KR20020096792A - Plasma display panel with ditched region between sustaining electrodes - Google Patents

Abstract

PURPOSE: A plasma display panel having air gaps between discharge retaining electrodes is provided to increase the density of plasma by eliminating a transparent dielectric layer between the discharge retaining electrodes. CONSTITUTION: A plasma display panel is comprised of a soda lime glass(1), an upper-plate transparent dielectric(2), an upper-plate discharge retaining electrode(4), a lower white dielectric(5), a lower address electrode(6), a side wall(7), and a fluorescent material(8). Air gaps are formed between the upper-plate discharge retaining electrodes(4). Utilizing strong electric field between the upper-plate discharge retaining electrodes(4) maximizes the density of plasma. Therefore, vacuum ultraviolet is largely used, so that the brightness and efficiency is improved.

Description

Plasma flat panel display having voids between discharge holding electrodes {Plasma display panel with ditched region between sustaining electrodes}

The present invention relates to a plasma display panel which is one of flat panel display elements. Plasma displays have a number of inherent advantages not found in other flat panel devices, such as being able to enlarge and colorize more than 40 inches and have a wide viewing angle, and are considered as the next generation high-definition wall-mounted TV or multimedia large display devices. However, the plasma display still has a problem of improving brightness and efficiency to the level of existing display devices. Improving the structure of existing plasma indicators for high efficiency and high brightness is one way to solve this problem.

The present invention relates to a top plate structure capable of improving brightness and efficiency in an AC plasma display of a TV, a monitor, and various display devices.

As described above, the present invention relates to a structure having voids by removing the transparent dielectric layer between discharge sustaining electrodes that can replace various existing top plate structures in accordance with the high brightness, high efficiency, and low power consumption of the plasma display. Compared with the existing top plate structure, the strong electric field between the discharge sustaining electrodes can be used to maximize the density of the plasma, thereby maximizing the use of vacuum ultraviolet rays. In addition, in the existing top plate structure, the magnitude of the discharge voltage can also be reduced by using a strong electric field between the electrodes that cannot be used due to the dielectric layer, and thus improvement of brightness, efficiency, and discharge delay phenomenon can be expected.

Fig. 1 Unit cell of a conventional alternating color plasma flat panel indicator

2 is a unit cell of a plasma flat panel display having voids between the top plate discharge sustaining electrodes;

1 is a schematic view of the top and bottom plate structure and the visible light of the existing AC color plasma flat panel display. The operating principle of the AC color plasma flat panel display is that when surface discharge occurs between the two discharge holding electrodes of the top glass, the vacuum ultraviolet rays generated by the discharge excite the phosphor on the bottom glass to make visible light visible to the human eye. . This is the principle that the observer located on the glass top will observe.

FIG. 2 is a unit cell of the plasma flat panel display having voids between the top plate discharge holding electrodes having improved top plate structure of the AC color plasma flat panel display described with reference to FIG. 1. This structure improves the existing top plate structure to remove the transparent dielectric layer between the discharge sustaining electrodes. Compared with the existing top plate structure, the strong electric field between the discharge sustaining electrodes can be used to maximize the density of the plasma. Therefore, it is possible to use the vacuum ultraviolet rays to the maximum, and to reduce the magnitude of the discharge voltage by using the strong electric field between the electrodes, which cannot be used due to the dielectric layer in the existing top plate structure, and thus it is expected to improve the brightness, efficiency and late discharge phenomenon. .

The present invention relates to a top plate structure of a plasma flat panel display having voids by removing a transparent dielectric layer between discharge holding electrodes to improve the top plate structure of a plasma display suitable for wall-mounted televisions and desktop monitors. This structure can improve not only the brightness and efficiency of the plasma display but also the late discharge phenomenon. As a result, it contributes to the improvement of the quality of the plasma display, making the plasma display more advantageous than other flat display technologies in the large flat panel display market.

Claims (1)

As shown in FIG. 2, a structure having a strong electric field in a gap is used by removing the transparent dielectric layer between the discharge sustaining electrodes in the plasma flat panel display.