DE7925236U1 - Large-area multi-element information display panel composed of flat modules - Google Patents

Description

BROWN, BOVERI & CIE AKTIENGESELLSCHAFT Mannheim September 4, 1979

Mp. No. 610/79 ZFE / P3-Bi / Bt

Large multi-element information display panel composed of flat modules.

The invention relates to a large-area, multi-element information display panel composed of flat modules according to the matrix principle for alphanumeric or image reproduction purposes, consisting of glass plates with a grid of conductive, transparent electrodes as well as with a control electronics for each pixel in matrix form are.

Multi-element matrix information display panels are, for example from the journal "Microelectronics", Vol. 7 No. 4, 1976, pages 5 to 15 are known. It is either around display panels in which the pixels consist of electrically excited Elektro'.umineszenzpartikel, or around Display panels in which the pixels consist of liquid crystal cells switched by electric fields. Both types have in common that to stimulate each individual

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a matrix of transparent electrodes
and a thin film circuit composed of transistors and a capacitor and associated with each pixel is required. To control the conductor tracks, peripheral electronics are required which temporarily store the image information to be displayed and pass it on to the column and row lines at a suitable moment.

The conductor tracks and the thin-film transistor matrix are produced by vapor deposition on glass plates in a vacuum. It is now not possible to produce vapor deposition masks of any size with the required accuracy,
And it is also not possible to find absolutely flat glass panes of any size for liquid crystal screens. With the current state of the art, the size of a flat television screen would therefore be limited to dimensions of approximately 18 × 24 cm ² .

To remedy this disadvantage, it is already known to interconnect several small-area display panels without contacts

to assemble a large screen. Each glass plate not only carries the xy conductor tracks and the
Thin-film transistor matrix, but also the control electronics for the column and row lines on its rear side. The image information to be displayed by the individual module is transferred to its peripheral control electronics via separate rear lines from a central memory
and processor, made up of Si-ICs. It is
It is clear that such a solution complicates and increases the cost of the screen because of the expensive megabit central memory.

In addition, the application of such a solution concept is only possible with those display panels that are not - such as, for example the display panels working with liquid crystals - have to be backlit, so only for opaque, self-illuminating displays.

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The object of the present invention is to provide one made up of small, flat, transparent backlit modules composite, large-area information display panel, for example for a flat liquid crystal remote

visual screen, the individual modules of which are relatively simple and can be mass-produced cheaply and not requiring an expensive central memory and processor.

This problem is solved by a display panel made from only three module types, namely a first module type, the X-Y conductors, the transparent picture electrodes as well the electronics directly assigned to the pixels in the form of thin-film switching elements, a second module type, which comprises the peripheral control electronics for the column lines in the form of integrated circuits, and a third module type, which comprises the control electronics for the row lines in the form of thin-film circuits, the fastened flat next to each other on a base plate and by multiple contact strips between the abutting Edges of the modules establish the electrical connection, are connected to each other.

This also gives transparent screens with backlighting the advantages that they are small and therefore economical More manufacturable modules can be used with great accuracy that these individual modules in the event of defects can be replaced, and that the connections between the modules are practically invisible.

Preferably, the multiple contact strips are elastic and glued to the edges of the modules in such a way that each module is glued with two strips. Such multiple contact strips are customary in the USA; their structure can be seen from the attached drawings.

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To with the help of the multiple contact strips the electrical Establish connection between the conductor tracks of adjacent modules, preferably a bevel on the Upper edges of the glass plate, which is provided with the conductor tracks, provided and this bevel with extensions the conductor tracks are vaporized, which is possible in the same vaporization process with which the conductor tracks getting produced.

Alternatively, a groove in the end faces of the glass plate, which is provided with the conductor tracks, can be made with the help are incorporated by diamond tools, and in an additional operation, the conductor tracks up into this groove be extended. In this version, which is a little more expensive to manufacture than the former, the joint between two modules is narrower.

These modules are preferably on a see-through Base plate glued on. Further advantages and embodiments of the invention emerge from the following description of exemplary embodiments based on the drawing.

Show it:

Fig. 1 is a schematic representation of a plan view a large, flat screen,

Fig. 2 is an excerpt from a cross section through a flat screen according to the invention in the area two adjoining modules,

3 shows a first possibility for the electrical connection of two modules,

4 shows a second possibility for the electrical connection of two modules.

As Figure 1 shows, a flat screen consists of only three types of modules. These are initially image modules 1, the size of which is 90 × 120 mm ² , for example.

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with, for example, 100 rows and 100 columns, which corresponds to 10,000 picture elements. Thirty-six modules 1 are provided. It is also a second module 3 with fast shift registers, line memories and line switches. The size is, for example, 40 χ 120 mm ² . Each module contains 100 levels of shift register, memory and line switch. For example, the shift register has a dwell time of 10 seconds per step on a television screen. Six modules are required. There are also modules 2 with a slow shift register. The size of these modules is, for example, 20 × 90 mm ² . Each module contains 100 stages of the slow shift register. This shift register has a dwell time of 60y.sec per stage. Six module plates are provided. All three types of modules 2 are attached to a flat base plate 4, for example made of float glass. In the example shown, this base plate has a size of 74cm 58cm.

FIG. 2 shows the structure of the flat screen composed of individual modules. One recognises the base plate 4. An adhesive layer 5 is applied to this base plate, with which the individual modules are attached. This adhesive layer consists of either a thermoplastic or a cold-curing transparent plastic. Above the adhesive layer is a first polarizer 6, since in the example shown it is a display panel operating with liquid crystals of the twisted nematic type. One recognises Furthermore, a parting line 7 between two modules, which with the help of elastic multiple contact strips 8 electrically are contacted. Each module consists of a lower glass plate 9, the transparent matrix conductor tracks 10 and transparent electrodes 11 for on its top

Thin film transistors 12 carries. Each module also contains

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towards an upper glass plate 13 which has a transparent, conductive coating 14 on its underside and a second polarization film 15 and a light diffuser 16 on its upper side. In the gap between the two glass plates 9, 13 there is also the liquid crystal material 17, which is prevented from leaking out by seals 18. To improve the contrast, the screen can be irradiated with white light from the base plate 4, so that the image points a ^ .s light, gray or dark areas are visible.

Figure 3 shows the connection of the conductor tracks of two abutting modules with the help of elastic multiple contact strips. One recognizes a first glass plate 20 like a second glass plate 21 which has conductor tracks 22 on its upper side. Both glass plates 20, 21 are on theirs Upper edges are provided with a bevel 26 and the conductor tracks 22 are drawn over the bevel. The multiple cone is located between the two glass plates tact strip 8, which consists of a strip of plastic film

23 consists, on the outside of which fine metal strips 25, for example made of gold, are applied. The plastic strip 23 is over an elastic, cylindrical roller

24 wrapped from foam and welded on one side. With its flat side, the multiple contact strip 8 glued to the end face 28 of the glass plates 20, 21 that is not provided with conductor tracks. The strip conductors 25 establish the electrical connection between the conductors 22 of the adjacent modules.

FIG. 4 shows a variant in which a groove 27 is milled into the end faces of the glass plates 20, 21 with diamond tools. The conductor tracks 22 are on the End faces extended into the groove 27.

in this case the joint 7 between the modules is narrower than in the embodiment of FIG. 3, but the production of the fillet is somewhat more expensive.

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It is understood that not only the commercially available multiple contact strips shown in the drawings with the elastic foam roller can be used but even those without a foam roller. When using flat foil strips, even the cut-off edges can be cut or fillets are omitted

Claims (5)

Mp - no. 610/79 Sept. 4, 19 79 ZFE / P 3-Bi / Bt claims 1. Large-area multi-element information display panel composed of flat modules according to the matrix principle for alphanumeric or image reproduction purposes, consisting of glass plates which are provided with a grid of conductive, transparent electrodes and control electronics for each pixel in matrix form, characterized by a display panel from only djrei module types, namely a first module type which comprises the XY conductor tracks, the transparent picture electrodes and the electronics in the form of thin-film switching elements (12) directly assigned to the pixels, a second module type (2.1, 2.2) which includes the peripheral control electronics for the column lines (10, 22) in the form of integrated circuits, and a third module type (3.1, 3.2), which includes the control electronics for the row lines (10, 12) in the form of thin-film circuits that are mounted on a base plate (4 ) attached flat next to each other and by multiple contact strips (8), which between a butting edges of the modules (1, 2, 3) establish the electrical connection, are connected to one another. 2. Information display panel according to claim 1, characterized by elastic, on the end faces (28) of the Modules (1, 2, 3) glued multiple contact strips (8). 3. information display panel according to claim 1 or 2, characterized by a bevel (26) on the upper edges of the glass plates (20, 21), which are connected to the conductor tracks (22) are provided, and by an extension of the conductor tracks (22) over this bevel (26). 610/79-2-4 4th OS. 1979 4. information display panel according to claim 1 or 2, characterized by a groove (27) in the end faces (28) of the glass plates (20, 21) which are connected to the conductor tracks (22) are provided, and by an extension of the ₅ conductor tracks (22) up to this groove (27). 5. Information display panel according to at least one of claims 1 to 4, characterized by an adhesive fastening of the modules (1, 2, 3) on the base plate (4).