RU2208261C1 - Direct-current gas panel - Google Patents

Abstract

FIELD: electronic engineering; television information displays. SUBSTANCE: newly introduced in picture elements are insulating barriers that mount electrodes of one of gas-panel systems; these additional insulating barriers divide phosphor coating in picture elements into two parts. EFFECT: enhanced brightness and uniformity of picture elements. 1 cl, 1 dwg

Description

 The invention relates to electronic equipment and can be used to create indicator devices for displaying television information.

 Known gas discharge indicator panel (GUI) of direct current containing anodes and cathodes, lower and upper dielectric plates, while the size of the luminous element is determined by the size of the space bounded by the ribs formed on the upper and lower dielectric plates [ed. testimonial. USSR 533996, class H 01 J 17/49, 1976].

 The disadvantage of this design of the DCU GUI is a large spread of brightness between the display cells, which does not allow using it to display television information.

 Known GUI DC, containing the upper and lower dielectric plates, display cells formed at the crossroads of the anodes and perforated cathodes, the dividing elements on the inner surface of the dielectric plates between the cathodes and anodes [ed. testimonial. USSR 1074301, class H 01 J 17/49, 1987].

 The disadvantage of this panel is the low brightness of the glow of the display cells and the large unevenness of their glow.

 Closest to the claimed design is a DC UIP containing the upper dielectric plate, the lower dielectric plate with the first electrodes, second electrodes orthogonal to the first electrodes and forming with them display cells bounded by the first and second dielectric barriers, the first of which are placed between the first and the second between the second electrodes, and a phosphor coating deposited on the inner surface of the lower dielectric plate in the display cells [US Pat. RF 2004030, H 01 J 17/49, 1993 - prototype].

 The disadvantage of this design of the DCU GUI is a large spread in the brightness of the glow in the cells and between the cells of the display panel. This is due to the fact that the wire electrodes of the ISU DC in the process of its manufacture are subjected to repeated heat treatment. As a result, the wire sags, which in the cells and between the display cells has a different value, which leads to a high heterogeneity of the glow of the display cells. In addition, the disadvantage of this design is the low brightness of the glow of the display cells, because the phosphor coating in the display cells has a small thickness. An increase in the thickness of the phosphor coating to the optimum value leads to an increase in the brightness of the luminophore, however, the phosphor is shed due to the low adhesion of its particles to the substrate within the display cell, which has a large area, and when it enters the display cells with a phosphor of a different glow color.

 The objective of the invention is the creation of a GUI DC with high brightness and uniformity of illumination of the display cells.

 The specified technical effect during the implementation of the invention is achieved by the fact that in the known GUI of direct current containing the upper dielectric plate, the lower dielectric plate with the first electrodes, second electrodes orthogonal to the first electrodes and forming with them display cells bounded by the first and second dielectric barriers, the first of which are placed between the first, and the second between the second electrodes, and a phosphor coating deposited on the inner surface of the lower dielectric plate in cells display, on the inner surface of the bottom dielectric plate between the first additional dielectric barrier formed insulating barriers separating the phosphor coating in display cells into two parts and the first electrodes are disposed on the additional insulating barriers.

 The proposed design allows to increase the uniformity of the luminescence of the display cells of the ISU DC by eliminating the sagging of the first electrodes by a different amount both within the display cells and from cell to cell. In addition, this design allows you to increase the brightness of the glow of the display cells, as in the cells it is possible to increase the thickness of the phosphor coating by increasing the adhesion of the phosphor particles to the substrate.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allows us to establish that the applicant has not found an analogue characterized by features identical to those of the claimed invention, and a definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed to identify the set of essential in relation to the applicant to technical result of the characterizing features claimed in the object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty."

 To verify the conformity of the claimed invention to the requirements of the inventive step, an additional search was carried out for known solutions in order to identify features that match the distinctive features of the claimed invention from the prototype, the results of which show that the claimed invention does not explicitly follow from the prior art, as it does not identified technical solutions in which a high brightness and uniformity of luminescence of the display cells of the ISU DC would be ensured by introducing the appearance in the display cells of additional dielectric barriers dividing the phosphor coating of the display cells into two parts and the location of the first electrodes on these barriers.

 Thus, the claimed invention meets the requirement of "inventive step".

 The invention is illustrated in the drawing.

 The drawing shows one of the options for the proposed design of the ISU DC.

 The DCI ISU contains the upper 1 and lower 2 dielectric plates, indication cells 3, formed at the crosshairs of the first (anodes) 4 and second (cathodes) 5 electrodes, bounding the indication cells, dividing elements formed by mutually perpendicular first 6 and second 7 dielectric barriers, phosphor coating 8 on the lower dielectric plate 2, additional dielectric barriers 9, on which the first electrodes 4 are placed.

 The panel works as follows. When voltage pulses are applied to the corresponding anodes 3 and cathodes 4, a gas discharge arises in the display cell, the ultraviolet radiation of which excites the glow of the phosphor 8. To obtain the glow of the display cell with different brightness, pulse-width modulation is introduced.

Concrete example
ISU DC contains the lower and upper fiberglass. Mutually perpendicular dielectric barriers 0.3 mm high and 0.6 mm wide are formed on the lower glass plate to separate the cells from each other with a pitch of 6 mm.

 Between the first dielectric barriers at an equal distance from them are additional dielectric barriers, the height and width of which are respectively 0.08 and 0.2 mm.

 In the gaps between the first dielectric barriers on the inner surface of the lower glass plate are phosphors of the primary colors: FGI - 593/597, FGI - 420-1, FGI - 528-1 0.11 mm thick.

 The phosphor coating between two adjacent first dielectric barriers with an additional barrier is divided into two equal parts.

 Anodes of 0.02 mm thick nickel-based material are located on additional dielectric barriers. Orthogonal to the anodes and at a distance of 0.2 mm from them are placed cathodes of wire 47 ND with a diameter of 0.12 mm, grouped in 6 by indication cells.

 The ISU is filled with a constant mixture of Ne + 25% He + 15% Xe with mercury vapor up to a pressure of 110 mm Hg.

In this HIP DC cells display brightness is 180 cd / m ^2, and the luminance distribution within the panel is ± 9%, which is almost 2 times less luminance variation and 1.5 times higher luminance luminescence display cells commercially available GUI.

 Thus, the proposed invention allows to create a GUI DC with high brightness and uniformity of illumination of the display cells.

Claims (1)

 A direct current gas discharge indicator panel comprising an upper dielectric plate, a lower dielectric plate with first electrodes, second electrodes orthogonal to the first electrodes and forming indicating cells with them, bounded by the first and second dielectric barriers, the first of which are placed between the first and the second between the second electrodes and a phosphor coating deposited on the inner surface of the lower dielectric plate in the indication cells, characterized in that on the inner surface On the bridge of the lower dielectric plate, additional dielectric barriers are formed between the first dielectric barriers, dividing the phosphor coating in the display cells into two parts, and the first electrodes are located on additional dielectric barriers.