KR20030022949A - Method and apparatus to control drive-power for plasma display panel and a plasma display panel device having that apparatus - Google Patents

Abstract

PURPOSE: A method and an apparatus for controlling a driving power of a plasma display panel and a plasma display panel apparatus are provided to calculate the change rate of load between the inputted data and the previous input data and to reduce the flickering and the change of illumination by varying the time applied to a new illumination value in response to the change rate of the load. CONSTITUTION: An apparatus for controlling a driving power of a plasma display panel includes a first memory(340) for storing the load change of the inputted image signal data, a second memory(350) for storing the illumination control speed as a time information applied to a new illumination value in response to the load change rate, an average signal level sensing block(320) for measuring the load change rate of the image signal inputted from outside and a power control block(330) for calculating the load change rate between the currently inputted data and the previously input data, for determining the illumination control speed in response to the calculated load change rate based on the second memory(350) and for outputting the sustain discharge information corresponding to the current load change rate as the determined illumination control speed.

Description

Method and apparatus for controlling drive power of a plasma display panel, and a plasma display panel device comprising the device {Method and apparatus to control drive-power for plasma display panel and a plasma display panel device having that apparatus}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel device, and more particularly, to a method of controlling driving power of a plasma display panel to prevent unnatural changes in brightness and screen flicker by varying a brightness control speed according to a measured change rate of an average signal level. An apparatus and a plasma display panel apparatus including the apparatus are provided.

Since the plasma display panel has high power consumption due to its driving characteristics, an apparatus for controlling power consumption according to the load ratio of a frame to be displayed is required.

1 shows a conventional algorithm for controlling power consumption.

Referring to FIG. 1, conventionally, an average signal level (or load factor) is calculated from data input to a plasma display panel device, and the difference is calculated by comparing the luminance value of the current state with the luminance value of the previous state.

Next, luminance control is performed by controlling the measured power value in accordance with the difference value.

However, conventionally, when the average signal level is calculated and the new luminance value is applied, as shown in Fig. 1, the fixed time is not actively coped with the load rate of the input data, and the luminance changes unnaturally when the screen changes abruptly. There is this.

That is, the number of sustain discharge pulses is controlled in units of time in both cases when the load ratio is changed from 80% to 60% (ΔA) and when the load ratio is changed from 80% to 40% (ΔB).

The technical problem to be solved by the present invention is to solve the conventional problems, and to calculate the load change rate between the input data and the previous input data, and to vary the luminance control speed according to the measured power value according to the load change rate A method and apparatus for controlling the driving power of a plasma display panel, which reduces unnatural changes of the screen and the flashing of the screen, and to provide a plasma display panel apparatus including the apparatus.

1 shows a conventional algorithm for controlling power consumption.

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

3 is a configuration diagram of an apparatus for controlling driving power of a plasma display panel according to an exemplary embodiment of the present invention.

4 is a table illustrating a luminance control speed according to a load change rate.

FIG. 5 is a diagram illustrating a change in sustain discharge pulses at respective load change rates in a method of controlling driving power of a plasma display panel according to an exemplary embodiment of the present invention.

In order to achieve the above object, there is provided a method of controlling driving power of a plasma display panel according to an aspect of the present invention.

In the method of controlling the driving power of the plasma display panel by adjusting the number of sustain discharge pulse in accordance with the load ratio of the input image signal,

Calculating a load change rate between the current input data and the previous input data;

Determining a brightness control speed according to the load change rate;

And a third step of controlling the driving power of the current data according to the determined luminance control speed.

An apparatus for controlling the driving power of the plasma display panel according to another aspect of the present invention for achieving the above object,

A storage unit for storing the luminance control speed according to the load change rate;

An average signal level detector for measuring a load ratio of an image signal input from the outside;

And a power controller configured to calculate a load change rate between the currently input data and the previous input data, and determine a luminance control speed according to the calculated load change rate from the table of the storage unit.

A plasma display panel device according to another aspect of the present invention for achieving the above object,

A plasma display panel including a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with one another in a zigzag manner;

Corrects and outputs an external video signal, measures the load ratio of the video signal, calculates the load change rate between the currently input data and the previous input data, determines the luminance control speed according to the load change rate, and determines the determined luminance control speed. A control unit for outputting sustain discharge information corresponding to a current load ratio;

An address data generator for generating address data corresponding to the correction data output from the controller and applying the address data to the address electrode of the plasma panel;

And a sustain scan pulse generator for generating sustain pulses and scan pulses corresponding to sustain discharge information from the controller, and applying the sustain pulses and scan pulses to the sustain electrodes and the scan electrodes, respectively.

Next, the present invention will be described with reference to the accompanying drawings so that the present invention may be easily implemented by those skilled in the art as follows.

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

Referring to FIG. 2, a plasma display panel device according to an exemplary embodiment of the present invention includes a plasma display panel 100, a controller 300, an address data generator 200, and a sustain scan pulse generator 400. .

The plasma display panel 100 includes a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with each other in a zigzag form.

The controller 300 corrects and outputs an external video signal, measures a load ratio of the video signal, calculates a load change rate between currently input data and previous input data, and determines a luminance control rate according to the load change rate. At the determined luminance control speed, sustain discharge information corresponding to the current load ratio is output.

The address data generator 200 generates address data corresponding to the correction data output from the controller 300 and applies the address data to the address electrode of the plasma panel.

The sustain scan pulse generator 400 generates sustain pulses and scan pulses corresponding to the sustain discharge information from the controller 300, and applies them to the sustain electrodes and the scan electrodes.

3 illustrates an internal configuration of the controller of FIG. 2. Referring to FIG. 3, the controller 300 includes an image data processor 310, a power controller 330, an average signal level detector 320, a first memory 340, and a second memory 350.

The image data processor 310 corrects and outputs an image signal.

The first memory 340 stores the load rate of previous frames.

The second memory 350 stores the brightness control speed according to the load change rate and the sustain discharge pulse number information corresponding to the load rate.

The average signal level detector 320 measures the load ratio of the image signal input from the outside.

The power controller 330 calculates a load change rate between the currently input data and the previous input data, and determines the luminance control speed according to the calculated load change rate from the second memory and outputs sustain discharge information.

Next, a method and apparatus for controlling the driving power of the plasma display panel according to the exemplary embodiment of the present invention having such a configuration, and the operation of the plasma display panel apparatus including the apparatus will be described in detail.

First, an image signal including data components (R, G, B) and synchronization signals (Hsync, Vsync) is input from the outside.

Then, the image data processor 310 corrects the data components R, G, and B to implement the same luminance level.

On the other hand, the average signal level detection unit 320 measures the average signal level of the data components (R, G, B). The measured average signal level is stored in the first memory 340 and input to the load change rate calculator 331.

Then, the load change rate calculator 331 of the power controller 330 calculates the load change rate from the load rate between the load rate currently measured by the average signal level detector 42 and the previous input data stored in the first memory 340. Calculate

In this case, the load change rate is calculated by comparing the average of the load rate of the current 1 frame and the load rate of the previous 7 frames, and for this purpose, the initial constant frame may be left as an initialization process.

Next, the APC controller 332 obtains the luminance control speed according to the calculated load change rate from the second memory 350. At this time, the second memory 350 stores the luminance control speed according to the load change rate in the form of a map table as shown in FIG. 4, which can be subdivided into a load change rate of more stages as necessary.

Here, the luminance control speed means the time taken for the new luminance value to be applied after the luminance control is performed on the load ratio of the current frame.

Then, the APC controller 332 outputs sustain discharge information corresponding to the current load factor to the sustain scan pulse generator 400 at the determined brightness control speed.

Then, the sustain scan pulse generator 400 receives the sustain discharge information, obtains the number of sustain discharge pulses corresponding to the load ratio from the second memory 350 at the corresponding brightness control rate, and generates and sustains the sustain pulse and the scan pulse, respectively. It is applied to an electrode and a scanning electrode.

The address data generator 200 also generates address data corresponding to the correction data output from the image data processor 310 and applies the address data to the address electrode lines.

Then, the image data is displayed on the plasma display panel 100.

As the time to apply the new luminance value is changed, when the change in load change rate is larger than before, the new luminance value is applied at a faster time, which is shown in FIG.

That is, as shown in Fig. 5, the sustain discharge is shown in the case where the load ratio is changed from 80% to 60% (ΔA) and in the latter case when the load ratio is changed from 80% to 40% (ΔB). It can be seen that the time point when the pulse number is applied becomes faster.

In this process, the flashing and ringing of the screen can be prevented by varying the time to which the new luminance value is applied according to the load change rate.

The present invention is not limited to the above embodiments, but may be modified and improved by those skilled in the art within the spirit and scope of the invention as defined in the claims.

As described above, in the embodiment of the present invention, the load change rate between the input data and the previous input data is calculated, and the time when the new luminance value is applied according to the load change rate is varied so as to cause unnatural changes in the luminance. And a method and apparatus for controlling driving power of a plasma display panel, which can reduce screen glare, and a plasma display panel apparatus including the apparatus.

Claims (9)

1. A method of controlling driving power of a plasma display panel including a plurality of address electrodes and a plurality of scan and sustain electrodes paired with one another in pairs. Calculating a load change rate between the current input data and the previous input data; A second step of determining a luminance control speed which is a time at which a new luminance value is applied according to the load change rate; And outputting sustain discharge pulse information corresponding to the load ratio of the current data at the determined brightness control rate. The method of claim 1, And in the first step, a load change rate is calculated by comparing a difference between a current frame of one input data and an average of seven previously input frames. The method of claim 1, The second step is to control the driving power of the plasma display panel, characterized in that the luminance control rate is shortened as the change of the load change rate is larger. The method of claim 1, And generating a sustain pulse and a scan pulse corresponding to the sustain discharge pulse information output in the third step, and applying the sustain pulse and the scan pulse to the sustain electrode and the scan electrode, respectively. A first memory configured to store a load ratio of input image signal data; A second memory for storing a luminance control speed which is information on a time when a new luminance value is applied according to a load change rate; An average signal level detector for measuring a load ratio of an image signal input from the outside; The load change rate between the currently input data and the previous input data is calculated, and the luminance control speed according to the calculated load change rate is determined with reference to the second memory, and the sustain discharge information corresponding to the current load rate is determined at the determined luminance control speed. An apparatus for controlling driving power of a plasma display panel including an output power control unit. The method of claim 5, The power control unit, A load change rate calculator configured to calculate a load change rate by comparing a load rate of previous input data of the first memory with a load rate of current input data; An apparatus for controlling the driving power of the plasma display panel including an APC control unit for determining the luminance control rate according to the load change rate with reference to the second memory, and outputs the sustain discharge information corresponding to the current load ratio at the determined luminance control rate. . The method of claim 6, And the load change rate calculator is configured to calculate a load change rate by comparing a difference between an average of one frame of the current input data and the previous seven frames. The method of claim 5, And a luminance control speed stored in the second memory such that the luminance control speed becomes shorter as the change of the load change rate increases. A plasma display panel including a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with one another in a zigzag manner; Corrects and outputs an external video signal, measures the load ratio of the video signal, calculates the load change rate between the currently input data and the previous input data, determines the luminance control speed according to the load change rate, and determines the determined luminance control speed. A control unit for outputting sustain discharge information corresponding to a current load ratio; An address data generator for generating address data corresponding to the correction data output from the controller and applying the address data to the address electrode of the plasma panel; And a sustain scan pulse generator for generating sustain pulses and scan pulses corresponding to sustain discharge information from the controller, and applying the sustain pulses and scan pulses to the sustain electrodes and the scan electrodes, respectively.