KR20050034322A - Power control apparatus on plasma display panel and method thereof - Google Patents

Abstract

The present invention relates to a power supply control apparatus for a plasma display panel and a method thereof. The present invention detects an addressing voltage output from a power supply unit, compares the detected voltage value with a pre-stored first reference voltage value, adjusts the detected voltage value based on the comparison result, and adjusts the adjusted voltage value. Feedback to the power supply unit to control the output voltage of the power supply unit. In this way, the PDP AC power is turned on and the AC power is turned on during the initial driving to quickly remove high frequency components generated from the DC output voltage value, thereby preventing damage to the driving circuit and preventing inrush current generation.

Description

Power control device of plasma display panel and method thereof {POWER CONTROL APPARATUS ON PLASMA DISPLAY PANEL AND METHOD THEREOF}

The present invention relates to a plasma display panel (PDP), and more particularly, to an apparatus for controlling a power supply of a plasma display panel and a method thereof.

Recently, flat display devices such as a liquid crystal display (LCD), a field emission display (FED), and a plasma display panel have been actively developed.

Among these flat panel display devices, the plasma display panel has advantages of high luminance, high luminous efficiency, and wide viewing angle, compared to other flat panel display devices. Therefore, the plasma display panel is in the spotlight as a display device to replace a conventional cathode ray tube (CRT) in a large display device of 40 inches or more.

A plasma display panel is a flat panel display device that displays characters or images using plasma generated by gas discharge, and tens to millions or more of pixels are arranged in a matrix form according to their size. The plasma display panel is classified into a direct current type and an alternating current type according to a shape of a driving voltage waveform applied and a structure of a discharge cell.

In the DC plasma display panel, the electrode is exposed without the discharge space insulated, so that the current flows in the discharge space while the voltage is applied, and there is a disadvantage in that a resistance for current limitation must be made. On the other hand, in the AC plasma display panel, the dielectric layer covers the electrode, so that the current is limited by the formation of a natural capacitance component, and the electrode is protected from the impact of ions during discharge.

In order to satisfy the power factor, the PDP power supply is provided with a power factor correction (PFC) circuit that compensates for power factor by receiving power from an input AC power source and provides stable power to the PDP. do.

That is, when the AC rated voltage is input to the PDP power supply and the basic power is applied to each device, a signal for starting the PFC, that is, a signal for turning on a relay in the PDP power supply, is output from the device performing the image signal processing. The output is input to the PDP power supply.

Then, the PDP power supply outputs the power for the image signal, outputs the power for the driving driver switch, and outputs the driving power for driving the PDP so that the PDP can perform a normal operation.

Figure 1 shows such a conventional PDP power supply circuit.

As shown in FIG. 1, when power is applied to the primary side through the PFC 110, the voltage VA of the DC output terminal of the secondary side is increased, and the voltage of the output terminal is detected through the feedback circuit 120. The detected voltage is transmitted to the PWM 140 through the comparator 130. The PWM 140 then adjusts the voltage by changing the output according to the fed back voltage value.

However, in such a conventional PDP power supply, when AC power is input and the first voltage VA is output, overshoot occurs in the voltage VA, and thus a high frequency component exists. That is, the feedback circuit 120 inputs the comparator 130 by stepping down the DC output voltage VA to the comparator 130, since the voltage starts at 0 V and rises to the reference voltage of the comparator 130. Even if an overshoot occurs in the output voltage VA due to the difference in voltage, it takes some time to reduce the output voltage VA. In addition, the feedback circuit 120 feeds back the output voltage VA through voltage distribution using a resistor. When the output voltage VA is equal to or greater than the reference voltage, the voltage input to the comparator 130 is the reference voltage of the comparator 130. Since it is higher, the output voltage VA cannot be approximated to the reference voltage.

This high frequency component of the output voltage not only reduces the life of the circuit but also causes an instant inrush current (inrush current), there is a problem that the product reliability is lowered.

An object of the present invention is to provide a PDP power supply control apparatus and method for removing high frequency components generated during initial startup by using a microcomputer in a circuit for feeding back the DC output of the PDP power supply.

According to an aspect of the present invention, a power supply control apparatus for a plasma display panel includes a plurality of address electrodes and a plurality of first and second electrodes arranged to intersect the address electrodes. A device for controlling a power supply unit for supplying DC power to a

A voltage detector detecting a voltage output from the power supply and outputting a digital signal corresponding thereto; A voltage determination unit comparing the digital signal output from the voltage detection unit with a digital signal corresponding to a predetermined reference voltage; And a voltage controller configured to output a signal for controlling the DC output voltage of the power supply unit according to the output signal of the voltage determination unit.

In this case, the voltage detector,

A voltage used for addressing the plasma display panel is detected among the output voltages of the power supply unit.

The power supply unit may include a power supply unit, a transformer for converting power of the power supply unit into a DC power of a form desired by a load, and transmitting the feedback voltage to a secondary side, and feedback inputting a feedback voltage to the primary side of the transformer. A circuit unit, a comparison unit comparing the voltage input from the feedback circuit unit with a predetermined reference voltage, and a PWM unit controlling the power output to the secondary side by adjusting an on / off time of a switch according to an output signal of the comparing unit,

The voltage control unit,

A signal for controlling the reference voltage of the comparator is output to remove the high frequency component of the DC output voltage of the secondary side.

In addition, the plasma display panel according to an aspect of the present invention includes a power supply unit for supplying a direct current (DC) power; A driver to drive the plasma display panel using the voltage and current supplied from the power source; A logic unit configured to output the image data according to the output control signal; And a panel unit including a plurality of address electrodes and a plurality of first electrodes and second electrodes arranged to intersect the address electrodes, wherein the panel unit displays the output image data.

The logic unit,

Detects the voltage output from the power supply unit, converts it into a digital signal, and outputs a signal for controlling to remove the high frequency component of the DC output voltage of the power supply unit by comparing the digital signal with a digital signal corresponding to a predetermined first reference voltage. It includes a power supply control device.

In this case, the power supply unit is a power supply unit, a transformer for converting the power supply of the power supply unit to the DC power of the type desired by the load and transmits to the secondary side, feedback to feed the feedback voltage to the secondary side of the power supply to the primary side of the transformer A circuit unit, a comparison unit comparing the voltage input from the feedback circuit unit with a second reference voltage, and a PWM unit controlling the power output to the secondary side by adjusting an on / off time of a switch according to an output signal of the comparison unit,

The power control device,

The voltage of the feedback circuit is detected and compared with the first reference voltage, and the detected voltage value is adjusted according to the comparison result to be supplied to the second reference voltage of the comparator.

In addition, the power control method of the plasma display panel according to an aspect of the present invention is a direct current (DC) to the plasma display panel device including a plurality of address electrodes and a plurality of first electrodes and second electrodes arranged to intersect the address electrodes. ) A method of controlling a power supply unit for supplying power.

a) detecting and converting an addressing voltage output from the power supply unit into a digital value; b) comparing the voltage value converted into the digital value with a digital value corresponding to a first stored reference voltage; And c) adjusting the detected digital voltage value based on the comparison result, and outputting a signal for feeding back the adjusted voltage value to the power supply unit to control an output voltage of the power supply unit.

In this case, the power supply unit is a power supply unit, a transformer for converting the power supply of the power supply unit to the DC power of the type desired by the load and transmits to the secondary side, feedback to feed the feedback voltage to the secondary side of the power supply to the primary side of the transformer A circuit unit, a comparison unit comparing the voltage input from the feedback circuit unit with a second reference voltage, and a PWM unit controlling the power output to the secondary side by adjusting an on / off time of a switch according to an output signal of the comparison unit,

Step a) and b),

Detecting a voltage of the feedback circuit and comparing the voltage with the first reference voltage;

C),

The adjusted voltage value is supplied to the second reference voltage of the comparator.

C),

When the detection voltage value is less than the first reference voltage, the detection voltage is decreased by the first reference voltage and output. When the detection voltage value and the first reference voltage are the same, the detection voltage value is output as it is. If the detected voltage value is greater than the first reference voltage, the detected voltage is increased by the first reference voltage and output.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

2 is a detailed internal configuration diagram of a plasma display panel according to an embodiment of the present invention.

As shown in FIG. 2, the plasma display panel device according to an exemplary embodiment of the present invention includes a power supply unit 100, a driving unit 200, an image unit 300, a logic unit 400, and a panel unit 500. The logic unit 400 includes a discharge failure detection device 410 incorporating a microprocessor, and the driver 400 generates a Y pulse generator Y generating a pulse applied to the scan electrode (Y electrode). A pulse generator and an X pulse generator for generating a pulse applied to the sustain electrode (X electrode) and a column driver for generating a pulse applied to the address electrode are included.

In detail, first, the power supply unit 100 supplies a voltage and a current having a predetermined size to each component such as the driving unit 200, the imaging unit 300, the logic unit 400, and the panel unit 500 of the plasma display panel. The driving unit 200 drives the plasma display panel by using the voltage and current supplied from the power supply unit 100.

The image unit 300 outputs image data and a control signal according to a signal input from the outside, and the logic unit 400 outputs image data including a character and an image according to the output control signal, and the panel unit 500. ) Restores the output image data.

In addition, the power supply control device 410 of the plasma display panel according to the embodiment of the present invention detects the addressing voltage value from the power supply unit 100, and generated at the DC voltage output unit of the power supply unit 100 at initial startup based on this value. Remove high frequency components.

Next, the operation of the PDP power control device 410 according to the embodiment of the present invention will be described in detail with reference to FIGS. 3 to 5.

3 shows an internal configuration of a power control device 410 according to an embodiment of the present invention.

As shown in FIG. 3, the power control apparatus 410 of the plasma display panel according to the embodiment of the present invention includes a voltage detector 411, a voltage determiner 412, and a voltage controller 413.

The voltage detector 411 measures the addressing voltage output value of the power supply unit 100 and converts it into a digital signal. The voltage determiner 412 compares the digital value of the addressing voltage converted by the voltage detector 411 with a reference voltage. Output the signal accordingly. The voltage controller 413 outputs a signal for controlling the DC output voltage to the power supply unit 100 according to the output signal of the voltage determination unit 412.

4 is a view showing a connection state of the power control device 410 and the power supply unit 100 according to an embodiment of the present invention, Figure 5 shows the operation of the power control device 410 according to an embodiment of the present invention. Flowchart.

As shown in FIG. 4, the power control device 410 according to the embodiment of the present invention receives a voltage division value of the circuit 150 that feeds back the DC output voltage VA of the power supply unit 100. The high frequency component of the DC voltage output value of the power supply unit 100 is removed by adjusting the reference voltage of the comparator 130 of the power supply unit 100 based on the voltage value.

Referring to the operation of the power control device 410 according to an embodiment of the present invention in detail as follows.

As shown in FIG. 5, when the AC power of the PDP is turned on, the voltage detector 411 of the power controller 410 detects the maximum value of the addressing voltage VA among the DC output voltages of the power supply unit 100 (S510). ). Next, the voltage determination unit 412 compares the target voltage required for outputting the addressing voltage in the steady state with the voltage detected by the voltage detection unit 411.

In this case, when the detected voltage value is smaller than the target voltage (S520), the voltage controller 413 controls the detected voltage value and outputs a voltage lower than the detected voltage as a reference voltage of the comparator 130 of the power supply unit 100 (S530). 540). The comparator 130 then outputs a signal for raising the addressing voltage VA to the PWM 140.

If the detected voltage value is not smaller than the target voltage, it is determined whether it is the same as the target voltage value (S550). If the detected voltage value and the target voltage value are the same, the comparator of the power supply unit 100 remains unchanged without changing the detected voltage value. Output to the reference voltage of 130 (S540).

If the detected voltage value and the target voltage value are not the same in step S550 above, since the detected voltage value is larger than the target voltage value, the detected voltage value is controlled to output a voltage higher than the detected voltage as the reference voltage of the comparator 130 ( S560, S540). The comparator 130 then outputs a signal for lowering the addressing voltage VA to the PWM 140.

In addition, when a predetermined time has elapsed after outputting the voltage to the comparator 130 (S570), the process returns to the addressing voltage VA detection step S510 and repeats the above process.

Through such a process, the reference voltage of the comparator 130 is kept constant to quickly remove the high frequency component generated from the DC output voltage value of the power supply unit 100.

Although the preferred embodiment of the present invention has been described in detail above, the present invention is not limited thereto, and various other changes and modifications are possible.

As described above, when the power control device of the present invention is used, the PDP AC power is turned on and the AC power is turned on during initial driving to quickly remove high frequency components generated from the DC output voltage value, thereby preventing damage to the driving circuit and generating inrush current. Can be prevented. In addition, subsequent DC output voltage values can be maintained at a uniform potential.

1 is a diagram illustrating a power supply circuit of a conventional plasma display panel.

2 is a detailed internal configuration diagram of a plasma display panel according to an embodiment of the present invention.

3 is a diagram illustrating an internal configuration of a power control device according to an embodiment of the present invention.

4 is a view showing a connection state of a power control device and a power supply according to an embodiment of the present invention.

5 is a flowchart illustrating an operation process of a power control apparatus according to an embodiment of the present invention.

Claims (8)

An apparatus for controlling a power supply unit for supplying direct current (DC) power to a plasma display panel device comprising a plurality of address electrodes and a plurality of first and second electrodes arranged to intersect the address electrodes. A voltage detector detecting a voltage output from the power supply and outputting a digital signal corresponding thereto; A voltage determination unit comparing the digital signal output from the voltage detection unit with a digital signal corresponding to a predetermined reference voltage; And A voltage controller configured to output a signal to control the DC output voltage of the power supply unit according to the output signal of the voltage determination unit Power control device of the plasma display panel comprising a. The method of claim 1, The voltage detector, Detecting a voltage used for addressing the plasma display panel among the output voltages of the power supply unit Power control device of plasma display panel. The method of claim 1, The power supply unit includes a power supply unit, a transformer for converting the power supply of the power supply unit to the DC power of the form desired by the load to transfer to the secondary side, a feedback circuit unit for feeding back the feedback voltage to the primary side of the transformer power supply; Comparing unit for comparing the voltage input from the feedback circuit unit with a predetermined reference voltage and PWM unit for controlling the power output to the secondary side by adjusting the on-off time of the switch according to the output signal of the comparator, The voltage control unit, Outputting a signal for controlling the reference voltage of the comparator to remove the high frequency component of the DC output voltage of the secondary side; Power control device of plasma display panel. A power supply unit supplying direct current (DC) power; A driver to drive the plasma display panel using the voltage and current supplied from the power source; A logic unit configured to output the image data according to the output control signal; And A plurality of address electrodes and a plurality of first electrodes and second electrodes arranged to intersect the address electrodes, and a panel unit for displaying the output image data, The logic unit, Detects the voltage output from the power supply unit, converts it into a digital signal, and outputs a signal for controlling to remove the high frequency component of the DC output voltage of the power supply unit by comparing the digital signal with a digital signal corresponding to a predetermined first reference voltage. Power control unit Plasma display panel comprising a. The method of claim 4, wherein The power supply unit includes a power supply unit, a transformer for converting the power supply of the power supply unit to the DC power of the form desired by the load to transfer to the secondary side, a feedback circuit unit for feeding back the feedback voltage to the primary side of the transformer power supply; Comparing unit for comparing the voltage input from the feedback circuit unit and the second reference voltage and PWM unit for controlling the power output to the secondary side by adjusting the on-off time of the switch according to the output signal of the comparator, The power control device, The voltage of the feedback circuit is detected and compared with the first reference voltage, and the detected voltage value is adjusted according to the comparison result to supply the second reference voltage to the comparison unit. Plasma display panel. A method of controlling a power supply unit for supplying direct current (DC) power to a plasma display panel device including a plurality of address electrodes and a plurality of first and second electrodes arranged to intersect the address electrodes. a) detecting and converting an addressing voltage output from the power supply unit into a digital value; b) comparing the voltage value converted into the digital value with a digital value corresponding to a first stored reference voltage; And c) adjusting the detected digital voltage value based on the comparison result and outputting a signal for feeding back the adjusted voltage value to the power supply unit to control an output voltage of the power supply unit; Power control method of the plasma display panel comprising a. The method of claim 6, The power supply unit includes a power supply unit, a transformer for converting the power supply of the power supply unit to the DC power of the form desired by the load to transfer to the secondary side, a feedback circuit unit for feeding back the feedback voltage to the primary side of the transformer power supply; Comparing unit for comparing the voltage input from the feedback circuit unit and the second reference voltage and PWM unit for controlling the power output to the secondary side by adjusting the on-off time of the switch according to the output signal of the comparator, Step a) and b), Detecting a voltage of the feedback circuit and comparing the voltage with the first reference voltage; C), Supplying the adjusted voltage value to a second reference voltage of the comparison unit. Power control method of plasma display panel. The method according to claim 6 or 7, C), When the detection voltage value is less than the first reference voltage, the detection voltage is decreased by the first reference voltage and output. When the detection voltage value and the first reference voltage are the same, the detection voltage value is output as it is. When the detected voltage value is greater than the first reference voltage, the detected voltage is increased by the first reference voltage and output. Power control method of plasma display panel.