DE1802416A1 - Electric playback device - Google Patents

Description

Electric playback device

The invention "relates to an electrical display device z.ü. for rendering simple oysters such as diagrams, 3iffom, words or the like, where no shading is necessary.

In recent years, a great deal of effort has been put into the development of various types of "flat" display devices.
Some of the systems used electroluminescence as a light source, but today's technology does not allow a brightness of more than a few tens of Lambert Pu33 to be achieved. Theea is not sufficient for visualization
Daylight, which is required in most possible uses.

For this reason it has been proposed to use a two-dimensional Arrangement of glow discharge cells with cold cathodes as a light source to be used for the separate elements of the image to be displayed. A former example of this arrangement is in British patent

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Scripture 823.201 and in the Fig. 10 and 11 of the same are shown.

A more recent example is described by Lears / Siegler in "Electronic News", νοώ 26, July 1965 “In this case, the separate Cells from kuraen gas discharge spaces in the form of a two-dimensional Matrix of small openings arranged in an insulating plate that are attached between two electrode systems of parallel wires or semi-permeable, conductive strips in the form of a network (cross-bar) P is. Light emission can be generated on every element by a gas discharge is guided through a hole in the insulating die at the intersection of the two corresponding electrode strips. Gas discharges of this kind bring the disadvantage of spraying the cathode as a result Impact of positive ions with itself. The lifespan of the device can be greatly shortened as a result, while semi-transparent elec- * Troden are very vulnerable in this regard. Also restrict it conductive strips in a cross-bar arrangement the number of possible sextons.

According to this invention, the electrical reproduction

device a shell with an arrangement of separate cathode sets, the one electrically conductive cathode each in a cavity open at one end; included, the wall of which is electrically insulating, while the cathode surfaces and the surfaces of connecting parts are almost the same Level lie, which shell continues to have one or more anodes opposite the open ends for cooperating with the cathodes to provide an array of glow discharge paths through a gaseous atmosphere get what gas atmosphere in a gap between the open ends and the anode (s) is present, the dimensions and the opposite

909826/0847

Lateral position of the cathode and the anode (s) and the pressure and the composition of the gas atmosphere are such that when an effective Potentials across each track a negative glow discharge part optical Radiation is generated while the positive part of the I & it charge is entirely or is partially suppressed.

Forests of execution of the invention are below with reference to hand the drawing explained in more detail, which is a letter-number display tube represents. Show it

Fig. 1 shows a development of a letter-number tube and zwart

flg.1a the picture window, Fig. 1b a side wall of the shell, Fig. 1c the anode,

1d shows a matrix of openings in an insulating plate, Fig. 1 «the anode spacer, Fig. If the cathode matrix.

The cathode atrium according to FIG. 1f contains an arrangement

separate cathodes 1 on an electrically insulating base 2. These cathodes are connected to terminals 3 but with an external potential source connected. The cathode surfaces and the surfaces of connecting parts from the cathodes to the terminals lie in the same plane. In this way, the terminals 3 can easily be bit the outer one Connect source. The base 2 can consist of glass or ceramic material and the arrangement of cathodes 1 together with their connections n with the clamps 3 can be attached in a vacuum. Preferably the Cathode arrangement together with terminals 3 and the connections between cathodes and terminals by etching a metal plate, e.g. a nickel iron

909826/0847

PHB. 31,805.

or chrome iron manufactured, βο that get the desired configuration will.

The configuration obtained can then be used in the surface of the Pad 2 can be attached by bringing it into contact with it and is formed at high temperature, with the connecting parts between the cathodes and the terminals 3 are subsequently bent around the strips of the substrate. During the same process, the spacer can naoh Fig. 1e are formed on the upper surface of the pad and the cathode assembly.

The insulating plate according to Fig. 1e can, for example, be made of glass or ceramic consist of poor material. It has a matrix of cavities between the Main surfaces so that the openings coincide with the cathodes 1, when the insulating plate is in contact with the support structure 1, 2, 3 is brought. The dimensioning of the insulation panel is such that it is accurate fits into the opening of the spacer according to FIG. 1e and with the upper one Surface of the base 2 remains in contact with the cathodes.

The spacer according to FIG. 1e has a depth which exceeds the thickness of the insulating plate 5, so that a back is formed over the band of the insulating plate 5 in the assembled state. On this stoop an optically transparent, electrically conductive anode plate 6 rests 1e, so that the plate 6 is at a distance from the plate 5. The anode 6 can be formed by a perforated metal plate, the holes coinciding with the openings 4 in the assembled state, so that the plate is optically transparent and the optical radiation generated in the openings 4 can be observed through the upper surface of the anode. The anode 6 can also consist of a fine-meshed network or consist of a layer of optically transparent tin oxide, which

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'' on the lower side of an optically transparent pad (not shown) is attached,

The side walls 7 and an optically transparent picture window 8 become airtight with each other and with the upper surface of the spacer connected according to Fig. 1e, so that the electrode set in a sheath is housed. After assembly, the shell can be vented through a vent tube 9 that is attached to it near the connection point the side walls 7 can be melted shut and then removed.

In a practical embodiment, the openings 4 had a diameter of 1 mm with a center-to-center spacing of 2 mm. The distance between the upper surface of the plate 5 and the lower surface of the anode 6 was about 0.1 mm. The cathodes 1 and the openings in the anode 5 had a diameter of 1 mm and a cement spacing of 2 mm, so that they correspond to the openings in the plate 5. The envelope was vented and then filled with pure neon or neon with 2 $> argon under a pressure of 150 torr. The dimensions and the pressure were such that when applied an effective potential of at least 280 V for neon and 160 V for neon-argon between the anode and the cathode (s), a glow discharge in the discharge path (s) which is determined by the anode and the cathode (s), which discharge generates optical radiation only from the negative part of the discharge, while the positive part is completely suppressed. This radiation could be observed through the corresponding in) opening (s) of the anode 6 and the application of the effective potential to selected cathodes resulted in a pattern caused by this selection, which could be observed through the window 8.

By suitable choice of the excited cathodes, it was possible to

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keep.

follow an oyster of the ten digits of the decimal system are made visible, with the cathodes in a 7x5 array. Furthermore could Letters and other symbols are reproduced

The construction according to SIg ₀ 1 described above showed electrical conduction via the interface between the plate 5 and the base structure 1, 2, 3, so that cathodes which were not directly excited were activated.

This disadvantage can be remedied daduroh that the plate 5 (Fig. 1 <i), the spacer according to Pig. 1 * and pad 2 (Fig. 1f) in one piece around the cathodes 1 and the connections with the terminals 3 (Fig. 1f) are formed. The assembly can also be carried out by that the window 1 and the side wall F of the shell are integrally formed will. This construction was made as follows!

The cathode set 1 according to FIG. 1 together with the terminals 3 and the connections between them began from a flat one Metal plate etched from the "Kovar" known under the trade name, wa * h rend parts of the plate between the eggs of the clamps 3 retained for the time being were to put the cathodes 1 in the correct mutual position

The structure obtained was then placed in a jig while the clamps 3 protruded from the side. The inside of the The gauge had a flat bottom with a circumferential groove about a depth 0.25mm x A number of vertical pins protruded from the flat floor. These pins had cross sections and a mutual position accordingly the set of cavities 4> (Fig. 1d) that had to be provided in the electrical insulator. The tips of these pens ended on the subject the cathode 1, the inside of the other half of the gauge had the shape of the,

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Document 2 (Flg. 1f). After the apprenticeship was closed, it was with Οlas of the trade mark "Fusite K" filled and heated to 1000 ° C in an inert aaeateoephlre heated for one hour. This glass did not wet the cathode material in the molten state. On cooling it became a structure corresponding to the combination of the individual parts according to FIGS. 1d, 1c and 1f obtained after the connections 3 were separated by removing the parts of the cathode plate.

An anode fhnlich of NaOH Fig. 1c was placed over the open läiden of the cavities on the Umfangsrüoken, which was formed by the teaching But on the surface of the solidified glass, vo are disclosed i the cavities. A sleeve part corresponding to a combination of parts 7 and 8 according to FIG. 1 was attached over this. This part also consists of the "Koolial" known under the trade mark and is attached to the base 2 by means of glass solder. The envelope thus obtained was filled with neon with 2 $> argon under a total pressure of 150 Torr.

The obtained display device was then aged by plant · an «effective potential of 160 V or more between the separate cathodes and the anode through cathode sputtering as a result the electrical discharge takes up a considerable amount of cathode material deposited on the walls of the cavities, the cathodes being sufficiently obsessed over the cathode material with the actual cathode in Keeping touch. This atomization inevitably occurs la Operate on and. The Ilterung .was therefore carried out that the finished Goal direction feet should have certain characteristics, that is, longer Operating time did not change .. Ee it should be noted that the anode of the open ends of the cavities is removed, leaving the powdered material cannot cause a short circuit between the cathodes and the anode.

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¹⁸⁰ . ² * ¹⁶ ■ PHB. 31.8O ₅ .

The device was then ready for use and had the following dimensions and features

Duron eater of the cavities 1 mm.

Depth of the cavities t 1 mm

Center spacing of the cavities »2 mm in a 7x5 arrangement.

Distance between the anode and the open end of a cavity! 0.25 min.

Cathode-anode potentials 160 V or more.

It can be beneficial to have a pattern of hats between

fe the open ends * of the cavities to be attached to the length of the Ereichswege between the open end of one cavity and that of the next cavity, enlarge so that an additional protection against drainage on this one Ways is preserved.

A similar device with almost the same properties could also be obtained when the anode 6 of FIG replaced a reticulated anode obtained by such mechanical expansion of a plate of "Kovar" known under the trade mark it was found that good optical transmission was achieved.

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Claims (7)

! ■ ■ '!: "Λ ■ - ■■■ -'1 ^ ---" "■■■" 1V ■■; "· ■■■■ - ■■■■ ■■■ -.. ■ ■■! ■ - ■ -: · ": ι η ■: · ■ '*? - 9 PAT. EGTAlTSPROCHE. 1. An electrical playback device having a case with a Arrangement of separate cathode sets, each with an electrically conductive cathode de contained in a cover, which is open at one end and whose wall is elek is trically insulating, the cathode surfaces and the surfaces of Connecting parts of each cathode are almost in the same plane, which The envelope further includes an anode or anodes opposite said open ends to cooperate with the cathodes to form a set of glow discharge paths which run through a gas atmosphere, with a gap containing this gas atmosphere between said ends and the (den) inode (s) is present and the dimensions and mutual Location of the cathode and anode (s) and the Druok and the assembly of the gas atmosphere are learned that when an effective potential is applied over each 3ahn a negative glow discharge part is generated, while the positive Discharge part is completely or almost completely suppressed. 2. Device according to claim 1, characterized in that atomized cathode material is deposited on the walls of the cavities. 3. Device according to claim 2, characterized in that the atomized material is in contact with the corresponding cathode. ( 4. Device according to one of the preceding claims thereby characterized in that each cathode is at the closed end of the corresponding one Cavity lies. 5 · Device according to one of the preceding claims thereby characterized in that the cavities in a common body are electrical insulating material "are provided. 6. Apparatus according to claim 5, characterized in that « the cathodes are formed in one piece with the body mentioned. 909826/084 7 7. Apparatus according to claim 5 or 6, characterized in that that this body is almost plate-shaped and the anode is an optical one Permeable, electrically conductive plate or layer containing close a major face of this body at a certain distance from theeem lies. b. Device according to one of the preceding claims characterized in that the cathodes are electrically isolated from each other, 9. A method for producing an electrical display device according to any one of the preceding claims, characterized in that that the cathode arrangement together with the terminals and the connec- * fertilize between cathodes and terminals etched from a flat metal plate the plate parts lying between the ends of the clamps are only removed when the etched plate and the electrical isolator have been mounted. 909826/0847