DE1966500A1 - Multicolor display device with multiple fluorescent colors - Google Patents

Description

Patent attorneys

Di.-lng. Wilhelm Reiche] Dipi-Ing. Wolfgang Reichel

6 Frankfurt a. M. 1 ^ ncctznn

Paxksirassel3 1966500

7093

Burroughs Corporation, Detroit, Michigan 48 232, U.S.A.

Multicolor display device with multiple fluorescent colors

The invention "relates to a gas-filled display device, Scoreboard or a screen for multicolor display by means of several fluorescent colors.

Such display devices are used in connection with computers and with Ir.strumententafein of any kind for a clear overview Representation required. Especially because of the multicolored Playback can dor information content considerably increase.

There are already known board-like, matrix-shaped multicolor display devices, for example for characters. However, they still have disadvantages. For example, must in the display device as described in US Patent 3 33 ^i} - described 269 are prepared j the multicolor image by a complicated method of imaging by means of an optical lens, when a mixed color is desired, since each cell only one single I contains umpteen fluorescent material. Groups of three adjacent lines are therefore necessary if three colors are to be used to produce the multicolored image. The available area of the entire panel is therefore not optimally used with regard to the luminance, which is particularly evident when a color is used, ie two thirds of the cells remain dark.

The invention is based on a display device which has the shape of a plate which has light-permeable gas cells forming closed openings containing one or more phosphors and gas.

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According to the invention, the attracting device is designed in such a way that that each opening contains at least one further fluorescent material radiating in a different color and at least for each opening a further electrode is provided and electrodes and phosphors are arranged relative to one another in such a way that that by applying a voltage between two or more electrodes selectable one or more phosphors in one Opening can be excited to glow. These electrodes are in direct contact with the gas. Preferably the inner wall is each of the gas cells provided with a recess to prevent a continuous path of atomized electrode material from forming between two of the electrodes.

The gas can be generated by applying voltages to two or more Electrodes to emit radiant energy are excited / grounded, causing the or phosphors to emit colored Light can be stimulated. By arranging several fluorescent materials with different colors in a single one Cell it becomes possible to achieve higher luminance and thus better color resolution for the eye, so that the Mixtures of colors can be perceived as very small bright spots, which is the main disadvantage of the above described display device is eliminated. By ^ an arrangement in which the electrodes are directly connected to the gas in Contact, which is known per se in a different form from US Pat. No. 2,933,648, is opposite to the display device according to US Pat. No. 3,333,269, another disadvantage eliminated because the voltages to be applied are much lower than in the indicated display device, in which uses an insulating resistance layer between the electrode and the gas.

The display device according to the invention has a simple one Cell construction, in particular in that the electrodes are ir.it-den; Gas directly related and complicated there is no need for intermediate layers to be applied and is therefore easy and cheap to manufacture.

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The invention will be explained in more detail with the aid of the attached figures.

Figure 1 (24) shows a display device according to the invention on average.

Figure 2 (25) shows another embodiment of the invention Display device.

The display device shown in FIG. 1 consists of several plates stacked one on top of the other, a lower glass plate 334 with a tube extension 336 for melting the display device after it has been filled with the gas mixture, horizontal rows (or lines) of cathode electrodes 338, an insulating plate 340 with holes 350 »vertical Columns of electrodes 352 with holes 353 »an insulating plate 35 ° with holes 35 °, rows of anode electrodes 36O with holes 3 ° 2 and an upper glass plate 30 °. Through the superposed holes 350, 353, 353 and 362 a gas cell jO is formed, which in this embodiment consists of two chambers "I) Io first chamber liof'l between dom KabhodoHkiiopf 90 and <lor iJiitfclei'on! Electrode 352 and the anode 360. The UIe!; .- • croden 33 ^ »35 ² and 36O are in direct contact with the filling gas. By applying voltages to at least two of the electrodes 338, 352 and 360, a discharge occurs in the filling gas Charge ignited, through which radiant energy is emitted. The luminescent substances 400 or 4 10 v / ground applied in the two chambers are thereby stimulated to glow in their characteristic colors. In that to the middle. Electrodes 352 and voltages applied to selected cathodes 338 and anodes 360, various control processes can be effected.

The display boards can be designed in a more versatile way, that several auxiliary control electrodes, analogous to the central electrodes 352 can be provided so that one can have three or more electrodes for each cell receives. Accordingly, an inch contains two or more chambers.

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The display device shown in FIG. 1 is provided with fluorescent material 400 in one chamber and with fluorescent material 400 in the second. Dobei one phosphor 400 is provided in holes 358 of the plate 356 and the other phosphor 4 TO in holes 35O of the plate 340.

In Figure 2 is a gas cell 30 with only a single chamber shown between the cathode, i.e. the space conductor and the anode, i.e. the line conductor. It shows a different distribution of the phosphor in the cell than that shown in Figure 1. In this embodiment may be the top surface of the cathode button 90 or the recess of a cup-shaped button 90, if one Such a shape is used for the cathode, be coated with a phosphor 390. The phosphor 390 can also, on the wall of the inch 30 or on the inner surface of the top plate 72 is applied in alignment with the cell 30 be.

The phosphor can be painted, sprayed, or deposited Various types can be applied as phosphors, e.g. the types Silvania 13 ^ »I6I, 13I and various P types manufactured by General Electric be used. Phosphors are used for color display (which are also called phosphors) are used, which produce the three primary colors red, green and blue. Sin glowing red Luminous substance is zinc phosphate activated with manganese, a green luminous substance is zinc orthosilicate and a The blue fluorescent substance is zinc sulfide.

A special advantage of this display device results from the fact that fluorescent material is introduced into the cells that can emit different colored light.

Zinc orthosilicate - T 1 - phosphor and a gas mixture 'from Cells containing argon, neon and xenon can be operated to produce light of two different colors. If on one toe a relatively low one

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Voltage of eiwα 300 volts is applied, then emits Due to the fluorescent substance in the cell being largely green the ul "craviolet excitation by the gas. If a higher Voltage of about 4θΟ volts is applied to a cell, the phosphor is stimulated to give off white light.

The gas filling, which is particularly suitable for producing paint, contains argon, neon, xenon and mercury. Argon emits in the ultraviolet range to excite certain phosphors such as tin sulfide and zinc oxide. Mercury emits in the ultraviolet range and is particularly suitable for stimulating such phosphors as tin sulfide and zinc sulfate. Xenon emits in the ultraviolet range and is particularly suitable for stimulating oxides and silicate phosphors. Bs is also possible, which in turn excites a second phosphor for emitting the desired light into a cell a first Lcuch ti-amble to use, which can be excited by argon, neon, or mercury to emit ultraviolet light. Typical phosphors for this operating mode are GEX-80 and JEDEC P-16 types.

To achieve the multi-color effect, various Phosphors can be contained in every cell. The multicolor effect is obtained by emitting one of these for the different ones Phosphors characteristic colors or made of the superposition of these colors.

If, during the operation of the display device according to the invention, the phosphor 410 is to be excited to emit colored light, then the electrodes 352 are operated as anodes and the electrodes 338 as cathodes. If the phosphor 400 is to emit light, then the electrodes 36Ο are used as cathodes and the electrodes 352 as anodes. Assuming that the phosphors and klö can be excited in such a way that they together orgebön light of a third color, then this can be achieved by putting the two electrodes 338 and 36 at positive potential

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and placed within i.ils anodes and the middle electrodes 35- «Lö cathodes operated on negative potential or vice versa will.

The multicolor color of the display device can also thereby can be achieved that each cell is operated with only one color and the arrangement of the cells is such that they xirie so-called Parb-Dreier in color television picture tubes form. In this mode of operation, too, the display device according to the invention is distinguished from known clock color display devices characterized by high luminosity.

In the exemplary embodiments of FIG. 1 and FIG. 2, forms a glow discharge develops between opposing anode and ivathode projections. It works in. Electrical Respect a facilitation of the formation of the Glimir.discharge and further that the glow discharge is formed within the cell around the cathode and contributes to the mutual influence of the cells (also interspersion or Called crosstalk). However, even with a well-centered glow discharge, electrode material deposition occurs on the cell walls. A cliché of the invention The feature is therefore * the design of the perforated central plates and the anodes and cathode electrodes. the Holes 350 of the insulating plate 3 ^ 0 in Figure 1 therefore have Recesses 35 "i> which serve as atomization traps and prevent that there is a continuous path of conductive material that is removed from the electrodes by sputtering between the two electrodes 338 and 332 can. Similar sputter traps 359 prevent the formation of a continuous conductive coating between the Electrodes 352 and 36Ο.

Such as matrix or board display devices with in lines and Electrodes arranged in columns are operated is known per se. The one to be reproduced or displayed on a board Information can be obtained from a digital computer, a decoding

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ror or a similar element \ m £; konimon, and the or.ipian & eneii signals are corresponding X- and Y-IDlecti "oden zu jeTülart, with the cells at the intersections of these
Electrodes are switched on and display the desired information. when it comes to letters, numbers,
Trade signs, messages, pictures and similar symbols

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Claims (3)

P at claims 1. Reversing color indicator with a plate that is translucent, has closed openings that form a gas cell and contain fluorescent material and gas, wherein the 'gas can be excited to emit radiant energy via two electrodes and by releasing the energy Luminous material stimulates the emission of colored light, characterized in that each Opening (362) at least one further radiating in a different color Contains fluorescent material (4OO, 41O) and for each opening at least one further electrode (352) is provided and Electrodes and phosphors are arranged relative to one another that by applying a voltage between two or several electrodes (36O, 338, 352) selectable on or several phosphors in an opening can be excited to glow. 2. multicolor display device according to claim 1, characterized in that the Electrodes (36O, 338, 352) are in contact with the gas. 3. Multicolor display device according to claim 1 or 2, characterized in that the inner wall each of the gas cells is provided with a recess (350) to prevent a continuous Forms away atomized electrode material between two of the electrodes. 209852/0130 BATH ORIGINAL