KR20050120202A - Plasma display panel and driving method thereof - Google Patents

Abstract

The present invention relates to a plasma display device and a driving method thereof. In the method of driving the plasma display device of the present invention, the ASL value is calculated using only the main screen area of the PIP / POP processed screen, the ASL value is calculated by converting the sub-screen area into a constant gray value, or the video signal of the main screen. Since the ASL value is calculated using only, the main screen can be displayed stably regardless of the change of the ASL value of the subscreen.

Description

Plasma display device and driving method thereof {PLASMA DISPLAY PANEL AND DRIVING METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device and a driving method thereof, and more particularly, to a plasma display device and a driving method thereof that display a screen more stably on a PIP (Picture in picture) or POP (Picture out picture) screen.

Recently, flat display devices such as a liquid crystal display (LCD), a field emission display (FED), and a plasma display have been actively developed. Among these flat panel display devices, the plasma display device has advantages of higher luminance and luminous efficiency and a wider viewing angle than other flat panel display devices. Accordingly, the plasma display device is in the spotlight as a display device to replace a conventional cathode ray tube (CRT) in a large display device of 40 inches or more.

Plasma display devices are flat display devices that display characters or images using plasma generated by gas discharge, and dozens to millions or more of pixels are arranged in a matrix form according to their size. The plasma display device is classified into a direct current type and an alternating current type according to the shape of a driving voltage waveform to be applied and the structure of a discharge cell.

In the DC plasma display device, the electrode is exposed without the discharge space insulated, so that the current flows in the discharge space while the voltage is applied, and there is a disadvantage in that a resistance for limiting the current must be made. On the other hand, in the AC plasma display device, since the electrode covers the dielectric layer, the current is limited by the formation of a natural capacitance component, and the electrode is protected from the impact of ions during discharge.

When the plasma display device displays a screen, it is difficult to adjust the intensity of light in each pixel. Therefore, as shown in FIG. 1, one frame (1TV field) is divided into a plurality of subfields, and time division control is performed to implement gray scale. Each subfield consists of a reset period, an addressing period and a sustain period. 1 illustrates a case where one frame is divided into eight subfields to implement 256 gray levels. Each subfield SF1-SF8 consists of a reset period (not shown), an address period A1-A8, and a sustain period S1-S8, and the sustain periods S1-S8 are light emission periods 1T, 2T. , 4T, ..., 128T) becomes 1: 2: 4: 8: 16: 32: 64: 128.

At this time, for example, in order to implement a gray scale of 3, the discharge cell is discharged in the subfield SF1 having the 1T light emission period and the subfield SF2 having the 2T light emission period so that the sum of the discharge periods is 3T. In this manner, 256 grayscale images are displayed by combining subfields having different light emission periods. Here, although each subfield is divided according to the ratio of the sustain periods, and the gray level is expressed by combining them, in practice, the sustain period of each subfield has a different number of sustain discharge pulses (number of sustain pulses) and the number of sustain discharge pulses. The gradation is expressed by the combination of.

On the other hand, in order to control the power consumption of the plasma display device generally uses a method of automatic power control (“APC”). APC is a method of adjusting the total number of sustain discharge pulses of one frame according to the average image level ('ASL') of the input video signal, when the ASL value of the input video signal is high (that is, When the overall screen is bright and consumes a lot of power, the power consumption is reduced by reducing the total number of sustain discharge pulses in one frame, and when the ASL value of the input video signal is low (that is, the overall dark state) In this case, the total number of sustain discharge pulses in one frame is increased. Here, the level of the APC has several stages according to the ASL value of the input video signal, and the number of sustain discharge pulses corresponding to the various stages is predetermined. That is, when the APC level is high (that is, when the ASL value is high), the total number of sustain discharge pulses in one frame is relatively reduced, and accordingly, the number of sustain discharge pulses allocated to each subfield is relatively reduced.

On the other hand, most plasma display devices have a picture in picture (PIP) or picture out picture (POP) function. PIP / POP is a function that shows screens of several channels on one screen at the same time. PIP and sub screen are arranged inside the main screen, and sub screen is arranged outside the main screen.

At this time, since the ASL value is calculated in the entire PIP / POP screen, when the change in the ASL value in the main screen is small (for example, the announcer relays the news on the main screen and the baseball relay on the sub screen). In this case, the level of the APC may change according to the change in the ASL value of the sub picture. At this time, the main screen may appear brighter or darker, or worse, flicker depending on the change in the ASL value of the sub-screen.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the above-described problems of the related art, and to provide a plasma display device and a driving method thereof for stably displaying a main screen regardless of a change in the ASL value of a sub screen.

A driving method of a plasma display device according to a feature of the present invention for achieving the above object,

In the method of driving a plasma display device with a PIP / POP function,

a) processing a picture in picture (PIP) or picture out picture (POP) of the input main and sub picture signals;

b) calculating an average signal level (ASL) value from the image signal processed in step a) using the gray level value corresponding to the main picture area;

c) applying a sustain discharge pulse corresponding to the average signal level value calculated in step b).

According to another aspect of the present invention, there is provided a method of driving a plasma display device.

In the method of driving a plasma display device with a PIP / POP function,

a) processing a picture in picture (PIP) or picture out picture (POP) of the input main and sub picture signals;

b) calculating an average signal level (ASL) value using only grayscale values corresponding to the entire area of the input main picture image signal;

c) applying a sustain discharge pulse corresponding to the average signal level value calculated in step b.

Plasma display device according to another aspect of the present invention,

A plasma panel including a plurality of address electrodes and a plurality of scan and sustain electrodes;

PIP / POP processing by receiving the video signal of the main screen and sub-screen, generating the control signal applying the address voltage by receiving the video signal of the processed screen, and receiving the video signal of the processed screen A control unit for calculating an average signal level value using the gray level value of the region and generating a control signal for applying a sustain discharge voltage according to the average signal level value;

An address data driver for applying a voltage according to a control signal for applying the address voltage generated by the controller to the address electrode; And

And a scan / hold electrode driver for applying a voltage according to a control signal for applying the sustain discharge voltage generated by the controller to the scan / hold electrode.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

Now, a plasma display device and a driving method thereof according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 2 to 5.

2 is a schematic plan view of a plasma display device according to an exemplary embodiment of the present invention.

As shown in FIG. 2, the plasma display device according to the exemplary embodiment of the present invention includes a plasma panel 100, an address driver 200, a scan / hold driver 300, and a controller 400.

The plasma panel 100 includes a plurality of address electrodes A1-Am arranged in the column direction, and a plurality of scan electrodes Y1-Yn and sustain electrodes X1-Xn arranged in a zigzag pattern in the row direction. . The address driver 200 receives an address drive control signal from the controller 400 and applies a display data signal for selecting a discharge cell to be displayed to each address electrode A1-Am. The scan and sustain driver 300 receives a control signal from the controller 400 and alternately inputs a sustain discharge pulse voltage Vs to the scan electrodes Y1-Yn and the sustain electrodes X1-Xn to the discharge cells selected. Perform sustain discharge.

The controller 400 receives the R, G, B video signals and the synchronization signal of the main picture and the sub picture from the outside, performs PIP / POP processing by the user's selection, and divides the frame into several subfields. The plasma display device is driven by dividing the subfield into a reset period, an address period, and a sustain period (sustain period). The controller 400 adjusts the number of sustain discharge pulses in each sustain period of a subfield in one frame to supply necessary control signals to the address driver 200 and the scan / sustain driver 300. control) function is added.

3 is a schematic block diagram of a controller of a plasma display device according to a first embodiment of the present invention.

As shown in FIG. 3, the control unit 400 of the plasma display device according to the first embodiment of the present invention calculates a screen arrangement unit 410, an address driving control unit 420, and an average signal level (ASL). The unit 430 includes an APC (Auto Power Control) unit 440 and a scan and sustain drive control unit 450.

The screen arrangement unit 410 receives R, G, and B video signals and a synchronization signal of the main screen and the sub screen from the outside and performs PIP / POP processing by a user's selection. That is, a sub picture is arranged inside or outside the main picture to generate a PIP / POP processed video signal. The generated video signal is transmitted to the address driving controller and the ASL calculator, respectively.

The address driving controller 420 generates subfield data corresponding to the gray level of the output image signal, and then rearranges the subfield data into address data for driving the plasma display device. At this time, the address driving control unit 420 stores all subfields of one frame for each subfield and stores them in the frame memory (not shown) for each subfield, and stores address data for all pixels for each subfield. The memory is read from the memory and transmitted to the address driver 200.

The ASL calculator 430 calculates an ASL value using the image data output by the screen arrangement unit 410.

In Equation 1, R _{x, y} , G _{x, y} , B _{x, y} represent R, G, B grayscale values at x, y positions, respectively, and N and M represent horizontal and vertical sizes of the frame, respectively. .

here, Is the sum of R, G, and B gray scale values in the entire screen area. Is the sum of R, G, and B gray scale values in an arbitrary place area (area of rectangles c, d, e, and f) where the sub-screen is located. That is, the ASL value in Equation 1 is obtained by subtracting the R, G, B gray values of the sub-screen area from the R, G, B gray values on the entire screen, and then obtaining the average value.

The APC unit 440 receives the ASL value calculated by the ASL calculator, calculates the level of the APC according to the ASL value, and calculates the number of sustain pulses (number of sustain discharge pulses) corresponding to the calculated APC level. .

That is, the APC unit 440 determines the level of the APC in consideration of the brightness and power consumption in accordance with the ASL value, and the number of sustain pulses (number of sustain discharge pulses) for each frame of the input video signal corresponding to the determined level of the APC. Determine otherwise. When the ASL value calculated in Equation 1 is low, that is, when the level of the APC is low, the APC unit 440 increases the number of sustain pulses, and when the ASL value is high, the power consumption is high. Therefore, the number of sustain pulses (number of sustain discharge pulses) is reduced.

The scan and sustain drive control unit 450 generates a control signal corresponding to the number of sustain discharge pulses (the number of sustain pulses) output from the APC unit 440 and transmits it to the sustain and scan drive unit 300.

The controller 400 according to the first embodiment of the present invention receives a video signal of a main screen and a sub-screen, and performs PIP / POP processing, and receives a video signal of the processed screen and uses the gray scale value of the main screen area. To calculate an ASL value and generate a control signal for applying a sustain discharge pulse according to the ASL value.

The controller may set R, G, and B gray values of the sub-screen to a specific value such as 0, and calculate an ASL value. That is, stable main screen display is possible even if ASL value is calculated after processing R, G, B gradation value of the area where sub picture is displayed on PIP / POP processed video signal as the middle value between minimum value and maximum value, for example. Do.

Also, in the first embodiment of the present invention, the ASL value is calculated after subtracting the R, G, B gray scale values of the sub-screen area from the entire screen area, but by dividing the area of the main screen into several rectangles, The same result can be obtained by calculating the ASL value after adding the G and B gray values.

Second Embodiment

This embodiment shown in FIG. 4 is similar to the first embodiment, but can simplify the ASL calculation process.

As shown in FIG. 4, the control unit 400 of the plasma display device according to the present exemplary embodiment may include the screen arrangement unit 410, the address driving control unit 420, an average signal level (ASL), and an average signal as in the first exemplary embodiment. Level) calculating unit 430, APC (Auto Power Control) unit 440, and scanning and holding drive control unit 450.

The screen arrangement unit 410 receives the R, G, B video signals and the synchronization signal of the main screen and the sub screen from the outside, and transmits the video signal generated by PIP / POP processing by the user's selection to the address driving controller. .

The address driving controller 420 reads address data of all pixels from the frame memory and transmits the address data to the address driver 200 as in the first embodiment.

The ASL calculator 430 calculates an ASL value using the image data of the main screen.

In Equation 2, R _{x, y} , G _{x, y} , B _{x, y} represent R, G, B grayscale values at x, y positions, respectively, and N and M represent horizontal and vertical sizes of the frame, respectively. . The ASL value in Equation 2 is obtained by adding the R, G, and B gray values of each pixel of the main screen, and then obtaining the average value.

The APC unit 440 receives the ASL value calculated by the ASL calculator as in the first embodiment, calculates the APC level according to the ASL value, and the number of sustain pulses corresponding to the calculated APC level (maintenance discharge pulse). Number).

The scan and sustain drive control section 450 also generates a control signal corresponding to the number of sustain discharge pulses (the number of sustain pulses) output from the APC section 440 and transmits it to the sustain and scan drive section 300 as in the first embodiment. do.

Therefore, the controller according to the second embodiment of the present invention calculates the ASL value of only the main screen and performs automatic power control, so that the main screen can be stably displayed regardless of the change of the ASL value of the subscreen.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

As described above, the plasma display device and the driving method thereof according to the present invention calculate the ASL value using the main screen area in the PIP / POP processed screen, so that the main screen is stably regardless of the change in the ASL value of the subscreen. Can be displayed.

1 is a diagram illustrating a gray scale display method of a plasma display device.

2 is a schematic plan view of a plasma display device according to an exemplary embodiment of the present invention.

3 is a schematic block diagram of a controller of a plasma display device according to a first embodiment of the present invention.

4 is a schematic block diagram of a controller of a plasma display device according to a second embodiment of the present invention.

Claims (8)

In the method of driving a plasma display device with a PIP / POP function, a) processing a picture in picture (PIP) or picture out picture (POP) of the input main and sub picture signals; b) calculating an average signal level (ASL) value from the image signal processed in step a) using the gray level value corresponding to the main picture area; c) applying a sustain discharge pulse corresponding to the average signal level value calculated in step b). The method of claim 1, The method of calculating the average signal level value of step b), And calculating an average value after subtracting the gray scale value of the sub-screen region from the gray scale value corresponding to the entire screen region from the image signal processed in the step a). The method of claim 1, The method of calculating the average signal level value of step b), And dividing the main screen region into a plurality of rectangular regions in the image signal processed in step a), adding all the gray scale values of the rectangular region, and then calculating the average value. The method of claim 1, The method of calculating the average signal level value of step b), And converting the gray level value of the sub-screen area into a constant value in the image signal processed in step a) and calculating the average value using the gray value of the full screen area. The method of claim 4, wherein And wherein the constant value is an intermediate value between the maximum value and the minimum value of the gray scale value. In the method of driving a plasma display device with a PIP / POP function, a) processing a picture in picture (PIP) or picture out picture (POP) of the input main and sub picture signals; b) calculating an average signal level (ASL) value using only grayscale values corresponding to the entire area of the input main picture image signal; c) applying a sustain discharge pulse corresponding to the average signal level value calculated in step b. A plasma panel including a plurality of address electrodes and a plurality of scan and sustain electrodes; PIP / POP processing by receiving the video signal of the main screen and sub-screen, generating the control signal applying the address voltage by receiving the video signal of the processed screen, and receiving the video signal of the processed screen A control unit for calculating an average signal level value using the gray level value of the region and generating a control signal for applying a sustain discharge voltage according to the average signal level value; An address data driver for applying a voltage according to a control signal for applying the address voltage generated by the controller to the address electrode; And And a scan / hold electrode driver for applying a voltage according to a control signal for applying the sustain discharge voltage generated by the controller to the scan / hold electrode. The method of claim 7, wherein The control unit, A screen arrangement unit for receiving a video signal of a main screen and a sub-screen and performing PIP / POP processing; An address controller which receives a video signal of a PIP / POP processed screen from the screen arrangement unit and generates a control signal for controlling the address driver; An ASL calculator configured to calculate an average signal level value from the processed video signal by using a gray value corresponding to a main screen region; An APC unit for calculating an auto power control (APC) level according to the average signal level value calculated by the ASL calculator; And a scan / maintenance drive control section for generating a control signal for applying a sustain discharge voltage in accordance with an auto power control (APC) level generated by the APC section.