KR100658347B1 - Driving Apparatus of Plasma Display Panel - Google Patents

Abstract

The present invention relates to a driving device of a plasma display panel. The apparatus for driving a plasma display panel according to the present invention includes a) a main controller for controlling the driving of each electrode so that image data converted according to the driving of the plasma display panel is displayed, and b) a sustain pulse is applied to the scan electrode under the control of the main controller. C) a second sustain driver for applying a sustain pulse alternately with the sustain pulse applied to the scan electrode to the sustain electrode under the control of the main controller; and d) a sensing detection signal by sensing a state of the driving circuit. A sensing unit for outputting a signal; and e) a protection control unit for receiving a sensing detection signal from the sensing unit and outputting a shutdown signal when the sensing detection signal indicates an abnormal state, and f) receiving a shutdown signal from the protection control unit. At least one output terminal of the driver or the second sustain driver is connected to ground. And a drive unit down. The present invention can protect the panel by sensing the abnormal state of the plasma display device and controlling the operation of the panel.

Plasma, display, panel, driven, temperature

Description

Driving apparatus for plasma display panel {Driving Apparatus of Plasma Display Panel}

1 is a block diagram schematically illustrating an apparatus for driving a plasma display panel according to an exemplary embodiment of the present invention.

FIG. 2 is a diagram illustrating in detail a configuration of a sustain driver and a shutdown driver in the driving apparatus of the plasma display panel shown in FIG. 1.

The present invention relates to a plasma display device, and more particularly, to a plasma display panel driving device capable of detecting a state of a plasma display device and protecting a panel and a device in an abnormal state.

A typical plasma display panel is driven by repetition of a reset section for uniformly accumulating wall charges, an addressing section for selecting a cell to be turned on, and a sustain section for maintaining discharge of the selected cell. Is done.

In the sustain section of the conventional plasma display panel driving, the luminance is increased by simply increasing the number of sustain pulses for gray scale expression. Increasing the number of sustain pulses in order to increase the brightness increases the internal temperature of the plasma display panel, causing cracks in the panel glass, and increasing heat generation in component elements such as switching elements of the driving circuit. The parts may be destroyed.

That is, when the number of sustain pulses is increased to increase luminance, power consumption increases and temperature increases, and the burden on switching elements and component elements increases, which adversely affects the reliability and operation of the plasma display panel or the driving circuit. This happens.

In addition, the driving circuit of the plasma display panel uses a plurality of voltage sources, and the voltage supplied by these voltage sources must be kept constant. However, if the voltage supplied by the voltage source is not maintained for some reason, the driving circuit may not operate correctly.

In addition, the driving circuit of the plasma display panel is very sensitive to the influence of noise because it transmits and processes digital signals at high speed. Therefore, when noise is generated by a predetermined cause and the noise is applied to the driving circuit, the driving circuit cannot perform the correct driving operation.

The present invention is to solve the above problems, the plasma display that can control the driving of the sustain pulse by detecting the internal temperature of the plasma display panel, the temperature of the component elements such as switching elements, the noise level and the steady state of the power supply It is for providing a driving device of the panel.

In order to achieve the above object, the apparatus for driving a plasma display panel according to the present invention includes a) a main controller for controlling driving of each electrode so that image data converted according to the driving of the plasma display panel is displayed, and b) under the control of the main controller. A first sustain driver for applying a sustain pulse to the scan electrode; c) a second sustain driver for applying a sustain pulse alternately with the sustain pulse applied to the scan electrode to the sustain electrode under the control of the main controller; d) a state of the drive circuit A sensing unit for detecting a sensing signal and outputting a sensing detection signal, e) a protection control unit for receiving a sensing detection signal from the sensing unit and outputting a shutdown signal when the sensing detection signal indicates an abnormal state; When the input unit receives one or more output terminals of the first sustain driver or the second sustain driver, And a shut-down driving unit to be coupled and de.
Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 is a block diagram of a driving apparatus of a plasma display panel for circuit protection according to the present invention. As shown in FIG. 1, a driving apparatus of a plasma display paran for circuit protection according to the present invention includes a main controller 110, a first sustain driver 120, a second sustain driver 130, a sensing unit 140, And a protection controller 150 and a shut down driver 160.
<Main control section>
The main controller 110 controls the driving of each electrode so that the image data converted according to the driving of the plasma display panel is displayed.
<First sustain drive section>
The first sustain driver 120 applies a sustain pulse to the scan electrode under the control of the main controller 110.
<Second sustain drive section>
The second sustain driver 130 applies a sustain pulse, which is alternated with the sustain pulse applied to the scan electrode, to the sustain electrode under the control of the main controller 110.
<Sensing department>
The sensing unit 140 includes a panel temperature sensor, a device temperature sensor, a noise level sensor, and a power state monitoring sensor to detect and sense a panel temperature, device temperature, noise level, and power state. Output the sense signal.
<Protection control section>
The protection controller 150 receives the sensing detection signal from the sensing unit 140 and outputs a shutdown signal when the sensing detection signal indicates an abnormal state.
<Shut down drive part>
When the shutdown driver 160 receives the shutdown signal from the protection controller 150, an output terminal of the first sustain driver 120 or the second sustain driver 130 is temporarily or completely connected to the ground. In this way, the sustain pulse output from the sustain driver can be controlled.
That is, when the protection controller 150 determines that the sensing detection signal input from the sensing unit 140 indicates an abnormal state, the protection controller 150 outputs a shutdown signal, and the shutdown driver 160 receives the shutdown signal to receive the first sustain driver. At least one output terminal of the 120 or the second sustain driver 130 is temporarily or completely connected to the ground.
At this time, the noise level detection sensor includes a comparator (not shown). That is, when the input noise level is greater than the reference level by comparing the input noise level with the reference level, the protection controller 150 outputs a shutdown signal to cause the shutdown driver 160 to output the first sustain driver ( 120 or the output terminal of the second sustain driver 130 is temporarily or completely connected to ground.
Sensors for power status monitoring also include comparators. That is, when the input power is greater than the reference level by more than the reference level, the protection controller 150 outputs a shutdown signal to cause the shutdown driver 160 to output the first sustain driver 120 or the second sustain. The output terminal of the driver 130 is temporarily or completely connected to the ground.
2 is a circuit diagram of a shutdown driver according to the present invention. As shown in FIG. 2, the shutdown driver 160 according to the present invention includes two switching elements Q1 and Q2 connected in series. That is, when the protection controller 150 receives a sensing detection signal indicating an abnormal state from the sensing unit 140, the protection controller 150 outputs a shutdown signal to the shutdown driver 160 to output the shutdown driver 160. The switching elements Q1 and Q2 are turned on to prevent the sustain pulse from being applied to the panel. In this way, the sustain pulse is not applied to the panel, thereby protecting the panel and the driving circuit in the event of an increase in temperature, noise, and an abnormal state of the power supply.
The shutdown driver 160 may be connected to the Y electrode to control the sustain pulse applied to the Y electrode, or may be connected to the Z electrode to control the sustain pulse applied to the Z electrode. At this time, the Z electrodes do not need to be connected to each Z electrode because they are commonly tied, but since the Y electrodes are not tied to each other, each Y electrode should be connected to the shutdown driver 160.
Among the switching elements Q1 and Q2 included in the shutdown driver 160, the gate terminal of the first switching element Q1 is connected to the protection controller 150, and the drain terminal is connected to the Y electrode or the Z electrode. The gate end of the second switching element Q2 included in the shutdown driver 160 is connected to the protection controller 150, the drain end is connected to the ground, and the source end is connected to the source end of the first switching element Q1. . In the embodiment of the present invention, the shutdown driver 160 includes two switching elements, but only one switching element is possible.
In the embodiment of the present invention, the shutdown driver 160 includes two switching elements because of a shutdown diode due to a body diode in the first switching element Q1 and the second switching element Q2. This is to prevent malfunction of the 160.
In other words, because the applied sustain pulse does not exactly change at the sustain voltage or ground level, the overshoot or undershoot occurs, so that the Y or Z electrodes are caused by the overshoot or undershoot. This is to prevent the ground level from reaching this level.

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As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive.

The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the present invention can protect the panel and the driving circuit at the same time by sensing the abnormal state of the plasma display device and controlling the operation of the panel.

Claims (9)

delete A main controller which controls driving of each electrode so that image data converted according to driving of the plasma display panel is displayed; A first sustain driver configured to apply a sustain pulse to a scan electrode according to the control of the main controller; A second sustain driver configured to apply a sustain pulse alternately with the sustain pulse applied to the scan electrode to the sustain electrode under the control of the main controller; A sensing unit configured to detect a state of the driving circuit and output a sensing detection signal; A protection controller which receives a sensing detection signal from the sensing unit and outputs a shutdown signal when the sensing detection signal indicates an abnormal state; And And a shutdown driver configured to connect one or more output terminals of the first sustain driver or the second sustain driver to ground when the shutdown signal is input from the protection controller. The method of claim 2, And the shutdown driver causes the output terminal of at least one of the first sustain driver and the second sustain driver to be temporarily or completely connected to ground. The method of claim 2, The sensing unit includes at least one of a panel temperature sensing sensor, a device temperature sensing sensor, a noise level sensing sensor, and a power state monitoring sensor. delete delete delete delete delete

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