RU2208841C1 - A c gaseous-discharge indicator panel and method of control over it ( variants ) - Google Patents

Abstract

FIELD: electronics, indication systems employing A C gaseous-discharge indicator panels, specifically, color TV gaseous-discharge videomodules. SUBSTANCE: high control reliability is provided in design thanks to fact that in pairs of first and second display elements placed in series along control electrode the last one or two electrodes of indication of first display element are common with second display element corresponding in it to first and second electrode of indication. According to method of control over A C gaseous-discharge indicator panel with one common electrode of indication in two display elements general recording pulses are fed under mode of preparation to two electrodes of indication, one of them being common electrode of indication. Under mode of addressing scanning pulses are fed to common electrode of indication, under mode of indication voltage pulses sustaining discharge are fed to all electrodes of indication which have same polarity of electrodes of indication as used under mode of preparation.. In correspondence with method of control over A C gaseous-discharge indicator panel with two common electrodes of indication in two display elements pulses of general recording are fed to two common electrodes of indication under mode of preparation. Under mode of addressing scanning pulses of general recording are fed to one of two common electrodes of indication, under mode of indication voltage pulses sustaining discharge are fed to electrodes of indication which have same polarity of electrodes of indication as used under mode of preparation. In this case full control mode over A C gaseous-discharge indicator panel with one common electrode of indication and with two common electrodes of indication in two display elements is first conducted in all first display elements and then in all second display elements or vice versa. EFFECT: high control reliability. 7 cl, 4 dwg

Description

 The group of inventions relates to the field of gas discharge technology and can be used in display systems containing gas discharge display panels (GUIs) of alternating current, 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 indication electrodes perpendicular to it, including preparation, addressing and indication modes [EPO application N 0554172, cl. 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 interval 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 AC display panel is known, containing in each display element two parallel electrodes located on one glass plate and perpendicular control electrodes located on the other plate and separated by dielectric barriers, while the 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 of alternating current, in which each element contains a control electrode and two indication electrodes, including an indication mode and simultaneous control of several display elements in preparation mode and several display elements in addressing mode [application ЕВП 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 in the group of inventions is a gas discharge indicator panel of alternating current, comprising a first dielectric plate with a system of parallel indication electrodes coated on a dielectric located on its inner surface, and a second dielectric plate on whose inner surface are control electrodes orthogonal to the indication electrodes and forming with them display elements, each of which includes at least three consecutively located electronic indication electrodes, dielectric barriers made at least on one of the dielectric plates between the control electrodes [RF patent N 2089966, cl. 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 carrying out a full control mode, including the formation in the display element in the pulse preparation mode of the general recording on two adjacent indication electrodes, the formation in the pulse addressing mode scanning on one of the indication electrodes used in the preparation mode, and control pulses on the control electrode, forming in the sustain discharge pulse display mode to the display electrodes [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 the creation of 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 located control electrodes orthogonal to the display electrodes and forming display elements with them, each of which includes at least three consecutively arranged indication electrodes, dielectric barriers made on at least one of the dielectric plates between the control electrodes, in alternately placed pairs of first and second display elements arranged in series along the control electrodes, the last one or two indication electrodes of the first the display element is common with the second display element, corresponding in it to the first or first and second display electrodes.

 The proposed design, in which in alternately placed pairs of first and second display elements sequentially located along the control electrodes, the last one or two display electrodes of the first display element are common with the second display element, corresponding to the first or first and second display electrodes in it, ISU AC with high control reliability by providing low control voltages. In addition, this GUI AC has a high brightness due to the effective use of visible radiation in the display elements.

The choice in the display elements with one common display electrode of the distance l between the common and adjacent display electrodes according to the ratio
l = (0.05-0.9) l ₁ where
l ₁ - the distance between the common display electrode and the display electrode, next to the display electrode adjacent to the common display electrode, can improve the reliability of control by creating optimal conditions for the excitation of the discharge in the display element.

 The reliability of control of the ACI GUI also increases when the distance between the common indication electrodes is less than the distance between the other indication electrodes in the display elements with two common indication electrodes.

 Reducing the distance between the common electrodes allows you to provide low levels of ignition of the discharge, which allows to reduce the control voltage and increase the reliability of control.

The choice in the display element with two common indication electrodes of the distance between the common electrodes is l ₂ according to the relation l ₂ = (0.2-0.8) l ₃ , where l ₃ is the distance between one of the common indication electrodes and the neighboring indication electrode allows to create optimal conditions for the excitation of the discharge in the display element, which increases the reliability of control.

 The location in the display elements with two common electrodes of the indication on the inner surface of the first dielectric plate between the common electrodes of the contrast coating allows to increase the contrast of the ACI of the alternating current while ensuring high brightness and reliability of control.

 The specified single technical result in the implementation of the group of inventions on the 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 carrying out a full control mode, including the formation in the display elements in the pulse preparation mode of a general recording on two adjacent indication electrodes, formation in the addressing mode of the scanning pulses on one of the indication electrodes used in the preparation mode, and control pulses on the control electrode, the formation in the display mode of the pulses of the voltage to maintain the discharge on the display electrodes, for the ACI AC with one common display electrode in two display elements, in the preparation mode, the general recording pulses are fed to two display electrodes, one of which is a common display electrode, in the mode addressing, the scanning pulses are fed to the common display electrode, and in the display mode, all the display electrodes are supplied with discharge voltage pulses, which are used on the display electrodes used in the preparation mode, have the same polarity, while the full control mode is initially carried out in all the first display elements, and then in all the second display elements, or vice versa, and for ACI GUI with two common indication electrodes in two display elements in the preparation mode, the pulses the general recording is fed to two common indication electrodes, in the addressing mode, the scanning pulses are fed to one of the common indication electrodes, in the indication mode all pulses of the indication electrodes are fed yazheniya sustain discharge in the display electrodes are used in the preparation mode, have the same polarity, wherein a complete mode originally performed in all the display elements of the first, then all the second display elements or vice versa.

 The proposed sequence of pulse formation in the control mode of the ISU AC creates optimal conditions for the excitation of the discharge in the display elements, which allows to reduce the control voltage.

 The claimed group of inventions meets the requirement of the 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 of alternating current, both objects of the claimed group of inventions 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 ACI of the alternating current and the method the claimed group of inventions, and the definition from the list of identified analogues of the prototypes for both the ISU of alternating current and for the method, as the closest in terms of features an logs, revealed a set of essential with respect 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 ACI of an alternating current and a control method of the claimed group of inventions, the results of which show that each of the objects the claimed group of inventions does not follow for the specialist explicitly from the prior art, since the technical solutions of the ISU have not been identified alternating current, in which high reliability of control of the ACI GUI would be achieved due to the fact that in each pair of two consecutively arranged along the control electrodes of the first and second display elements, the last one or two indication electrodes of the first display element are common with the second display element and corresponds to it to the first or first and second electrodes of indication, when controlling the GUI of alternating current with one common indication electrode in two display elements due to the fact that In the preparation mode, the general recording pulses are fed to two indication electrodes, one of which is a common indication electrode, in the addressing mode, the scanning pulses are fed to the common indication electrode, and in the indication mode, all the indication electrodes are supplied with discharge voltage pulses, which are used on the indication electrodes used in in the preparation mode, they have the same polarity, and when controlling the GUI of an alternating current with two common indication electrodes in two display elements due to the fact that in the preparation mode the pulses records are fed to it on two common indication electrodes, in the addressing mode, the scanning pulses are fed to one of the common indication electrodes, and in the addressing mode, the scanning pulses are fed to one of the common indication electrodes, in the indication mode, all the indication electrodes are supplied with discharge voltage pulses, which on the indication electrodes used in the preparation mode, have the same polarity, while the full control mode of the ISU AC with one and two common indication electrodes in two elements of the selection eniya originally performed in all the display elements of the first, then all the second display elements or vice versa.

Also, technical solutions have not been identified that can improve the reliability of the control of the ACI GUI, the display elements of which include at least three display electrodes, due to the choice in two display elements with one common display electrode of the distance l between the common and neighboring display electrodes according to the expression l ₁ (0.05-0.9) l ₁ , and in two display elements with two common indication electrodes due to the choice of the distance between the common electrodes of a smaller distance between the other indication electrodes.

 The ACI GUI designs are not known, in which, in alternately placed pairs of display elements having two common indication electrodes, a contrast coating is applied to the inner surface of the dielectric plate, which provides high contrast.

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

 The proposed design of the ISU AC and the method of controlling it are illustrated by the drawings.

 In FIG. Figure 1 shows a fragment of an alternating current GUI design in which, in pairs of first and second display elements arranged in series along the control electrodes, the last electrode of the first display element is common with the second display element, corresponding to the first indication electrode in it.

 In FIG. 2 shows an ACI GUI design in which, in pairs of first and second display elements arranged in series along the control electrode, the last two display electrodes of the first display element are common with the second display element, corresponding to the first and second display electrodes therein.

 Figure 3 presents the timing diagram of the voltage pulses supplied to the electrodes of the ISU AC with one common indication electrode in a pair of first and second display elements.

 Figure 4 presents the timing diagram of the voltage pulses supplied to the electrodes of the ISU AC with two common indication electrodes in a pair of first and second display elements.

The alternating current ISU according to Fig. 1.2 contains a first dielectric plate l on which the indication electrodes 2 are located (S ₁ , S ₂ , Y ₀ , S ₀ , where Y ₀ , S ₀ are the common indication electrodes for each pair of consecutive elements display) with a dielectric coating 3, a second dielectric plate 4 with control electrodes 5 located thereon, orthogonal to the display electrodes and forming display elements 6 with them, forming pairs of display elements 7, dielectric barriers 8 and contrast coating 9.

 The control of the ACI GUI, in which the pairs of the first and second display elements alternately arranged along the control electrodes have one common indication electrode, is carried out as follows.

In the preparation mode (Fig. 3), the general recording pulses 10 are supplied to the common indication electrodes Y ₀ and the neighboring indication electrodes S ₁ , and in the addressing mode, to the selected display elements, the scanning pulses 11 are fed to the common electrodes Y ₀ , control pulses 12 - to the control electrodes X. In the display mode, voltage pulses for maintaining the discharge 13 are supplied to all display electrodes, while the electrodes Y and S ₁ have the same polarity. The full control mode is carried out first during time T 'in all first display elements, and then during time T''in all second display elements or vice versa, i.e. first, the full control mode is carried out during time T ″ in all second display elements, and then during time T ′ in all first display elements.

 The proposed sequence of pulse formation in the modes of preparation, addressing and indication allows you to create optimal conditions for ignition of the discharge in the display element and reduce the amplitude of the control pulses, thereby increasing the reliability of control.

 For the ACI GUI, the two display elements of which contain one common indication electrode, the choice of the distance between the common and neighboring indication electrodes according to the proposed ratio makes it possible to provide optimal conditions for preparing the discharge, which allows to reduce the level of discharge ignition voltage in the indication mode and to increase the reliability of control.

The choice of l <0.05l ₁ leads to a small accumulation of charges in the preparation mode and, as a result, to an increase in the ignition level in the indication mode, which reduces the reliability of control.

The choice of l> 0.9l ₁ leads to an increase in the ignition level during the preparation process and the appearance of "falsely" recorded or indelible display elements.

 For the ACI GUI, the two display elements of which contain two common indication electrodes, the choice in the display elements of the distance between the common indication electrodes is less than the distance between the other electrodes, which allows for low voltage levels in the process of preparation for addressing and thereby ensures ignition stability in the indication mode.

 The choice for the ISU of alternating current, two display elements of which contain two common indication electrodes, the choice in the display elements of the distance between the common indication electrodes according to the proposed ratio allows optimal charge accumulation on the indication electrodes, which ensures reliable "recording" and "erasing" of information.

When l <0.2l _3, control reliability decreases due to an increase in the ignition voltage in the display mode, due to insufficient accumulation of charges in preparation for the addressing mode.

At l> 0.8l _{3, the} reliability of control decreases due to an increase in the ignition level during the preparation process, which leads to the appearance of “falsely” recorded or indelible elements.

 In the ACI GUI, the two display elements of which contain two common indication electrodes, the formation between the common electrodes used to prepare the contrast coating allows, while ensuring high reliability of control, to increase the contrast.

 The control of the ACI GUI, in which, in each pair of the first and second display elements sequentially located along the control electrode, the last two display electrodes of the first display element are the first and second indication electrodes in the second element as follows.

In the preparation mode (Fig. 4), the pulses of the general recording 10 are fed to the common indication electrodes Y ₀ u S ₀ . In the addressing mode in the selected display elements, the scanning pulses 11 are supplied to the common electrodes Yo and the control pulses 12 to the control electrodes X. In the display mode, the voltage pulses for maintaining the discharge 13 are supplied to the indication electrodes, while the electrodes Y ₀ u S ₀ have the same polarity.

 The proposed complete control mode is carried out first in all the first display elements during the time T ', and then in all the second display elements during the time T' 'or vice versa. The proposed sequence of pulse formation in the modes of preparation, addressing and indication allows you to create optimal conditions for ignition of the discharge in the display element and reduce the amplitude of the control pulses, thereby increasing the reliability of control.

An example of a specific implementation of the ACI GUI with one common indication electrode in pairs of first and second display elements sequentially located along the control electrodes
ISU AC consists of two dielectric plates. Indication electrodes of gold-containing paste with a width of 80 μm are formed on the upper dielectric plate. Each display element of the ACI GUI includes 3 indication electrodes, one of which is alternately arranged in pairs arranged in series along the control electrodes of the first and second display elements — Y ₀ . The distance between S ₁ u S ₂ is 230 μm, i.e., in the ISU l = 80 μm, and l ₁ = 410 μm, i.e. corresponds to the ratio proposed in the invention. Indication electrodes are coated with a dielectric - low-melting glass (LPS) with a thickness of 40 microns and a protective layer of magnesium oxide. On the lower dielectric plate there are control electrodes made of silver-containing paste with a width of 100 μm with a step of 300 μm, coated with LPS with a thickness of 15 μm. 160 dielectric barriers are formed between the control electrodes. A phosphor of three primary colors is applied to the control electrodes and the side surfaces of the separation barriers. The ACU of the alternating current is sealed and filled with a mixture of Ne + 5% Xe at a pressure of 400 mm Hg.

To control the ISU of the alternating current described above, according to the proposed method, in the preparation mode, the common electrode Y ₀ and adjacent S ₁ are supplied with general recording pulses with a duration of 24 μs and an amplitude of 220 V. In the addressing mode, scanning pulses with a duration of 3 μs of amplitude are fed to the display electrodes 150 V; on the control electrode pulses with an amplitude of 50-70 V.

 The amplitude of the pulses of maintaining the discharge is from 200 to 220 V, the duration of the pulses of maintaining the discharge is 3.0 μs. Management was carried out first on all first display elements, and then in all second display elements.

ISU AC, made according to the invention, when applying the control of the proposed method, has low control voltages on the control electrode, the dynamic control range is 20 V, the brightness is 380 cd / m ² .

 For well-known GUIs of alternating current, when controlling in a known manner, the voltage at the control electrode is 70-90 V, and the dynamic control range is 12 V.

 An example of a specific implementation of the ACI GUI with two common indication electrodes in pairs of the first and second display elements sequentially located along the control electrodes.

Indication electrodes of gold-containing paste with a width of 80 μm are formed on the upper dielectric plate. In each display element there are 4 indication electrodes, while in the alternately placed pairs of the first and second display elements sequentially located along the control electrodes, two electrodes are common - Y ₀ and S ₀ . The distance between them is 80 microns. The distance between other electrodes S ₀ u S ₁ is 210 μm, between S ₁ and S ₂ is 100 μm, i.e. the distance between Y ₀ u S _{0 is} less than the distances between other electrodes, and the ratio
l ₂ / l ₃ = 0.38 i.e. corresponds to the ratio proposed in the invention. Between the electrodes Y ₀ u S ₀ , a contrast coating of fusible glass of a dark color was made, which makes it possible to obtain an ACI with high contrast due to the screening of the preliminary discharge. The indication electrodes are coated with a 45 micron thick dielectric glass (LPS) dielectric and a protective layer of magnesium oxide. On the lower dielectric plate are located control electrodes of silver-containing paste with a width of 100 μm with a step of 300 μm, covered with LPS with a thickness of 15 μm. 150 dielectric barriers are formed between the control electrodes. A phosphor of three primary colors is applied to the control electrodes and the side surfaces of the dielectric barriers. The ACI HIP is sealed and filled with a mixture of Ne + 5% Xe at a pressure of 500 mm Hg.

 To control the ISU of the alternating current described above, according to the proposed method, in the preparation mode, general recording pulses of 24 μsec and an amplitude of 220 V are supplied to the common display electrodes. In addressing mode, scanning pulses of 3 μsec and an amplitude of 150 V are supplied to the display electrodes; on the control electrode - pulses with an amplitude of 50-70 V.

The amplitude of the pulses for maintaining the discharge is from 200 to 220 V, the duration of the pulses for maintaining the discharge is 3.0 ms. The pulses of the voltage to maintain the discharge supplied to the electrodes Y ₀ u S ₀ have the same polarity. The full control mode is carried out first in all first display elements, and then in all second display elements.

ISU AC, made according to the invention when applying the control of the proposed method, has low control voltages on the control electrode, the dynamic control range is 20 V, the brightness is 460 cd / m ² .

 Thus, the proposed group of inventions allows you to create the design of the ISU AC and control methods with high reliability management.

Claims (7)

 1. A gas discharge indicator panel (GUI) of alternating current, comprising 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 whose inner surface there are control electrodes orthogonal to the indication electrodes and display elements forming with them , each of which includes at least three consecutively arranged indication electrodes, dielectric barriers made at least at least on one of the dielectric plates between the control electrodes, characterized in that in the alternately arranged pairs of the first and second display elements sequentially arranged along the control electrodes, the last one or two indication electrodes of the first display element are common with the second display element, corresponding to the first or the first and second indication electrodes. 2. The AC gas discharge indicator panel according to claim 1, characterized in that in the display elements with one common indication electrode, the distance l between the common and adjacent indication electrodes is selected according to the relation l = (0.05 ÷ 0.9) l ₁ where l ₁ is the distance between the common indication electrode and the indication electrode following the indication electrode adjacent to the common indication electrode.  3. The gas discharge AC display panel according to claim 1, characterized in that in the display elements with two common indication electrodes, the distance between the common indication electrodes is less than the distance between the other indication electrodes. 4. The gas discharge AC display panel according to claim 3, characterized in that the distance l ₂ between the common indication electrodes is selected according to the ratio l = (0.2 ÷ 0.8) l ₃ , where l ₃ is the distance between one of the common electrodes indication and the indication electrode adjacent to it.  5. The ACI GUI according to any one of claims 1, 3 and 4, characterized in that in the display elements with two common indication electrodes on the inner surface of the first dielectric plate there is a contrast coating between the common indication electrodes.  6. A method for controlling a gas-discharge indicator panel of alternating current, which consists in carrying out a full control mode, including generating a general recording in the display element in the preparation mode of the impulses on two adjacent indication electrodes, generating in the addressing mode of the scanning pulses on one of the indication electrodes used in the preparation mode , and control pulses on the control electrode, the formation in the display mode of the voltage pulses maintaining the discharge on the display electrodes, distinguishing the fact that for a gas discharge AC display panel with one common indication electrode in two display elements in preparation mode, general recording pulses are fed to two indication electrodes, one of which is a common indication electrode, in the addressing mode, scanning pulses are fed to the common indication electrode, and in the indication mode, all the indication electrodes are supplied with voltage pulses for maintaining the discharge, which have the same polarity on the indication electrodes used in the preparation mode, while m management originally conducted in all of the first display elements, then all the second display elements or vice versa.  7. The method of controlling the gas-discharge indicator panel of alternating current is to carry out a full control mode, including forming a common record in the display element in the preparation mode of the impulses on two adjacent indication electrodes, generating in the addressing mode of the scanning pulses on one of the indication electrodes used in the preparation mode, and control pulses on the control electrode, generating, in the indication mode, the voltage pulses of maintaining the discharge on the indication electrodes, characterized I mean that for a gas discharge AC display panel with two common indication electrodes in two display elements, in preparation mode, general recording pulses are fed to two common indication electrodes, in addressing mode, scan pulses are fed to one of the common indication electrodes, in indication mode on all indication electrodes supply discharge voltage pulses, which on the indication electrodes used in the preparation mode have the same polarity, while the full control mode is initially carried out in all first display elements, and then in all second display elements, or vice versa.

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