RU2158038C1 - A c gaseous-discharge indication panel - Google Patents

Abstract

FIELD: equipment for information display on AC gaseous-discharge panels. SUBSTANCE: display elements of AC gaseous-discharge panel include at least n= 2 pairs of selective common indication electrodes. One as minimum and not more than n-1 selective indication electrodes have width 1.1-2.0 time larger than other indication electrodes, with n=2, 3, 4, .... EFFECT: increased reliability of control over indication panel. 3 dwg

Description

 The invention relates to the field of gas discharge technology and can be used to develop means for displaying information on gas discharge display panels (GUI) of alternating current.

 Known ACI AC, containing two dielectric plates, on one of which are dielectric coated pairs of parallel indication electrodes having protrusions directed towards each other, and control electrodes are located on the other [h. France N 2629265 H 01 J 17/49. 09/29/89]. The disadvantage of this design is the low reliability of control due to the unevenness of the electric field at the intersection of the control and indicator electrodes.

 Known ACI AC, which contains two dielectric plates, on the inner surface of one of which is a system of pairs of bipolar indication electrodes having protrusions directed towards each other and offset relative to each other, and on the other plate is a system of control electrodes that intersect with the indication electrodes [s. France N 2648953. H 01 J 17/49. 12/27/90].

 The implementation on the indicator electrodes of the protrusions, offset relative to each other, leads to an increase in the discharge zone and, consequently, an increase in brightness.

 However, in this case, the current loads and the unevenness of the electric field in the area of the indicator and control electrodes also increase, which reduces the reliability of the ISU control.

 Closest to the proposed design is an alternating current ISU containing a first dielectric plate with selective and common electrodes coated with an insulator, grouped together in pairs, a second dielectric plate, on the inner surface of which there are control electrodes orthogonal to the indication electrodes and display elements forming them , in each of which at least n = 2 pairs of selective and common indication electrodes are placed, dielectric barriers are located nye at least one dielectric plate between the control electrodes.

 The disadvantage of this GUI is the high levels of control voltages and, as a consequence, the low reliability of control [US Pat. RF N 2094895. CL H 01 J 17/49, 10.27.97, the prototype].

 The objective of the invention is to create a GUI alternating current with high reliability control by reducing control voltages.

 The specified technical result during the implementation of the invention is achieved by the fact that in the known GUI of alternating current containing the first dielectric plate with dielectric coated electrodes, the indication is selective and common, grouped together in pairs, the second dielectric plate, on the inner surface of which are the control electrodes orthogonal to the indication electrodes and display elements forming them, each of which contains at least n = 2 pairs of selective and common indie electrodes cations, dielectric barriers located at least on one of the dielectric plates between the control electrodes, in the display elements, at least one and no more than n-1 selective indication electrodes have a width of 1.1-2 times greater than the width of the remaining display electrodes, with n = 2, 3, 4, ....

 The implementation in the display element of at least one of the selective indication electrodes and no more than n-1 (n = 2, 3, ...) 1.1-2 times wider than the rest of the indication electrodes can reduce the control voltage levels without increasing current loads during the discharge between the indication electrodes.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, allows us to establish that the applicant has not found an analogue characterized by features identical to those of the claimed invention, and a definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed to identify the set of essential in relation to the applicant to technical result of the characterizing features claimed in the object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty."

 In addition, the claimed invention does not follow explicitly from the prior art for a specialist, since there is no GUI design in which the improvement of control reliability would be achieved due to the fact that in display elements containing at least two pairs of selective and common indication electrodes, at least one and no more than n-1 (n = 2, 3, ...) selective indication electrodes are 1.1–2 times wider than the width of the remaining indication electrodes.

 Therefore, the claimed invention meets the requirement of "inventive step".

 The proposed design of the ISU AC is illustrated by drawings.

 In FIG. 1 shows a design variant of the GUI, the display element of which consists of two pairs of indication electrodes, one of the selective electrodes in which has a width greater than the width of the remaining indication electrodes.

 In FIG. 2 shows a design variant of a GUI with a display element consisting of three pairs of indication electrodes, one of the selective electrodes in which has a width greater than the width of the remaining indication electrodes.

 In FIG. Figure 3 shows a GUI design with a display element consisting of three pairs of indication electrodes, two selective electrodes in which have a width greater than the width of the remaining indication electrodes.

 The ISU design (Figs. 1, 2, 3) contains the first dielectric plate 1 with the pairs of indication electrodes 3 covered with a dielectric 2 and located on it, in which one of the electrodes is selective 3 ', the other is common 3' ', and the second dielectric plate is 4 s control electrodes 5, forming with the display electrodes a display element 6, dielectric barriers 7, a phosphor 8 deposited on the control electrodes and the side surfaces of the separation barriers.

 The drawings show the GUI options, the display elements of which contain two pairs (Fig. 1, 2) and three pairs (Fig. 3) of selective and common indication electrodes.

 The GUI works as follows. Support voltage is applied to all display electrodes, which does not change the state of the indicator element. For selective ignition of the display element, it is necessary to apply a part of the write voltage to the selected control electrodes, and the other part to the selective indication electrode, made (1.1-2) times wider than the rest of the indication electrodes.

 A discharge occurs at the points of intersection of the electrodes, which is then picked up in the discharge gaps between the parallel indication electrodes when voltage support pulses are applied to them. To change the information, it is necessary to apply erase pulses and repeat the cycle of “recording” the selected display elements.

 Execution in the GUI display element containing at least two pairs of selective and common indication electrodes of at least one and no more than n-1 (n = 2, 3, ...) selective indication electrodes 1.1 wide -2 times the width of the remaining display electrodes allows to reduce the level of control voltages without increasing current loads, which increases the reliability of control.

 An increase in the width of the selective indication electrode by less than 1.1 times relative to the width of the remaining indication electrodes does not lead to a decrease in the level of control voltages due to the small amount of accumulated charge on the electrode.

 An increase in the width of the selective indication electrode by more than 2 times in comparison with the width of the remaining indication electrodes does not lead to a further decrease in the magnitude of the control voltages, but the brightness of the GUI decreases due to the screening of the light flux in the display element by this electrode.

 An example of a specific implementation.

 The ISU consists of two dielectric plates, on the upper of which two pairs of indication electrodes are formed, each of which consists of a selective and common indication electrodes. One of the selective indication electrodes is 100 μm wide, the rest is 80 μm, i.e. the width of the selective indication electrode is 1.25 times greater than the width of the remaining indication electrodes. The distance between the display electrodes in a pair of 160 microns. Indication electrodes are coated with a 40 micron thick dielectric glass (LPS) dielectric and a protective layer of magnesium oxide. On the bottom plate there are control electrodes made of gold with a width of 120 microns and a pitch of 0.35 mm, coated with LPS. Between the control electrodes, parallel separation barriers are formed. A phosphor of three primary colors is applied to the control electrodes and the side surfaces of the separation barriers. The ISU is sealed and filled with a mixture of He + 1% Xe, p = 500 mm Hg.

 This GUI has a control range of 25 V and control voltages 20% lower than the GUI, performed without increasing the width of the selective indication electrode in pairs.

 Thus, the present invention allows you to create a GUI AC with high reliability control, which allows the use of low-voltage power supplies in control circuits, thereby reducing the cost of these circuits.

Claims (1)

 A gas discharge AC display panel containing a first dielectric plate with selective and common indication electrodes coated with a dielectric, grouped together in pairs, a second dielectric plate, on the inner surface of which there are control electrodes orthogonal to the display electrodes and display elements forming them, in each of of which at least n = 2 pairs of selective and common indication electrodes are placed, dielectric barriers located at least n one of the dielectric plates between the control electrodes, characterized in that in the display elements, at least one and no more than n-1 selective indication electrodes have a width of 1.1 - 2 times the width of the remaining indication electrodes, with n = 2 , 3, 4 ...

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