KR100406784B1 - Plasma display panel - Google Patents

Abstract

PURPOSE: A plasma display is provided to prevent a crosstalk by preventing discharged between electrodes arranged in the discharge spaces, while achieving improved resolution. CONSTITUTION: A plasma display comprises a pair of substrates(31) on which barrier ribs(34) for defining a discharge space are arranged; pairs of first electrodes including two or more first electrodes(41a,41a') arranged in parallel with each other at the inner surface of one of the substrates; and pairs of second electrodes including two or more second electrodes(42a,42a') arranged in parallel with the first electrodes, between the pairs of first electrodes. The main discharge is performed between the first and second electrodes which are arranged adjacently with each other.

Description

Plasma display device

The present invention relates to a plasma display device, and more particularly, to a plasma display device having an improved electrode pattern for forming a kitchen discharge.

Plasma display devices are devices that generate light by exciting fluorescent materials or special gases. That is, glow discharge occurs by applying a predetermined voltage to the electrode while the gas is charged between the two electrodes provided in the closed space, and excitation of the phosphor layer formed in a predetermined pattern by ultraviolet rays generated during the glow discharge. To form an image.

The plasma display device is classified into a direct current type or an alternating current type and a mixed type according to a driving method. According to the electrode structure, it is classified into having at least two electrodes required for discharge and having three electrodes. In the case of the direct current type, an auxiliary anode is added to induce an auxiliary discharge. An address electrode is introduced to separate the discharge and sustain discharge to improve the address speed.

In addition, the AC type may be classified into a counter electrode and a surface discharge electrode structure according to the arrangement of the electrodes forming the discharge. In the case of the counter electrode structure, two sustain electrodes forming a discharge may be formed on the front substrate and the back substrate, respectively. It is a structure in which the discharge is formed on the vertical axis of the panel, and the electrode structure of the surface discharge is a structure in which two sustain electrodes forming the discharge are positioned on the same substrate so that the discharge is formed on one plane of the substrate.

1 and 2 illustrate an example of a surface discharge type plasma display device among plasma display devices. FIG. 1 is a side view of the plasma display device, and FIG. 2 is a plan view showing the arrangement of the common electrode and the scan electrode for the partition wall. to be.

As illustrated, a dielectric layer 13 in which an address electrode 12 is immersed is formed on an upper surface of the substrate 11, and a partition 14 having a predetermined pattern partitioning a discharge space is formed on the upper surface of the dielectric layer 12. . The substrate 11 on which the partition 14 is formed is coupled to the front substrate 15, and the common electrode 16 and the scan electrode 17 having a predetermined pattern are formed on the bottom surface of the front substrate 15. Although not shown, a dielectric layer may be formed on the bottom surface of the front substrate on which the common electrode 16 and the scan electrode 17 are formed, and a phosphor layer may be formed on the top surface of the dielectric layer between the partition walls.

The patterns of the common electrode 16 and the scan electrode 17 formed on the lower surface of the front substrate 15 are alternately formed as shown in FIG. 2. That is, they are arranged alternately with respect to one discharge space to have adjacent structures.

In the conventional plasma display device configured as described above, as a predetermined voltage is applied to each of the electrodes, wall charges are charged in the discharge space by the trigger discharge by the address electrode 12 and the exposed scan electrode 17. In the discharge space filled with the wall charges, the glow discharge is generated by the common electrode 16 and the scan electrode 17 to emit light.

However, as described above, the light emitting plasma display device has the same potential difference between all the scan electrodes 16 and the common electrode 15 during driving. Therefore, when the interval between neighboring cells is narrow, discharge occurs between the scan electrode of the selected discharge space and the common electrode of the adjacent discharge space. This phenomenon causes a problem of cross talk with adjacent discharge spaces.

In order to solve the above problem, conventionally, the space between the discharge spaces is widened to reduce the discharges between adjacent discharge spaces as described above, but the spaces between the discharge spaces may cause discharge within the same area. The area in which the area is relatively small decreases in brightness, and the pitch of the discharge space cannot be reduced, thereby making it impossible to fabricate a plasma display device having high resolution.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a plasma display device capable of preventing cross talk by preventing discharge between electrodes formed in adjacent discharge spaces.

Another object of the present invention is to provide a plasma display device capable of improving the resolution of an image by reducing the pitch between discharge spaces.

1 is a cross-sectional view of a conventional plasma display device;

2 is a perspective view illustrating a state in which a common electrode and a scan electrode are formed in a conventional plasma display device;

3 is an exploded perspective view of the plasma display device according to the present invention;

4 is a perspective view illustrating an arrangement state of a first electrode and a second electrode of the plasma display device illustrated in FIG. 3.

<Explanation of symbols for the main parts of the drawings>

31; substrate 34; septum

41; first electrode pair 41a, 41a; first electrode

42; second electrode pair 42a, 42a '; Second electrode

In order to achieve the above object, the present invention provides a plurality of first electrodes comprising a pair of substrates having partition walls partitioning discharge spaces and at least two first electrodes arranged side by side to be formed on an inner surface of one substrate. A plurality of second electrode pairs including at least two second electrodes arranged between the pairs and the first electrode pairs in parallel with the first electrode, and a kitchen transition between the adjacent first and second electrodes; It is characterized by what is achieved.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the plasma display device according to the present invention, the address electrode 32 is formed on the upper surface of the substrate 31 in a predetermined pattern, and the dielectric layer 33 is formed on the upper surface of the substrate 31 on which the address electrode is formed. In addition, a plurality of partition walls 34 forming a discharge space having a predetermined pattern are formed on the upper surface of the dielectric layer 33 in a predetermined pattern. In addition, the bottom surface of the substrate 31 on which the partition wall 34 is formed is bonded to the front substrate 35 on which the electrode layer 40 of a predetermined pattern for forming a kitchen dish is formed. Here, a dielectric layer may be formed on the lower surface of the front substrate 40 on which the electrode layer 40 is formed. Although not shown in the drawing, a phosphor layer is formed on an upper surface of the dielectric layer between the partition walls.

As illustrated in FIG. 4, the electrode layer 40 formed in a predetermined pattern on the lower surface of the front substrate 35 may include a plurality of first electrodes including at least two first electrodes 41a and 41a 'arranged side by side. A plurality of electrode pairs 41 and at least two second electrodes 42a and 42a 'arranged between the first electrode pairs 41 in parallel with the first electrodes 41a and 41a'. Second electrode pairs 42.

In more detail, two first electrodes 41a and 41a 'of the first electrode pair 41 are parallel to one edge of the discharge space on one side and to the edge of the other discharge space adjacent thereto. Two second electrodes 42a and 42a 'of the second electrode pair 42 are positioned at the other edge of the one discharge space and the one edge of the discharge space adjacent thereto.

The arrangement of the first and second electrode pairs 41 and 42 as described above is not limited to the embodiment as described above, and the first and second electrodes 41a and 41a 'are located in adjacent discharge spaces. Preferably, the two electrodes 42a and 42a 'are positioned as far as possible from each other. In addition, a distance between the first electrode 41a positioned in the one discharge space and the second electrode 42a positioned in the other discharge space may be determined so as not to be moved between adjacent discharge spaces by deflection of charges. The pressure may vary depending on the pressure, driving voltage, etc. of the gas charged in the discharge space.

In the plasma display device according to the present invention configured as described above, as a predetermined voltage is applied to each of the electrodes as described above, a trigger discharge by the address electrode 32 and the first electrode 41a is applied to the discharge space. Wall charges are charged, and a discharge occurs between the first electrode 41a and the second electrode 42a in the discharge space filled with the wall charges to emit light.

As described above, the driving method according to the application of the voltage to the electrode is driven separately from the address driving and the sustain driving, the same voltage is applied to all the second electrode (42a) (42a ') during the sustain driving period. As described above, when a voltage is applied to the second electrodes 42a and 42a ', erroneous discharge with the first electrodes 41a and 41a' for the adjacent discharge space may occur. The one side discharge space is located in the order of the electrode 41a and the second electrode 42a 'and is disposed in the order of the second electrode 42a and the first electrode 41a' in the discharge space adjacent to the one discharge space. The first electrode 41a positioned in the discharge space adjacent to the second electrode 42a 'of the second electrode 42a' is not adjacent to each other, thereby preventing cross talk due to mis-discharge between them.

As described above, the plasma display device according to the present invention has the following effects.

First: It is possible to prevent the crosstalk caused by the discharge between the electrodes located in the discharge space.

second; Since the electrode angles between the discharge spaces can be narrowed, the number of discharge spaces per unit area can be increased, thereby improving the resolution.

third; The movement of electrons is blocked between adjacent electrodes to which the same potential is applied to each other, thereby preventing the charged particles from moving to portions other than the discharge space.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and the present invention may be modified in various embodiments by those skilled in the art within the technical scope of the present invention.

Claims (2)

A pair of substrates having a partition wall that partitions a discharge space, a plurality of first electrode pairs including at least two first electrodes arranged side by side and formed on an inner surface of one substrate, and parallel to the first electrode And a plurality of second electrode pairs formed of at least two second electrodes arranged between the first electrode pairs, and a discharge current is generated between the adjacent first and second electrodes. The method of claim 1, And the first electrode pairs and the second electrode pairs each comprise a pair of first electrodes and a pair of second electrodes.

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