KR20110052120A - Driving method and device for plasma display panel - Google Patents

Abstract

PURPOSE: A driving method and a device for a plasma display panel are provided to adjust the number of a sustain in a PDP module according to an image mode and ambient illumination by controlling the inclination of an APL and an APL pivot. CONSTITUTION: In a driving method and a device for a plasma display panel, the ambient illumination value is measured. The power save step of a PDP module is set according to ambient illumination. It is determined whether the input image signal is an image mode or not. An APL curve corresponding to the power save step or the image mode is generated.

Description

Driving method and device for plasma display panel {Driving method and device for Plasma Display Panel}

The present invention relates to a method and apparatus for driving a plasma display panel. More particularly, the present invention relates to a plasma display panel for implementing a power saving mode for limiting the number of PDP sustain using an optical sensor and for improving color tracking characteristics according to an image mode. It relates to a driving method and apparatus.

Plasma Display Pane (hereinafter referred to as 'PDP') displays an image using visible light generated from the phosphor when ultraviolet light generated by gas discharge excites the phosphor. This PDP is thinner and lighter than the cathode ray tube (CRT), which has been the mainstay of display means, and can realize high definition / large screen.

The PDP is time-division composition by dividing one frame into several subfields having different emission counts in order to implement gray level. Each subfield is divided into a reset period for uniformly generating a discharge, an address period for selecting a discharge cell, and a sustain period for implementing gray levels according to the number of discharges.

For example, when the image is to be displayed with 256 gray levels, a frame period (16.67 ms) corresponding to 1/60 second is divided into eight subfields. Each of the eight subfields is further divided into an address period and a sustain period. Here, while the reset period and the address period of each subfield are the same for each subfield, the sustain period and the number of discharges thereof are 2n (n = 0,1,2,3,) in each subfield in proportion to the number of sustain pulses. 4,5,6,7).

As described above, since the sustain periods are different in each subfield, gray levels of an image can be realized. Since the brightness of PDP is determined according to the number of sustain pulses, if the average number of sustain pulses is the same in the case of low and bright average brightness, image quality deterioration, excessive power consumption, panel damage, etc. Various problems can occur.

According to the present invention, there is more than one image mode and power saving mode, and in each power saving phase, the plasma display panel controls the APL slope and the APL pivot point to adjust the number of sustains of the PDP module according to the image mode and ambient illumination. It is to provide a method and apparatus for driving.

Technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

A driving device of the plasma display panel of the present invention for achieving the above object is an optical sensor for measuring the ambient illuminance brightness value; A timing controller for generating an APL curve that determines the number of sustain pulses according to the APL of the input video signal; And setting a power saving step of the PDP module according to the measured ambient illuminance brightness value and determining an image mode of the input image signal to generate the APL curve in the timing controller according to the set power saving step and the image mode. It includes a control unit for outputting.

The controller outputs a control value for changing a position of a pivot point that determines a peak portion of the APL curve according to the set power saving step as a control value for generating the APL curve.

The controller outputs a control value for selecting a slope type of a peak portion based on a pivot point on the APL curve according to the image mode as a control value for generating the APL curve.

The slope of the peak portion of the APL curve is characterized by having an exponential function.

The slope of the peak portion of the APL curve is characterized by having a linear function.

The slope of the peak portion of the APL curve may be zero.

And a sustain driver for supplying the number of sustain pulses according to the generated APL curve.

The controller outputs a control value for changing the position of the pivot point on the APL curve and the slope type of the peak portion according to the set power saving step.

The timing controller generates an APL curve having zero slope of a peak portion based on a pivot point on the APL curve when the image mode is a movie mode.

The controller sets a maximum power saving step when the measured ambient illuminance brightness value corresponds to a dark room condition.

In addition, the present invention provides a method of driving a plasma display panel, the method comprising the steps of measuring a peripheral illumination brightness value; Setting a power saving step of the PDP module according to the measured ambient illuminance brightness value; Determining an image mode of an input image signal in the set power saving step; And generating an APL curve corresponding to the set power saving step and the image mode.

The generating of the APL curve may change a position of a pivot point that determines a peak portion of the APL curve according to the set power saving step.

The generating of the APL curve may adjust the slope of a peak portion based on a pivot point on the APL curve according to the image mode.

The slope of the peak portion of the APL curve is characterized by having an exponential function.

The slope of the peak portion of the APL curve is characterized by having a linear function.

The slope of the peak portion of the APL curve may be zero.

The method may further include outputting a sustain pulse number according to the generated APL curve.

According to the set power saving step, the position of the pivot point and the slope type of the peak portion on the APL curve are changed.

When the image mode is a movie mode, a slope of a peak portion is 0 based on a pivot point on the APL curve.

When the measured ambient illuminance brightness value corresponds to a dark room condition, a maximum power saving step is set.

The present invention has the effect of improving the color tracking characteristics of the image mode selected by the user by performing a power saving mode of the PDP according to the ambient light using an optical sensor and controlling the slope and pivot point of the APL curve during the power saving mode. .

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, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to include a certain component, it means that it may further include other components, except to exclude other components unless specifically stated otherwise. In addition, terms such as '.. part', '.. module' described in the specification means a unit for processing at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

1A is a graph illustrating a relationship between screen brightness versus APL according to the present invention.

In the PDP, the brightness of the screen is adjusted using the average picture level (APL) of the input video to protect the module. Specifically, the maximum brightness of the screen is controlled using the average image value APL.

At this time, the overall bright image has a high average image value (APL), which has a high average value, so the maximum brightness is darkly controlled.In the dark image, the maximum brightness within the screen is controlled to be the maximum brightness of the module. Keep the brightness constant. This control method uses the average image value (APL) to find out the overall brightness information of the image and to adjust the number of sustain pulses that determine the brightness in the module. That is, the relationship between the average image value APL and the number of sustain pulses is inversely controlled.

FIG. 1B is a graph illustrating R, G, and B gamma saturation curves according to APL of an input image. When white gray levels are changed by RGB gamma saturation, FIG. Coloring occurs in the pattern.

2 is a graph illustrating an APL curve according to power saving stages according to the first embodiment of the present invention.

In the PDP power saving mode according to the present invention, the peak portion P of the APL curve is designed to be flat (tilt = 0) to move the APL curve up and down in parallel according to the power saving step (0 to 4 steps) set by the user. To control. The power saving function of the PDP uses the APL characteristic according to the image load to reduce the maximum number of sustains and to control the ratio. The maximum number of sustains can indicate the maximum luminance, and the RGB luminance is adjusted according to the number of sustain pulses, thereby changing the power consumption.

Also, by designing the peak portion P of the APL curve flat (tilt = 0), as shown in [after] of FIG. 3, the color characteristic of the white gray pattern is improved. This is because the number of sustains is controlled in order to control power in the PDP. In this case, the saturation degree of each color is changed according to the number of sustains between R, G, and B cells, so that the image load is changed and the color temperature of the entire white is changed.

4 is a graph illustrating slopes of an APL curve according to power saving stages according to a second embodiment of the present invention.

According to another embodiment of the present invention, the PDP implements a power saving mode step using a pivot point P1, P2, P3 and a slope on an APL curve. The power saving curve according to the present invention sets different slopes on the basis of the pivot point on the APL curve. As an example, as shown in FIG. 4, three types of power saving modes A, B, and C, which are different from the pivot points P1, P2, and P3 on an APL curve, are proposed.

The pivot (P1, P2, P3) points on the APL curve according to the present invention serve as a criterion for indicating a peak portion of the APL curve, and a power saving step is set according to the position of the peak portion in the APL curve.

First, the pivot P1 point on the APL curve is a first power saving step set according to the brightness of the ambient illuminance, and the slope A of the peak portion based on the pivot P1 point is an exponential function type of order n. .

The pivot P2 point on the APL curve is a second power saving step set according to the brightness of the ambient illuminance, and the slope B of the peak portion based on the pivot P1 point is a linear function type.

Finally, the pivot (P3) point on the APL curve is the second power saving stage used in the movie mode, and the white characteristic of the image mode is set by setting the slope (C) of the peak portion to 0 based on the pivot (P1) point. Keep it constant. This is because the RGB color temperature saturation ratio according to the APL change is kept constant, so that the white balance characteristic of the PDP is kept constant.

Therefore, in a vivid or dynamic image mode in which luminance is important, the slope is controlled at the pivot point of the APL curve to maintain the maximum contrast under the condition that the target power saving rate is maintained. Also, the pivot points P1, P2, and P3 of the APL curve and the slope types A, B, and C are changed according to the power saving stage.

5 is a graph measuring the power saving degree according to the APL curve slope control according to the present invention.

Graph A shows the power saving effect according to the APL curve parallel to the power saving step according to the first embodiment of the present invention, graph B is a pivot point (Pivot point on the APL curve according to the second embodiment of the present invention) P1, P2, P3) and the power saving effect when the slope is controlled. The higher the power saving stage (lower power consumption) through the graphs A and B, the higher the power saving in the case of controlling the pivot points P1, P2, P3 and the slope on the APL curve according to the second embodiment. It can be seen that there is an effect.

 FIG. 6 is a graph illustrating slopes and pivot points of an APL curve according to the power saving mode according to an exemplary embodiment of the present invention.

Moving the pivot point on the APL curve of the present invention to set the power saving stage according to the brightness of the ambient illumination, as shown in the graph shown in Figure 6, the image mode at the pivot P1 point is set to the movie mode at this time The ambient brightness is 120 cd / m ^2, and the slope for improving the color tracking characteristics of the set image mode is zero. At another pivot P2 point, the imaging mode corresponds to darkroom conditions, and the ambient brightness is 50 cd / m ² , The slope is also zero to improve the color tracking characteristics.

Therefore, the method of implementing the power saving mode of the PDP according to the brightness of the ambient illumination according to the present invention changes the position of the pivot point on the APL curve according to each power saving stage of the PDP module and maintains the slope of the APL curve at 0. To improve the color tracking characteristics in the set image mode.

7 is a block diagram illustrating an internal configuration of a plasma display device according to the present invention.

The first and second inverse gamma correction units 110 and 120 inversely gamma correct digital video data RGB from an input line to linearly convert luminance with respect to a gray value of an image signal.

The gain adjusting unit 111 adjusts the gain of the digital video data RGB corrected by the first inverse gamma correction unit 110 by the effective gain.

In addition, the error diffusion unit 112 diffuses the quantization error of the digital video data RGB input from the gain adjusting unit 111 to adjacent cells, thereby finely adjusting the luminance value. To this end, the error diffusion unit 112 separates the data into integer and fractional parts, and multiplies the fractional part by Floid-Steingerg coefficients.

The subfield mapping unit 113 maps the data input from the error diffusion unit 112 to the pre-stored subfield pattern and supplies the mapping data to the data alignment unit 114.

The data aligning unit 114 supplies the digital video data input from the subfield mapping unit 113 to the data driver 171 of the PDP.

The data driver 171 is connected to the data electrodes of the PDP to latch data input from the data alignment unit 114 by one horizontal line, and then supplies the latched data to the data electrodes of the PDP in units of one horizontal period. .

The APL calculator 121 detects an APL on a frame basis with respect to the digital video data RGB input from the second inverse gamma correction unit 120 and outputs a signal for determining the number of sustain pulses corresponding to the detected APL. Done.

The timing controller 123 receives a signal from the APL calculator 121 and generates a control signal for controlling the data driver 171, the scan / sustain drivers 172 and 173, and the common sustain driver of the PDP.

The scan driver 172 and the sustain driver 173 supply a sustain pulse to the scan electrodes and the sustain electrodes of the PDP during the sustain period in response to a control signal input from the timing controller 123.

The timing controller 123 generates a curve (APL curve) of a sustain number according to the APL. The APL curve is used to make the power consumption constant in the PDP module, and the number of sustains can be controlled according to the APL. According to the present invention, the timing controller 123 selects the APL curve of the power saving mode corresponding to the brightness of the ambient illumination, and in particular, adjusts the slope value of the peak portion of the selected APL curve to improve the color tracking characteristics of the image. Change under control of the controller 130.

The controller 130 sets the video mode of the video signal automatically input by the user request or additional information included in the broadcast signal, and sets the power saving mode according to the brightness of the ambient illumination. The power saving mode may be divided into a plurality of stages according to the brightness level of the ambient illumination. At this time, the controller 130 inputs a control signal to the timing controller 123 to change the position and the slope of the pivot point on the APL curve according to the set image mode and power saving stage.

The memory 140 stores power saving stages of the PDP module corresponding to the brightness of the ambient illuminance, and specifically, stores the position of the pivot point and the n type slope of the APL curve corresponding to each power saving stage as a mapping table. do. In addition, the memory 140 stores the position of the pivot point of the APL curve of the power saving step set by the user and the n-type slope and updates the user-specified value.

The key input unit 150 receives various request commands from the user as key signals.

The optical sensor unit 160 analyzes the brightness of the external light and continuously detects a change in the brightness level according to the change in the external light and outputs it to the controller 130 as a peripheral illumination value.

8 is a flowchart illustrating a method of driving a plasma display device according to an embodiment of the present invention.

The brightness of the ambient illumination is measured using an optical sensor positioned in the plasma display panel (S801).

The power saving mode of the PDP module according to the brightness of the ambient light is selected (S802). In this case, in the power saving mode, if there is at least one power saving mode corresponding to the measured ambient illuminance brightness value and the dark room condition is determined when the ambient illuminance is measured, the maximum power saving mode is selected. Meanwhile, when the user selects a specific power saving mode, the power saving mode set by the user is maintained regardless of the measured ambient illuminance brightness value.

In operation S803, the video mode of the video signal that is automatically set by the user request or additional information included in the broadcast signal is determined. For example, when the hibernation mode is selected for ambient illumination measurement, the brightness of the PDP module is set to 60 ± 20 cd / m ² in the normal video mode, and the brightness is 120 ± 20 cd in the video mode. Set to be / m ² .

The slope of the APL curve of the peak portion is adjusted based on the position of the pivot point and the pivot point so that the APL curve is generated by the number of sustains corresponding to the set power saving step and the image mode (S804).

The number of sustain pulses is output according to the generated APL curve (S805).

On the other hand, the terms used in the present invention (terminology) are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the skilled person in the relevant field, the definitions of which are used throughout the present invention. It should be based on.

The present invention is not limited to the above-described embodiments and may be variously modified and changed by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

Figure 1a is a graph showing the relationship between the screen brightness compared to the APL of the present invention

1B is a graph illustrating RGB gamma saturation curves according to the APL of the present invention.

2 is a graph showing an APL curve for each power saving step according to the first embodiment of the present invention;

3 is an exemplary view of improving the color characteristics of the white gray pattern by controlling the slope of the APL curve according to the present invention

4 is a graph showing the slope of the APL curve in each power saving step according to the second embodiment of the present invention;

5 is a graph measuring the power saving degree according to the APL curve slope control according to the present invention

FIG. 6 is a graph illustrating slopes and pivot points of an APL curve according to the power saving mode according to an embodiment of the present invention.

7 is a block diagram illustrating an internal configuration of a plasma display device according to the present invention.

8 is a flowchart illustrating a method of driving a plasma display device according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

110. First inverse gamma correction unit 111. Gain adjustment unit

112. Error diffusion section 113. Surffield mapping section

114. Data Alignment Unit 120. Second Inverse Gamma Correction Unit

121. APL calculator 123. Timing controller

130. Controller 140. Memory

150. Key input 160. Optical sensor

171. Data Driver 172. Scan Driver

173. Sustain drive

Claims (20)

Measuring an ambient light intensity value; Setting a power saving step of the PDP module according to the measured ambient illuminance brightness value; Determining an image mode of an input image signal in the set power saving step; And And generating an APL curve corresponding to the set power saving step and the image mode. The method of claim 1, The generating of the APL curve may include changing a position of a pivot point for determining a peak portion of the APL curve according to the set power saving step. The method of claim 1, The generating of the APL curve may include adjusting a slope of a peak portion based on a pivot point on the APL curve according to the image mode. The method of claim 3, And a slope of a peak portion of the APL curve has an exponential function. The method of claim 3, And the slope of the peak portion of the APL curve has a linear function. The method of claim 3, And a slope of a peak portion of the APL curve is zero. The method of claim 1, And outputting a number of sustain pulses according to the generated APL curve. The method of claim 1, And changing the position of the pivot point on the APL curve and the slope type of the peak portion according to the set power saving step. The method of claim 1, And the slope of the peak portion is 0 based on the pivot point on the APL curve when the image mode is the movie mode. The method of claim 1, And a maximum power saving step is set when the measured ambient illuminance brightness value corresponds to a dark room condition. An optical sensor for measuring an ambient light intensity value; A timing controller for generating an APL curve that determines the number of sustain pulses according to the APL of the input video signal; And A control value for setting the power saving step of the PDP module according to the measured ambient illuminance brightness value and determining the video mode of the input video signal to generate the APL curve in the timing controller according to the set power saving step and the video mode. And a control unit for outputting the plasma display panel. The method of claim 11, The control unit outputs a control value for changing a position of a pivot point for determining a peak portion of the APL curve according to the set power saving step as a control value for generating the APL curve. Driving device of the plasma display panel. The method of claim 11, The control unit outputs a control value for selecting a slope type of a peak portion based on a pivot point on the APL curve according to the image mode as a control value for generating the APL curve. Drive of display panel. The method of claim 13, And a slope of a peak portion of the APL curve has an exponential function. The method of claim 13, And a slope of a peak portion of the APL curve has a linear function. The method of claim 13, And a slope of a peak portion of the APL curve is zero. The method of claim 11, And a sustain driver for supplying the number of sustain pulses according to the generated APL curve. The method of claim 11, And the control unit outputs a control value for changing a position of a pivot point and an inclination type of a peak portion on an APL curve according to the set power saving step. The method of claim 11, And the timing controller generates an APL curve having a zero slope of a peak portion based on a pivot point on the APL curve when the image mode is a movie mode. The method of claim 11, And the controller sets a maximum power saving step when the measured ambient illuminance brightness value corresponds to a dark room condition.

Images