RU2696209C1 - Control method of gas-discharge display panel of alternating current - Google Patents

Abstract

FIELD: gas-discharge equipment.

SUBSTANCE: invention relates to gas-discharge engineering and can be used in information display devices on gas-discharge display panels (GDP) of alternating current. Image frame is divided into odd and even half-frames. Delay initialisation pulses are sent to the interval of the semi-frames preparation for the first and second indication electrodes of the display elements, in the addressing interval – the selective write/erase pulses to the control electrodes and the scanning pulses on one of the selected line display elements electrodes, and in indication interval – pulses of discharge maintenance to first, second and third display elements indication electrodes. Display interval is divided by n≥2 alternating display subintervals, in one of which discharge maintenance pulses are supplied to the display elements first and second display electrodes, and in others – to the second and third indication electrodes, wherein the first and third indication electrodes are common for display elements located nearby a row, and phases of feeding pulses to maintain discharge in subintervals of indication are set so that to ensure discharge transfer from indicator gap between first and second indication electrodes into indicator gap between second and third indication electrodes and back.

EFFECT: technical result is higher brightness and reliability of control GDP.

3 cl, 1 dwg

Description

The invention relates to a gas discharge technique and can be used in means for displaying information on gas discharge indicator panels (GUIs) of alternating current with a surface discharge, in particular, in gas discharge video modules intended for displaying sign information.

A known method of controlling an ISU of alternating current, each display element of which contains a control electrode in one of the coordinates and two parallel indication electrodes in another coordinate, which consists in supplying pulses of discharge initialization, selective recording / erasing, scanning and maintaining the discharge on the electrodes of an ISU of alternating current in intervals preparing, addressing, and indicating an image frame [EP patent No. 0554172, H01J 17/49, 1993].

The disadvantage of this control method is that when it is used in a luminous state, there may be display elements separated from each other along the control electrode by only one inoperative gap between the indication electrodes, which reduces the reliability of the control of the ACI AC due to the cross influence of the luminous display elements, especially with a small spacing of the display elements. In addition, in this method it is difficult to provide a high image brightness.

A known method of controlling an ACI GUI, each display element of which contains a control electrode in one of the coordinates and two parallel indication electrodes in another coordinate, which consists in dividing the image frame into two half-frames, in one of which they provide preparation, addressing and indication modes in the display elements odd lines, in the other - in the display elements of even lines, while each of the display electrodes belongs to two adjacent display elements located along the electrode control that provides a reduction in the amount twice addressable display electrodes and, respectively, the driver lines [Article V. Kanasawa a. about. "High-Resolution Interlaced Addressing for Plasma Displays", 1999 SID].

The disadvantage of this control method is that when it is used in each half-frame, display elements can be in a luminous state, separated from each other along the control electrode by only one discharge gap between the indication electrodes that is not used in this half-frame, which reduces the reliability of ACI GUI control from - due to the cross influence of luminous display elements on each other.

The closest method of the same purpose to the claimed object according to the totality of features is a method for controlling an ACI GUI, each display element of which contains a control electrode in one of the coordinates and three parallel indication electrodes in a different coordinate, which consists in delivering discharge initialization pulses to the half-frame interval indication electrodes, in the addressing interval - selective write / erase pulses to the control electrode and scan pulses to one of the indication electrodes tion, and in the interval of indication - pulses of maintaining the discharge on the display electrodes, while the phases of the supply of pulses of maintaining the discharge are set in such a way as to ensure reverse movement of the discharge in the indicator gaps between each pair of indication electrodes of the display elements glowing in this frame [RF patent No. 2099800, G09G 3/28, 1995 - prototype].

The disadvantage of this control method is that when it is used, it is necessary to ensure the formation of scan pulses at the addressable display electrodes of the display elements of each line, which requires a large number of line drivers, and it is also difficult to ensure the maximum possible image brightness.

The objective of the invention is to provide a control method that improves the performance of display systems of sign information containing GUI AC with a surface discharge, by increasing its brightness and reducing the number of line drivers.

The specified technical result in the implementation of the invention is achieved by the fact that in the known method of controlling a gas-discharge indicator panel of alternating current containing three indication electrodes in the display elements, which consists in dividing the image frame into odd and even half frames, supplying, in the interval of preparation of half frames, discharge initiation pulses to the first and the second electrodes indicate the display elements, in the addressing interval of the selective write / erase pulses to the control electrodes and the pulse in the sweep on one of the electrodes of the indication of the display elements of the selected rows, and in the interval of indication - pulses of maintaining the discharge on the first, second and third electrodes of the indication of the display elements, the interval of indication is divided into n≥2 alternating sub-intervals of indication, in one of which the pulses of maintaining the discharge serve on the first and second electrodes of the indication of the display elements, and in others on the second and third electrodes of the indication, the first and third electrodes of the indication are common to the display elements p lines adjacent to each other, and the phases for supplying the pulses of maintaining the discharge in the indication sub-intervals are set so as to ensure transfer of the discharge from the indicator gap between the first and second indication electrodes to the indicator gap between the second and third indication electrodes and vice versa.

The presented procedure for supplying half-shots of pulses of initialization of a discharge, selective recording / erasing, scanning and maintaining a discharge in half-time intervals of preparation, addressing, and sub-intervals of the display provides high reliability of ACI AC control, since the display elements in the luminous state are separated from each other along the control electrode by three non-working simultaneously discharge gaps between the indication electrodes and, accordingly, do not create crosstalk, and at the same time allows ovysit image brightness, since each indicator gaps between adjacent display electrodes activated for image forming.

It is possible to further improve image quality, possibly by increasing its contrast by halving the background brightness, which is ensured by the supply of discharge initialization pulses in the image frame during the preparation interval of only the odd half frame and only the even half frame in the next image frame.

The supply of discharge initialization pulses in the intervals of preparing subframes of individual image frames with a set repetition rate of such frames also allows a decrease in background brightness.

An analysis of the prior art verified by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention, and the definition from the list identified analogues of the prototype as the closest in the totality of the features of the analogue revealed a set of essential in relation to the seen mu applicant the technical result of the distinguishing features in the claimed object set forth in the claims.

Therefore, the claimed invention meets the requirement of "novelty" under the current law.

To verify the conformity of the claimed invention to the requirements of the inventive step, the applicant conducted an additional search 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 follow explicitly from the prior art, as the prior art defined by the applicant, the effect of the transformations provided for by the essential features of the claimed invention is not revealed tion to achieve a technical result.

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

The claimed method for controlling the ISU of an alternating current is illustrated by the drawing shown in FIG. one.

Information confirming the possibility of carrying out the invention with obtaining the above technical result are as follows.

As shown in FIG. 1, two half-frames — odd and even — are formed in the image frame, each of which has preparation, addressing, and indication intervals. The display interval, in turn, is divided into sub-display intervals.

In the preparation interval, the odd half-frame provides the preparation of all the display elements of the odd lines by supplying pulses of the initialization of bits 1 and 2 to the first and second display electrodes of the display elements of the odd lines, which ensures the creation of electric charges on the dielectric coating of the first display electrodes. Then, in the addressing interval, the accumulated charge is selectively removed on the first display electrodes of the odd-line display elements due to the sequentially supplied scanning pulses 3 to these electrodes with the simultaneous supply of selective write / erase pulses 4 to the control electrodes of the display elements that should not be in the display interval in the state that is lit in this line. Then, in the first indication sub-interval, pulses for maintaining discharge 5 and 6 are supplied to the first and second display electrodes of the display elements of the odd lines, and then pulses for maintaining the discharge 7 and 8 to the second and third indication electrodes, and then these actions are performed for subsequent indication sub-intervals.

The phases for supplying the pulses for maintaining the discharge ensure the transfer of the discharge from the indicator gap between the first and second indication electrodes in the luminous display elements for the first indication sub-interval to the indicator gap between the second and third indication electrodes and so on. This provides an increase in the luminous area of the display element and an increase in the brightness of the image.

In the intervals of preparation, addressing, and indication of an even half-frame, the above operations are performed with discharge initialization pulses 9 and 10, scan pulses 11 and selective write / erase 12, as well as discharge maintaining pulses 13, 14, 15, and 16 for even-line display elements.

To control the ISU of alternating current with an information capacity of 240 × 120 display elements, each of which contains three parallel display electrodes and a control electrode perpendicular to it, with a step of display elements of 0.45 mm horizontally and vertically, in the example of a particular implementation, the pulses were used initialization of the discharge with an amplitude of up to 370 V and an amplitude of 185 V. The amplitude of the scanning pulses was 65-75 V, the pulses of selective recording / erasing were 50-70 V, and the amplitude of the maintaining pulses the discharge can be in the range from 175 V to 200 V. For the formation of a sign-image with a given information capacity, 60 outputs of line control drivers were required. It provides high reliability of control due to the wide range of variation of the discharge sustain pulse amplitude and comparatively small amplitudes of the scanning pulses and the selective write / erase and the image brightness achieved 800 cd / m ² at 640 discharge sustain voltage pulses in the half frame interval indication.

Thus, the proposed method for controlling the GUI of an alternating current provides high control reliability, increasing the brightness of the image and halving the number of line drivers.

Claims (3)

1. The method of controlling a gas-discharge indicator panel of alternating current containing three indication electrodes in the display elements, which consists in dividing the image frame into odd and even half frames, supplying, during the preparation of half frames, discharge initiation pulses to the first and second display element electrodes, in the addressing interval, selective write / erase pulses to the control electrodes and scan pulses to one of the display electrodes of the display elements of the selected rows, and in the interval e indications — pulses of maintaining the discharge to the first, second and third electrodes of indication of the display elements, characterized in that the indication interval is divided into n≥2 alternating sub-intervals of indication, in one of which the pulses of maintaining the discharge are fed to the first and second electrodes of indication of the display elements, and in others, to the second and third display electrodes, while the first and third display electrodes are common to the display elements of adjacent rows, and the phases of the supply of pulses of maintaining the discharge in the indication bins are set in such a way as to ensure transfer of the discharge from the indicator gap between the first and second indication electrodes to the indicator gap between the second and third indication electrodes and vice versa. 2. The method of controlling the gas-discharge alternating current indicator panel according to claim 1, characterized in that in the image frame, the discharge initialization pulses are provided in the preparation interval of only the odd half frame, and in the next image frame, only the even half frame. 3. The method of controlling the gas-discharge indicator panel of alternating current according to claim 1, characterized in that the discharge initialization pulses are fed in half-frame preparation intervals of individual image frames with a set repetition frequency of such frames.

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