KR20040062290A - Method and apparatus to control temperature for plasma display panel and a plasma display panel device having that apparatus - Google Patents

Abstract

PURPOSE: A method and an apparatus for controlling temperature of a plasma display panel using a thermocouple and a plasma display panel having the same are provided to control easily the temperature and stabilize operations by sensing the temperature of a temperature source. CONSTITUTION: An apparatus for controlling temperature of a plasma display panel using a thermocouple includes a sustain scan pulse generator, a thermocouple, a temperature sensor, and a driver. The sustain scan pulse generator(451) is used for generating a sustain pulse and a scan pulse corresponding to the external sustain discharge information and applying the sustain pulse and the scan pulse to a sustain electrode and a scan electrode. The thermocouple(452) is used for sensing the temperature of a temperature source of the sustain scan pulse generator. The temperature sensor(453) is used for outputting a control signal when the sensed temperature of the temperature source is more than the critical temperature. The driver is used for lowering the temperature of the temperature source according to the control signal.

Description

Method and apparatus for controlling temperature of plasma display panel using thermocouple, and plasma display panel device having the device {Method and apparatus to control temperature 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 temperature of a plasma display panel which senses a temperature of a heat source inside the plasma display panel device and outputs a control signal to stabilize the plasma display panel device when the temperature exceeds a threshold temperature. A control method and apparatus, and a plasma display panel apparatus including the apparatus.

BACKGROUND ART In general, a plasma display panel is a type of display device that recovers image data input as an electric signal by arranging a plurality of discharge tubes in a matrix shape and selectively emitting the light.

FIG. 1 illustrates a three-electrode surface discharge structure of a commercially available plasma display panel. The display electrodes, which are two display electrodes formed side by side in a discharge space formed by partition walls and face the common electrode, intersect with each other and are provided with address electrodes.

In this structure, a discharge is generated to generate wall charges to select a pixel between the address electrode and the scan electrode, and then a discharge for displaying an image between the scan electrode and the common electrode is repeated for a predetermined time.

In addition to forming a discharge space, the partition wall blocks light generated during discharge to prevent cross talk of neighboring pixels.

A plurality of such unit structures are formed in a matrix on a single substrate, and fluorescent materials are applied to each unit structure to form one pixel, and the pixels are gathered to form one plasma display panel.

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.

2 shows a panel electrode and each electrode of a three-electrode surface discharge type AC PDP, and the number of each electrode is determined according to the resolution.

The plasma display panel implements a halftone in order to perform the performance as a color display.As a method of implementing the same, a halftone implementation of time division control by dividing a 1TV field into a plurality of subfields is implemented. The method is used.

3 is a method of implementing gray scales of an AC plasma display panel applied to a product by a known technique.

This is a 6-bit gray scale implementation method that divides one TV field into six subfields, and is divided into an address period and a display discharge sustain period for each subfield.

Currently, a commercially available product has one TV field composed of 10 to 12 or more subfields, more than six subfields as shown in FIG. 3.

As the number of subfields increases, the pseudo contour, which is the most important problem in PDP quality, can be reduced. Therefore, researches for increasing the number of subfields using various methods have been conducted.

FIG. 4 is a diagram illustrating one subfield forming one field of FIG.

In the AC plasma display panel, an image is realized through the above method, and more than 2000 sustain discharge pulses are applied to one TV field.

One sustain discharge pulse generates a current of peak 100 A or more, which is used to turn on the panel, but a large part of it is in the form of heat generation due to circuit loss.

However, since the switching device we use is not an ideal device, this loss can be improved to some extent but can never be completely eliminated. That is, heat generation in the plasma display panel cannot be prevented.

However, many companies and laboratories are working to reduce this fever. This is because the plasma display panel becomes thinner and heat generation becomes more and more important.

The most commonly used methods to suppress the heat of the product is the heat sink and fan. The heat sink is a device that helps the heat dissipation of the heating element by maximizing the surface area, and the fan is a device that cools the heating part by generating air flow. However, the thinner product is limited in the size of the heat sink, the fan has a disadvantage that the driving noise is annoying to the consumer.

The technical problem to be solved by the present invention is to solve the conventional problems, the temperature control method of the plasma display panel to sense the temperature of the heat source to output a control signal when the temperature is above the threshold temperature to perform a stable operation by controlling the temperature And a plasma display panel device including the device.

1 is a view showing a three-electrode surface discharge structure of a typical plasma display panel.

2 shows panel electrodes and respective electrodes of a three-electrode surface discharge plasma display panel.

3 is a diagram illustrating a method for implementing gray scales of an AC plasma display panel.

FIG. 4 is a diagram illustrating one subfield forming one field of FIG. 3.

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

6 is a view for explaining the Seebeck effect.

7 is a block diagram of a plasma display panel device according to a second embodiment of the present invention.

The temperature control method of the plasma display panel according to one aspect of the present invention for achieving the above object,

A temperature control method of a plasma display panel including a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with one another in pairs,

Detecting a temperature of a heat source inside the plasma display panel;

A second step of determining whether the detected temperature of the heat source is equal to or greater than a predetermined reference threshold temperature;

And a third step of controlling the temperature of the heat source to be lowered if the sensed temperature of the heat source is higher than a predetermined reference threshold temperature.

The temperature control device of the plasma display panel according to one aspect of the present invention for achieving such a problem,

A temperature control apparatus for a plasma display panel including a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with one another in pairs,

A sustain scan pulse generator for generating sustain pulses and scan pulses corresponding to sustain discharge information input from the outside and applying the sustain pulses and scan pulses to the sustain electrodes and the scan electrodes;

A thermocouple detecting a temperature of a heat source of the sustain scan pulse generator;

A temperature sensor unit for outputting a control signal when the temperature of the heat source detected by the thermocouple unit is equal to or greater than a predetermined reference threshold temperature;

And a driving unit to lower the temperature of the heat source according to the control signal of the temperature sensor 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;

Generate sustain pulses and scan pulses corresponding to sustain discharge information input from the outside, and apply them to the sustain electrodes and the scan electrodes, and sense the temperature of the heat source therein, and if the detected temperature of the heat source is above a predetermined threshold temperature. A maintenance scan pulse driver for outputting a control signal corresponding thereto;

Corrects and outputs an external video signal, measures the load ratio of the video signal, and outputs the sustain discharge information corresponding to the current load ratio by referring to an automatic power control lookup table stored in an internal memory, and from the sustain scan pulse driver. A control unit which, when a control signal is input, reduces the number of sustain scan pulses in proportion to the load ratio in the sustain discharge information and outputs the same to the sustain scan pulse driver;

And 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 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;

A controller for correcting and outputting an external video signal, measuring a load ratio of the video signal, and outputting the sustain discharge information corresponding to a current load ratio by referring to an automatic power control lookup table stored in an internal 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;

Generate sustain pulses and scan pulses corresponding to sustain discharge information input from the outside, and apply them to the sustain electrodes and the scan electrodes, and sense the temperature of the heat source therein, and if the detected temperature of the heat source is above a predetermined threshold temperature. It includes a maintenance scan pulse driving unit for controlling the temperature by driving the fan inside.

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 a first embodiment of the present invention.

Referring to FIG. 5, the plasma display panel device according to the first embodiment of the present invention includes a plasma display panel 100, a controller 300, an address data generator 200, and a sustain scan pulse driver 450. do.

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 sustain scan pulse driver 450 generates sustain pulses and scan pulses corresponding to the sustain discharge information input from the outside, and applies them to the sustain electrodes and the scan electrodes, respectively, and senses the temperature of the heat source. If the temperature is above a predetermined reference threshold temperature, a control signal corresponding thereto is output. The controller 400 corrects and outputs an external video signal, measures a load ratio of the video signal, outputs the sustain discharge information corresponding to a current load ratio by referring to an automatic power control lookup table stored in an internal memory, and When a control signal is input from the sustain scan pulse driver, the number of sustain scan pulses is reduced in proportion to the load ratio in the sustain discharge information and output to the sustain scan pulse driver. 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 driver 450 generates sustain pulses and scan pulses corresponding to sustain discharge information input from the outside, and applies them to the sustain electrodes and the scan electrodes, respectively, and the sustain scan pulses. And a thermocouple unit 452 for sensing a temperature of the heat source 600 of the generator, and a temperature sensor unit 453 for outputting a control signal when the temperature of the heat source detected by the thermocouple unit 452 is equal to or greater than a predetermined reference threshold temperature. do.

Next, the operation of the plasma display panel device according to the first embodiment of the present invention having such a configuration will be described in detail.

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

Then, the controller 400 corrects and outputs an external video signal, measures the load ratio of the video signal, and outputs the sustain discharge information corresponding to the current load ratio with reference to the automatic power control lookup table stored in the internal memory. .

Then, the sustain scan pulse generation unit 451 receives the sustain discharge information, obtains the number of sustain discharge pulses corresponding to the load ratio from the memory, generates sustain pulses and scan pulses, and applies them to the sustain electrodes and the scan electrodes, respectively.

The address data generator 200 also generates address data corresponding to the correction data output from the controller 400 and applies the address data to the address electrode lines.

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

At this time, a heat sink is attached to the heat source of the sustain discharge pulse generator 451 existing in the drive board, and the heat coupler 452 is in contact with the heat sink.

When the plasma display panel 100 is turned on, the temperature of the heat sink increases. When the plasma display panel 100 rises higher than the set threshold temperature, the temperature sensor unit 453 senses the temperature and outputs a feedback signal.

At this time, the output feedback signal is input to the controller 300 of the logic board, and the controller 300 of the logic board receiving the feedback signal measures to reduce the number of sustain discharge pulses in order to lower the temperature of the sustain scan pulse driver 450. Will be taken.

Here, the thermocouple 452 will be described in detail as follows.

6 is a view for explaining the Seebeck effect, which is the main principle of the present invention, which is a theory for explaining a phenomenon in which a current is generated by a temperature difference between both when different metals are attached. The thermocouple, made using the Seebeck effect, is used as an industrial thermometer. In the first embodiment of the present invention, in the plasma display panel, the thermocouple 452 is mounted on a main heat source to monitor the temperature, and the temperature sensor unit outputs a feedback signal when the monitored temperature exceeds a threshold temperature. 453 is used, the attachment position of the thermocouple 452 can be variously modified as necessary.

In addition, when the monitoring temperature exceeds the threshold temperature, the user may be notified of overheating, or the lookup table may be used when the maintenance discharge pulse is one less than the threshold temperature.

It is also possible to lower the sustain discharge voltage.

When using the cooling fan of the various modified examples as described in the second embodiment as follows.

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

Referring to FIG. 7, the plasma display panel device according to the second embodiment of the present invention includes a plasma display panel 100, a controller 300, an address data generator 200, and a sustain scan pulse driver 400. do.

This second embodiment is almost similar to the first embodiment described above, except that the cooling fan is installed in the holding scan pulse driving unit 400.

The sustain scan pulse driver 400 generates sustain pulses and scan pulses corresponding to sustain discharge information input from the outside, and applies them to the sustain electrodes and the scan electrodes, respectively, and the sustain scan. A thermocouple unit 420 for detecting a temperature of the heat source 600 of the pulse generator unit, and a temperature sensor unit 430 for outputting a control signal when the temperature of the heat source detected by the thermocouple unit 420 is higher than a predetermined reference threshold temperature; And a fan 440 driving the control signal to cool the heat source. Here, the control unit 300 may increase the cooling effect by simultaneously performing a cooling operation simultaneously with the fan 440 by receiving a control signal and reducing the number of sustain discharge pulses.

In the second embodiment of the present invention, the thermocouple 420 is mounted on the main heat source 600 in the plasma display panel so that the thermocouple unit 420 monitors the temperature of the heat source, and the temperature sensor when the monitored temperature exceeds the threshold temperature. The unit 430 outputs a feedback signal. Then, when the fan 440 (FAN) does not operate but reaches a threshold temperature or more, the fan 440 operates according to a feedback signal and stops when the temperature decreases.

Such a second embodiment of the present invention can be applied to a variety of applications, and if the fan rotates at a constant speed or more than the threshold temperature may supply more current to speed up the rotation speed of the fan.

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 temperature control method and apparatus of the plasma display panel to detect the temperature of the heat source and to output a control signal when the temperature is above the threshold temperature to perform a stable operation by adjusting the temperature, the apparatus It can provide a plasma display panel device including a.

Claims (6)

A temperature control method of a plasma display panel including a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with one another in pairs, Detecting a temperature of a heat source inside the plasma display panel; A second step of determining whether the detected temperature of the heat source is equal to or greater than a predetermined reference threshold temperature; And a third step of controlling the temperature of the heat source to be lowered if the sensed temperature of the heat source is greater than or equal to a predetermined reference threshold temperature. The method of claim 1, The third step is a temperature control method of the plasma panel, characterized in that for driving the fan to lower the temperature of the heat source. The method of claim 1, The third step is the temperature control method of the plasma panel, characterized in that for reducing the number of sustain discharge pulses in order to lower the temperature of the heat source. A temperature control apparatus for a plasma display panel including a plurality of address electrodes and a plurality of scan electrodes and sustain electrodes paired with one another in pairs, A sustain scan pulse generator configured to generate sustain pulses and scan pulses corresponding to sustain discharge information input from the outside, and apply them to the sustain electrodes and the scan electrodes, respectively; A thermocouple detecting a temperature of a heat source of the sustain scan pulse generator; A temperature sensor unit for outputting a control signal when the temperature of the heat source detected by the thermocouple unit is equal to or greater than a predetermined reference threshold temperature; And a driving unit to lower the temperature of the heat source according to the control signal of the temperature sensor unit. The method of claim 4, wherein The driving unit is a temperature control device of the plasma panel, characterized in that the fan to rotate to lower the temperature of the heat source. The method of claim 4, wherein The driving unit is a temperature control device of the plasma panel, characterized in that for outputting the sustain discharge information to reduce the number of sustain discharge pulses by a certain number in order to lower the temperature of the heat source.