EP1323807A2 - Electroluminescent lighting device - Google Patents

Abstract

A paste (3) enriched with luminescent pigments and a transparent conducting layer (4) is provided onto an electrical insulating material (1) with at least two strip conductors (2) covering the material. An alternating field is built up between the strip conductors after supplying an alternating current and the luminescent pigments between and on the strip conductors are luminous.

Description

The invention relates to an electroluminescent lighting arrangement in the preamble of claim 1 deposited art.

Such a lighting arrangement is, for example, from German Offenlegungsschrift 198 02 269 known. In this publication, formed on a printed circuit board substrate, Planar electrode arrangements are described in which two comb-shaped, one inside the other interlaced electrodes (interdigital electrodes) an AC voltage is applied to to illuminate an electroluminescent layer printed on these electrodes. This layer can comprise an electrically well-insulating carrier substance, so that a separate insulation layer is not required. If the two electrodes in the same level, there must be a minimum distance between them and it Do not apply an alternating voltage that is too high so that there is no electrical Short circuits is coming. Under these conditions, however, with such an arrangement only a very weak electroluminescent lighting effect can be achieved.

To solve this problem, the two electrodes are proposed in this publication at different levels, d. H. to place the one higher than the other and between to provide them with a layer of an electrically well-insulating dielectric. In the projection direction perpendicular to the surface covered by the electrodes, in which the electroluminescent glow is perceived, the horizontal distances the electrodes can be made arbitrarily small and even zero, since the vertical one Distance ensures sufficient electrical insulation. A disadvantage of this arrangement is that an increased number of layers are applied to the carrier substrate must be, which increases the manufacturing costs, and in particular that at least two electrodes are not in a single operation from which the carrier substrate covering metallic coating can be worked out.

In contrast, the invention has for its object an electroluminescent lighting arrangement of the type mentioned in such a way that the at least two Electrodes can be formed in the same area and still a clear one Increasing the brightness of the electroluminescent lighting can be achieved.

To achieve this object, the invention sees the features set out in claim 1 in front.

Surprisingly, it has been shown that with the amplitude and Frequency of the AC voltage applied between the two electrodes in that a thin, transparent, over the electroluminescent or pigment layer but an electrically highly conductive covering layer is applied, which does not lead to any outside Has contacts, the achievable luminous efficiency significantly improved. A special one Advantage is to be seen in the fact that when contacting thin, transparent Difficulties arising from the top electrodes are completely eliminated here.

Advantageous refinements of the electroluminescent lighting arrangement according to the invention are laid down in the subclaims.

Figur 1

eine schematische, stark vereinfachte Draufsicht auf das Trägersubstrat und die Leitbahnkonfiguration einer erfindungsgemäßen ElektrolumineszenzLeuchtanordnung, bei der die oberhalb der Leitbahnen liegenden Schichten der Deutlichkeit halber weggelassen sind, und

Figur 2

einen stark vereinfachten, schematisierten Schnitt längs der Linie II-II durch die Anordnung aus Figur 1, wobei hier alle für die vorliegende Erfindung wesentlichen Schichten der Elektrolumineszenz-Leuchtanordnung wiedergegeben sind.

The invention is described below using an exemplary embodiment with reference to the drawing; in this show:

Figure 1

2 shows a schematic, highly simplified top view of the carrier substrate and the interconnect configuration of an electroluminescent lighting arrangement according to the invention, in which the layers above the interconnects are omitted for the sake of clarity, and

Figure 2

a highly simplified, schematic section along the line II-II through the arrangement of Figure 1, wherein here all the layers of the electroluminescent lighting arrangement essential for the present invention are shown.

It is expressly pointed out that the figures are not to scale and that in particular in Figure 1 the widths and distances of the interconnects and in Figure 2 the Layer thicknesses are reproduced significantly enlarged. Also the thicknesses are those in figure 2 layers shown are not shown on a uniform scale.

As can be seen in FIG. 1, a first electrode is located on a carrier substrate 1 3 and a second electrode 5, which originally consists of the entire upper flat side of the carrier substrate 1 covering, electrically conductive, for example made of copper existing layer have been worked out, for example, by etching. The two Electrodes 3 and 5 each have a comb-like structure and are so-called Interdigital electrodes interlocked but electrically isolated from each other, so that between their connecting tracks 7 and 9, respectively, for the operation of the Electroluminescent lighting arrangement required AC voltage are applied can. The contacting of the connecting tracks 7, 9 can be any known Way, for example by soldering, bonding, crimping, etc.

As can be seen from FIG. 2, an electroluminescent lighting arrangement according to the invention can be completed each of the two electrodes 3, 5 with a thin tin layer 11 can be covered, which is particularly advantageous if the electrodes 3, 5 made of comparatively dark copper. In contrast, the much lighter tin shows significantly improved reflection properties and casts a large part of the im Operation downwards, that is, light emitted back to the carrier substrate 1 upwards, so that there is an improved luminous efficiency.

Immediately above the electrodes 3, 5 is the pigment layer 14, which is also the Gaps between the electrodes 3, 5 fills. With this pigment layer 14, which in different colors can be chosen, it is a luminous pigment layer, d. H. a layer whose pigments are between the electrodes 3, 5 an AC voltage with a suitable amplitude and frequency is applied in a known manner Give way an electroluminescent glow.

As far as it has been described so far, the electroluminescent lighting arrangement corresponds with the exception of the tin layer 11 mentioned above, completely prior art. As at the beginning explained, however, exists with these structures if no additional measures the problem is taken that even with extremely small electrode distances and high alternating voltage amplitudes only a comparatively weak one Lights can be achieved.

According to the invention, this difficulty is overcome in that over the pigment layer 14 a disproportionately thick representation in FIG. 2, in reality extremely thin, electrically conductive, transparent cover layer 16 is provided. This Cover layer 16 can be applied, for example, using a commercially available conductive lacquer become. In principle, it is the same material as that of similar ones Electroluminescent lighting arrangements for producing a base electrode opposite cover electrode is used. The main difference is in that it is necessary in the latter arrangements to close the cover electrode contact as necessary to operate the electroluminescent lighting arrangement AC voltage between it and the base electrode must be applied. This contacting is associated with certain difficulties because of the extremely thin cover electrode can be easily damaged by high current densities and there is also a risk of that when contacting from above penetrate the cover electrode and thereby Short circuit is generated ..

In contrast, in the arrangement according to the invention there is contacting of the cover layer 16 neither provided nor required. It is a "floating" Electrode that automatically assumes the potential that arises from the application of a AC voltage to electrodes 3 and 5 results. Nevertheless, it does otherwise unchanged conditions a much brighter glow of the pigment layer.

To the entire arrangement mechanically and in particular against the ingress of To protect moisture, a transparent protective layer 18 is provided, which (in not shown manner) also encloses the side edges of the electroluminescent lighting arrangement.

The carrier substrate 1 can be made of any suitable electrically insulating material be formed. This can be both a rigid plate and a flexible one Trade plastic film as it already has a copper coating in the trade is available.

It is also possible to use a carrier substrate which is electrically on both sides conductive coating, so that on each flat side an electroluminescent lighting arrangement can be formed which has the structure described above.

It is also possible to control a number of them that can be controlled jointly or independently of one another Electroluminescent lighting arrangements on one and the same flat side of a carrier substrate train. For this purpose, the relevant electrically conductive Layer worked out several first and second electrodes, for example the the first electrodes can be connected to one another in an electrically conductive manner and the separate ones Control of the different areas with the help of the electrically insulated from each other second electrodes.

The pigment layer of an electroluminescent lighting arrangement does not have to be in all surface areas be equipped with pigments of the same color. In addition, the Color of the emitted light also affect that the pigment layer itself and / or the cover electrode is equipped with color filter properties.

Claims (12)

Electroluminescent lighting arrangement with a carrier substrate (1) made of an electrically insulating material, on which there is an electrically conductive layer, from which at least two electrically insulated interconnect regions are worked out, which form a first electrode (3) and a second electrode (5) and are covered by a pigment layer (14), the doped pigments of which shine when an alternating voltage is applied to the two electrodes, characterized in that the pigment layer (14) has a thin, transparent, electrically conductive top layer (16 ) is covered, to which no additional voltage is applied from outside during operation. Electroluminescent lighting arrangement according to claim 1, characterized in that the carrier substrate (1) is flat and the further layers of the electroluminescent lighting arrangement extend at least over part of at least one flat side of this carrier substrate (1). Electroluminescent lighting arrangement according to one of the preceding claims, characterized in that the first and the second electrode (3, 5) are each formed like a comb and arranged to interlock. Electroluminescent lighting arrangement according to Claim 3, characterized in that the width of the interconnects, which form the first and second electrodes (3, 5), is so large and their mutual distances are chosen so small that there is in the area covered by the interconnects results in an almost homogeneously illuminated surface during operation. Electroluminescent lighting arrangement according to one of the preceding claims, characterized in that the electrically conductive layer is formed by a copper coating of the carrier substrate (1), from which the at least two electrodes (3, 5) which are electrically insulated from one another are worked out by an etching process. Electroluminescent lighting arrangement according to one of Claims 1 to 4, characterized in that the electrically conductive layer is applied to the carrier substrate (1) with the aid of a conductive lacquer. Electroluminescent lighting arrangement according to one of the preceding claims, characterized in that the interconnect regions are provided with a light coating. Electroluminescent lighting arrangement according to claim 8, characterized in that the bright coating is a tin layer (11). Electroluminescent lighting arrangement according to one of claims 2 to 8, characterized in that the light coating is formed by an electrically insulating layer which is colored with a light pigment. Electroluminescent lighting arrangement according to one of the preceding claims, characterized in that the thin, transparent, electrically conductive cover layer (16) is mixed with a color pigment, which is excited to light up in its own color by the light emitted by the pigment layer (14) during operation becomes. Electroluminescent lighting arrangement according to one of the preceding claims, characterized in that the pigment layer (14) comprises, in addition to the electroluminescent pigments, other pigments in a different color, so that overall a color tone deviates from the color of the electroluminescent pigments. Electroluminescent lighting arrangement according to one of the preceding claims, characterized in that it is covered by a protective layer (18) which acts in particular as a vapor barrier.

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