into a straight line, the drinking wall can be directly used to form a yak fun and the defects can be fully suppressed or broken. The next wall (17) according to the scope of the patent application is based on the 17 inventions of the patent application. The AC-type plasma display of the discharge type in the 1φ n surface shows the H argon electrode (丨 8) according to the scope of the patent application. Fruit +-display board is comprehensive, can get c, i is in the core type plasma, 5α. The effect of the above 1 丨). Guozhou according to the patent application _ 丨 9 items. 18) The same The results are especially ... 'xj again: inch and description, width of the system of invalid electricity 1' m according to the scope of patent application section ¥ 1 section η ta nn _... Xiao's invention: then please make peace ,, … ,, L Yu-4 display board can de 浔 fe μ ..... (Please read the phonetic on the back? Matters before Page write) _ t] n n ^^ 1 ^ 1 l --- line set. -

^ Η5π 46 652 5 A7 --------- V. Description of the invention (6G) (21) The invention according to item 21 of the scope of patent application, because the first part is straight, so it is in line with the situation where this snakes. In comparison, the occurrence of shape defects such as pattern defects in the first part can be sufficiently suppressed. (22) According to the invention in the scope of patent application No. 22, the same effect as the above can be obtained on the AC plasma display panel in the scope of patent application No. 17. (23) The invention according to item 23 of the scope of patent application can form the first and the first part at one time. In this way, the number of steps for forming the first and second electrodes can be reduced and simplified more than in the case where a transparent electrode is used in the second part. As a result, cost reduction can be achieved. (24) The invention according to item 24 of the scope of patent application can obtain higher contrast and visibility than a so-called plasma display panel with black bars. (25) According to the invention in the scope of patent application No. 25, the discharge space in the non-discharge cell can be narrowed by the black insulating material, so that the formation of discharge (false discharge) in the non-discharge cell can be prevented more reliably. (26) The invention according to item 26 of the scope of patent application has the advantage that when forming a black insulating material as, for example, part or all of a partition wall, as long as the raw material of the partition wall is blackened, the existing partition wall forming step can be used directly . (2 7) According to the invention in the 27th scope of the patent application, by setting the width of the first part to be narrower in the center and wider toward each end, it can ensure the visibility and expand the limit of the driving voltage, and can be stable Driven AC plasma display panel. In addition, by setting the width of the first part to be wider in the center and narrower toward each end, compared with the case where the center is narrower than each end, f Please read the precautions on the back before filling in this page )

Packing -------- Order --- I ---- H Printed by the Consumers' Cooperatives of the Intellectual Property Bureau of the Ministry of Economy Standards of this paper are applicable to National Standard (CNS) A4 (210 X 297) 311850 A7 _______B7 V. Description of the invention (61) The boundary of the driving voltage can be further expanded, and the AC plasma display panel can be driven more stably. (28) According to the invention according to item 28 of the scope of patent application, as compared with the case of having the same uniform width as that of the center, reducing the resistance of the first part can reduce the voltage drop generated in the first part. As a result, the limit of the driving voltage can be widened and the AC-type plasma display panel can be driven stably. At this time, although the 7C degree near the end 4 is lower than the center ', it does not cause a significant decrease in visibility. (2 9) According to the invention in item 29 of the patent application scope, compared with the AC-type plasma display panel in item 28 of the patent application scope, it can expand the above-mentioned driving voltage limit and drive the AC-type battery more stably. Pulp display board. (30) A plasma display device capable of exhibiting any one of the effects of (ii) to (29) above can be obtained in accordance with the invention of item 30 of the scope of patent application. (3 1) According to the invention in item 31 of the scope of patent application, the instantaneous current flowing to the first and second electrodes can be reduced. Therefore, the voltage drop caused by the resistance of the first and second electrodes can be suppressed} and stable driving of the AC plasma display panel can be achieved> (Please read the precautions on the back before filling this page) -1 nn I i- »1 &gt; ΙΪ I — ί inn I n n- Mingshuo aL αΡΓ Simplified diagram graph surface flattened plasma electricity flow state

Large display type code display surface &quot; Hing Ping display system branch diagram Figure 2 to the main V V to J &quot; ae · 3 write electric amplifier TTr- and Yuandan electric structure enemy board τ '二' ! Obvious slurry paddle thunder 5 electric type current flow; ι of-: .1 morphological appearance &quot; mountain running · ^ 实 实 排 έ is; r I

IS ¥ One 5η 4 6 652 5 A7 Consumption cooperation by employees of the Intellectual Property Bureau of the Ministry of Economic Affairs ____B7________ V. Description of the invention (62) Figure 4 is used to illustrate another structure of the AC plasma display panel of Embodiment 1. Floor plan. Fig. 5 is a block diagram showing the overall configuration of the plasma display device of the first embodiment. Fig. 6 is a plan view for explaining the construction of the AC plasma display panel of the second embodiment. Fig. 7 is a longitudinal sectional view of an AC plasma display panel according to a second embodiment. Fig. 8 is a plan view for explaining the structure of an AC-type plasma display panel of the third embodiment. Fig. 9 is a plan view for explaining the structure of an AC-type plasma display panel according to the first modification of the third embodiment. FIG. 10 is a plan view for explaining the structure of the AC-type plasma display panel according to the first modification to the common modification 1 of the first to third embodiments. FIG. 11 shows another structure plane 圊 of the AC-type plasma display panel in which the common modification i of Embodiments 1 to 3 is enlarged. Fig. 12 is a plan view for explaining another structure of the AC plasma display panel of the common modification J of the first to third embodiments. Fig. 13 is a plan view for explaining the construction of an AC-type electric paddle display panel according to the fourth embodiment. Fig. 14 is a plan view for explaining the construction of an AC-type plasma display panel of the fifth embodiment. Fig. 15 is a perspective view for explaining the structure of the AC plasma display panel of the fifth embodiment. Figure 16 is used to explain the AC plasma display panel of Embodiment 5. The private paper size is applicable to the national standard (CNS) A4 specification (210 X 297 male * &gt; 311850 (Please read the precautions on the back first) (Fill in this page again) 1 n I ^ * OJ 1 Intellectual Property Bureau of the Ministry of Economic Affairs_1-. Consumption coincidence ;, 1 Bu. ^: A7 _B7_ V. Description of the invention (63) A structural perspective view. Figure 17 is for A longitudinal sectional view showing the structure of an AC-type plasma display panel according to Embodiment 6. FIG. 18 is a longitudinal sectional view for explaining the structure of an AC-type plasma display panel according to Embodiment 6. FIG. A plan view of the structure of the AC plasma display panel of the seventh embodiment. Fig. 20 is a plan view illustrating another structure of the AC plasma display panel of the seventh embodiment. Fig. 21 is an illustration of the AC battery of the seventh embodiment. The timing chart of the driving method of the plasma display panel. Figure 2 and 2 are diagrams illustrating another structure of the AC plasma display panel in Embodiment 7. Figure 2 and Figure 3 are the AC plasma display panels in Embodiment 8. A plan view of the structure. Fig. 24 is a diagram illustrating an AC plasma display of the eighth embodiment. Another-'Structural plan view. Figures 2 and 5 are perspective views showing the structure of the AC plasma display panel of the first conventional technique. Figure 26 is a plan view of the structure of the AC plasma display panel of the second conventional technique.' The picture is the first section of Xianzhi, the intersection of known technologies: .ΐΐtang electric paddle display structure longitudinal section view ... ------------- installation --------- Order --------- Line {Please read the precautions on the back before filling this page) Figure 18 ## 显 十 第 ：:. Knowing the taste; ΐ ΦElectric Paddle Display .. 丨: Board . 建 .ί

6 652 5 A7 B7 V. Description of Invention (64) Create a three-dimensional drawing. Fig. 29 is a perspective view showing the construction of an AC plasma display panel of the fourth conventional technique. Fig. 30 is a timing chart for explaining a driving method of a conventional AC electric display panel. [Explanation of the component number] 10, 10A, 110 next door 30 black insulation 40 control circuit 50 plasma display device 51 to 58,51 A, 53A, 54A, 56A, 57A, 58A, 58B, 61, 61A AC type Plasma display boards 102, 202 front glass substrate (first substrate) 103, 203 back glass substrate (second substrate) 14, 15, 18 driving circuits 31, 31A discharge suppressor 41 power circuit ------------ T -Install- &lt; Please read the notice on the back before filling in this page &gt; 104,204 columns 105,108,205 electrodes 105,108,205 electrodes 107 protective film 116C electrode coating 111,211 discharge space 141, X Driver 18〗, W Drivers D1, D2, D3 directions dgw, dgw2 width NC non-discharge cells Vsa, Vsb 104a, 105a metal auxiliary electrodes 106, 106A, 116 dielectric layers 109, 109B, 109G, 109R phosphor layers 116T, 116TA Convex (discharge suppressor) 112, C discharge unit 142,182 drive 1C bl, dgl, dgl2, ngl, ngl2, nglA interval DG discharge gap g gap NG non-discharge gap maintenance pulse '--- ^-order ____: ____ .__ The size of this paper is applicable to Chinese National Standards (CNS) A4 specifications (21G X 297 public love) 64 311850 A7 _B7_ V. Description of the invention (65)

Xbi, Ybi, XAbi, YAbi (i = l to η) mother electrode (Part 1)

Xi, Yi column electrode (first or second electrode) and 1 1 1 1 10, 1 1 <1 (丨 = 1 to: 1) protruding electrode (second part)

Xka, Yka Link Department

Xt, Yt, Xs, Ys, XAt, YAt, Xti, Yti, XAti, YAti, Xs〗, Ysi (i = 1 to η) transparent electrode (second part) Xο, Υο opening Wj〇j = i to m) Row electrode (third electrode) (Please read the precautions on the back before filling out this page) —------------------------ Wires ----- Intellectual Property of the Ministry of Economic Affairs Bureau 8 industry consumer cooperation fif!;. * _

Claims (1)

5 2 5 6 6 4 Jin 880808 A member of the Intellectual Property Bureau of the Ministry of Economic Affairs and the Consumer Cooperative Cooperative Association. * 1 The type of AC plasma display panel that is patent-applied is characterized by having: a discharge gap that can form the desired discharge, and configuration A plurality of discharge cells on the same surface; and a plurality of non-discharge cells having a discharge more difficult to form a discharge than the aforementioned discharge gap 'and arranged on the same surface, and the discharge gap is described by one The aforementioned non-discharge gaps are arranged adjacent to each other in a direction at least parallel to the display line. For example, the AC-type plasma display panel under the scope of application for patent, it further includes: a first substrate; a second substrate disposed opposite to the first substrate at a predetermined distance; and used to connect the first substrate to the second substrate The space between the substrates is divided into partition walls of a plurality of discharge spaces; a first portion extending in parallel to a strip on the display line; and a second portion connected to the first portion and protruding toward the discharge cell side, and arranged A first electrode and a second electrode on the first substrate side: a dielectric for covering at least one of the first and second electrodes; and disposed on the second substrate side between the first electrode and the second electrode Each of the aforementioned first portions of the electrodes is in a direction of three-dimensional crossing, defining the aforementioned first and second electrodes, and simultaneously defining the plurality of band-shaped third electrodes of the aforementioned discharge cell or the aforementioned non-discharge cell, and-- --I ---. Install -------- Order --------- line (Please read the phonetic on the back? Matters before filling out this page) This paper size applies to Chinese national standards (CNS A4 specifications (210 X 297 public love) 66 311850 Six Λ8 R8 CS D8 The scope of the patent application for the aforementioned discharge gap is formed by the two opposite ones of the aforementioned discharge cells in the aforementioned first and second electrodes described in the second part, The above-mentioned non-discharge gap formed by the edge is formed by two edges of each of the first and second electrodes + the first part through the non-discharge cells. Such as the application of the scope of the patent scope of the first type of plasma is more equipped. The first substrate; ί # first read the l4 items on the back and then fill in this page to install a pre-distance with the first board in the opposite configuration of the first board ; Base:-^-Smart S &quot; Production Bureau P II- «Fees- '·'" ^ '· 11- ·: ^ · Used to put the aforementioned "its ^ its ^ into the plate", ^ Taipan Xing Xun second The space between the substrates is divided into partitions of a plurality of discharge spaces; a strip-shaped section—extending from # 今 ^ to the description display line and extending in parallel to each other; The length direction of the aforementioned first part is perpendicular to // l, Itg W direction. The aforementioned first part protrudes toward both sides, and extends along the aforementioned longitudinal direction of the first part of the strip-shaped first part. Part of the structure, g A is arranged on the first electrode and the second electrode of the first substrate 削: to cover the front 逑 苐 —and the second electrode is divided into the front 逑 ·--line 1 electric A The substrate is placed upside down with the rhyme ..... and the first :: the front part of the electrode ... the part is three-dimensional.竽 铎 铎 诘 诘 诘 诘 一 一 — — W—.1 · _ · * · 办 &quot;, _ · ΜΙ (Μ | Ι · _Μ Mh * · "Γ h :? string. S ^ ^ U: : CV.-'™ ~. I.-y fc. Put in front 4 6 65 2 5 A plurality of strip-shaped third electrodes of the electric unit; and printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. 6. The scope of patent application is arranged at the three-dimensional intersection of at least the gap between the second part and the third electrode. Is used to define the discharge suppressor of the non-discharge cell, and the discharge gap is formed by two edges of the opposite part of the discharge sheet in each of the foregoing second parts of the first and second electrodes. The discharge gap is formed by the two edges of the opposite part of the first and second electrodes, with the non-discharge cells made opposite to each other. 4. The AC-type plasma display panel according to item 2 of the patent application scope, wherein when the AC-type plasma display panel is viewed from the first or second substrate side, the aforementioned discharge cell is larger than the non-discharge cell. 5. For example, an AC plasma display panel with the scope of patent application No. 2, ι _ /, Ding Yue |] The partition wall is composed of a plurality of strip-shaped partition walls arranged along the length direction of the third electrode. The division between the adjacent third electrodes, and the interval between the two adjacent partition walls, will divide the portion of the discharge cell to be wider than the portion of the non-discharge cell. 6. For an AC-type plasma display panel according to item 2 of the scope of patent application, wherein the first part of each of the first and second electrodes is separated by an interval between two edges of the opposite part through the aforementioned enemy electric gap, It is wider than the interval between the two edges of each of the aforementioned first parts through the non-discharge cells. 7. For the AC plasma display panel with the scope of patent application No. 2, among which the Chinese national standard (CNS) A4 specification (210 X 297 mm) is applicable from this paper size 311850 (Please read the notes on the back before filling (This page) -------- Order ------- 1 «-line 68 8 workers of the Intellectual Property Bureau of the Ministry of Economic Affairs &quot; Fees: A8 B8 C3 D8 Or when the AC plasma display panel is viewed on the second substrate side, the size of the discharge cells and the size of the non-discharge cells are equal. 8. The AC-type plasma display panel according to item 1 of the scope of patent application, further comprising: a first substrate; a substrate of a second substrate spaced apart from the first substrate at a predetermined distance from the first substrate; With the board base-the first line will be on the first line of the use of the first line; the display wall before the separation of the electricity in the extension of the electric extension of the flat number is divided into two and divided into two and the W side; The side of the straight and sloping part that is connected to the front part of the front part is divided into two parts, and the part is turned toward the side, while the front part of the base part is first and the first part is the same as before. The placement separates the distribution part and I direction, the dielectric side-as little as the middle pole electric second and the first one; the pole front electric cover second quilt and the pole electricity first and second-the wear and the side plate The second paragraph -ii-s? Before and after the release as a separate description. Ul · i month before the limit of the statement 'or Shanghai Yuan to S-Fang Dian's fork 4 -T. Inch. Β Conforms to the first order of the first two and the first order of the first limit. Department of Snow) The band gap is described by the number of times t, and the number of times before the repeat is described by the Ministry of Front ::. The single number is described by mn In n. ^ 1 I— tl rrt II · n If i 1 nn ^ ~ aJ »ttl If n 1 —J 4— / I— (Please read the phonetic on the back? Matters before filling out this page) The pole edge snow on the first and second sides before the pole electricity description) -ϋ ^ .f 'r &quot; &quot; &quot; 柽 电 第 .M 第 -r:-. 46 65 2 5 A8 ------------ D8 ^ It is not a discharge cell but is formed with two opposite edges. • The AC plasma display panel according to item 2 of the patent application, wherein the first and second parts are made of an opaque conductive material, and the second part is provided with an opening. 10. The AC-type plasma display panel according to item 1 of the patent application scope, wherein a black insulating material is arranged in a portion other than the discharge cell. u. The AC-type plasma display panel according to item 10 of the scope of patent application, wherein the black insulating material is 'are disposed within the surface of the discharge space detector I of the first substrate' and corresponds to the non-discharge cell. on. 2 'The AC-type plasma display panel according to item 10 of the patent application scope, wherein the black insulating material is disposed on the second substrate. For example, the AC-type plasma display panel in the second item of the patent application scope, wherein the width of the front part second part 'is uneven along the length direction of the aforementioned first part. (Please read the notes on the back before filling this page) ----------------- ^ Printed on paper standards of the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs, Chinese paper standards (CNS ) A4 size (210 X 297) 70 311850