KR20000027757A - Circuit for driving plasma display panel - Google Patents

Abstract

PURPOSE: A circuit for driving plasma display panel is provided to decrease a maximum output capacity to decrease a manufacturing cost by changing a level of a discharge maintaining pulse and automatically controlling a consumption power. CONSTITUTION: A video signal processing unit(10) processes a complex synchronous signal(CS) and generates an RGB data signal, a clock signal(CLK) and a synchronous signal(SYNC). An analog/digital converter(20) converts the RGB data processed in the video signal processing unit(10) into a digital data according to the clock signal(CLK). A timing controller(30) receives the synchronous signal(SYNC) from the video signal processing unit(10). A high voltage driving unit(40) drives a maintaining electrode(X) of a plasma display panel(100) according to a control signal and a discharge maintaining voltage of the timing controller(30). An AC/DC converter(50) converts an AC input into a DC voltage to generate a discharge maintaining voltage(Vs). A digital signal processing unit(60) receives the RGB data from the analog/digital converter(20) and drives a data driver(90).

Description

Plasma Display Panel Driving Circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flat panel display device, and more particularly, to a driving circuit of a plasma display panel capable of automatically controlling power by varying a voltage applied during discharge.

In order to drive the plasma display panel, which is a flat panel display device, a high voltage DC voltage is used. In order to display the plasma display panel in all white, a large capacity of power must be supplied to the plasma display panel, so that the design specification of the power supply unit is increased.

In order to solve this problem, the automatic power control method is adopted. However, the conventional automatic power control method uses a method of reducing the number of pulses during the sustain discharge period as shown in FIG.

In general, when a plasma display panel is driven by dividing one frame into a plurality of subframes, for example, eight subframes SF1-SF8, the address discharge and sustain discharge AR1 is performed for each subframe SF1-SF8. , ST1)-(AR8, ST8).

At this time, when the average picture level (APL) of the input video signal is detected and the average picture level of the input video signal is determined to be higher than a predetermined level, the sustain discharge pulse for sustain discharge of each subframe. Reduce the number of (sustain pulses). As a result, the number of discharges is relatively decreased, thereby lowering the capacity of power required for discharge.

However, the conventional automatic power control method reduces the number of sustain discharge pulses when the average image level is above a certain level, thereby reducing the capacity of the supply power required for discharging, and requires complicated logic control to control this. As a result, there was a problem that the cost increases.

The present invention is to solve the problems of the prior art as described above, and has an automatic power control function to control the power required for the discharge by the voltage of the pulse applied during the sustain discharge instead of adjusting the number of sustain discharge pulses. It is to provide a driving circuit of the plasma display panel.

In addition, another object of the present invention is to detect the average image level of the input video signal to provide a sustain discharge pulse of a relatively low voltage when higher than a certain level, and to generate power by a sustain discharge pulse of a normal voltage It is to provide a driving circuit of the plasma display panel.

In addition, another object of the present invention is to control the power required for sustain discharge by the voltage of the sustain discharge pulse, it is possible to reduce the capacity of the maximum output power, thereby providing a driving circuit of the plasma display panel that can reduce the cost It is.

1 is a view for explaining a conventional automatic power control method,

2 is a detailed view of a driving circuit of a plasma display panel having an automatic power control function according to an embodiment of the present invention;

(Explanation of symbols for the main parts of the drawing)

10: video signal processing unit 20: analog / digital conversion unit

30: timing controller 40: high voltage drive unit

50: AC-DC converter 60: digital signal processing unit

70: automatic power control means 80: scan driver

90: data driver 100: plasma display panel

In order to achieve the above object of the present invention, the present invention comprises a video signal processing unit for processing a composite synchronization signal applied from the outside; An analog / digital converter for converting analog R, G, and B data signals processed by the video signal processor into digital data; An AC-DC converter converting an AC input into a DC voltage to generate a multilevel discharge sustain voltage to the high voltage driver; A driving circuit of a plasma display panel comprising a high voltage driving unit for driving a sustain electrode of a plasma display panel by a discharge holding voltage from the AC-DC converter, the average image of digital data converted through the analog / digital converter. Detect the level, select one of the multi-level discharge holding voltage generated from the AC-DC converter according to the detection result, and provide the selected voltage to the high voltage driver to automatically adjust the power to discharge the power. A driving circuit for a plasma display panel having means is provided.

The automatic power control means includes: comparing means comprising a comparing unit for inputting digital data converted through the analog / digital converter and comparing the input digital video signal with a preset signal; Control means comprising a controller for inputting a comparison signal generated from said comparison means to generate a control signal; And switching means composed of a switch for selectively switching one of the multilevel discharge holding voltages generated from the AC-DC converter by the control signal generated by the control means to the high voltage driver.

The multiple levels of the discharge holding voltage generated from the AC-DC converter are set to a voltage having a level lower than the normal discharge holding voltage.

The switching means of the automatic power control means controls the normal discharge holding voltage among the multi-level discharge holding voltages generated from the AC-DC converter when the average image level of the input video signal detected by the comparing means is higher than the set level. Switching is selected at a discharge sustaining voltage lower than the level, and when it is low, switching is selected at a normal discharge sustaining level.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a driving circuit of a plasma display panel having an automatic power control function according to an embodiment of the present invention.

Referring to FIG. 1, a driving circuit of a plasma display panel of the present invention processes a complex synchronization signal CS applied from the outside to generate R, G, and B data signals, a clock signal CLK, and a synchronization signal SYNC. A video signal processor 10; An analog / digital converter 20 for converting analog R, G, and B data signals processed by the video signal processor 10 into digital data in accordance with a clock signal CLK; A timing controller (30) for inputting a synchronization signal (SYNC) from the video signal processor (30); A high voltage driver 40 for driving the sustain electrode X of the plasma display panel 100 by the control signal and the discharge sustain voltage from the timing controller 30 is provided.

In addition, the driving circuit of the plasma display panel includes an AC-DC converter 50 for converting an AC input into a DC voltage to generate a multilevel discharge sustain voltage Vs by the high voltage driver 40; And a digital signal processor 60 for inputting R, G, and B digital data from the analog / digital converter 20 to drive the data driver 90. The scan driver 80 generates a signal for driving the scan electrodes Y1-Yn of the plasma display panel 100.

In the plasma display panel 100, a plurality of scan electrodes Y1-Yn are arranged at predetermined intervals and driven by a signal applied from the scan driver 80, and a plurality of sustain electrodes X are connected to the scan electrodes. A sustain voltage Vs applied from the high voltage driver 40 is commonly applied by being arranged in parallel with each other at a predetermined interval in parallel with (Y1-Yn) and driven by the scan electrode (Y1-Yn) or the sustain electrode ( The address electrodes A1-Am arranged at regular intervals to intersect X) are driven by a signal applied from the data driver 90.

In addition, the driving circuit of the plasma display panel of the present invention detects the average image level of the digital data converted through the analog / digital converter 20, and the multiple generated from the AC-DC converter 50 according to the detection result It selects one of the discharge holding voltage (Vs1, Vs2, Vs3) of the level, and provides the selected voltage to the high voltage driver 40 is provided with automatic power control means 70 for automatically adjusting the power during discharge.

The automatic power adjusting means (70) comprises: comparing means (71) comprising a comparator for inputting digital data converted through the analog / digital converter (20) and comparing the input digital video signal with a preset signal; Control means (72) comprising a controller for inputting a comparison signal generated from said comparing means to generate a control signal; And a switching means 73 made up of a switch for selectively switching one of the multilevel discharge holding voltages generated from the AC-DC converter by the control signal generated from the control means to the high voltage driver 40.

The operation of the driving circuit of the plasma display panel according to the present invention having the configuration as described above is as follows.

When the composite synchronization signal CS is applied from the outside, the video signal processor 10 processes the composite synchronization signal to generate the R, G, and B data signals, the clock signal CLK, and the synchronization signal SYNC. The analog / digital converter 20 converts the analog R, G, and B data signals processed by the video signal processing unit 10 into digital data in accordance with a clock signal CLK, so that the automatic power control means 70 and Provided to the digital signal processing unit 60, respectively.

On the other hand, the AC-DC converter 50 converts an AC input into a DC voltage to generate a multilevel discharge discharge voltage Vs to the high voltage driver 40. At this time, the discharge holding voltage (Vs1-Vs3) generated from the AC-DC converter 50 is appropriately set to a voltage lower than the normal discharge holding voltage (Vs).

At this time, the automatic power control means 70 compares the average image level of the digital data converted by the analog / digital converter 20 with the level already set and the average image level of the input video signal by comparing means 71. Is detected.

Automatic power control means 70 is a multi-level discharge holding voltage (Vs1, Vs2) generated from the AC-DC converter 50 through the control means 72 according to the comparison detection signal applied from the comparison means 71 To generate a control signal CS for selecting one of the signals Vs3 and Vs3).

The control means 72 selects one of the multilevel discharge holding voltages Vs1, Vs2, and Vs3 generated from the AC-DC converter 50 according to the average image level of the video signal detected by the comparing means 71. A control signal CS for selecting is generated by the switching means 73. At this time, when the brightness of the input video signal is high and the average image level is higher than the preset appropriate level, the discharge holding voltages Vs1, Vs2, A control signal CS for selecting a discharge holding voltage of a level lower than a normal discharge holding voltage of Vs3) is generated to the switching means 73.

The switching means 73 is switched according to the control signal CS to select the discharge holding voltage having a level lower than the normal discharge holding voltage among the multi-level discharge holding voltages, and provide it to the high voltage driver 40.

On the other hand, when the brightness of the input video signal is low and the average image level is lower than the predetermined appropriate level, the control signal CS for selecting the normal discharge holding voltage among the multilevel discharge holding voltages Vs1, Vs2, and Vs3. Is generated by the switching means (73).

Accordingly, the switching means 73 is switched in accordance with the control signal CS to select the normal discharge holding voltage of the multi-level discharge holding voltage and provide it to the high voltage driver 40.

For example, assuming that the normal discharge holding voltage (Vs) is 160 V, when the average image level is high, the voltage is lowered to a low discharge holding voltage, for example, a discharge holding voltage of 140 V, among the multi-level discharge holding voltages. By doing so, it automatically controls and supplies power.

Therefore, the high voltage driver 40 provides the discharge sustain voltage to the scan driver 80 to convert the discharge sustain voltage into a discharge sustain pulse between the sustain electrodes X and the scan electrodes Y1-Yn of the plasma display panel 100 in the discharge sustain section. To be applied to the plasma display panel 100.

In addition, if the plasma display driving circuit of the present invention adds an additional encoder instead of the microcomputer, which is the control means 72 of the automatic power control means 70, the direct current is maintained by the output signal of the comparing means 71. You can also select the voltage.

As described in detail above, according to the present invention, the power consumption is automatically changed by changing the level of the discharge holding pulse instead of the method of automatically controlling the power by changing the number of discharge holding pulses in the conventional discharge holding section. By controlling, not only can the cost be reduced by reducing the maximum output capacity, but also the effect that the number of parts can be reduced by simply configuring the power control circuit.

In addition, this invention can be implemented in various changes within the range which does not deviate from the summary.

Claims (4)

A video signal processing unit for processing a complex synchronization signal applied from the outside; An analog / digital converter for converting analog R, G, and B data signals processed by the video signal processor into digital data; An AC-DC converter converting an AC input into a DC voltage to generate a multilevel discharge sustain voltage to the high voltage driver; In the driving circuit of the plasma display panel having a high voltage driving unit for driving the sustain electrode of the plasma display panel by the discharge holding voltage from the AC-DC converter, Detects an average image level of the digital data converted through the analog / digital converter, selects one of the multilevel discharge holding voltages generated from the AC-DC converter according to the detection result, and transfers the selected voltage to the high voltage driver. And an automatic power control means for automatically adjusting power during discharge. The method of claim 1, wherein the automatic power control means A comparison unit comprising a comparison unit for inputting the digital data converted through the analog / digital converter and comparing the input digital video signal with a preset signal; Control means comprising a controller for inputting a comparison signal generated from said comparison means to generate a control signal; And a switching means comprising a switch for selectively switching one of the multilevel discharge holding voltages generated from the AC-DC converter to the high voltage driver by a control signal generated from the control means. Driving circuit. 3. The driving circuit of a plasma display panel according to claim 1 or 2, wherein the multiple levels of the discharge holding voltage generated from said AC-DC converter are set at a voltage lower than a normal discharge holding voltage. The multi-level discharge holding voltage generated from the AC-DC converter according to claim 2, wherein the switching means of the automatic power control means comprises a plurality of levels of discharge sustain voltage generated from the AC-DC converter when the average image level of the input video signal detected by the comparing means is higher than the set level. And switching to a discharge holding voltage lower than the level of the normal discharge holding voltage, and switching to a normal discharge holding level if the level is low.