RU2119207C1 - Gaseous-discharge ac indicating panel - Google Patents

Abstract

FIELD: design of information displays based on gaseous-discharge AC indicating panels of planar make with pairs of indication electrodes. SUBSTANCE: display element includes at least two pairs of indication electrodes with distance between near-by edges of indication electrodes of neighboring pairs C₁ amounting to ( 0.3-1.7 ) distance between near-by edges of indication electrodes in pair C₂. If display element of panel has even number of pairs of indication electrodes near-by electrodes of every two pairs arranged in turns can be integrated. If display element has odd number of pairs of indication electrodes near-by electrodes of every two pairs arranged in turns and extreme electrode of last odd pair may also be integrated. EFFECT: high reliability of control and high brightness thanks to provision for uniform accumulation of wall charges on indication electrodes of display element. 2 cl, 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.

 A known alternating current GUI containing two dielectric plates, on one of which there are pairs of parallel indication electrodes coated with dielectric and stabilizing materials, dielectric barriers orthogonal to the indication electrodes, on the side wall of which there are control electrodes, and a second dielectric plate with a luminescent coating (T Nanto, T. Shinoda "A 15-in Diagonal Color Surface Disoharge AC-Plasma Display Panel" Japan Display, 89, pp. 202, 203).

 The disadvantage of this design is the low brightness due to spraying on the phosphor coating of particles from an open control electrode. In addition, the location of the control electrode on the barrier will lead to uneven accumulation of wall charge on the indicator electrodes, which reduces the reliability of control.

 A known alternating current GUI containing two dielectric plates, on one of which there are pairs of parallel indication electrodes coated with a dielectric and stabilizing coatings, dielectric barriers, on the other plate are control electrodes next to the luminescent coating (P. Shinoda et al. "Improvement of Luminance and Luminous Efficiency of Surface-Discharge color AC PDP. "SIL 91 Digest, p. 724).

 The disadvantage of this design is the low brightness, which is associated with a decrease in the area of the luminous fluorescent coating by the size of the area of the control electrode. In addition, high levels of control voltages and, as a consequence, a decrease in control reliability caused by the need to remove the open control electrode to a sufficiently large distance in order to prevent charged particles from leaving the plasma during the discharge burning.

 Closest to the proposed design of the ACI GUI is the GUI construction, comprising a first dielectric plate with pairs of bipolar indication electrodes located on its inner surface and coated with a dielectric, a second dielectric plate with control electrodes located on its inner surface that are orthogonal to the indication electrodes and forming elements with them displays, in each of which a pair of indication electrodes is placed, dielectric barriers located at least e on one of the dielectric plates (RF. 3.N 95116421, H 01 J 17/49, pr. September 25, 1995, the decision to grant a patent of the Russian Federation dated March 26, 1996 "GUI of alternating current" N. N. Levin and others - prototype - RF patent N 2084041, publ. 1997).

 The disadvantage of this design is the unsatisfactory brightness for the screens of collective use due to the low intensity of ultraviolet radiation. "

 The objective of the invention is to create a GUI alternating current with high reliability and high brightness by ensuring uniform accumulation of wall charge on the indicator electrodes of the display element.

The specified technical result in the implementation of the invention is achieved by the fact that in the GUI of alternating current, containing the first dielectric plate with pairs of bipolar indication electrodes located on its inner surface coated with a dielectric, a second dielectric plate, on whose inner surface there are control electrodes orthogonal to the indication electrodes and forming with them are display elements, in each of which a pair of indication electrodes is placed, dielectric barriers are located e at least one of the dielectric plates in the display elements additionally introduced at least one pair of display electrodes, the display element in the distance between the neighboring edges C ₁ adjacent pairs of the display electrodes is 0.3 - 1.7 of the distance between neighboring edges indication electrodes in pair C ₂ .

 Fulfillment of the aforementioned ratio in display elements containing two or more pairs of indication electrodes makes it possible to create an optimal configuration of electric and magnetic fields in the cell, which ensures uniform accumulation of wall charge on the electrodes, which increases the reliability of control. In addition, the implementation of this ratio also allows you to increase the brightness of the GUI due to the effective illumination of the gap between the working pairs of the display electrodes.

 The reliability of the GUI control is further enhanced if, in the presence of an even number of pairs in each display element, the adjacent electrodes of each two alternately arranged pairs of indication electrodes are combined with each other, and with an odd number of pairs of indication electrodes in the display element, the adjacent electrodes of every two alternately arranged pairs of indication electrodes and the last electrode of the last odd pair combined with each other. The combination of the indication electrodes in the GUI allows to reduce the variation in capacitive parameters of the pairs of indication electrodes, which leads to uniform accumulation of wall charge in the cell and increase the reliability of control. In addition, combining the electrodes reduces the number of electrode leads.

 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, allow 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, the closest in the totality of the features of the analogue, allowed to identify a set of essential in relation to the applicant the result of the distinguishing features in the claimed subject matter set forth in the claims.

Therefore, the claimed invention meets the requirement of "novelty." To verify the conformity of the claimed invention to the requirement 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 claimed invention, the results of which show that the claimed invention does not explicitly follow from the prior art, as it has not been identified technical solutions in which the improvement of control reliability is achieved due to the fact that in the display element, consisting of at least of two pairs of indication electrodes, the distance between the adjacent edges of the indication electrodes of adjacent pairs of C ₁ is 0.3 to 1.7 times the distance between the adjacent edges of the indication electrodes in pair C ₂ .

 Also, GUI technical solutions were not identified in which, in the presence of an even number of pairs of display electrodes in each display element by combining the adjacent electrodes of each two alternately arranged pairs of display electrodes, and in the presence of an odd number of pairs in each element by combining the neighboring electrodes of each two alternately located pairs of electrodes and the last electrode of the last odd pair, the variation in capacitive parameters of the pairs of indication electrodes would be reduced.

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

 The proposed design of the ISU is illustrated by drawings.

 In FIG. 1 presents a design option of the proposed ISU.

 In FIG. 2 shows a first dielectric plate with an even number of pairs of indication electrodes in a display element with a possible embodiment of combining indication electrodes.

 In FIG. 3 shows a first dielectric plate with an odd number of pairs of indication electrodes in a display element with a possible combination of indication electrodes.

 The ISU of FIG. 1 contains a first dielectric plate 1 with pairs of indication electrodes 2 coated with a dielectric 3, a second dielectric plate 4 with control electrodes coated with a phosphor 6 and forming a display element 7 with each two pairs of indication electrodes, dielectric barriers 8 between the control electrodes and connecting buses 9, combining nearby electrodes of two pairs in a display element.

The distance between the adjacent edges of the display electrodes of adjacent pairs C ₁ , the distance between the adjacent edges of the display electrodes in pair C ₂ .

 In FIG. 1 shows a variant of combining the indication electrodes 2 with connecting buses 9 located on the end face of the dielectric plate 1 with an even number of two pairs of indication electrodes in the display element.

 In FIG. 2, the display element includes, like the display element in FIG. 1, two pairs of indication electrodes, the combination of which is carried out by connecting buses located on the plate itself, for example, at the locations of the barrier.

 In FIG. 3, a display element is formed of their odd number of (three) pairs of indication electrodes with connecting buses located at the end of the plate.

 The GUI works as follows. A reference voltage is applied to all display electrodes that does not change the state of the indicator cells. For selective ignition of the indicator cells, it is necessary to apply a part of the write voltage to the selected control electrodes, and another part to the selected indication electrodes. At the intersection points of the selected display electrodes, a discharge lights up, which is then picked up by subsequent pulses of the reference voltage of the display. To change the information to the control and indicator electrodes, it is necessary to apply blanking pulses and repeat the cycle of “recording” of the selected indicator cells.

 In the proposed ISU, the fulfillment of the above relation allows creating the optimal configuration of electric and magnetic fields in the cell, which leads to uniform accumulation of wall charge throughout the cell and, thus, providing high control reliability. In addition, the location of the pairs of electrodes in the display element in accordance with the proposed ratio allows for efficient illumination of the idle gap between the pairs of electrodes, which increases the brightness of the GUI.

 The combination of the indication electrodes in the GUI allows you to stabilize the capacitance between the pairs of indication electrodes, which leads to uniform accumulation of wall charge in the cell and increases the reliability of control.

If C ₁ > 1.7 C ₂ , then there is uneven illumination of the indicator cell, which reduces the brightness of the GUI. In addition, an increase in the distance C ₁ > 1.7 C ₂ leads to an increase in the spread of the ignition voltage across the display element, which reduces the reliability of the ISU.

In the case of C ₁ <0.3 C ₂ , the reliability of control decreases due to the possibility of a discharge in the idle gap between the pairs.

 An example of a specific implementation.

The ACI of planar design consists of two dielectric plates. Indication electrodes with a width of 0.11 ± 0.01 mm were formed on the upper dielectric plate by screen printing. The cell contains 2 pairs of bipolar indication electrodes. The distance between the adjacent edges of the electrodes in a pair of C ₂ is 0.39 mm, the distance between the adjacent edges of the electrodes between the pairs of C ₁ is 0.29 mm. C ₁ = 0.74 C ₂ , i.e. the relation holds
C ₁ = (0.3 - 1.7) C ₂ .

 In addition, the internal and external electrodes of the pairs are combined with each other. Total cells 64 pcs.

 A layer of a dielectric coating with a thickness of 35-50 μm of low-melting glass and dividing barriers of low-melting glass and alunda are applied and sintered onto the indication electrodes by screen printing. Then a layer of a stabilizing coating of magnesium oxide is sprayed onto the plate.

 192 control electrodes with a width of d = 0.41 ± 0.01 mm from Ag were formed on the lower dielectric plate by screen printing. Then, a phosphor coating of green, red, and blue glow is formed on the control electrode plate, which is burned out at high temperature. During assembly, the upper dielectric plate is superimposed on the lower and a layer of sealant is applied along the contour.

The soldering of the device is carried out at t = 400-450 ^o C. After pumping and filling with a mixture of Ne + 5% Xe to a pressure of 300 mm RT. Art., after pumping and filling with an inert mixture, training and measurement of electrical parameters are carried out. ISU executed thus has a reference voltage indicating 170 - 190 V, the dynamic range of memory 25 - 30, an overall brightness of 350 - 400 cd / m ^2, control voltage 90 - 100 V, whereby the information is securely erased and recorded throughout the dynamic memory range.

 Thus, the present invention allows to create a GUI with high brightness and reliable control, which allows the use of low-voltage power sources in control circuits and reduce its cost.

Claims (3)

1. A gas discharge indicator panel of alternating current, comprising a first dielectric plate with pairs of bipolar indication electrodes located on its inner surface and coated with a dielectric, a second dielectric plate on whose inner surface are control electrodes orthogonal to the indication electrodes and display elements forming them, in each of which are placed a pair of indication electrodes, dielectric barriers located at least on one of the dielectric plates characterized in that at least one pair of indication electrodes is additionally introduced into the display elements, while in the display elements the distances between the adjacent edges of the indication electrodes of adjacent pairs C ₁ are (0.3 - 1.7) the distances between the adjacent edges of the indication electrodes in pair C ₂ .  2. The panel according to claim 1, characterized in that if there is an even number of pairs of display electrodes in the display element, the nearby electrodes of each two alternately arranged pairs of display electrodes are combined with each other.  3. The panel according to claim 1, characterized in that if there is an odd number of pairs of display electrodes in the display element, the adjacent electrodes of each two alternately arranged pairs of display electrodes and the last electrode of the last odd pair are combined with each other.

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