KR100513020B1 - Method and apparatus for controlling contrast of plasma display panel - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling a contrast of a plasma display panel, and more particularly, to an apparatus and method for contrast control of a plasma display panel capable of improving contrast by converting an average luminance of a screen into a luminance value having the highest number of discharge times. will be.

The contrast control apparatus of the plasma display panel according to the present invention performs A / D conversion on the external image signal to change the resolution of the module, performs other image quality processing, and averages the average luminance of the input image with the highest number of discharges. And a control unit for correcting and transmitting a signal, a control unit for calculating the average brightness from the image signal transmitted from the signal processing unit, determining the number of discharges of the module, performing error diffusion and gamma correction, and generating a driving waveform, and controlling the control unit. And a driving unit for controlling discharge to generate a signal, a module unit controlled by the driving unit to generate a desired image by generating a discharge, and a power supply unit for supplying power.

Description

Contrast control device and method of plasma display panel {METHOD AND APPARATUS FOR CONTROLLING CONTRAST OF PLASMA DISPLAY PANEL}

The present invention relates to an apparatus and method for controlling a contrast of a plasma display panel, and more particularly, to an apparatus and method for contrast control of a plasma display panel capable of improving contrast by converting an average luminance of a screen into a luminance value having the highest number of discharge times. will be.

Recently, the plasma display panel has been in the spotlight as a next-generation display device having a picture quality comparable to that of a CRT and an advantage as a thin film display of LCD as a flat panel display device.

In general, a plasma display panel (PDP) displays an image by an address display separator in which data writing periods and display periods are divided in time. First, a scan sustain electrode and an address in an arbitrary discharge cell are displayed. When a voltage of 150V to 300V is supplied between the electrodes, a writing discharge occurs inside the cell located between the scan holding electrode and the address electrode, so that wall charges are formed on the inner surface of the corresponding discharge space and remain as wall charges on the dielectric layer. do.

In the cells selected by the address discharge, the sustain discharge is caused by an AC signal supplied to the common sustain electrode and the scan sustain electrode, and an electric field is generated in the cell by the discharge, thereby accelerating trace electrons in the discharge gas.

Neutral particles in the accelerated electrons and gas collide with each other and are ionized to electrons and ions.Neutral particles are gradually ionized to electrons and ions due to another collision between the ionized electrons and the neutral particles, and the discharge gas is in a plasma state. At the same time, vacuum ultraviolet rays are generated.

The generated ultraviolet rays excite the R, G, and B fluorescent layers to generate visible light, and the visible light is emitted to the outside through the front substrate to recognize light emitted from an arbitrary cell, that is, the displayed image. Will be.

In such a plasma display panel, one frame is composed of a plurality of subfields, and gradation is realized by a combination of subfields.

For example, when 256 gray levels are to be realized, one frame period is time-divided into eight subfields, and each of the eight subfields is divided into a reset period, an address period, and a sustain period.

The full screen is initialized in the reset period, cells in which data is to be displayed are selected by the writing discharge in the address period, and discharge of the selected cells is maintained in the sustain period.

Here, the reset period and the address period of each subfield are the same for each subfield, while the sustain period increases at a rate of 2 ⁿ (n = 0,1,2,3,4,5,6,7) in each subfield. do.

In this way, since the sustain period is different in each subfield, the luminance and chromaticity of the display image are determined according to the combination of the subfields.

In the conventional plasma display panel as described above, the average brightness of the screen is calculated to determine the number of discharges of the module. When the number of discharges is small, the maximum brightness decreases and the contrast ratio drops.

In other words, even if the contrast and brightness are adjusted to the highest value in a specific screen to improve the contrast characteristics, the average brightness of the plasma display panel changes as the input image changes, and the number of discharges varies according to the average brightness. Cannot maintain the contrast ratio set.

In other words, even if the plasma display panel is adjusted so as to maximize the contrast on a specific screen, if the average luminance value of the screen is changed in the moving image, there is a problem in that the setting for maximizing the contrast is changed due to the characteristics of the plasma display panel.

An object of the present invention is to provide a contrast control apparatus and method for a plasma display panel which can improve contrast by automatically converting an average luminance of a screen into a luminance value having the highest number of discharge times. It is done.

The contrast control apparatus of the plasma display panel according to the present invention performs A / D conversion on the external image signal to change the resolution of the module, performs other image quality processing, and averages the average luminance of the input image with the highest number of discharges. And a control unit for correcting and transmitting a signal, a control unit for calculating the average brightness from the image signal transmitted from the signal processing unit, determining the number of discharges of the module, performing error diffusion and gamma correction, and generating a driving waveform, and controlling the control unit. And a driving unit for controlling discharge to generate a signal, a module unit controlled by the driving unit to generate a desired image by generating a discharge, and a power supply unit for supplying power.

The contrast control method of the plasma display panel according to the present invention includes the steps of reading the average luminance and the limit range of the most discharge times, calculating the average luminance, the maximum luminance and the minimum luminance of the input image, and Determining whether the average luminance is substantially in the range of average luminance with the highest number of discharges; and adjusting the average luminance when the average luminance of the input image is substantially in the range of average luminance with the highest number of discharges. When the average brightness of the input image is not in the range of the average luminance having the highest number of discharges, the brightness adjustment value and the contrast adjustment value are calculated to calculate the average of the image input as the brightness adjustment value and the contrast adjustment value. To adjust the luminance substantially to the range of average luminance with the highest number of discharges Characterized in that the step is included.

In addition, the average luminance having the highest number of discharges may be a value stored in advance or a value measured by a module.

In addition, the brightness adjustment value (B) is characterized in that determined by B = 128- (Max + Min) / 2, where Max is the maximum brightness of the input image, Min is the minimum brightness of the input image.

In addition, the contrast adjustment value (C) is characterized by C = T / (μ + B) (wherein T is the average brightness of the highest number of discharges of the module, μ is the average brightness of the input image) , B is brightness adjustment value)

Hereinafter, an apparatus and method for controlling contrast of a plasma display panel according to the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates a contrast control apparatus of a plasma display panel according to the present invention.

Referring to FIG. 1, the contrast control apparatus of the plasma display panel according to the present invention A / D converts an external image signal to change the resolution according to a resolution of a module, performs other image quality processing, and substantially discharges an average luminance of an input image. The signal processing unit 10 corrects and transmits the average luminance with the highest number of times, and calculates the average luminance from the image signal transmitted from the signal processing unit 10 to determine the number of discharges of the module, and performs error diffusion and gamma correction. The controller 20 generates a driving waveform, the driver 30 controls to generate a discharge according to the control signal of the controller 20, and the driver 30 controls the discharge to generate a desired image. It includes a module unit 40 and a power supply unit 50 for supplying power.

In more detail, the signal processor 10 includes an A / D converter 11 for A / D converting an input image, a scaler 13 for converting an image frequency according to the resolution and vertical frequency of the module, and an image. A frame memory 12 for converting a vertical frequency of the image, an image adjusting unit 14 for adjusting an image to a desired contrast and luminance value, the A / D converter 11, a scaler 13, and a frame memory ( 12) and a signal processing controller 15 which controls the image adjusting unit 14 and reads the average luminance and luminance distribution of the image input to the frame memory 12 and corrects the average luminance with the highest number of discharges. .

As described above, the contrast control apparatus of the plasma display panel analyzes the average luminance and the luminance distribution while performing the signal processing of the image input from the outside and corrects the average luminance value with the highest number of discharges. Even when continuously changing, an optimum contrast can be provided to each image.

That is, the signal processing control unit 15 of the signal processing unit 10 obtains an average luminance from the frame memory 12 with respect to the input image, and corrects the average luminance of the input image to an average luminance having the greatest number of discharges. Send to 20.

The controller 20 calculates average luminance from the image signal transmitted from the signal processor 10 to determine the number of discharges of the module, performs error diffusion and gamma correction, generates a driving waveform, and the driver 30 controls the controller. The discharge is generated in the module 40 by controlling the discharge to occur in accordance with the control signal of (20).

The contrast control method of the plasma display panel will be described below.

As shown in FIG. 3, first, the average luminance T and the limit range e having the highest number of discharges stored in the signal processing control unit of the signal processing unit are read or the average luminance having the most number of discharges is communicated through communication with the module. Find T) The method of finding the average luminance T having the highest number of discharges through communication with the module can obtain an accurate average luminance T according to the characteristics of the module rather than reading the stored average luminance T.

Here, the average luminance T refers to the luminance having the largest number of discharges in various images, and the ratio of contrast increases as the number of discharges increases. In addition, the limit range (e) has a ± value and is used to define an average luminance (T) value that is substantially the most discharged.

For example, if the average luminance T with the highest number of discharges is 130 and the limit range e is ± 10, the average luminance with the highest number of discharges is substantially in the range of 120 to 140. S100)

Next, the input image passes through the frame memory to perform vertical frequency conversion in the signal processor. At this time, the average luminance and the luminance distribution of the image input to the frame memory are read.

The signal processing controller obtains an average luminance μ, a maximum luminance Max, and a minimum luminance Min of the image input from the frame memory (S110).

When the average luminance μ of the input image falls within the range of the average luminance with the highest number of discharges, that is, within the range of Te ≦ μ ≦ T + e, the signal processing controller may control the controller without additional control. To transmit to (S120) (S150).

On the contrary, if the average luminance μ of the input image is not substantially in the range of the average luminance with the highest number of discharges, that is, in the range of Te ≦ μ ≦ T + e, the average luminance μ of the input image is Te. Adjust to fall within the range of ≦ μ ≦ T + e (S120).

A method of adjusting the average luminance (μ) of the input image will be described first. A luminance adjustment value (B) is first obtained, where B is the maximum luminance (Max) of the currently input image at 128, which is an intermediate value of 8-bit image values. This is obtained by subtracting 2 plus the minimum luminance (Min). That is, it is calculated by the formula of luminance adjustment value B = 128-((Max + Min) / 2). Here, the intermediate value of 128 is used to prevent black saturation or white saturation during contrast adjustment described later.

The contrast adjustment value C is obtained by calculating the average luminance T with the highest number of discharges as the average luminance μ and the luminance adjustment value B of the input image. That is, it is calculated by the formula of contrast adjustment value C = T / (μ + B) (S130).

When the brightness adjustment value B and the contrast adjustment value C are obtained as described above, the output image luminance value is determined. The output image luminance value is obtained by multiplying the contrast adjustment value C by the average luminance μ of the image. The adjusted value (B) is obtained by adding up. That is, it is calculated by the formula of output image luminance value = mu x C + B. (S140)

The adjusted brightness value of the output image falls within the range of T-e ≦ μ ≦ T + e and is corrected to the average luminance value with the highest number of discharges.

When the luminance value of the output image is determined through the above process, the average luminance value having the optimum contrast is adjusted (S150).

The contrast control method of the plasma display panel is provided as an option to the user, and the viewing of a certain contrast or automatically adjusting the contrast by the contrast control method according to the present invention can be freely selected using an OSD screen or a user interface. have.

An apparatus and method for controlling a contrast of a plasma display panel according to the present invention has an advantage of providing an optimum contrast to a user in a moving image whose average brightness is changed.

1 illustrates a contrast control apparatus for a plasma display panel according to the present invention.

2 is a view for explaining a signal processing unit of the contrast control apparatus of the plasma display panel according to the present invention;

3 is a flowchart for explaining a contrast control method for a plasma display panel according to the present invention;

<Explanation of symbols for main parts of drawing>

10; A signal processor 11; A / D converter

12; Frame memory 13; Scaler

14; Image adjusting unit 15; Signal processing controller

20; Control unit 30; Driving part

40; Module section 50; Power supply

Claims (6)

A signal processing unit for converting the external video signal to A / D conversion to match the resolution of the module, and other image quality processing, and corrects the average brightness of the input video to the average brightness of the most discharge times, and transmits; A controller for calculating the average luminance from the image signal transmitted from the signal processor to determine the number of discharges of the module, performing error diffusion and gamma correction, and generating a driving waveform; A driving unit controlling to generate a discharge according to the control signal of the control unit; A module unit controlled by the driving unit to generate a desired image by generating a discharge; And a power supply unit for supplying power. Reading the average luminance and limit range that are substantially the most discharged; Calculating average luminance, maximum luminance, and minimum luminance of the input image; Determining whether the average luminance of the input image falls within a range of the average luminance having the greatest number of discharges; If the average luminance of the input image falls within the range of the average luminance with the highest number of discharges, finishing adjusting the average luminance; If the average luminance of the input image does not belong to the range of the average luminance with the highest number of discharges, the luminance adjustment value and the contrast adjustment value are calculated to substantially adjust the average luminance of the image input as the luminance adjustment value and the contrast adjustment value. And adjusting the range of average luminance with the highest number of discharges. The method of claim 2, And the average luminance having the highest number of discharges is a pre-stored value. The method of claim 2, And said average luminance having the highest number of discharges is a value measured in a module. The method of claim 2, And said brightness adjustment value (B) is determined by B = 128- (Max + Min) / 2. (Where Max is the maximum luminance of the input image and Min is the minimum luminance of the input image) The method of claim 2, And said contrast adjustment value (C) is determined by C = T / (μ + B). (Where T is the average brightness of the module with the highest number of discharges, μ is the average brightness of the input image, and B is the brightness adjustment value)