DE2252256A1 - GAS DISCHARGE ARRANGEMENT FOR MULTICOLORED DISPLAY OF INFORMATION - Google Patents

Description

File number of the applicant: GE 9 72 027

Gas discharge arrangement for the multicolored display of information

The invention relates to a gas discharge arrangement for the multicolored visual representation of, based on three basic colors Information according to the preamble of claim 1

Compared to pure black and white representations of information within display fields, the multicolored representation wins ever greater importance. A solution with three basic colors was found in patent application P 22 03 572.9 for this area of application specified, which is characterized in that at least two discharge spaces are provided that are delimited from one another in the direction of discharge, that the conductors of a conductor field pair have a running direction that differs by approx. 60 °, so that the conductors of all conductor field pairs are arranged in three directions are, which differ from each other by about 60, that in each of these directions alternating discharge cells for two of the three basic colors are arranged, with a discharge cell two directions are always common for a basic color.

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The object of the present invention is to avoid the disadvantages still given in accordance with the earlier application mentioned. It is intended to be a multicolored display with a single common discharge space for all the intended primary colors and / or their mixed colors are made possible; only two fields of essentially parallel electrical conductors should be provided but not more than two.

Compared to the earlier registration mentioned, this results in the significant advantage that the two conductor fields with orthogonal to each other standing individual conductors at the display points below Use of a single discharge space can be formed.

The solution to this problem is characterized in claim 1. Advantageous refinements are described in the subclaims. An embodiment of the invention is shown in the drawings and will be explained in more detail below. Show it:

1 shows the triadic arrangement of basic color elements, which is also common in television for color display purposes,

Fig. 2 shows the formation of the two conductor fields on the

opposite boundary surfaces of the arrangement and

Fig. 3 shows the triadic arrangement of the basic colors and the

associated two conductor fields with transparent surfaces for viewing behind the Arrangement of arranged additional visual

Information.

1 shows the arrangement of the elements which can be excited for light emission in the basic colors red R, blue B and green G in known elements

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Color televisions. Each of these elements can be selectively illuminated by the cathode ray. Through appropriate The desired mixed colors can be superimposed on the basic colors achieve.

In Fig. 2, the arrangement of the parallel conductors on one of the two boundary surfaces of the discharge space is shown in dashed lines. These conductors, shown vertically with dashed lines, are divided into groups of three R, B, G for the addressable coordinates Y1, Y2, Y3, ... With the help of these groups of three, one, two or all three basic color elements can be defined for the individual Y coordinates. The conductors Xl ₇ X2 _f . They run essentially orthogonally to the first-mentioned conductor field and are designed in a meandering manner. These X conductors are arranged on the boundary surface of the discharge space opposite the boundary surface with the Y conductors. So it is possible according to the methods customary today without any particular difficulties to attach the two conductor fields to the transparent boundary surfaces of a discharge space.

By addressing the Y-conductor Y3 / B and the X-conductor X2, for example, a blue light emission can be excited at the coordinate X2, Y3. If the Y-conductor Y3 / R is ^{excited at the same time, it} lights up in a mixed color of red and blue. In this way, the corresponding individual or mixed colors can be stimulated for all of the provided coordinates.

In addition to the relatively easy manufacturability of the two groups of conductors With the currently usual means, the essentially perpendicular course of the two conductor fields to each other is to be emphasized and of particular advantage. With it, the usual addressing with coordinates perpendicular to the exnana is possible, as it has long been known in black and white representations. This also provides the prerequisite for a compa-

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flexibility between color and black / white representations, which is certainly advantageous with regard to image transmission.

Furthermore, it is economical to use a single gas layer in a discharge space in the production of the overall arrangement compared to known arrangements for the multicolor display with at least two discharge spaces very useful.

All of them take place in the only designated discharge space Coordinates for cells R, B and G are the original excitation of polychromatic, e.g. white, light. From this are to the individual light cells R, B and G only the red, blue or to bring green light components to a visible effect. For this purpose, a filter sheet is provided over the entire display area of cells each for one of the three basic colors permeable limited small areas arranged facing the viewer.

Such a design with homogeneous light generation inside the discharge space and a filter sheet on one outside avoids placing phosphorescent elements in different colors on the inner surface of the front Boundary wall, as has already been proposed on the other hand. The disadvantage of such an arrangement is uniformity and tolerance problems, since the phosphorescent particles within the discharge space reduce the electrical distribution Can seriously disturb the field. The solution given with the proposed invention with an upstream filter avoids these disadvantages. - It would also be the placement more phosphorescent Observe particles on the outside of the front perimeter surface. But there could be problems UV absorption in the glass wall and phosphor adhesion problems occur when the phosphor particles are partially exposed the transparent metal conductors and the other part directly on the glass wall.

The formation of the points of intersection between

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see the X and Y conductors according to Fig. 2 to be observed. Included orthogonal overlaps are actually only given in very limited areas - which affects the formation of the electrical Fields with regard to disruptive scatter to neighboring points has a particularly favorable effect.

In Fig. 3, a special design of the conductor fields and the light filter elements arranged in front of them is shown. At this Training arise between the individual light-emitting cells Transparent areas for viewing additional visual representations of information arranged behind the arrangement. In this embodiment according to FIG. 3, too, the advantages of a chamber and a conductor that is relatively easy to manufacture are on the two boundary surfaces as well as the possibility of intent of an illustrated filter. By increasing the distances between the X-conductors and / or between the Y-conductor groups any size of viewing area ratio can be achieved.

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Claims (1)

2? S? 2 5 6 - 6 "" PATENT CLAIMS 1.) Gas discharge arrangement for the multicolored visual representation of information based on three basic colors with a gas or gas mixture that can be excited to glow by ionization, such as that the opposite boundary surfaces of the arrangement each with a field of essentially parallel electrical Ladders are covered that the two conductor fields thus formed are arranged at an angle to one another and that the crossing points of a conductor of the first and the second field each define a discharge cell in terms of coordinates,
characterized, that the arrangement only has a single common discharge space to excite the light emission for all provided basic colors (red, blue, green) and / or their mixed colors and that the conductors (Y1 ... Y7) of one field (Y) are divided into groups of three (R, B, G) that belong together, each of which has a conductor to define one of three adjacent cells in one of the three basic colors (red, blue, green) is suitable. Arrangement according to claim 1 with cells arranged in 60 triads, each of which has one cell for the emission of another the three basic colors (red, blue, green) are provided, characterized that the ladder (Xl ... X3) was not divided into groups of three Field (X) are designed in a meander-like manner, that each of these conductors (Xl ... X3) each have the three belonging together Cells of all triads that can be addressed by it are recorded. 409819/0034 ORIGINAL INSPECTED GE 972 027 3. Arrangement according to claim 2, characterized in that that the meander-like conductors (Xl ... X3) are designed so that they are in the vicinity of the intersection with the substantially straight conductors (Y1 / R, B, G, 72 / R ₇ BjG, ...) of the other Field (Y) have sections of limited length running at right angles to these. " 4. Arrangement according to one of claims 2 or 3, characterized in that that the cells do not adjoin one another without gaps, but rather surfaces between the triads that can be seen through provided for viewing additional visual representations of information arranged behind the arrangement are (Fig. 3). 5. Arrangement according to one of the preceding claims, characterized in that that their all cells in the same way for the original emission of polychromatic (white) light, which has all three primary colors (red, blue, green) contains, and that over the entire cell surface a filter sheet with one of the three basic colors (red, blue, green) Permeable limited areas is arranged facing the viewer. 6. Arrangement according to claim 5, characterized by a homogeneous phosphorescent layer for generating the polychromatic (white) light. 027 409819/0034 original inspected Blank page