KR100484679B1 - Universal method and apparatus to control drive-power for plasma display panel and a plasma display panel device having that apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for controlling a universal driving power of a plasma display panel, and to a plasma display panel apparatus having the apparatus. In the plasma display panel, a lower limit value and an upper limit value of power consumption are input, and it is determined whether the input lower limit value and the upper limit value are within an applicable region. When the input lower limit value and the upper limit value are within an applicable range, the number of sustain discharge pulses is calculated according to the lower limit value and the upper limit value, thereby generating an automatic power control lookup table and a sustain discharge pulse number table. The generated automatic power control lookup table and the sustain discharge pulse number table are stored in the memory. In this way, the automatic power control lookup table and the sustain discharge pulse number table are generated and transferred to the memory when the power consumption is changed, thereby changing the power limit desired by the user (PDP SET Maker, Vendor). Can be provided without hardware changes.

Description

Universal driving power control method and apparatus for plasma display panel, plasma display panel device having the device TECHNICAL FIELD

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 and apparatus for controlling universal driving power of a plasma display panel, wherein the automatic power control look-up table and the sustain discharge pulse number table are changed according to a variable power consumption. The present invention relates to a plasma display panel device.

In general, since the plasma display panel device 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.

In order to limit the power consumption of the plasma display panel device, automatic power control is used to control the power consumption by limiting the number of sustain discharge pulses.

This automatic power control is designed as follows.

First, the relationship between the load ratio L and the power consumption P where the number of sustain discharge pulses Ns is constant is obtained from the measured power characteristic curve. Since power consumption is linearly proportional to the load factor, power consumption P is approximated to the linear function of L.

P = Po + a * L (Po: power consumption when L = 0%)

In the relation between power consumption and load ratio (L: load ratio) approximated for each sustain discharge pulse number (Ns) in Equation 1, Po, a is approximated as a function of Ns, and power consumption P is linearly proportional to Ns. To approximate.

P = f (Ns, L) = Po (Ns) + a (Ns) * L = (A + B * Ns) + (C + D * Ns) * L

In addition, the APC lookup table (LUT) and the sustain discharge pulse number table (SUSTAIN PULSE NUMBER TABLE) can be obtained by the coefficients A, B, C, and D obtained by the measurement, and the upper limit value UPPER and lower limit value LOWER LIMIT. The power is controlled by an automatic power control device in accordance with an average signal level (ASL) of the input image signal by writing the same to a fixed memory.

However, if you want to overlook the increase in power consumption and increase the brightness, or overlook the decrease in brightness and lower the power consumption, recalculate the automatic power control lookup table (APC LUT) and the sustain discharge pulse count table. The disadvantage is that you need to repeat the process of writing to memory using (PROGRAM TOOL). Therefore, in order to reduce the power consumption, the memory-chip change or replacement (hardware change) of the PDP logic circuit is conventionally required, which is also impossible in the case of the already manufactured PDP SET. There is a disadvantage that it is impossible to cope with the request (variable power consumption; random change of the power limiter) of the user (PDP SET Maker, Vendor).

As such, conventionally, only one fixed automatic power control lookup table and sustain discharge pulse number table in a factory mode have a disadvantage in that the user cannot change the power consumption and luminance characteristics.

The operation flow of limiting the power consumption of the conventional PDP SET is as follows.

According to Equation 2 and the coefficients A, B, C, and D obtained by the measurement and the upper and lower limits of the fixed power consumption, one APC lookup table and one sustain discharge pulse number table can be obtained. In the factory mode), the power consumption is controlled by the automatic power control device according to the average signal level (ASL) of the input video signal by writing to a fixed memory.

At this time, in order to store one APC LUT (256 step) and one SUSTAIN PULSE NUMBER TABLE (256 step), 0.5k byte and 0.5k byte of memory are required (total 1k byte), respectively.

4 shows a memory size according to a variable power consumption, and the size of the memory increases according to the number of automatic power control lookup table and sustain discharge pulse number table.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve a conventional problem, and to provide an apparatus and a method for generating an automatic power lookup table and a number of sustain discharge pulses according to a variable power consumption.

In addition, by using 32BIT PROCESSOR (or DSP: Digital Signal Processing), when the power consumption is variable, the automatic power control lookup table and the sustain discharge pulse number table are generated and transferred to the memory for consumption by the user (PDP SET Maker, Vendor). A random change of the power limit is provided without any hardware changes.

In other words, Ns = {P-(A + C * L)} / (B + D * L) and the 32bit processor (or DSP: Digital Signal Processing) according to the POWER_LIMIT value change A method and device for controlling a driving power of a plasma display panel having various power consumption and luminance characteristics by generating a sustain discharge pulse number table and transmitting each to a memory and performing automatic power control according to a load ratio, and a plasma display having the device It is to provide a panel device.

According to one aspect of the present invention for achieving the above object, the universal driving power control method of the plasma display panel,

A method of controlling a universal driving power of a plasma display panel including a plurality of address electrodes, a plurality of scan electrodes and a sustain electrode paired in a zigzag pair.

A first step of receiving a lower limit value and an upper limit value of power consumption;

A second step of determining whether an input lower limit value and an upper limit value are within an applicable area;

A third step of calculating the number of sustain discharge pulses according to the lower limit value and the upper limit value if the input lower limit value and the upper limit value are within an applicable range, and generating an automatic power control lookup table and a sustain discharge pulse number table accordingly;

And a fourth step of storing the generated automatic power control lookup table and the sustain discharge pulse number table in a memory.

According to another aspect of the present invention, there is provided a universal driving power control apparatus for a plasma display panel.

A universal driving power control apparatus for a plasma display panel including a plurality of address electrodes, a plurality of scan electrodes and a sustain electrode arranged in pairs in a zigzag fashion,

A memory for storing a sustain discharge pulse number table for storing sustain discharge pulse number information according to an automatic power control step and an automatic power control lookup table for storing a lower limit value and an upper limit value of power consumption according to an automatic power control step;

An input device for receiving a lower limit value and an upper limit value of power consumption;

A processor configured to calculate the number of sustain discharge pulses according to the lower limit value and the upper limit value, and generate and store the automatic power control lookup table and the sustain discharge pulse number table in the memory accordingly;

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 ratio of the currently input data and to output maintenance discharge information corresponding to the calculated load ratio with reference to the memory.

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;

An input device for receiving a lower limit value and an upper limit value of power consumption;

The number of sustain discharge pulses is calculated according to the lower limit value and the upper limit value, and accordingly, an automatic power control lookup table and a sustain discharge pulse number table are generated and stored in an internal memory, and an external image signal is corrected and output. A control unit for measuring a load ratio of the controller and outputting sustain discharge information corresponding to a current load ratio with reference to the memory;

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.

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

Referring to FIG. 5, 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, a sustain scan pulse generator 400, and an input device. 500.

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 input device 500 receives a lower limit value and an upper limit value of power consumption.

The control unit 300 calculates the number of sustain discharge pulses according to the lower limit value and the upper limit value, and accordingly generates an automatic power control lookup table and a sustain discharge pulse number table, stores them in an internal memory, and corrects an external image signal. The load ratio of the video signal is measured, and the sustain discharge information corresponding to the current load ratio is output with reference to the memory.

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.

6 illustrates an internal configuration of the controller of FIG. 5. Referring to FIG. 6, the controller 300 includes an image data processor 310, a power controller 330, an average signal level detector 320, a processor 340, and a memory 350.

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

The memory 350 stores the automatic power control lookup table and the sustain discharge pulse number table.

The processor 340 calculates the number of sustain discharge pulses according to the input lower limit value and the upper limit value, and generates and stores the automatic power control lookup table and the sustain discharge pulse number table in the memory.

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

The power control unit 330 calculates a load ratio of the currently input data and outputs the sustain discharge information corresponding to the calculated load ratio with reference to the memory.

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

First, the processor 340 checks whether an interrupt signal is input from the input apparatus 500 by a user such as a set maker or a vendor (S701).

When the interrupt signal is input, the processor 340 receives a lower limit value and an upper limit value of power consumption input by the user through the input device 500 (S702). The processor may also be used as a digital signal processor.

Then, the processor 500 determines whether the upper limit value is a power consumption value of the applicable changeable area (S703).

If it is determined that the power consumption value is not applicable, the processor 500 adjusts the upper limit value to the maximum power consumption value (S704). Here, the changeable area is the maximum capacity of the power supply board of the switching mode power supply, and the power consumption (Vs * Is = 165V * 2.5A = 412W) and other power consumption (Va * Ia, Ve * Le, .... ), That is, the maximum power range that can be output.

Then, the processor 500 calculates the number of sustain discharge pulses for each APC step by using the upper limit value and the lower limit value (S705) and generates an automatic power control lookup table and a sustain discharge pulse number table (S706).

At this time, the number of sustain discharge pulses is obtained by the equation (2).

The processor 500 transmits and stores the generated automatic power control lookup table and the sustain discharge pulse number table information to the memory 330 (S707).

Then, the new automatic power control lookup table and the sustain discharge pulse number table are stored in the memory 350.

When the automatic power control lookup table and the sustain discharge pulse number table of the memory 350 are changed as described above, the plasma display panel device operates in the power consumption range desired by the user (S708).

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).

Then, the power control unit 330 outputs the number of sustain discharge pulses corresponding to the load ratio currently measured by the average signal level detector 320 from the automatic power control lookup table and the sustain discharge pulse number table of the memory.

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 memory 350, generates sustain pulses and scan pulses, and applies them to the sustain electrodes and the scan electrodes. do.

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.

In the above process, the power control unit may play the role of a processor, and a second embodiment of such a control unit is illustrated in FIG. 8.

Referring to FIG. 8, the difference between the control unit according to the second embodiment and the first embodiment is to play the role of the processor in the power control unit 330, and other operations are the same.

The power control unit 330 receives the upper limit value and the lower limit value of power consumption through the input device 500 to generate an automatic power control lookup table and a sustain discharge pulse number table and store them in the memory 350. Are omitted.

9 to 12 show the results of measuring the number of sustain discharge pulses according to the upper limit value and the lower limit value of the power consumption input from the input device of the plasma display panel device according to the embodiment of the present invention.

Fig. 9 is a comparison of the number of sustain discharge pulses, and the power consumption is set to 270W-340W, 280W-340W, 290W-340W, 300W-340W, 290W-370W, 300W-380W, 220W-270W in each case. This is the result of comparing the number of sustain pulses.

10 is a comparison of the number of sustain pulses. The reference is APC upper step, and shows the number of sustain pulses according to lower limit and upper limit power variations.

Fig. 11 is a comparison of the number of sustain pulses. The reference is APC lower step, and shows the number of sustain pulses according to the lower limit and upper limit power variations.

Fig. 12 is a comparison of the number of sustain pulses. The reference is the load ratio, and shows the number of sustain pulses according to lower limit and upper limit power variations.

As in the above experiments, the number of sustain discharge pulses was compared according to the APC LUT-UPPER, APC LUT-LOWER, and LOAD RATIO on the X axis, and the automatic power control lookup for various variable power limits through a 32-bit processor or DSP. The generation of the table and the number of sustain discharge pulses was confirmed, and the number of sustain discharge pulses according to the variable power consumption was compared.

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 automatic power lookup table and the number of sustain discharge pulses can be generated according to the power consumption variable (POWER LIMIT arbitrary change), and the automatic power control lookup table and the maintenance time when the power consumption varies. The discharge pulse count table is generated and transmitted to the memory to provide a function of random change of the power limit desired by the user (PDP SET Maker, Vendor) without hardware change.

1 is a view showing the power consumption according to the conventional load ratio.

2 is a diagram illustrating a conventional automatic power control lookup table.

3 is a diagram showing a conventional sustain discharge pulse number table.

4 is a diagram illustrating a memory size according to a change in power consumption.

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

6 is a configuration diagram of a universal driving power control device of the plasma display panel device according to the embodiment of the present invention.

7 is a flowchart of a universal driving power control method of the plasma display panel device according to the embodiment of the present invention.

8 is a block diagram of a universal driving power control device of a plasma display panel device according to another embodiment of the present invention.

9 to 12 are diagrams comparing the number of sustain discharge pulses according to APC LUT-UPPER, APC LUT-LOWER, and LOAD RATIO according to the variable power consumption.

Claims (7)

A universal driving power control method for a plasma display panel including a plurality of address electrodes, a plurality of scan electrodes and a sustain electrode arranged in pairs with each other, A first step of receiving a lower limit value and an upper limit value of power consumption; A second step of determining whether the input lower limit value and the upper limit value are within a changeable area which is the maximum capacity of the power supply; If the input lower limit value and the upper limit value are within a changeable area, calculating a number of sustain discharge pulses according to the lower limit value and an upper limit value, and generating an automatic power control lookup table and a sustain discharge pulse number table accordingly; A fourth step of storing the generated automatic power control lookup table and the sustain discharge pulse number table in a memory; If the lower limit value and the upper limit value received in the second step are not within the changeable area, the upper limit value is adjusted to the maximum limit power value, and the number of sustain discharge pulses is calculated according to the adjusted upper limit value and the lower limit value, and accordingly, the automatic power control lookup table And generating a sustain discharge pulse number table. delete The method of claim 1, A fifth step of outputting sustain discharge pulse information corresponding to a current load factor by referring to the power control lookup table and the sustain discharge pulse number table generated in the fourth step; And generating a sustain pulse and a scan pulse corresponding to the sustain discharge pulse information, and applying the sustain pulse and the scan pulse to the sustain electrode and the scan electrode, respectively. A universal driving power control apparatus for a plasma display panel including a plurality of address electrodes, a plurality of scan electrodes and a sustain electrode arranged in pairs with each other, A memory for storing a sustain discharge pulse number table for storing sustain discharge pulse number information according to an automatic power control step and an automatic power control lookup table for storing a lower limit value and an upper limit value of power consumption according to an automatic power control step; An input device for receiving a lower limit value and an upper limit value of power consumption; And a processor configured to calculate the number of sustain discharge pulses according to the lower limit value and the upper limit value, and generate and store the automatic power control lookup table and the sustain discharge pulse number table in the memory. The processor calculates the number of sustain discharge pulses according to the adjusted upper limit value and lower limit value by adjusting the upper limit value to the maximum limiting power value if the lower limit value and the upper limit value are not within a changeable area that is the maximum capacity of the power supply. And a power control lookup table and a sustain discharge pulse number table. The method of claim 4, wherein 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 ratio of currently input data and to output maintenance discharge information corresponding to the calculated load ratio by referring to the memory. delete A power supply for supplying power; 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; An input device for receiving a lower limit value and an upper limit value of power consumption; The number of sustain discharge pulses is calculated according to the lower limit value and the upper limit value, and accordingly, an automatic power control lookup table and a sustain discharge pulse number table are generated and stored in an internal memory, and an external image signal is corrected and output. A control unit for measuring a load ratio of the controller and outputting sustain discharge information corresponding to a current load ratio with reference to the memory; 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; 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; The controller calculates the number of sustain discharge pulses according to the adjusted upper limit value and the lower limit value by adjusting the upper limit value to a maximum limiting power value unless the input lower limit value and upper limit value are within a changeable area that is the maximum capacity of the power supply. And an automatic power control lookup table and a sustain discharge pulse number table.