RU2004030C1 - Color gas-discharge data display - Google Patents

Abstract

The invention relates to electronic equipment and can be used to create indicator devices for displaying information The technical result is an increase in the brightness of the glow of cells. The invention is achieved by increasing the brightness due to the fact that in the panel containing the upper plate and the lower plate with a phosphor on the inner surface, indication cells, the formation of anode and grouped cathode cells in the crosshairs, dividing elements on the inner surfaces of the dielectric plates between the cathodes and anodes, the dividing elements are made in the form of mutually perpendicular unequal systems of the first and second barriers, the anodes are located between the first barriers, and the cathodes are between W In the case of other barriers, the dividing elements of the upper plate are made in the form of mutually perpendicular barrier systems, one of which is made of variable height with protrusions, the shape and location of which corresponds to the recesses formed at the intersections of the second and first barriers, while the distance r between the cathodes in the cells is determined according to the expression g 1.5-5.5 (X + X), and the total height of the barriers r k-kk rebound in the upper plate is determined according to the expression I z g (XX). where X is the extension of the quality of the h to-in to + the negative potential drop; X is the length from the negative glow glow, I is the minimum size of the indication cell 3 il

Description

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

Known gas discharge indicator panel (GUI), containing anodes and cathodes, lower and upper dielectric plates, in which the size of the luminous element is determined by the size of the space enclosed between the ribs and protrusions located on the upper and lower dielectric plates (ed. St. No. 533996, CL H 01J 17/49, 1976).

In the said ISU, there is no uniform luminosity of the glow of each cell due to heme, that the cathode is made of solid material with a limited region of negative glow glow.

The main objective of the invention is the creation of a GUI that provides improved perception of information by increasing the luminosity of the cells.

The indicated technical effect is achieved by the fact that in a colored GUI containing an upper dielectric plate and a lower dielectric plate with a phosphor on the inner surface, indication cells formed in the crosshairs of the anodes and cathodes grouped by cells, dividing elements on the inner surface of the dielectric plates between the cathodes and anodes , the dividing elements of the lower plate are made in the form of mutually perpendicular systems of the first and second barriers, the anodes are located between the first barriers, and the cathodes are between the second barriers, the dividing elements of the upper plate are made in the form of mutually porpendicular systems of barriers, one of which is made of variable height with protrusions, the shape and location of which correspond to the recesses formed at the intersections of the second and first barriers, while the distance -to between the cathodes in the cell is determined according to the expression

hk-k 1.5-5.5 (Khk + Hote), and the total height of the barriers hk-k in the upper plate is determined according to the expression

h Gk-in S (Hk + Hot), where h is the minimum size of the display cell;

Chk length of cathodic drop of potentiap;

Khote - the length of the negative glow glow (OTS).

The proposed design of the ISU allows to increase the brightness of the glow cells

by normalizing the distance between the grouped cathodes and the distance between the cathodes and the inner surface of the upper glass in the cell. Besides,

the removal of cathodes from the inner surface of the upper plate implies a decrease in the degree of dusting by cathodic atomization products and, accordingly, an increase in the indicator durability.

In the process of the analysis of the prior art did not find analogues that are characterized by the features of the invention, and a comparison of the proposed technical solution with the closest in combination

features analogue allowed us to identify a set of essential distinguishing features to achieve a technical result. Consequently, the GUI declaration meets the requirement of novelty.

in the process of searching for sources of information in order to identify technical solutions that reveal features that match the distinguishing features of the invention, only self-scanning ISUs were discovered {French patent Isfe 2066732, cl. G 09 F 13/00, 1971), in which grooves are made in the upper plate to remove the cathodes from the upper plate. The depth of these grooves has a value

less than OTC discharge. At such distances, a change in the structure of the OTC of the discharge occurs, which leads to a decrease in the efficiency of its radiation, which cannot provide an increase in the brightness of the indicator cells.

Thus, an analysis of the sources showed that the invention does not follow from the prior art, since the influence of the cathode with a normalized distance between its constituent elements has not been revealed, I have (a fixed location relative to the upper plate, on increasing the brightness of the luminescence of cells.

In FIG. 1 presents one of the options for the ISU; on Fig, 2 shows the dependence

brightness of the glow. indication cells from -t / Vv-; in FIG. 3 - addiction

Lk t Lote

the brightness of the glow of the display cells from the ratio -T5GT5ЈG

The ISU contains the upper dielectric plate 1 and the lower dielectric plate 2 with a phosphor 3 on its inner surface, indication cells formed in the crosses of the anodes 4 and grouped by the cells of the cathodes 5. The separation elements of the lower plate are made in the form of mutually perpendicular systems of the first 6 and second 7

barriers, the anodes are located between the first barriers b, and the cathodes are between the second barriers 7 on the upper surface of the first barriers. The dividing elements of the upper plate are made in the form of mutually perpendicular systems of barriers 8, one of which is made of variable height with protrusions 9, the shape and location of which correspond to recesses formed at the intersection of the second and first barriers with cathodes placed on them.

The panel works as follows.

When voltage pulses are applied to the respective anodes 4 and cathode groups 5, a discharge is excited in the respective cells, the ultraviolet radiation of which irradiates a phosphor of a certain color and causes the display cell to glow. At various distances between the cathodes grouped in the cells, the brightness of the glow is different. The highest brightness of the luminescence is ensured at distances between the cc-cathodes of 1.5–5.5 (XK + Hote), which is caused by the most intense irradiation of the phosphor with ultraviolet radiation from the shells of the GTS of a gas discharge, which is confirmed by the experimental dependence shown in FIG. . 2.

With a small distance between the cathodes, Ps-k 1.5 (Xk + Hote), the hollow cathode effect sharply appears, which is accompanied by a fusion between each two cathodes of both regions of the OTC, emitting ultraviolet radiation of maximum intensity, and one region and, as the consequence is a decrease in the volume of the region of maximum ultraviolet radiation and, therefore, a decrease in the luminosity of the phosphor luminescence by more than 30%.

At a distance of gc-k 5.5 (XK + X0ts), the OTC layers between the cathodes are moved apart by such a distance that there is a strong absorption of ultraviolet radiation in the gas during its diffusion to the phosphor, which is accompanied by a decrease in brightness by more than 30%.

In addition, the luminescence of the glow is affected by the removal of the cathode from the upper glass at a distance of 1H5: Gk-in (Xk + Hot), which contributes to the distribution of the negative glow glow on the outer surface of the cathode. In this case, the volume of OTC 5 increases and the efficiency of irradiating the phosphor with ultraviolet radiation increases.

It was experimentally confirmed (Fig. 3) that with GK-in (XK + Hot) the brightness of the device decreases and with GK-in 0 the brightness of the glow

0 is halved. A further increase in Gc does not lead to a change in brightness. However, at Hk-h, the VOL of the cell survey decreases to more than 45 °, which is lower than the existing norms for the ISU by this parameter.

The optimal location of the grouped cathodes in the indicator is ensured by the proposed barrier structure, which represents

0 is a matrix system of protrusions and depressions of a certain configuration.

In the ISU, made according to the invention, containing 4096 indication cells measuring 2.2 x 2.2 mm2 with cathodes from 47 ND wire 0.12 mm in diameter and filled with a mixture of Ne + 30% He + 30% Xe, p 100 mm Hg ., for which (XK + Hot) 0.1 mm, the distance between the cathodes in the cell is selected from GK-k (1.5-5.5) (XK + Hot) (1.5-5.5) x

0 xO, 1 (0.15-0.55) mm and is equal to 0.4 mm, and the distance between the cathodes and the upper plate is selected from the expression 2.2 mm Cell 5: Gk-in (Xk + Hot) 0.1 mm and equal to 0.2 mm. The brightness of the luminescence of a cell with phosphorus FGI-520-1 was 150 cd / m2, which is 20% more than the brightness of the luminescence of the IGP-32x32L indicator.

The proposed color GUI is intended for use in ECPs for reproducing sign and TV information and will improve the quality of information due to the high luminance of the indicator cells.

5 (56) French Application N 2321763, cl. H 01J 17/48, 1977.

fifty

USSR copyright certificate No. 533996, cl. H 01J 17/49, 1976.

Claims (1)

The claims COLOR GAS DISCHARGE INDICATOR PANEL, comprising an upper 55 dielectric plate and a lower dielectric plate with a phosphor on the inner surface, indication cells formed in the intersection of x anodes and grouped by cathode cells: dividing elements on the inner surfaces of the dielectric plates between the cathodes and anodes, characterized in that the dividing elements of the lower plate are made in the form of mutually perpendicular differently high systems of the first and second barriers, the anodes are located between the first barriers, and the cathodes are between the second barriers, the dividing elements of the upper plate are made in the form of mutually perpendicular barrier systems, one of which is made with a variable height with protrusions, the shape and location of which correspond to they make recesses formed at the intersections of the second and. first barriers of the lower plate, and the distance Гк- between the cathodes in the cell is determined from the expression 3 V ffft .. fe. { Editor T. Yurchikova Order 3326 Compiled by S. Zhuravlev Tehred M, Morgenthal Corrector S. Yusko Circulation NGO Search for Rospatent 113035, Moscow, Zh-35, Rauska nab., 4/5 0 , 5 + 5.5 (HK-Hots), and the total height of the hk-barriers in the upper plate is determined from the expression 1 h - Gk-v - (Hk + Hote.), where Xk is the length of the cathodic potential drop; Hote. - the length of the negative smoldering glow; | Cell. - minimum display cell size .v ., (XtiXorJ (XarcJ CHAY v