SU486396A1 - Control method of plasma display panel - Google Patents

Description

The invention relates to the field of radio engineering and computing and can be applied in information display devices.

There is a known method of controlling cells of a plasma panel, in which a recording pulse is applied to two electrodes, at the crossroads of which there is a cell. This emulsion is applied at the moment when the alternating supporting voltage passes through zero, changing from negative values to positive ones.

The amplitude of the recording pulse is sufficient to excite a discharge in the gas. As a result of the discharge, the cells in the glass machines accumulate charges, which create an electric field opposite to the field of the supporting tool. The presence of the opposing sex leads to the discharge of the resulting discharge. Charges on the walls of the cell remain sufficiently long. Therefore, the field created by them is summed with the field of the supporting voltage in the next half-period, and a discharge occurs again, and this time in the absence of a recording pulse. Thus, the pulsed glow will continue until an erasing pulse is applied. The erasing pulse arrives at the same point in time as the recording, however, has a different polarity.

The need to produce different-polarized pulses to ignite and enrich the cells of the panel is a disadvantage of the known method and leads to a considerable complication of the eyeglasses of the addressing systems.

The purpose of the invention is to simplify the management process.

This is achieved by creating a voltage step with an amplitude equal to the quenching voltage on one half-wave of the supporting voltage in the erasure period, and triggering the ignition and discharge acceleration by pulses of one polarity on the other half-wave, and the discharge ignition is performed periods that do not contain stheniyenko, and the grafting is in the ieriods, containing 1, their steps.

When controlling the plasma system using this method, pulses of the same polarity and the same amplitude are used for recording and more often.

The invention is illustrated in the drawing, which shows a) a timing diagram of the control process of a plasma display device; b) indication light pulses.

The process of uravleni neli on the proposed method proceeds as follows.

At time f1, when a pulsing pulse is applied to the cell's electrodes, exceeding the amplitude of the ignition voltage, a discharge occurs, accompanied by the rapid formation of a large number of ions and electrons. The resulting electric charges move in the direction of the electrodes and accumulate on the glass wall of the cell in the form of an electric wall charge. Due to the presence of this charge, the voltage f / ci is formed on the walls of the cell (shown in Fig. 1 by a dotted line), which has opposite polarity with respect to the voltage of the igniting pulse. In this case, the gas gap will be affected by the sum of the ignition pulse voltage and the wall voltage f / st. This total voltage will decrease with increasing f / st and at the moment when it reaches the magnitude of the treating stress, the discharge ceases. The wall voltage f / cTi is maintained for a sufficiently long time and at the time / 2 is summed with the negative half-wave supporting voltage. Moreover, this time they have the same direction, and the total voltage will ensure ignition of the discharge. The discharge lasts until the algebraic sum of the voltage of the wall t / cT and the supporting voltage reaches the voltage of magnification. After the cell wall is fused, the voltage f / cT2 will remain.

Subsequently, under the action of the supporting voltage, the value t / cT2 is conserved, and the sign changes each half period. To strain the cell, it is necessary to reduce the wall voltage to zero. This is done by applying a pulse of momentum in the erase period. The erase period contains, in a negative half-wave, a voltage step with an amplitude equal to the damping voltage. Under the action of a cell wall pulse, the cell is recharged before the voltage f / cTi. At the time ta, the gas gap of the cell is affected by the sum of the wall voltage f / cTi and the voltage of the step equal to f / ram. The amount of this amount is sufficient to cause the discharge. The discharge will continue until this amount reaches the quench voltage. And since the step amplitude is equal to this value, at the time of discharge termination the stress on the walls will be equal to the bullet. In the future, in order to set the cell on fire again, it is necessary during the recording period to attach the igniting

pulse. Thus, the voltage step does not affect the state of the cell, which was prior to this in the recording period, and converts the voltage of the walls of the UCT to zero, i.e., it suppresses the cell,

if in the period of erasing the cell was attached and, the impulse is quenched.

Thus, the polarity and amplitude of the pulses and damping are the same. Their difference consists only in the fact that they are supplied at different periods of the supporting voltage.

The proposed method of controlling a plasma panel makes it possible to use the same terminal stages of the addressing systems for the ignition and hardening processes, which greatly simplifies the equipment.

Subject invention

The control method of the plasma display panel, which involves exposing the elementary cells of the panel to alternating support voltage and control pulses, causing ignition and discharge discharge, characterized in that, in order to simplify the control process, one half of a number of periods of voltage maintenance a voltage step is formed with an amplitude equal to the damping voltage, and the ignition and discharge cancellation are carried out by pulses of one polarity on another half-wave, and the ignition of the discharge carried out in periods that do not contain a step, and quenching - in periods containing a step.