KR100257483B1 - Plasma display panel and its driving method - Google Patents

Abstract

PURPOSE: A plasma display panel(PDP) and a method for driving the display panel are provided to easily represent a gray scale and also obtain high brightness as dividing an address line into the upper part and the lower and scanning independently. CONSTITUTION: The PDP includes a PDP panel(10), X- and Y-drivers(20,30), an address driver(40) and a control block(50). The PDP panel is divided into the upper display screen and the lower display screen. A plurality of the first and second Y-scan electrodes(12a,12b) are ,in an insulated state, formed on each of the upper and lower display screens, a plurality of first and second address electrodes(13a,13b) are so as to cross the first and second Y-scan electrodes respectively, a plurality of X-sustain electrodes(11) are alternatively arranged in parallel to the plurality of first and second Y-scan electrodes, and a discharging cell(14) is one by one arranged at each of points of intersection that the plurality of first and second Y-scan electrodes and the plurality of address electrodes are intersected. The Y-driver consists of first and second Y-scan electrodes(31,32). The first Y-scan electrode applies a predetermined voltage to the first Y-scan electrode for driving the plurality of first Y-scan electrodes formed on the upper display screen. The second Y-scan electrode applies a predetermined voltage to the second Y-scan electrode for driving the plurality of second Y-scan electrodes formed on the lower display screen. The address driver consists of first and second address drivers(41,42). The first address driver applies a predetermined voltage for driving the plurality of second address electrodes formed on the upper display screen. The second address driver applies a predetermined voltage for driving the plurality of second address electrodes formed on the lower display screen.

Description

Plasma Display Panel (PDP) and Driving Method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel (PDP), and more particularly, to a PDP in which address lines are divided up and down and independently scanned, and a driving method thereof.

Referring to the block diagram of the conventional PDP of FIG. 1, the conventional PDP includes a PDP panel 1, an X-driver 2, a scan driver 3, a data driver 4, and a control rack 5. It is.

The X-driver 2 and the Y-driver 3 are controlled by a control signal applied from the control block 5 to apply a predetermined electrode to the X-electrode 1a and the Y-electrode 1b, and The driver 4 is controlled by a control signal applied from the control block 5 or the like to sequentially select the plurality of address electrodes 1c and apply a predetermined voltage, thereby driving the discharge cells 1d to drive the PDP panel 10. Will drive.

Looking at the driving method of the conventional PDP as described above, 2 ⁶ gray levels are displayed using one frame divided into six subfields, for example, as shown in FIG. 4A.

Each subfield is divided into an address period for address discharge and a discharge period for display. The address period does not contribute to luminance at all and light is emitted only in the discharge period.

Therefore, in the conventional PDP driving method, about 70% of the subfields are address periods, about 30 are discharge periods, and the time period occupied by the address period in one frame is 60% or more. There was a problem.

The present invention is to solve the problems of the prior art as described above, to provide a PDP and a driving method thereof, which can obtain high brightness as well as easy to obtain gradation by dividing the address line up and down and scanning independently. Its purpose is to.

1 is a block diagram illustrating a conventional plasma display panel;

2 is a block diagram of a plasma display panel according to an embodiment of the present invention;

3 is a detailed circuit diagram of a control block in the plasma display panel of FIG.

4A and 4B illustrate a gray scale implementation method of a plasma display panel according to the related art and the present invention.

(Explanation of symbols for the main parts of the drawing)

10: PDP panel 11: X-holding electrode

12a, 12b: first and second Y-scan electrodes 14: discharge cells

13a, 13b: first and second address electrodes 20: X-driver

30: Y-driver 31, 32: first and second Y-driver

40: address driver 50: control block

41, 42: first and second address driver

In order to achieve the above object of the present invention, the present invention provides a PDP having a PDP panel, an X-driver, a Y-driver, an address driver and a control block, wherein the PDP panel is divided into an upper display surface and a lower display surface. And a plurality of first and second Y-scan electrodes are insulated from each other on the upper and lower display surfaces, respectively, and the plurality of first and second address electrodes are respectively formed of the first and second Y-scan electrodes. Are insulated from each other so as to cross each other, and a plurality of X-hold electrodes are alternately arranged in parallel with the plurality of first and second Y-scan electrodes, and the plurality of first and second Y-scan electrodes and the plurality of One discharge cell is arranged at each intersection of the two address electrodes; The Y-driver includes a first Y-driver for applying a predetermined voltage to the first Y-scan electrode for driving a plurality of first Y-scan electrodes formed on the upper display surface, and a second address electrode formed on the lower display surface. A second Y-driver for applying a predetermined voltage to the second Y-scan electrode to drive a voltage; The address driver is configured to apply a first address driver for applying a predetermined voltage for driving the first address electrode formed on the upper display surface, and to apply a predetermined voltage for driving the second address electrode formed on the lower display surface. A PDP comprising a second address driver is provided.

In the PDP according to the embodiment of the present invention, the upper display surface and the lower display surface are separated by a separator, and the separator serves to prevent short and spark between the lower display surface and the upper display surface. In addition, the separator is characterized in that formed in the black stripe area so as to have a width that is difficult to identify with the human eye.

The present invention also relates to a PDP comprising a PDP panel divided into an upper display surface and a lower display surface, a control block including an X-driver, first and second Y-drivers, first and second address drivers, and frame memory. The frame data to be input is stored in the frame memory, and the data corresponding to the upper display surface among the frame data already stored in the frame memory is transmitted to the first address driver, and the data corresponding to the lower display surface is second. Transmitting to an address driver; During the address period, simultaneously driving the first Y-driver and the second Y-driver simultaneously to independently scan the first Y-scan electrode on the upper display surface and the second Y-scan electrode on the lower display surface to perform addressing; A method of driving a PDP device comprising the steps of driving the X-driver and the first and second Y-drivers during a sustaining period to perform a sustaining operation.

According to the PDP device of the present invention, by forming the address electrode so that the upper and lower parts are divided on one display surface and driving them independently at the same time, it is not only possible to obtain high brightness but also to increase the number of gradations when implementing the same brightness as the conventional method. It is easy to express gradation.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 illustrates a block configuration of a PDP according to an embodiment of the present invention. Referring to FIG. 2, the PDP includes a PDP panel 10, an X-driver 20, a Y-driver 30, an address driver 40, and a control rack 50.

The PDP panel 10 is divided into an upper display surface 10a and a lower display surface 10b separated by a separator 10c. The separator 10c serves to prevent shorts and sparks between the first address electrode 13a formed on the upper display surface 10a and the second address electrode 13b formed on the lower display surface 10b. It is formed in the black stripe area so as to have a width that is difficult to be recognized (recognized) by the human eye.

The Y-driver 20 is the first Y-driver 21 for driving the upper display surface 10a of the PDP panel 10 and the second Y- for driving the lower display surface 10b of the PDP panel 10. It consists of a driver 22.

The address driver 30 includes a first address driver 31 for applying a predetermined voltage for driving the first address electrode 13a formed on the upper display surface 10a of the PDP panel 10, and the PDP panel 10. The second address driver 32 is configured to apply a predetermined voltage for driving the second address electrode 13b formed on the lower display surface 10b.

On the upper display surface 10a and the lower display surface 10b of the PDP panel 10, a plurality of Y-electrodes, scan electrodes 12a and 12b, respectively, are formed to be insulated from each other. The formed Y-scan electrode 12a is connected to the first Y-driver 21, and the Y-scan electrode 12b formed on the lower display surface 10b is connected to the second driver 22.

The sustain electrodes 11 which are a plurality of X-electrodes are arranged alternately with the Y-scan electrodes 12a and 12b, and each of the X-hold electrodes 11 is a respective Y-scan electrode 12 Are arranged in parallel. At this time, one side of the X-hold electrode 11 is commonly connected to each other and connected to the X-driver 20.

In addition, a plurality of first address electrodes 13a are formed on the upper display surface 10a of the PDP panel 10 so as to cross the first Y-scan electrodes 12a, and are individually connected to the first address driver 41. Each discharge cell 14 is arranged at each intersection of the plurality of first Y-scan electrodes 12a and the plurality of first address electrodes 13a.

Similarly, a plurality of second address electrodes 13b are formed on the lower display surface 10b of the PDP panel 10 so as to cross the second Y-scan electrodes 12b, and each second address electrode 13b is individually formed. Is connected to the second address driver 42.

Looking at the operation of the PDP device of the present invention as described above, the timing generator 53 stores the input frame data in the frame memory 55 through the buffer 54, and already in the frame memory 55; Data corresponding to the upper display surface 10a of the stored frame data is transmitted to the first address driver 41, and data corresponding to the lower display surface 10b is transmitted to the second address driver 42.

After the data is transmitted, the timing generator 53 outputs a signal for controlling scanning to the Y-driver 30 during the address period to drive the first Y-driver 31 and the second Y-driver 32 simultaneously. By zooming, the first Y-scan electrode 12a of the upper display surface 10a and the second Y-scan electrode 12b of the lower display surface 10b are simultaneously scanned independently and addressed.

When the address period is completed, the X-driver 20 and the Y-driver 30 are output by outputting a control signal for controlling the sustain to the X-driver 20 and the Y-driver 30 during the sustain period. It performs the maintenance operation by driving.

As described above, the address electrode is formed by dividing the address electrode into the upper address electrode 12a and the lower address electrode 12b on one display surface, and the upper address electrode 12a and the lower address electrode 12b independently during the address period. By simultaneously performing the addressing operation by scanning, the number of gradations is increased when the same brightness as in the conventional method is realized as shown in Fig. 4B.

As described in detail above, according to the present invention, by forming the address electrode so that the upper and lower parts are divided on one display surface and simultaneously driven independently, a high brightness PDP device can be obtained and the same as the conventional method. When the brightness is implemented, the number of gray scales can be increased, thereby facilitating the expression of gray scales.

In addition, by arranging a driver for driving the upper address electrode and a driver for driving the lower address electrode as the address driver to independently drive the upper and lower address electrodes, driving the address electrode even with the small current driving capability of the driver It is possible to lower the cost of the driver.

In addition, this invention can be implemented in various changes within the range which does not deviate from the summary.

Claims (4)

In a PDP having a PDP panel, an X-driver, a Y-driver, an address driver and a control block, The PDP panel is divided into an upper display surface and a lower display surface, and a plurality of first and second Y-scan electrodes are insulated from each other on the upper and lower display surfaces, respectively, and the plurality of first and second address electrodes, respectively. The first Y-scan electrodes and the second Y-scan electrodes are formed to be insulated from each other, and a plurality of X-hold electrodes are alternately arranged in parallel with the plurality of first and second Y-scan electrodes. One discharge cell is arranged at each intersection of the plurality of first and second Y-scan electrodes and the plurality of address electrodes; The Y-driver includes a first Y-driver for applying a predetermined voltage to the first Y-scan electrode for driving a plurality of first Y-scan electrodes formed on the upper display surface, and a second address electrode formed on the lower display surface. A second Y-driver for applying a predetermined voltage to the second Y-scan electrode for driving the The address driver applies a first address driver for applying a predetermined voltage for driving the second address electrode formed on the upper display surface, and applies a predetermined voltage for driving a second address electrode formed on the lower display surface. A PDP comprising a second address driver. The PDP of claim 1, wherein the upper display surface and the lower display surface are separated by a separator. 3. The PDP according to claim 2, wherein the separator is formed in a black stripe region so as to have a width that is difficult to discern from the human eye. A PDP comprising a PDP panel divided into an upper display surface and a lower display surface, a control block having an X-driver, first and second Y-drivers, first and second address drivers, and frame memory, The input frame data is stored in the frame memory, and the data corresponding to the upper display surface of the frame data already stored in the frame memory is transmitted to the first address driver, and the data corresponding to the lower display surface is the second address driver. Sending to, During the address period, simultaneously driving the first Y-driver and the second Y-driver simultaneously to independently scan the first Y-scan electrode on the upper display surface and the second Y-scan electrode on the lower display surface to perform addressing; And driving the X-driver and the first and second Y-drivers during the holding period to perform the holding operation.

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