KR20020000932A - Circuit and method for wall charge measuring in AC type plasma display panel - Google Patents

Abstract

PURPOSE: A circuit and a method for measuring a wall charge of an alternating current type plasma display panel are provided to measure the amounts of wall charges in each electrode by measuring a voltage between both ends of a capacitor connected with each electrode. CONSTITUTION: The first holding electrodes for discharge are arranged on a front substrate. The first holding electrodes receive commonly a pulse voltage from an external electrode connected with a switching portion in order to perform a discharging operation. The second holding electrodes for discharge are arranged on the front substrate. The second holding electrodes receive commonly a pulse voltage from an external electrode connected with a switching portion in order to perform the discharging operation. A plurality of address electrodes are arranged on a rear substrate in order to write data. The address electrodes receive commonly a pulse voltage from an external electrode connected with a switching portion in order to perform the discharging operation. A capacitor terminal is connected with the first holding electrodes, the second holding electrodes, and the address electrodes by the switching portions.

Description

Circuit and method for wall charge measuring in AC type plasma display panel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wall charge measuring circuit and a method of an AC plasma display panel, and more particularly, to a wall charge measuring circuit and a method of an AC plasma display panel for accurately measuring wall charges in an AC plasma display panel. It is about.

In general, a plasma display panel (hereinafter referred to as a PDP) is a partition between two glass substrates, and puts a gas such as neon + argon and neon + xenon in a small space that is enclosed and is horizontal to the inner surface of the glass. When a voltage is applied to the electrodes of the anode and cathode arranged in the direction perpendicular to the direction, the internal gas is activated and the character and the image are displayed by using the light generated by returning to the stable original state over time. The color is orange, but it is possible to express color by irradiating phosphors emitting red, green, and blue with ultraviolet rays generated together.

As described above, the PDP is divided into a direct current type (DC), an alternating current type (AC), and a hybrid type in which the direct current type and the alternating current type are combined according to the electrode structure. The positive potential is always applied to the positive electrode for each of the positive and negative electrodes to be formed, and the negative potential is always applied to the negative electrode.

On the other hand, in the case of an AC-type PDP, wall charges are formed opposite to the polarities of the applied voltages, so that the externally applied potentials are applied at the same polarity as the wall potentials. You must do it. In other words, when the wall charge is first generated by discharging the pulse with a high voltage, and then a pulse of a voltage lower than the previous time with different polarity is applied, the wall charges accumulated before are overlapped, and the voltage to the discharge space becomes large. Discharge starts beyond the threshold of voltage. In other words, the cells in which the wall discharge is formed by performing the write discharge once are then applied by holding pulses alternately in reverse polarity, thereby maintaining the discharge.

As described above, in the conventional AC PDP, wall charges accumulated on the dielectric surface in the discharge space inside the cell are used to effectively control the discharge. The wall charge changes when the pulse applied to the cell causes the discharge. Initial wall charges, which are generated and remain on the dielectric surface and remain inside the cell before discharge, affect the panel with the next applied pulse. In addition, the amount of wall charges accumulated on the surface of the dielectric on the discharge electrode of the panel and its distribution vary depending on the type of gas and the PDP structure.

Therefore, in order to operate the panel effectively, the information on the wall charge must be clearly known, but the measurement method of the wall charge has not been presented yet.

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above-described problem, and the distribution of the wall charge amount in each electrode by separating a plurality of electrodes, and attaching an external capacitor to each of the separated electrodes to measure the voltage across the capacitor. And to provide a wall charge measuring circuit and method of the AC plasma display panel that can measure the quantitative value thereof.

1 is a view showing a wall charge measurement circuit of the AC plasma display panel according to the present invention.

2 is a diagram showing a wall voltage which changes according to an applied voltage and an optical output signal.

Figure 3 is a view for explaining the principle of measuring wall charge applied to the present invention.

4 is a flow chart for explaining a wall charge measurement method of the AC plasma display panel according to the present invention.

The wall charge measurement circuit of the AC plasma display panel according to the present invention for achieving the above object is divided into a plurality of electrodes on the front substrate for the purpose of sustain discharge, and commonly pulsed from one external electrode connected by a switching means. A first sustain electrode receiving a voltage to perform discharge; A second sustain electrode which is divided into a plurality of electrodes for the purpose of sustain discharge on the front substrate and which is discharged by receiving a pulse voltage in common from one external electrode connected by a switching means; An address electrode which is divided into a plurality of substrates for writing data on the rear substrate and which is discharged by receiving a pulse voltage in common from one external electrode connected by a switching means; It is provided on the outside, and provided with a capacitor stage connected in series by one-to-one correspondence with the plurality of first sustain electrode, the second sustain electrode and the address electrode by the respective switching means.

On the other hand, in the wall charge measuring method of the AC plasma display panel according to the present invention, a discharge voltage is applied by applying a pulse voltage from an external electrode connected to each of a plurality of first sustain electrodes, second sustain electrodes, and address electrodes formed by a switching means. Performing the process; Switching the switching means connected to the respective external electrodes to an external capacitor stage; And reading the voltage induced in the external capacitor stage to measure the wall charge and distribution accumulated on each electrode.

Here, the time point for switching the switching means to the external capacitor stage is characterized in that all the time points in the period during which the wall charge is generated immediately after the discharge.

Hereinafter, a wall charge measuring circuit and a method of an AC plasma display panel according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a wall charge measurement circuit of an AC plasma display panel according to the present invention.

In the AC PDP to which the present invention is applied, one cell is divided into a plurality of sustain electrodes X and Y for the purpose of sustain discharge on a glass substrate of the front substrate on the display side of the PDP. On the opposite rear substrate, a plurality of address electrodes Z are arranged so that data can be written.

A dielectric layer is printed and baked on each electrode, and a stripe-shaped partition wall is formed by printing and baking on the back substrate to maintain a discharge space and prevent optical crosstalk.

As described above, the sustain electrodes X1, X2,... , Xn is connected to one external electrode X by switch 1, and is discharged by receiving a pulse voltage in common from the connected X electrode.

And sustain electrodes Y1, Y2,... , Yn is connected to one external electrode Y by a switch 2, and a pulse voltage is commonly applied from the connected Y electrode to perform discharge.

The address electrodes Z1, Z2,... , Zn is connected to one external electrode Z by a switch 3, and a pulse voltage is commonly applied from the connected Z electrode to perform discharge.

On the other hand, the sustain electrodes X1, X2,... , Xn and Y1, Y2,... , Yn and address electrodes Z1, Z2,... And a capacitor stage connected in series with one-to-one correspondence to Zn, respectively, wherein the capacitor stage provided outside is provided by the sustain electrodes X1, X2,... , Xn and Y1, Y2,... , Yn and address electrodes Z1, Z2,... And Zn are connected in series with one-to-one correspondence.

Here, sustain electrodes X1, X2,... , Xn and Y1, Y2,... , Yn and address electrodes Z1, Z2,... The time point at which Zn is connected to the capacitor terminal provided at the outside corresponds to all time points in the period Ts during which wall charge is generated immediately after discharge.

As described above, the sustain electrodes X1, X2,... At any time during the period in which the wall charges are generated immediately after the discharge is performed. , Xn and Y1, Y2,... , Yn and address electrodes Z1, Z2,... When the capacitor stage is connected in series by switches 1, 2, and 3 to Zn, the voltage is induced at the capacitor stage by wall charge.

That is, as shown in Fig. 3, when wall charge Qw is accumulated on the dielectric surface, -Qw is induced to the electrode, and + Qw and -Qw are induced to both ends of the capacitor C connected to the outside.

Therefore, the above-mentioned amount of wall charge Qw can calculate the exact amount of wall charge Qw by connecting a capacitor (C) to the external terminal of the electrode and measuring the voltage at both ends thereof, which are measured at both ends of the external capacitor (C). If the voltage is Vc, the accurate wall charge Qw can be measured in relation to the wall charge Qw = C * Vc accumulated on the dielectric surface.

Hereinafter, a method of measuring wall charges of an AC plasma display panel according to the present invention will be described with reference to FIGS. 1 and 2.

4 is a flowchart illustrating a wall charge measurement method of an AC plasma display panel according to the present invention.

First, the switch 1 is connected to the external electrode X so that the sustain electrodes Xl, X2,... , X electrode is connected to Xn, and switch 2 is connected to external electrode Y to sustain electrodes Y1, Y2,. , Yn is connected to Yn, and switch 3 is connected to external electrode Z to address electrodes Z1, Z2,. , Z electrode is connected to Zn.

As described above, each of the sustain electrodes X1, X2,... , Xn and Y1, Y2,... , Yn and address electrodes Z1, Z2,... After the external electrodes X, Y, and Z are connected to Zn, discharge is performed by receiving a pulse voltage through each of the electrodes X, Y, and Z (S10).

As in the process S10, the pulse voltage was applied through each of the electrodes X, Y, and Z, and was connected to the external electrodes X, Y, and Z at any time during the period in which the wall charges were formed immediately after the discharge. Switch 1, 2, 3 to the external capacitor stage (S20).

As described above, the sustain electrodes Xl, X2,... , Xn and Y1, Y2,... , Yn and address electrodes Z1, Z2,... When Zn is connected one-to-one to each of the external capacitor stages, voltage is induced in the external capacitor by wall charge, and then the external capacitors Vcx1, Vcx2,... , Vcxn, Vcy1, Vcy2,... , Vcyn, Vcz1, Vcz2,... , The wall charge Qw accumulated on each electrode is measured by reading the voltage values at both ends of Vczn (S30).

The charge amount measuring circuit and method of the AC plasma display panel of the present invention are not limited to the above-described embodiments, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

According to the charge amount measuring circuit and method of the AC plasma display panel according to the present invention as described above, each electrode is separated into a plurality, and an external capacitor is attached to each of the separated electrodes to measure the voltage across the capacitor. The distribution of wall charges on the electrode and its quantitative value can be measured.

Therefore, there is an effect that can accurately measure the distribution of the wall charge changes depending on the applied pulse, gas type, PDP structure.

Claims (3)

A first sustain electrode which is divided into a plurality of electrodes for the purpose of sustain discharge on the front substrate, and which discharges by receiving a pulse voltage in common from one external electrode connected by a switching means; A second sustain electrode which is divided into a plurality of electrodes for the purpose of sustain discharge on the front substrate and which is discharged by receiving a pulse voltage in common from one external electrode connected by a switching means; An address electrode which is divided into a plurality of substrates for writing data on the rear substrate and which is discharged by receiving a pulse voltage in common from one external electrode connected by a switching means; The wall charge measurement of the AC type plasma display panel provided in the outside and having a capacitor stage connected to the plurality of first sustain electrodes, the second sustain electrodes and the address electrodes in one-to-one correspondence in series by the respective switching means. Circuit. Performing discharge by receiving a pulse voltage from an external electrode connected to each of a plurality of first sustain electrodes, second sustain electrodes, and address electrodes formed by a plurality of switching means; Switching the switching means connected to the respective external electrodes to an external capacitor stage; And measuring wall charges and distributions accumulated on the electrodes by reading the voltage induced in the external capacitor terminal. The time point for switching the switching means to an external capacitor stage, A method for measuring wall charge of an AC plasma display panel, wherein all points are included in a period in which wall charge is generated immediately after discharge.