DE1959287A1 - Gas discharge display panel - Google Patents

Description

IBM Germany Internationale Büro-Maschinen Gesellschaft mbH

Boeblingen, November 20th '! 969 bl / you

Applicant: International Business Machines

Corporation, Armonk, N.Y. 10504

Official File number: New registration

Applicant's file number: Docket KI 968 012

Gas discharge display panel

The invention relates to a gas discharge arrangement for Display eider, consisting of a flat with a through Ionization to illuminate excitable gas-filled plane-parallel discharge space and arranged with both sides of the discharge space orthogonally oriented fields running parallel electrical conductor, each crossing point of the conductor matrix being assigned a discharge cell within the discharge space, which is selectively carried out by at least one The potential difference corresponding to the ignition voltage is lit on the electrical conductors assigned to it can be, characterized in that the discharge space as a self-contained flat housing in known per se Way is formed from electrically non-conductive at least partially transparent material that within this housing an electrically non-conductive one between its base and top surface

009825/1512

Spacer is provided and that the conductor fields on the Outer surfaces of the housing are arranged.

Discharge arrangements are known in which the discharge space is either divided into physically separate discharge cells or as a continuous gas volume with many physically not limited discharge cells is executed. Every discharge cell an inner electrode is assigned to each of its base and top surfaces, with a dielectric coating as a collecting surface is provided for the charge carriers that occur during a gas discharge. The discharge cells are arranged next to one another in the form of a matrix arranged; their electrodes in columns or rows corresponding parallel electrical lines connected. Each discharge cell is thus a point of intersection of these Assigned to conductor matrix.

Physically separated discharge cells can e.g. be realized by perforations in a pane of glass. To ensure the alignment of these physically separated discharge cells Technologically very complex and expensive processes are required on the crossing points of the conductor matrix. aside from that it poses a significant disadvantage when the discharge space physically must be subdivided in many ways.

The previously known arrangements which make _s of a self-contained continuous discharge space without physically limited discharge cells use, suffer from the disadvantage that they can not be carried out over a large area from the designated following reasons. Thick glass plates are used for their production, on which the course of the cable runs is determined by etching. A layer of dielectric material is applied over the conductor field of such a glass plate. When producing large-area display arrangements ( 30 inch 30 inch) with the help of such glass plates coated with a dielectric material and provided with conductor tracks

0 0 9826 / 1612- '.

Docket KI 968 012

- 3 there are a number of disadvantages:

The electrical conductor tracks lose out in the evaporation process their uniformity, exposure of large photoresist line patterns is extremely difficult and when applying the dielectric Layer, its uniformity can no longer be guaranteed. Furthermore, the drop in electrical power varies Impedance with the line length, which means that the driver circuits for large display areas must be designed for a large voltage interval.

The invention is therefore based on the object of a gas discharge display device to create those free from these drawbacks and their manufacture regardless of fliot ο chemical Processes for the cable runs and the requirement of application a uniform dielectric layer.

This object is achieved according to the invention in that the discharge space as a self-contained flat housing in a known manner made of at least electrically non-conductive partially transparent material is formed that an electrically non-conductive spacer is provided within this housing between its base and top surface and that the Conductor fields are arranged on the outer surfaces of the housing.

According to a further embodiment of the invention, it is advantageous when the electrical conductors in the form of wires are aligned in parallel by means of spacer strips designed like a comb and between a transparent made of electrically non-conductive material pressed against the outer surfaces of the housing 12 Cover plate are arranged.

About the plane-parallel position of the base and top surface of the discharge vessel To guarantee against external pressure, the spacing between these two surfaces is more advantageous

009826/151 2

Docket KI 968 012

Way as a braid of a round material in the manner of a plain weave educated.

According to a further embodiment of the gas discharge display device according to the invention results in a particularly simple assembly of the same when the electrical conductors within a first frame are stretched and when between the orthogonal to each other running conductor fields the discharge housing that can be introduced there is arranged and if the first frame and the cover plates resting on the conductor fields within a second frame are arranged.

An embodiment of the invention is shown in the drawings and is described in more detail below.

Show it: .

1 shows a gas discharge display device;

FIG. 2 shows a part of the device according to FIG. 1, which is a conductor matrix and the gas discharge housing comprises;

3 shows the perspective illustration of a partial section the device of Figure 1;

4 shows a schematic perspective illustration of a part the gas discharge housing with the associated conductor matrix; "·

Fig. 5 is a sectional view along the section line 5-5 in Fig. 4 including the outer cover plates.

The gas discharge display device consists of an inside • an outer frame 9 housed display field 10. This display field 10 is used for the selective representation of numbers, book

QQ982 & / 1S12

Docket KI 968 012

bars and other symbols. The displayed characters appear bright against a dark background. They can be shown in any 'part of the display panel 10 in different sizes will. As an example, in 'Fig. 1 the numbers 1, 2, 3 are unique in a smaller version in the upper left corner and on the other hand in a larger version on the right half of the Display field 10 indicated.

In Fig. 2, a frame 11 is shown, within which two orthogonal mutually oriented fields of parallel electrical conductors are arranged. Between these ladder fields there is a discharge housing 12, which with a through Ionization to glow excitable gas is filled. Each crossing point of the conductor matrix is a discharge cell inside assigned to the discharge space, which is selectively illuminated by electrical signals on the electrical conductors assigned to it can be brought. Neon, argon, etc. are used as gas. It is also possible to mix these gases with others To use gases. A common gas mixture consists of $ 90 neon and $ 10 nitrogen. The gas pressure inside the discharge case 12 is less than the external atmospheric pressure; a pressure of 200 mm of mercuric acid has been found for the present exemplary embodiment as cheap.

The crossing points of the electrical conductors of the field 13 with those of the field 14 define within the discharge space small discharge cells at a sufficiently high potential difference the electrical conductors assigned to each cell can be ignited. The ignition potential for such a discharge cell is significantly higher than the holding potential by which the ignited state can be maintained. Appropriate Maintaining arrangements for generating and maintaining an advertisement have already been proposed.

00 9 82 6- / 161-2

Docket KI 968 012

3 shows the following basic structure of the gas discharge display device Out: The flat discharge case 12 is ! between two transparent cover plates 20 and 21 made of electrical Non-conductive material such as glass or plastic arranged, respectively a field of the electrical conductors 13 and 14 against the outer surfaces of the discharge housing 12.

These cover plates provide structural strength to the device and protect the operator from contact with it the electrical lines 13 and 14. The deck boards 20 and 21 are arranged within an outer frame 9, which also accommodates the conductor matrix 13 * 14 and the discharge housing 12.

From Fig. 4 it can be seen how the ladder sets 13 and 14 over the Discharge housing 12 are arranged. For the exact parallel Alignment of the conductors within a field ensure comb-like spacers 25 and 26, which together with the conductors are pressed by the cover plates 20 and 21 against the outer surface of the discharge housing 12. This fact also goes' from the sectional view in FIG. 5. The discharge case 12 consists of a transparent, electrically non-conductive material 30 like micro glass or plastic. Microglass is particularly suitable because it can be made with very thin walls and is also very flexible. In the interior of the discharge housing 12 is an electrical between its base and top surface Non-conductive spacer in the form of a plain weave made of plastic round material 15 arranged. The present gas discharge display device is very simple in FIG their construction and relatively cheap to manufacture and maintain. By using a larger number of electrical conductors per unit length, the Ajizei resolution can be increased. The single ones Discharge cells do not need as individual separate rooms, which are separated from one another by solid walls of material, as was the case with many earlier types of 'corresponding ones Gas discharge devices was the case.

00 9 826/1512 "

Docket KI 968 012.

The gas discharge display device described here is particularly suitable for producing large display surfaces. It can be seen as a particular advantage that the device can be manufactured and assembled in a relatively simple manner. To cover the frame 11 with the conductor fields 13 and Ik , a machine can be used which is otherwise used to cover magnetic core storage frames. The electrical conductors 13 and 1H must be arranged taut enough so as not to tangle, but loosely enough to allow the discharge housing 12 to be inserted later. Frame covering machines are known with the aid of which frames measuring up to 2 feet 4 feet can be covered with wires at intervals of 36 mils. If necessary, the wire spacing can be reduced to 25 mils or even less. Typically, copper wire approximately 1-1 / 2 mils in diameter is used.

Next, the structure of the discharge case 12 will be described. This is usually made from two layers of microglass with a uniform thickness between 0.6-1.7 mils. Between the two layers of microglass there is a spacer formed non-metallic braid 15 introduced; then the edges of the glass layers are fused or glued. The housing is then evacuated and filled with a gas with a pressure of less than 1 atmosphere. The braid 15 prevents During the evacuation and also during normal operation, the two large glass layers are pressed together the external atmospheric pressure. Otherwise it could be due to an uneven distance between the two during normal operation Glass layers lead to an unreliable display function. This is particularly true if a missing gas mixture in certain, compressed parts of the discharge housing a Would rule out discharge. The mesh 15 also has the task of the plane-parallel course of the top and base surfaces of the discharge case when the fields of electrical Conductors 13 and 14 from the glass plates 20 and 21 against the

009826/1 812

Docket KI 968 012

Discharge housing are pressed. The thickness of the braid 15 is preferably on the order of 7-9 mils. Get lost the top and bottom surfaces of the discharge vessel are plane-parallel to one another, so is the ignition potential for all discharge cells of the vessel 12 is the same. The discharge vessel 12 has a thickness of approximately 10 mils, measured from the outer surface of the Deck to the outer surface of the base. If the conductor spacing in frame 11 is approximately 25-35 mils, the discharge vessel can easily be inserted between the fields of the electrical conductors 13 and 14 by first placing it at the edge between a Pushes a pair of conductors of the same field through. After the discharge housing has been inserted into the frame 11 covered with ladders the comb-like spacers 25> 26, which a ensure parallel alignment of the conductors within a field, placed. Finally there are still the two cover plates 20 and 21 to assemble so that they press the conductor fields 13 and 14 against the discharge housing 12; this purpose can either a frame 9 shown in the drawing or another serve equivalent fastening option.

009826/1512

Docket KI 968 012

Claims (5)

- 9 claims ·, ■ Gas discharge arrangement for display fields, consisting of a flat one with one that can be excited to glow by ionization Gas-filled plane-parallel discharge space and with orthogonal to each other arranged on both sides of the discharge space oriented fields of parallel electrical conductors, with each crossing point of the conductor matrix a discharge cell is assigned within the discharge space, which selectively by at least one of the ignition voltage corresponding Potential difference can be made to glow on the electrical conductors assigned to it, thereby characterized in that the discharge space as self-contained Flat housing (12) in a manner known per se made of electrically non-conductive at least partially transparent Material is formed that within this housing (12) between its base and top surface (30) a electrically non-conductive spacer (15) is provided and that the conductor fields (13 »1 * 0 on the outer surfaces (30) of the housing (12) are arranged. 2. Arrangement according to claim 1, characterized in that the electrical conductors (13, 14) designed as wires in parallel by means of spacer strips (25 »26) designed like a comb aligned and between a transparent from electrically pressed against the outer surfaces (30) of the housing (12) non-conductive material existing cover plate (20, 21) arranged are. 3. Arrangement according to claim 1, characterized in that the The spacer (15) is designed as a braid of a round material in the manner of a plain weave 4. Arrangement according to claim 2, characterized in that the electrical conductors (13, '14) within a first frame 009826/1512 Docket KI 968 012 1969 287 - ίο - ■ (11.) are stretched and that between the orthogonal conductor fields (13 »14) that can be introduced there. Discharge housing (12) is arranged and that the first frame (11) and the cover plates (20 _s 21) resting on the conductor fields (13 * 1 * 0) are arranged within a second frame (9). 5. The assembly of claim I _{9 3} characterized in that the wall material of the housing (12) of glass in a thickness of 0.6-1.7 mils. 0 0 9 8 2 6/1512
Docket KI 968 012 Empty page