KR940001029A - Structure and Driving Method of Plasma Display Panel - Google Patents

Abstract

The present invention discloses a structure and driving method of a plasma display panel. The structure is characterized in that an anode is formed on the top glass, the paper holding electrode, the second holding electrode and the cathode are formed on the bottom glass of the bottom plate, and the first holding electrode, the second holding electrode, and the cathode are coated with a dielectric. do. The driving method includes a first step of initiating a discharge by applying a voltage difference equal to or greater than a discharge start voltage difference to the anode and the cathode, and generating a predetermined voltage difference between the cathode and the first sustain electrode to generate a voltage. The second step of increasing the voltage, the third step of maintaining the discharge by applying a voltage higher than the discharge sustain voltage between the first holding electrode and the second holding electrode, the short to the cathode to extinguish the discharge of the fourth step And a fourth step of applying an amplitude pulse. Thus, stable memory operation is possible.

Description

Structure and Driving Method of Plasma Display Panel

Since this is an open matter, no full text was included.

1 is for explaining the driving of the driving circuit of the plasma display panel according to the present invention,

2A and 2B show the structure of a plasma display panel according to an embodiment of the present invention.

3A and B show a structure of a plasma display panel of another embodiment according to the present invention.

4A shows the sustain pulse of the first embodiment applied to the sustain electrode of the plasma display panel according to the present invention.

4B shows the sustain pulse of the second embodiment applied to the sustain electrode of the plasma display panel according to the present invention.

4C shows the sustain pulse of the third embodiment of the plasma display panel according to the present invention.

4D shows pulses applied to the anode and cathode of the plasma display panel according to the present invention.

Claims (17)

A plasma display panel comprising an anode formed on an upper plate, a first holding electrode, a second holding electrode and a cathode formed on the lower plate, and a dielectric applied to the first holding electrode, the second holding electrode, and the cathode. The plasma display panel of claim 1, wherein the first holding electrode and the second holding electrode are alternately arranged in parallel on the same plane. The plasma display panel of claim 2, wherein the cathode is formed on the first holding electrode with a dielectric interposed therebetween. The plasma display panel of claim 1, wherein the cathode is formed directly on the first holding electrode with a dielectric interposed therebetween, and the second holding electrode is alternately arranged in parallel with the cathode. The plasma display panel of claim 1, wherein the anode and the cathode are arranged in a matrix form. The plasma display panel as claimed in claim 1, wherein the first and second sustain electrodes are parallel to the cathode. The plasma display panel of claim 1, wherein the first and second sustain electrodes are parallel to the anode. The plasma display panel of claim 1, wherein the first holding electrode is arranged in a stripe shape in parallel with the cathode, and the second holding electrode is formed in a stripe shape in parallel with the anode. . The panel of claim 1, wherein the first sustaining electrode is formed in a front surface, and the seventh sustaining electrode is arranged in a stripe form parallel to the positive and negative. The plasma display panel of claim 1, wherein a shape of the first holding electrode is formed over the entire surface, and a shape of the second holding electrode is arranged in a stripe form parallel to the cathode. The plasma display panel of claim 1, wherein the first holding electrode is connected to one positive terminal. The plasma display panel of claim 1, wherein the first holding electrode is connected to one common terminal. A plasma display panel comprising an anode formed on an upper plate, a first holding electrode, a second holding electrode and a cathode formed on the lower plate in turn, and a dielectric applied to the first holding electrode, the second holding electrode, and the cathode. In the driving method, a pulse changing from 0 to V and V to 0 is applied to the first holding electrode and a pulse changing from 0 to V and 0 to V is applied to the second holding electrode. And applying a negative pulse to the cathode and applying a positive pulse to the cathode when the second holding electrode indicates 0, and writing a data frame by applying a negative pulse to the cathode after a predetermined period of time, thereby erasing the written data. Method of driving a plasma display device. A plasma display panel comprising an anode formed on an upper plate, a first holding station, a second supporting electrode and a cathode formed on the lower plate, and a dielectric applied to the first holding electrode, the second holding electrode, and the cathode. In the driving method, a pulse for converting from -1 / 2V, -1 / 2V to 0, 0 to 1 / 2V, and 1 / 2V to 0 is applied to the first holding station, When a pulse is applied to the electrode from 0 to 1 / 2V, from 1 / 2V to 0, from 0 to -1 / 2V, and from -1 / 2V to 0, and the first and second sustain electrodes display 0. And applying a negative pulse to the cathode and applying a positive pulse to the anode to write data, and when the first and second sustain electrodes indicate 0 after a predetermined time, the negative pulse is applied to the cathode. A method of driving a plasma display panel comprising erasing data. An anode formed on the upper plate, a first holding electrode, a second holding electrode and a cathode formed on the lower plate in turn, and the first holding electrode and the second holding electrode; And a dielectric applied to the cathode, the method of driving a plasma display panel, wherein 0 is applied to the first holding electrode, 0 to -V, -V to 0, and the second holding electrode. Apply a pulse that changes from 0 to V and from V to 0, and when the first and second sustain electrodes indicate 0, a negative pux is applied to the cathode and a positive pulse is applied to the anode to write data, and And a negative pulse is applied to the ohmic pole to erase the written data after the elapse of time. A plasma display panel comprising an anode formed on an upper plate, a first holding electrode, a second holding electrode, and a negative electrode formed on the lower plate, and a dielectric applied to the first holding electrode, the second holding electrode, and the bump cathode. In the driving method, a pulse which is 0V- in the first period, -V / 4 in the second period, V in the third period, and 0V in the fourth and fifth periods is applied to the first sustain electrode, A pulse of 0 V in periods 3, 4 and V in the fifth period is applied to the second holding electrode, and a positive pulse is applied to the cathode in the first and second periods for scanning, and if there is writing data, the first The method of driving a plasma display panel, wherein a negative pulse is applied to the anode and a voltage difference between the pulses applied to the cathode and the anode is equal to or greater than a discharge start voltage. A plasma display panel comprising an anode formed on an upper plate, a first holding electrode, a second oil electrode and a cathode formed on the lower plate in turn, and the first holding electrode, a second holding electrode, and a dielectric coated on alcohol. In the driving method, a first step of initiating a discharge by applying a voltage difference equal to or greater than a discharge start voltage difference to the positive electrode and the negative electrode, generating a predetermined voltage difference between the negative electrode and the first sustain electrode and A second step of increasing the generated voltage, a third step of maintaining a discharge by applying a voltage higher than a discharge sustaining voltage between the first holding electrode and the second holding electrode, and discharging the discharge of the fourth step Method for driving a plasma display panel, characterized in that the fourth step of applying a pulse of a short amplitude to the, ※ Note: The disclosure is based on the initial application.