KR100710364B1 - Driving method of plasma display panel - Google Patents

Abstract

The present invention relates to a method of driving a plasma display panel for improving driving efficiency. The present invention relates to a method of driving a plasma display panel including at least one subfield, the method being set in a reset section for each subfield. The voltage change rate with respect to the time of the interval waveform and the voltage change rate with respect to the time of the set-down interval waveform are formed differently, and each of the setup interval waveforms is reset in the reset period in the same subfield of each subfield. The present invention provides a method of driving a plasma display panel, wherein the voltage change rate with respect to time and the voltage change rate with respect to time of the set-down period waveform are equal to each other. Therefore, according to the present invention, by driving a plurality of slopes of the setup / setdown drive waveform, that is, the rate of change of voltage with respect to time, the driving efficiency can be increased and the driving time can be saved. By making the voltage change rate with time equal to, stable discharge can be performed.

Plasma Display Panel, PDP, Driving Method

Description

Driving method of plasma display panel {Driving method of plasma display panel}

1 is a driving waveform diagram of a conventional plasma display panel

2 is a driving waveform diagram of a plasma display panel with a time adjusted;

3 is a driving waveform diagram of a first embodiment of a method of driving a plasma display panel according to the present invention;

4 is a driving waveform diagram of a second embodiment of a method of driving a plasma display panel according to the present invention;

The present invention relates to a plasma display panel, and more particularly, to a method of driving a plasma display panel.

1 shows a drive waveform in a conventional manner.

Referring to FIG. 1, a driving method of a plasma display panel according to the related art is basically used to make driving waveforms of an AC plasma display panel using a lamp reset under the same conditions before address discharge. A "reset period", a "scan period" for addressing image data to a selected scan line, an ON cell that has undergone address discharge according to the image data, and Distinguish the discharge during the "sustain period" and the sustain period where each sustain pulse is applied only to the ON cell where the discharge has been performed. It consists of an "erase section" for erasing wall charges accumulated in the YZ electrode of the ON cell.

The present invention relates to a reset section among a section of a drive waveform of an AC plasma display panel using a lamp reset. The reset section is a section for initializing all cells of the plasma display panel. Initialization means to make all the wall charges generated in the previous discharge in the ON cell or the OFF cell without the discharge under the same condition so that the discharge can proceed normally. In this section, all cells are affected by the discharge. Therefore, in order to improve contrast, light generation should be suppressed as much as possible. In order to suppress light generation in the reset section, the most widely used method in the AC plasma display panel is a dark discharge reset using a voltage ramp. In the case of the waveform given in FIG. 1, the reset section is composed of a "set-up section" and a "set-down section". In the setup section, a voltage ramp is applied to the Y electrode and the X and Z electrodes are kept at 0V. In the set-down period, down-ramp is applied to the Y electrode, Vs is applied to the Z electrode, and 0 V is applied to the X electrode.

The above-described conventional lamp reset pulse is a drive waveform using a gentle voltage rise / fall characteristic, and is usually used for each subfield SF. However, since the number of sustain pulses is different in each subfield, although the wall charge state is different in each subfield after the sustain discharge is completed, the conventional reset pulse has the problem of consuming unnecessary time by using the same in all subfields.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a method of driving a plasma display panel which reduces time consumption by controlling a lamp reset pulse and sufficiently generates a discharge.

In order to achieve the above object, the present invention provides a method of driving a plasma display panel which is configured and driven by at least one subfield, each of the subfields at the time of the set-up period waveform in the reset period The rate of change of voltage and the rate of change of voltage with respect to the time of the set-down interval waveform are differently formed, and the rate of change of voltage with respect to the time of the setup interval waveform and the setdown in the reset period in the same subfield among the respective subfields. The present invention provides a method of driving a plasma display panel, wherein the rate of change of voltage with respect to time of the interval waveform is equal to each other.

A voltage change rate with respect to a time of a set-up section waveform of a reset section of the first subfield and a reset section of a reset section waveform of at least one subfield after the first subfield The present invention provides a method of driving a plasma display panel, wherein a voltage change rate with respect to a time in a set-up period is different.

Also, a voltage change rate with respect to a time of a set-down period of a reset section waveform of the first subfield and a setdown of a reset section waveform of at least one subfield after the first subfield ( A method of driving a plasma display panel is characterized in that a voltage change rate with respect to a time of a set-down period is formed differently.

The voltage change rate with respect to the time of the waveform is greater in the reset period of the at least one subfield after the first subfield than the voltage change rate with respect to the time of the waveform in the reset period of the first subfield. A driving method of a display panel is provided.

The voltage change rate with respect to the time of the waveform in the reset period is provided in accordance with the driving environment provides a driving method of the plasma display panel.

When the driving environment is a high temperature / low temperature environment, the voltage change rate with respect to the time of the waveform in the reset period of the first subfield is the voltage with respect to the time of the waveform in the reset period of the at least one subfield after the first subfield. The present invention provides a method of driving a plasma display panel which is formed larger than the rate of change.

The voltage magnitude of the waveform in the reset period of the first subfield and the voltage magnitude of the waveform in the reset period of the at least one subfield after the first subfield are the same.

Therefore, according to the present invention, it is possible to increase driving efficiency and save driving time by driving a plurality of slopes of a setup / setdown driving waveform, that is, a voltage change rate with respect to time.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

2 illustrates a driving waveform in which the time of the reset section is adjusted.

Referring to FIG. 2, in the setup operation and the set-down operation of the reset section, the driving time is changed by different subfields for each subfield. This saves time by operating the setup waveform driven by t ₀ to t ₂ , which is shorter than t ₀ . However, in this case, since the setup pulses with the same slope are used, if the driving time is reduced, the Vst voltage may be lower than the Vst1 (Vst2). In other words, instead of saving time, the setup discharge does not occur sufficiently. In addition, this method has a big disadvantage that it cannot be applied in setdown operation.

3 shows a first embodiment of the present invention which saves time of the present invention and also maintains a discharge voltage.

Referring to FIG. 3, the slopes of the driving waveforms of the reset periods, that is, the voltage change rate with respect to the time change, are different in different subfields SF. When the reset slope of the first subfield is different from the reset slope of the second subfield, the same voltage level may be maintained even if the driving time is different. In other words, the rate of change of voltage with respect to time is different, but the final voltage reached can be maintained.

In this case, the reset section of the subfield SF may be divided into a set-up section and a set-down section. The slope of the driving waveform of each set-up section may be different from each other. The slope of the driving waveform of the setdown period may be formed differently.

The first embodiment according to the present invention is a driving method for time reduction. The rate of change of voltage with respect to the time change of the reset waveform of the first subfield SF in response to the change in time from the subfield after the first subfield, that is, the second subfield to the nth subfield, It is larger than the rate of change of voltage with respect to the time change of the reset waveform. Thus, even if the driving time is reduced, sufficient discharge is generated by allowing the same voltage level to be reached faster.

Fig. 4 shows a second embodiment proposed in the present invention to keep the discharge voltage constant while being optimized according to the driving environment.

The second embodiment according to the present invention is a driving method under special driving conditions such as high temperature / low temperature. For example, the discharge can be stabilized by uniformly using the slope of the reset waveform of the subfield in normal temperature driving and by using a more gentle reset pulse in the high temperature / low temperature environment. That is, in addition to using a different slope for each subfield, a suitable slope may be selected and driven according to the driving environment.
3 and 4, the discharge can be stabilized by making the change rate with respect to the time of setup / setdown in the same subfield the same, that is, by setting the setdown slope according to the setup slope.

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such modifications are within the scope of the present invention. .

An effect of the method of driving the plasma display panel according to the present invention described above is as follows.

According to the present invention, by driving a plurality of slopes of the setup / setdown drive waveforms, that is, the voltage change rate with respect to time, the driving efficiency can be increased and the driving time can be saved.

Claims (7)

A driving method of a plasma display panel configured by driving at least one subfield, In each subfield, a voltage change rate with respect to a time of a set-up section waveform and a time change rate with respect to a time of a set-down section waveform are formed differently in a reset section, And a voltage change rate with respect to the time of the set-up period waveform and a time change rate with respect to the time of the set-down period waveform in the reset period in the same subfield among the respective subfields. delete delete The method of claim 1, The voltage change rate with respect to the time of the waveform is greater in the reset period of the at least one subfield after the first subfield than the voltage change rate with respect to the time of the waveform in the reset period of the first subfield. How to drive the display panel. The method of claim 1, And the voltage change rate with respect to the time of the waveform in the reset section is changed according to the driving environment. The method of claim 5, When the driving environment is a high temperature / low temperature environment, the voltage change rate with respect to the time of the waveform in the reset period of the first subfield is the voltage with respect to the time of the waveform in the reset period of the at least one subfield after the first subfield. A method of driving a plasma display panel, characterized in that it is formed larger than the rate of change. The method of claim 1, And the voltage magnitude of the waveform in the reset period of the first subfield and the voltage magnitude of the waveform in the reset period of the at least one subfield after the first subfield are the same.

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