KR20060014797A - Plasma display device and method for preventing afterimage thereof - Google Patents

Abstract

The present invention relates to a plasma display device and a method of preventing an afterimage thereof, and when the input image signal is a still image and the still image lasts for a predetermined time or more, the luminance of the portion of the still image whose luminance is greater than or equal to the reference value is lowered, The brightness is controlled to be high. In particular, the number of sustained data is reduced in correspondence with the duration of the still image, and the number of sustained data is increased in the case of turned off data. By doing this, an afterimage can be prevented.

PDP, Still Image, Afterimage, Gamma Correction

Description

Plasma display device and afterimage prevention method {PLASMA DISPLAY DEVICE AND METHOD FOR PREVENTING AFTERIMAGE THEREOF}

1 is a configuration diagram of a plasma display device according to an exemplary embodiment of the present invention.

FIG. 2 is a detailed view of the controller of FIG. 1.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel (PDP), and more particularly, to a plasma display device and a method for preventing afterimages thereof.

Plasma display panels, which are currently commercialized, generate a discharge in each pixel, and excite a fluorescent material coated on the inner wall of the pixel with ultraviolet rays generated by the discharge to realize a desired color.

If necessary, the plasma display panel displays an image that has been stopped for a predetermined time. In this case, there is a problem that an afterimage occurs due to a difference in display material or for other reasons.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a plasma display device and an afterimage preventing method thereof, which prevent afterimages generated when a still image lasts for a predetermined time or more.

A plasma display device according to an aspect of the present invention for solving this problem,

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

A controller configured to determine whether the still image lasts for a predetermined time or more by receiving an image signal, and when the still image is input for a predetermined time or more, a portion of the still image having a predetermined luminance or more to lower the luminance;

And a scan electrode driver configured to apply a voltage corresponding to the control signal to the scan electrode.

In order to solve the above problems, a method of preventing an afterimage of a plasma display panel according to an aspect of the present invention is

Determining whether the input video signal is a still image;

In the case of a still image, determining whether the still image lasts for a predetermined time or more;

If the still image lasts for a predetermined time or more in the second step, a third step of lowering the luminance of a portion of the still image in which the luminance is equal to or greater than a reference value.

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. When a part is connected to another part, this includes not only a direct connection but also a connection between other components in between.

A plasma display device and an afterimage prevention method thereof according to an exemplary embodiment of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a plasma display device according to an exemplary embodiment of the present invention.

Referring to FIG. 1, a plasma display device according to an exemplary embodiment of the present invention includes a plasma display panel 100, a controller 200, an address electrode driver 300, and a scan electrode driver (hereinafter referred to as a “Y electrode driver”). 400, a sustain electrode driver (hereinafter referred to as an 'X electrode driver') 500 is included.

The plasma display panel 100 includes a plurality of address electrodes A1-Am arranged in a column direction, a plurality of sustain electrodes (hereinafter referred to as 'X electrodes') (X1-Xn) and scans arranged in a row direction. Electrodes (hereinafter referred to as 'Y electrodes') Y1-Yn. The X electrodes X1-Xn are formed corresponding to the respective Y electrodes Y1-Yn, and generally have one end connected in common to each other. The plasma display panel 100 includes a glass substrate (not shown) in which the X and Y electrodes X1-Xn and Y1-Yn are arranged, and a glass substrate (not shown) in which the address electrodes A1-Am are arranged. Is done. The two glass substrates are disposed to face each other with the discharge space therebetween so that the Y electrodes Y1-Yn and the address electrodes A1-Am and the X electrodes X1-Xn and the address electrodes A1-Am are orthogonal to each other. At this time, the discharge space at the intersection of the address electrodes A1-Am and the X and Y electrodes X1-Xn and Y1-Yn forms a discharge cell.

The controller 200 outputs an address driving signal, an X electrode driving signal, and a Y electrode driving signal as image data, and the controller 200 determines whether the still image lasts for a predetermined time or more by receiving an image signal. When the input signal is input, the portion of the still image data above the predetermined luminance is lowered and the portion below the predetermined gray level is increased to output the X electrode driving signal and the Y electrode driving signal.

The address electrode driver 300 receives an address electrode driving signal from the controller 200 and applies a display data signal for selecting a discharge cell to be displayed to each address electrode A1-Am.

The X electrode driver 500 receives an X electrode driving signal from the controller 200 and applies a driving voltage to the X electrodes X1 to Xn.

The Y electrode driver 400 receives the Y electrode driving signal from the controller 200 and applies a driving voltage to the Y electrodes Y1-Yn.

2 is a detailed view of the control unit 200.

Referring to FIG. 2, the controller 200 generates a first memory 210, a second memory 250, a still image determiner 240, a timer 260, a gamma corrector 220, and subfield data generation. The unit 230 includes a load factor calculator 280 and a scan sustain driving signal generator 270.

The first memory 210 stores a previous frame video signal and a video signal currently input. The timer 260 checks the duration of the still image. The still image determiner 240 compares a previous frame stored in the second memory 250 with a current input image signal to determine whether the still image is a still image. If the still image determination unit 240 is a still image, the still image determination unit 240 determines a duration of the still image using the timer 260. If the still image lasts for several seconds or more, a control signal is output to adjust the number of sustain pulses. The second memory 250 stores the number of sustain pulses corresponding to the automatic power control level. The gamma correction unit 220 gamma corrects and outputs an image signal. The subfield data generator 230 receives the gamma corrected image data, generates the subfield data, and outputs the subfield data as an address electrode driving signal. The load factor calculator 280 calculates and outputs a load factor of the image data. The automatic power control unit 270 determines the automatic power control level according to the load ratio, and generates and outputs the sustain electrode driving signal and the scan electrode driving signal with the number of sustain pulses corresponding to the automatic power control level. At this time, the automatic power control unit 270 generates a scan electrode driving signal and a sustain electrode driving signal by reducing the number of sustained data by 10% and increasing the number of sustained data by 10% according to the subfield data. In addition, as time passes, the automatic power controller 270 reduces the number of sustained data by 20% and increases the number of sustained data by about 20% to generate the scan electrode driving signal and the sustain electrode driving signal.

The operation of the plasma display device according to the embodiment of the present invention having such a configuration will now be described in detail.

First, the still image determiner 240 of the controller 200 compares a previous frame stored in the second memory 250 with an image signal currently input to determine whether the still image is a still image. In this case, the still image is determined as if the previous frame and the current frame are not different and are the same. In addition, if necessary, comparison may be performed in pixel units or line units.

As a result of comparison, if the image is not a still image, that is, a moving image, the still image determination unit 240 does not output the control signal or outputs the control signal to generate the X electrode driving signal and the Y electrode driving signal with the original sustain pulse number.

Meanwhile, if the still image is still, the duration of the still image is checked using the timer 260, and it is determined whether the still image lasts for several seconds or more by repeating the above process. That is, in the case where the still image is input again, the timer 260 starts again at zero. At this time, the number of seconds as a reference value is determined by applying the duration of the still image that can cause afterimages through the experiment.

As a result of the determination, if the still image lasts more than the reference time, the still image determination unit 240 outputs a control signal to the automatic power control unit 270 to adjust the number of sustain pulses to prevent afterimages.

On the other hand, the gamma correction unit 220 gamma corrects the input image signal and outputs it, and the subfield data generator 230 receives the gamma corrected image data and generates the subfield data as an address electrode driving signal. do.

The load factor calculator 280 calculates and outputs a load factor of gamma-corrected image data. The automatic power control unit 270 determines the automatic power control level according to the load ratio, and generates and outputs the Y electrode driving signal and the X electrode driving signal with the number of sustain pulses corresponding to the automatic power control level. In this case, when the control signal is received from the still image determining unit 240, the automatic power control unit 270 receives the subfield data and turns on the sustained number by 10%, and turns off the data by 10%. By increasing the degree, the Y electrode driving signal and the X electrode driving signal are generated. In addition, when the still image lasts longer, the automatic power controller 270 increases the sustained data by 20% and the off data by 20% by driving the Y electrode driving signal and the X electrode. Generate a signal. Luminance control using the number of sustain pulses can be implemented in various ways. If necessary, only the data that is turned on or the data that is turned off can be used. Can be controlled by In addition, even if it is turned on as necessary, the number of sustained portions over a certain luminance decreases the number of sustain, and the portion below the predetermined luminance increases the number of sustain.

Thereafter, the address electrode driver 300 receives an address electrode driving signal and applies a display data signal for selecting a discharge cell to be displayed to each address electrode A1-Am. The X electrode driver 500 receives the X electrode driving signal to apply a driving voltage to the X electrodes X1 to Xn, and the Y electrode driving unit 400 receives the Y electrode driving signal to receive the Y electrode Y1 to Yn. Is applied to the driving voltage.

As a result, the plasma panel 100 displays image data without an afterimage.

According to an exemplary embodiment of the present invention, when the still image lasts for a predetermined time or more, the afterimage may be prevented by changing the luminance by adjusting the number of sustain cells on and off.

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.

According to the configuration of the present invention, when the still image lasts for a predetermined time or more, it is possible to provide a plasma display device and an afterimage preventing method thereof, by which the brightness is changed by controlling the number of sustained cells on and off. .

Claims (8)

A plasma display panel including a plurality of address electrodes, a plurality of scan electrodes, and a sustain electrode; A controller configured to determine whether the still image lasts for a predetermined time or more by receiving an image signal, and when the still image is input for a predetermined time or more, a portion of the still image having a predetermined luminance or more to lower the luminance; And a scan electrode driver for applying a voltage corresponding to the control signal to the scan electrode. The method of claim 1, And the controller controls a portion of the still image below a predetermined luminance to increase luminance. The method according to claim 1 or 2, And the control unit increases the number of sustains to increase the brightness and decreases the number of sustains to decrease the brightness. The method of claim 1, The control unit, A first memory for storing a previous frame video signal and a currently input video signal; A timer for checking a duration of a still image; It is determined whether the still image is compared by comparing the previous frame stored in the first memory with the currently input image signal. If the still image is still, the duration of the still image is checked using the timer. A still image determination unit outputting a control signal to adjust the number of pulses; A second memory for storing the number of sustain pulses corresponding to the automatic power control level; A gamma correction unit configured to gamma correct and output an image signal; A load factor calculator for calculating and outputting a load factor of the gamma corrected image data; The automatic power control level is determined according to the load ratio, and the number of sustain pulses corresponding to the automatic power control level is read from the second memory, and when a control signal is input from the still image determining unit, the turned on data indicates the sustain number. And an automatic power control unit for generating the scan electrode driving signal and the sustain electrode driving signal by increasing the number of sustain data. The method of claim 4, wherein The automatic power control unit, And the sustain number of the data which is turned on decreases as the duration of the still image increases, and the sustain number of the data which is turned off increases. Determining whether the input video signal is a still image; In the case of a still image, determining whether the still image lasts for a predetermined time or more; And if the still image lasts for a predetermined time or more in the second step, lowering the luminance of a portion of the still image whose luminance is greater than or equal to a reference value. The method of claim 6, And if the still image lasts for a predetermined time or more, a fourth step of increasing the luminance of a portion below the predetermined luminance of the still image. The method according to claim 6 or 7, The method according to claim 3, wherein the sustain number of the data which is turned on in response to the duration of the still image is decreased, and the sustain number of the turned off data is increased in the third step.

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