RU2168790C2 - Ac gas panel and its control process - Google Patents

Abstract

FIELD: gas- discharge engineering; information display on ac gas panels. SUBSTANCE: each pixel has four display electrodes; distance l₁ between middle display electrodes is shorter than distances l₂ and l₃ between each of . middle electrodes and closest extreme ones; l₂ may equal l₃ and l₂ may be shorter than distance l₃ between closest edges of adjacent extreme electrodes of two adjacent pixels. Panel control is effected by feeding general write pulses to middle display electrodes during warm-up period, control pulses, to control electrodes and to middle display electrode most distant from extreme display electrode during addressing mode, and discharge maintenance pulses, to same middle display electrode and to extreme display electrodes during display mode, initially to extreme display electrode closest to this middle one. EFFECT: enhanced reliability of control. 4 cl, 3 dwg

Description

 The group of inventions relates to the field of gas-discharge equipment and can be used in display systems containing gas-discharge display panels of alternating current (GUI), in particular in color television gas-discharge video modules.

 Known ACI AC, containing two dielectric plates, on one of which are coated with a dielectric pair of parallel indication electrodes having protrusions directed towards each other, and on the other are control electrodes orthogonal to the indication electrodes [French application N 2629265, cl. H 01 J 17/49, 1989].

 The disadvantage of this design is the low reliability of control due to the unevenness of the electric field in the area of intersection of the control and indicator electrodes.

 A known method of controlling a gas discharge indicator panel of alternating current with a surface discharge, each display element of which contains a control electrode and two parallel indicator electrodes perpendicular to it, including preparation, addressing and indication modes [EPO application N 0554172, class. H 01 J 17/49, 1993].

 The disadvantage of this control method is that there are no conditions for increasing contrast in the method, since a discharge in the display mode is formed only in the gap between two electrodes, the area of which is only a small part of the area of the display element, as a result of which backlighting of neighboring display elements is possible.

 A gas discharge display panel of alternating current is known, containing in each display element two parallel electrodes located on one glass plate and control electrodes perpendicular to it located on another plate and separated by dielectric barriers, while adjacent display elements are also separated by dielectric barriers located along parallel electrodes [US patent N 5701056, class. H 01 J 17/49, 1997].

 The disadvantage of this GUI design is that, due to the presence of mutually orthogonal dielectric barriers (matrices), the isolation of individual display elements from each other is enhanced and, as a result, control voltages increase, which reduces the reliability of control.

 A known method of controlling a gas discharge indicator panel, in which each element contains a control electrode and two display electrodes, including a display mode and simultaneous control of several display elements in preparation mode and several display elements in addressing mode [application EPO N 0356313, cl. G 09 C 3/28, 1989].

 In this control method, there are no conditions for increasing the reliability of control, since in the preparation mode it is necessary to form a training pulse with increased amplitude.

 Closest to the proposed design of the GUI in the group of inventions is a gas discharge indicator panel of alternating current, containing a first dielectric plate with a system of parallel indication electrodes coated on a dielectric located on its inner surface, a second dielectric plate, on the inner surface of which are placed control electrodes orthogonal to the indication electrodes and display elements forming them, each of which has four indication electrodes, dielectrics barriers made on at least one of the dielectric plates between the control electrodes [RF patent N 2094895, class. H 01 J 17/49, 1997 - prototype].

 The disadvantage of this GUI is the low reliability of control due to the high level of control voltages.

 The closest method of the same purpose to the claimed method in the group of inventions is a method of controlling a gas-discharge indicator panel of alternating current, which consists in forming in the display element in the preparation mode on two electrodes indication of training pulses, forming in the addressing mode on the electrodes an element for displaying control pulses and generating indication mode on the electrodes of indication of pulses of support of the discharge with a cyclic sequence for the formation between the electrodes Indication of reversibly moving discharge [RF patent N 2089966, cl. H 01 J 17/49, 1997 - prototype].

 The disadvantage of this control method is the low reliability of control, caused by the need to form control pulses with large amplitude in the preparation mode.

 The objective of the claimed group of inventions is to create a GUI of alternating current and a method for controlling it with high reliability of control by reducing control voltages.

The specified single technical result in the implementation of the group of inventions for the object device is achieved by the fact that in the known gas-discharge indicator panel of alternating current, containing the first dielectric plate with a system of parallel indication electrodes coated on the inner surface of the electrode, a second dielectric plate on the inner surface of which placed control electrodes orthogonal to the display electrodes and forming display elements with them, in each of which there are four indication electrodes, dielectric barriers made on at least one of the dielectric plates between the control electrodes, in the display elements, the distance between the middle indication electrodes l _{1 is} less than the distance between each of the middle indication electrodes and the neighboring extreme indication electrodes l ₂ and l ₃ .

 The choice in the display element of the distance between the middle electrodes is less than the distances between each of the middle electrodes and the adjacent extreme indication electrodes, which ensures low ignition levels of the discharge between the middle electrodes, which reduces the control voltage and improves the reliability of control.

The reliability of control will be further enhanced if, in the GUI display elements for l ₂ > l ₁ and l ₃ > l _{1, the} distances from the extreme display electrodes to the middle display electrodes adjacent to them are equal. In this case, optimal conditions are created for exciting the discharge in the display element, which increases the reliability of control.

The reliability of the control of the ISU also increases if the distances between the middle and adjacent extreme display electrodes l ₂ and l ₃ are less than the distance between the adjacent edges of the neighboring extreme electrodes of the display of adjacent display elements l ₄ .

 The fulfillment of this condition allows to reduce the connection between the display elements and increase the reliability of control.

 The specified single technical result when implementing a group of images by an object-method is achieved by the fact that in the known method of controlling a gas-discharge indicator panel of alternating current, which consists in the formation in the display element in the preparation mode on two electrodes of the indication of the preparation pulses, the formation in the addressing mode on the electrodes of the display elements control pulses and the formation in the display mode on the electrodes of the indication of pulses for maintaining discharges with a cyclic sequence In order to form a reversibly moving discharge between the indication electrodes, in the preparation mode, general recording pulses are fed to the middle indication electrodes, in the addressing mode, control pulses are fed to the control electrodes and to the middle indication electrode, which is least distant from the extreme indication electrode, and in the indication mode, the maintenance pulses the discharge is fed to the same middle display electrode and to the extreme display electrodes, and initially, pulses are fed to the extreme electrode adjacent to the middle electrode in dictation used in display mode.

 The proposed sequence of pulse formation in the ISU control mode creates optimal conditions for the discharge to be excited in the display elements, which makes it possible to reduce the control voltage.

 The claimed group of inventions meets the requirement of unity of invention, since the group of diverse inventions forms a single inventive concept, moreover, one of the claimed objects of the group, the method of controlling the gas-discharge indicator panel of alternating current, is intended for use in another object of the group - GUI, while both objects of the claimed group of inventions are aimed at solving the same problem with obtaining a single technical result.

 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 analogues characterized by features identical to those of both the GUI and the method of the claimed group inventions, and the definition from the list of identified analogues of prototypes for both the ISU and the method as the closest in the set of features of analogues made it possible to identify the combination of nificant relative to the applicant sees the technical effect characteristic features for each of the stated objects of the group set out in the claims.

 Therefore, each of the objects of the claimed group of inventions meets the requirement of "novelty."

 To check the compliance of each of the objects of the claimed group of inventions with the requirements of the inventive step, an additional search was carried out for known solutions in order to identify features that match the distinctive features of the selected prototypes for the GUI and the control method of the claimed group of inventions, the results of which show that each of the objects of the claimed group of inventions it should not be obvious to a specialist from the prior art, since technical solutions have not been identified in which the reliability of the ISU control would be achieved due to the fact that in the GUI display elements containing four display electrodes, the distance between the middle electrodes is less than the distance between each of the middle electrodes and the neighboring ones, and when the GUI is controlled by applying general pulses in the preparation mode recordings on the middle indication electrodes, in the mode of addressing control pulses to the control electrodes and on the middle indication electrode, adjacent to the extreme indication electrode, and in the pulse indication mode it is supported discharge to the middle display electrode used in the addressing mode, and to the extreme display electrodes, and initially to the extreme electrode adjacent to the middle display electrode.

 Also, technical solutions have not been identified where the reliability of control in a display element having four display electrodes with a distance between the middle display electrodes less than the distance between each of the middle electrodes and the adjacent extreme electrodes would increase due to the fact that the distances from the extreme display electrodes to the averages adjacent to them are equal, and the distance between each of the averages and the adjacent extreme electrodes is less than the distance between the adjacent edges of the two indication electrodes located display elements.

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

 The proposed design of the ISU and its control method is illustrated by drawings.

 In FIG. 1 shows a fragment of one of the design options of the proposed GUI, consisting of two display elements.

In FIG. 2 shows the proposed design of the ISU, in the display element of which the distance between the middle indication electrodes l _{1 is} less than the distances between the middle indication electrodes and the neighboring extreme indication electrodes - l ₂ and l ₃ , with l ₂ = l ₃ .

 In FIG. 3 shows stress plots of the ISU control method.

 The ISU of FIG. 1, 2 contains the first dielectric plate 1, on which the indication electrodes 2 are located (S1, S0 - extreme; Y, S2 - middle) with a dielectric coating 3, the second dielectric plate 4 with control electrodes 5 (X) located on it, orthogonal electrodes indications coated with a dielectric 6 and a phosphor 7, dielectric barriers 8, limiting display elements 9, each of which has four indication electrodes.

In the ISU, the distance between the middle (Y, S2) indication electrodes l _{1 is} less than the distance between each of the middle indication electrodes and the adjacent extreme (S0, S1) indication electrodes l ₂ and l ₃ , and construction options are possible when the distance is l ₂ is equal to l ₃ (Fig. 2), and the distance between the adjacent edges of the neighboring extreme electrodes of the indication of two adjacent display elements is greater than l ₂ and l ₃ (Fig. 1).

 The control of the ISU, in the display element of which the distance between the middle indication electrodes is less than the distances between the middle indication electrodes and the adjacent extreme indication electrodes, is carried out as follows.

In the preparation mode, general recording pulses 10 and 11 and erasure pulses 17 in all display elements are supplied to the middle display electrodes Y and S2, the distance between which l ₁ , is less than the distances between the middle display electrodes and the adjacent display electrodes l ₁ and l ₂ , which allows the use of low levels of pulse amplitudes of the overall recording.

 In the addressing mode, the selected control elements of the GUI display control pulses 12, 13 are fed to the control electrodes - 5 (X) and the middle display electrode - Y, which allows you to use the accumulated charges on the dielectric in preparation mode and reduce the level of control voltages.

For the embodiment shown in FIG. 2, where l ₁ = l ₂ , the pulses of maintaining the discharge are applied to any middle electrode and to the extreme indication electrode, which is adjacent to the middle indication electrode used in the addressing mode.

In the panel display mode, pulses for maintaining the 14th, 15th, 16th discharge are fed to the same middle display electrode as in the addressing mode and to the extreme display electrodes, and initially the pulses are fed to the extreme display electrode adjacent to the middle display electrode used in the mode addressing (Fig. 2, where l ₂ > l ₃ ).

 As a result, a gas discharge is displayed in the selected display elements, displaying information.

 The proposed sequence of formation of pulses of maintaining the discharge in the display mode allows you to create optimal conditions for ignition of the discharge in the display element and reduce the amplitude of the supporting pulses.

 An example of a specific implementation.

ISU AC consists of two dielectric plates. Indication electrodes of gold 80 μm wide are formed on the upper dielectric plate. Each display element contains four indication electrodes, the distance between the middle indication electrodes l ₁ is 80 μm, and the distances between the middle indication electrodes and the neighboring extreme indication electrodes l ₂ and l ₃ are 170 μm, i.e. the distance between the middle electrodes l _{1 is} less than each distance between the middle electrode of the indication and the adjacent extreme indication electrodes l ₂ and l ₃ .

 Indication electrodes are coated with a low-melting glass dielectric (LPS) 30 μm thick and a protective layer of magnesium oxide.

 On the lower dielectric plate there are control electrodes made of gold with a width of 120 μm and a pitch of 0.35 mm, coated with LPS with a thickness of 15 μm.

 Between the control electrodes and parallel to them, dividing barriers with a height of 130 μm 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.

 To control the ISU described above in the specific embodiment example, according to the proposed method, in the preparation mode, the average electrodes are supplied with general recording pulses of 28 μs duration and an amplitude of 220 V, erasure pulses with an amplitude of 50 - 100 V.

 In the addressing mode, control pulses of 3 μs duration with an amplitude of 150 V are supplied to the display electrodes, and pulses with an amplitude of 50 - 70 V are sent to the control electrode.

 The amplitude of the pulses for maintaining the discharge is from 200 to 220 V, and the duration of the pulses for maintaining the discharge is 3.0 μs.

 The ISU, made according to the invention, when applying the control of the proposed method, has low control voltage of the control electrode - 50 - 70 V and a dynamic control range of 18 V.

 For ACUs such as a prototype, the voltage at the control electrode is 70 - 90 V, and the dynamic control range is 11 V.

 Thus, the proposed group of inventions allows you to create the design of the GUI AC and control method with high reliability management, thereby increasing the reliability of the control of the display system as a whole.

Claims (4)

1. A gas discharge AC display panel, comprising a first dielectric plate with a system of parallel dielectric coated indication electrodes located on its inner surface, a second dielectric plate, on the inner surface of which are placed control electrodes orthogonal to the indication electrodes and display elements forming them, in each of which there are four indication electrodes, dielectric barriers made at least on one of the dielectric plasmas type between the control electrodes, characterized in that in the display elements, the distance between the middle display electrodes l _{1 is} less than the distances between each of the middle display electrodes and the adjacent extreme display electrodes l ₂ and l ₃ . 2. The gas discharge AC display panel according to claim 1, characterized in that in the display elements, the distances between each of the middle display electrodes and the adjacent extreme display electrodes l ₂ and l ₃ are equal. 3. A gas discharge AC display panel according to any one of claims 1 and 2, characterized in that in the display elements the distances between each of the middle display electrodes and the adjacent extreme indication electrodes l ₂ and l _{3 are} less than the distance between the adjacent edges of adjacent extreme display electrodes l ₄ two adjacent display elements.  4. A method for controlling a gas-discharge indicator panel of alternating current, which consists in generating, in a preparation element, in the preparation mode on two electrodes, indications of preparation pulses, generating in the addressing mode on the electrodes the display elements of control pulses and generating, in the indication mode on the electrodes, indication pulses of maintaining a discharge with a cyclic sequence for the formation between the electrodes of the indication of a reversibly moving discharge, characterized in that in the mode of preparation of pulses General recording systems are fed to the middle display electrodes, in the addressing mode, control pulses are fed to the control electrodes and to the middle display electrode, which is least distant from the extreme display electrode, and in the display mode, discharge maintenance pulses are fed to the same middle display electrode and to the extreme display electrodes moreover, initially the pulses are supplied to the extreme indication electrode, which is adjacent to the middle indication electrode used in the addressing mode.

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