KR0183470B1 - Plasma indicating element - Google Patents

Abstract

The present invention discloses a plasma display device of high quality. The barrier rib 33 is formed in an XY matrix between the front plate 20 and the back plate 30, and an auxiliary discharge space 34 is formed at the common center of the four display discharge spaces, and the discharge sustaining electrode is formed on the back plate. 32 is formed to pass through the auxiliary discharge space 34 in parallel with the cathode 31, the auxiliary anode 23 is arranged on the front plate 20 in a direction orthogonal to the discharge sustaining electrode and exposed to the auxiliary discharge space It is installed as possible. This minimizes the auxiliary discharge space and provides a high quality plasma display device.

Description

Plasma display device

1 is a partial ablation perspective view showing a conventional plasma display device.

2 is a partial ablation perspective view showing a plasma display device according to the present invention.

3 is a schematic plan view showing a plasma display device according to the present invention.

4 is a sectional view taken along the line A-A of FIG.

5 is a cross-sectional view taken along line B-B in FIG.

* Explanation of symbols for main parts of the drawings

20: front panel 22: anode

23: secondary anode 24: black matrix (black matrix)

30 back plate 31 cathode

32: discharge sustain electrode 33: partition wall

34: auxiliary discharge space 35: display discharge space

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device, and more particularly, to a plasma display device whose structure is improved to minimize the auxiliary discharge space and to be advantageous for solidification wells.

In general, since the plasma display device is an X-Y matrix type display device and is operated by linear sequential driving, various proposals have been made to extend the light emission time within one field in order to increase the luminance for the light emission time extension.

An example of such a conventional plasma display device is a pulse memory plasma display device as shown in FIG. The display cathode 2 is formed of a plurality of parallel electrodes on the back plate 1, and the partition wall 5 is formed to have the display discharge region 3 and the auxiliary discharge region 4 on the upper surface of the cathode 2. The partition wall between the display discharge region 3 and the auxiliary discharge region 4 of the partition wall 5 is formed lower than other portions so that charged particles flow from the auxiliary discharge region 4 to the display discharge region 3. have.

The front plate 6 is formed in a direction orthogonal to the display cathode 2, and a display anode 7 and an auxiliary anode 8 are formed to correspond to the display discharge region 3 and the auxiliary discharge region 4. It is.

The plasma display element having such a configuration uses an auxiliary discharge between the auxiliary anode 8 and the display cathode 2 in order to improve the display discharge characteristics between the display anode 7 and the display anode 2, and thus the auxiliary discharge region 4. The display discharge occurs quickly by supplying the charged particles to the display discharge region 3. First, when the display cathode 2 is sequentially scanned, an auxiliary discharge is generated in the corresponding auxiliary discharge region 4 together with the selected auxiliary anode 8. The charged particles generated at this time are diffused into the display discharge region 3 with the subsequent secondary discharge.

The charged particles diffused into the display discharge region 3 are discharged to the display cathode 2 and the display anode 7 by applying a pulsed discharge holding voltage to the display anode 7 so that the display discharge is performed. do.

However, the plasma display device having such a configuration has a problem in that the auxiliary discharge region 4 occupies a considerable area on the front plate 6, which is the display surface, and is disadvantageous in realizing high image quality by reducing the effective screen.

An object of the present invention is to provide a plasma display device that realizes a high-quality image by minimizing an auxiliary discharge region, which is devised to solve the above problems.

The present invention to achieve the above object is a plasma having a front plate and a back plate maintaining a constant interval, the partition plate for preventing crosstalk between the anode and the cathode, the pixels arranged in the XY matrix form on the front plate and the back plate In the display device, the barrier rib is formed in an XY matrix shape, and an auxiliary discharge space is formed at an intersection point of four unit discharge spaces, and discharges formed on the rear plate while passing through the auxiliary discharge space in parallel with the cathode. And a sustain electrode and an auxiliary anode arranged in a direction orthogonal to the discharge sustain electrode and passing through the auxiliary discharge space and formed on the front plate.

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

Referring to FIG. 2, which shows a plasma display device according to the present invention in a separated perspective view, a partition 33 between the front plate 20 and the back plate 30 to prevent crosstalk between the display discharge spaces 35 is XY. It is provided in a matrix form. As shown in FIGS. 2 and 3, the auxiliary discharge space 34 is formed in communication with each other in the common center of the four display discharge spaces 35 formed by the partition walls 33. A plurality of discharge holding electrodes 32 passing through the auxiliary discharge space 34 are provided in parallel in the back plate 30, and a cathode 31 is provided in parallel with the discharge holding electrodes 32 in the back plate 30. Each display discharge space 35 is provided to be exposed.

4 and 5, the inner surface of the front plate 20 is provided with an anode 22 in a direction orthogonal to the cathode 31, and the auxiliary anode 23 corresponding to the auxiliary discharge space 34. It is provided in parallel with this anode 22.

On the other hand, a black matrix 24 is formed on the inner surface of the auxiliary discharge space 34 and the front plate 20, and the auxiliary anode 23 is provided thereon. An insulating layer 21 is formed on the inner surface of the front plate 20.

Effects of the plasma display device according to the present invention configured as described above are as follows.

First, the cathode 31 is sequentially scanned, and the secondary discharge between the discharge sustaining electrode 32 and the auxiliary anode 23 takes place to improve the discharge characteristics between the anode 22 and the cathode 31. At this time, the charged particles in the auxiliary discharge space 34 are diffused into the display discharge space 35. As the charged particles diffused into the display discharge space 35 are applied with a data signal to the anode 22, display discharge occurs rapidly between the cathode 31 and the anode 22.

On the other hand, since the light generated in the auxiliary discharge space 34 during the auxiliary discharge is blocked by the black matrix 24 is not displayed through the front plate 20.

The plasma display device according to the present invention as described above has the advantage that the secondary discharge space 34 is maintained at a high resolution by occupying a narrow area as compared with the conventionally formed long in the longitudinal direction. In addition, since the charged particles generated in the auxiliary discharge space 34 are diffused into each display discharge space 35, the reaction time during kitchen discharge can be shortened and the driving voltage can be reduced.

Claims (3)

In a plasma display device having a front plate and a back plate maintaining a constant interval, and a partition wall for preventing crosstalk between the anode and cathode, the pixels arranged in an XY matrix form on the front plate and the back plate, the partition wall is An auxiliary discharge space formed in the common center of the four display discharge spaces, the discharge sustaining electrode being formed to pass through the auxiliary discharge space in parallel with the cathode on the rear plate, and the discharge sustaining electrode; And an auxiliary anode disposed in the orthogonal direction and exposed to the auxiliary discharge space and formed on the front plate. The plasma display device of claim 1, wherein the barrier ribs are stacked on the discharge sustaining electrode exposed to the auxiliary discharge space and the remaining portion. The plasma display device of claim 1, wherein a black matrix is formed on the front plate corresponding to the auxiliary anode and the auxiliary discharge space.