DE3132070A1 - Control of the electron flux in plasma displays - Google Patents

Abstract

A control plate for driving the individual pixels in a plasma display consists in principle of a perforated glass film having metallic conductor tracks which are arranged in the form of a matrix and enclose the holes. According to the solution of the invention, the electron flux is controlled by means of wires which are tensioned in a cruciform manner over the openings of the insulating perforated plate, running between the openings, or in pairs as well. Application: plasma displays.

Description

Control of the flow of electrons in the plasma display.

The invention relates to a control plate made of an insulating perforated plate for controlling the individual pixels in a plasma display with a matrix arranged electrode levels.

In DE-OS 24 12 869 is a discharge luminescence display device described and illustrated. According to the manufacturing process used of plasma displays is a so-called for controlling the individual pixels Control plate required. This control plate separates the interior of a display into two areas, namely a plasma room and a post-acceleration room. the The control plate consists in principle of a perforated glass film with a matrix-like arrangement, metallic conductor tracks surrounding the holes. The matrix arrangement requires that the electrodes facing the plasma chamber are horizontal (row lines), the the post-acceleration space facing vertically (column lines) run. With With this arrangement, each pixel can be controlled individually. To this.

Way, electrons present in the plasma space can through the circuit the perforated glass plate into the post-acceleration space and thus onto the fluorescent screen being controlled.

When using conductor tracks to control the flow of electrons Occasionally short circuits and interruptions occur. So far, control plates were by combining thin film technology, electroplating, photo and etching technology from thin glass panes manufactured.

The invention is based on the object of the control unit to improve electrical and mechanical errors compared to thin-film technology. This object is achieved by controlling the flow of electrons with wires takes place with the column wires on one and the row wires on the other Side of the perforated plate. This ensures that the occurrence of short circuits and interruptions is significantly reduced and the vacuum tightness of the cells can be particularly improved.

According to the solution of the invention, the wires can cross over the Openings, between the openings and run in pairs. In addition, the perforated plate be covered with glass solder to secure the wires during the soldering process or vice versa the wires must be covered with glass solder and the perforated plate remain uncovered.

The further details of the invention emerge from the subclaims Description and the figures.

The invention is explained with reference to the figures. They show: figure 1 shows the schematic structure of a flat screen with wire control grid in FIG Front view in section, FIG. 2 the schematic structure of the wire control grid with wires arranged crosswise, which is soldered to de.-spacer perforated plate, namely in the upper part a detail from the plan view, in the middle a sectional view and including a detail of a view from below and FIG. 3 in perspective Representation of the attachment of the control wires on the perforated spacer plate and at an acceleration frame.

The letters used in the figures to identify each Components are broken down in a separate appendix.

On the acceleration frame c soldered to the screen a two soldering rods i placed. On top of that come the ones prestressed with a prestressing frame To lie column wires d. The perforated thin glass plate printed on both sides with glass solder k e with the control openings 1 is adjusted over it, the column wires d the Cover openings 1. The row wires are then crossed to form the column wires also adjusted over the control openings. However, this is only the case to a special embodiment, because - as already mentioned - the wires too between the openings and in pairs. can be arranged.

The support points m of the column wires d are because of the soldering rods i compared to the support points n of the row wires f raised.

Because of this arrangement of the wires, each wire exercises in its entirety Length on the thin glass pane e slight pressure, which is used for soldering with the thin glass pane necessary is. During the sintering process, the column wires d cut through the glass solder rods i, are attached and come to lie in one plane with the row wires.

The row wires are through the glass solder seams j on the acceleration frame soldered on.

6 claims 3 figures Appendix to the figures: (a) screen (b) phosphor (c) spacer frame (d) column wires (e) pane of glass with control openings (f) row wires (g) cathode (h) tub (i) soldering rods (;) glass soldering seams (k) Glass solder layer (1) Control openings (m) Support points of the column wires (n) Contact points of the row wires

Claims (6)

Patent claims Control plate made of an insulating perforated plate for control of the individual pixels in a plasma display with electrode levels arranged in a matrix, d a -d u r c h e k e n n n z e i c h n e t that the control of the electron flow with wires (d, f), with the column wires (d) on one side and the row wires (f) run on the other side of the perforated plate (e). 2. Control plate according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the wires (d, f) crosswise over the openings of the insulating Lochp'-t-te (e) are stretched. 3. Control plate according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the wires between the openings (1) of the insulating perforated plate (e) 'are excited. 4. Control plate according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the wires (d, f) in pairs over the openings (1) of the insulating Perforated plate (s) are tensioned. 5. Control plate according to one of the preceding claims with a Perforated plate, which is covered with glass solder, is d u n g e n g e n g e s t that the wires (d, f) are attached to the perforated plate (e) with glass solder (k) he follows. 6. Control plate according to one of the preceding claims, d a d u r it is not indicated that the perforated plate (s) remains uncovered and the Wires are covered with glass solder.