DE1279350B - Method for displaying predetermined points of a symbol carrier - Google Patents

Description

Method for displaying predetermined points of a symbol carrier The invention relates to a method for by corresponding electrical quantities a plurality of points selectable display at least one positionally predetermined Point on a transparent carrier of two-dimensional symbols, for example one transparent map.

In a known method of this type, the symbol carrier is shown in Viewing direction in front of an electroluminescent display element with two preferably one Cartesian coordinate system forming electrode grids arranged, whose In the displayable points of the display element, individual electrodes intersect the electrical Sizes in the form of voltages can be supplied via switching means. Through appropriate Actuation of the switching means are those individual electrodes whose intersection point Spatially closest to the point to be displayed on the symbol carrier is the stresses fed so that the crossing point lights up and through the transparent symbol carrier becomes recognizable through it.

The disadvantage of this known method is the lack of background brightness of the symbol carrier, which stems from the fact that only the point adjacent to the point to be displayed Area of the same is lightened, the predominant area of the symbol carrier however remains dark.

As the well-known solid-state flat panel display in the manner of electroluminescent display elements are opaque in their entirety, this deficiency cannot through an additional backlight can be helped, for example under Use one in the viewing direction behind the solid-state flat panel display arranged known surface lamp would be feasible, also under the term "Luminous capacitor" is known and the Destriau effect to generate light Exploits electroluminescence.

The invention is based on the object of the background brightness to improve the symbol carrier in a procedure of the type mentioned in the introduction, in which a solid-state flat screen arranged behind the carrier in the viewing direction in the manner of an electroluminescent display element with two, preferably Cartesian Coordinate system forming electrode grids is used, which are located in the displayable points of the display element intersecting individual electrodes the electrical Sizes in the form of voltages can be supplied via switching means.

The invention consists in this method in the actuation of the switching means in such a way that all individual electrodes, with the exception of those whose intersection point is spatially closest behind the point to be displayed on the symbol carrier, the voltages simultaneously or faster than the resolution of the human eye Rhythm at such a level that - with sufficient background lighting for the symbols to be recognized - the transparent carrier - the point to be displayed on the carrier is clearly marked.

The method according to the invention results in a luminous display surface with a dark cross, the bars of which cross at the point to be displayed and its center almost equal to the display area due to the cross effect bright marking point can be seen.

An advantageous arrangement is given below with reference to the figures described in detail for carrying out the method according to the invention.

In Fig. 1 , 1 denotes an electrically non-conductive, transparent magnetic carrier of a solid-state flat screen, known per se. It consists, for example, of non-conductive glass. On it - for example by vapor deposition - the front electrode array of a preferably cardiac electrode grid is applied, which consists of conductive and preferably transparent material and of which only a few of the individual electrodes, namely the electrodes 2 a to 2 e, are shown for the sake of clarity. In this front electrode coulter is - for example, by sedimentation - a phosphor layer 3, which may contain phosphorus supported and are shown in this belonging to the electrode grid back electrode multitude of conductive material, from which in turn only a few individual electrodes, namely the electrodes 4 a to 4 e. All individual electrodes are connected to the voltage generator G via switching means 5 a to 5 e or 6 a to 6 e , so that the phosphor layer can be excited to luminesce when the switching means are closed.

This flat screen according to FIG. 1 is now used when carrying out the process according to the invention in such a way that, in the viewing direction, behind the carrier of planar sypiboles, on which from a plurality of la-moderately --- 'predetermined points at least one. are selected for display and is to be checked, and in that by closing all switching means, that with the exception of switching means (in the example shown, with the exception of the switching means 5 c and 6 c), the intersection point is closest spatially behind the to be displayed on the symbol carrier point , all individual electrodes, whose associated switching means are closed, are connected to voltage. Their height is to be chosen so that the transparent support has sufficient background lighting for the recognizability of its symbols.

It is possible to use all switching devices (with the exception of the respective Switching means assigned to the display point and therefore not to be closed) at the same time or alternatively in time one after the other in one above the resolving power of the human To operate the rapid rhythm of the eye.

Depending on which material is provided for the phosphor layer 3 , AC or DC voltage can be considered as the type of voltage. In most cases, a material will be used for the phosphor layer which luminesces in an alternating electric field, so that the generator G is then an alternating voltage generator in the example shown.

F i g. - 2 shows this - when considering the in F i g. Figure 1 shows the arrangement from the top. The hatched areas 7 to 10 are lightened and are used for background illumination of the transparent carrier (not shown) of two-dimensional #symbols, which is arranged in front of the carrier 1 and is, for example, a transparent map. With 11 and 12 -dark beams are designated, the cross ün to be displayed point and the electrodes 4 and c are 6 c. Due to the effect of distributed capacitances, which is usually referred to as the cross effect, their intersection point 13 is almost equally bright with areas 7 to 10.

Claims (1)

Claim: A method for the display of at least one positionally predetermined point on a transparent carrier of flat symbols, which can be selected from a large number of points by means of corresponding electrical quantities. -for example a transparent map, using a solid-state flat screen arranged in the viewing direction behind the carrier in the manner of an electroluminescent display element with two electrode grids forming a preferably Cartesian coordinate system, the individual electrodes of which intersect in the displayable points of the display element, the electrical values in the form of voltages can be fed via switching means, g e k ennzeich # net d urch the actuation of the switching means (5 a to 5 e, 6 a to 6 e) in such a manner that all individual electrodes (4 a, 4 b, 4 d, 4 e; 2 a, 2 b, 2 d, 2 e) with the exception of those (4 c, 2 c) whose intersection point is spatially closest behind the point to be displayed on the symbol carrier, the voltages simultaneously or at a rapid rate above the resolution of the human eye Rhythm at such a level that - with sufficient background lighting for the symbols to be recognized transparent carrier - the one to be displayed on the carrier. Point is clearly marked. Publications considered: #> Uiüschau ", 52, no. 12, pp. 358, 359; Electronics, March 24, 1961, pp. 31 to 35; "RCA Review", March 1961, pp. 195 to 205.