KR100306807B1 - Power Supply Circuit of Plasma Display Device - Google Patents

Abstract

The present invention relates to a power supply circuit of a plasma display device, and can generate a standby mode power supply using a main power supply circuit and a microcomputer (controller) without separately providing a standby mode power supply circuit. The power supply circuit of the plasma display device of the present invention for this purpose in the power supply circuit of the plasma display device for supplying power to the plasma display panel driving circuit, the switch unit for switching the AC input voltage, and input through the switch PWM converting the generated voltage to generate power for driving the plasma display panel and generating first and second driving power for the standby mode; and second driving power for the standby mode applied from the PWM conversion unit. A controller unit for generating first and second control signals, a power supply unit for storing the second driving power source for the standby mode generated from the PWM converter, a potential of the power source unit, and a standby mode agent; 2 outputting a signal comparing the driving power to the reference voltage to the controller A plasma display from the PWM converter by a comparator, a first controller controlling the operation of the PWM converter by the first control signal generated by the controller, and a second control signal generated by the controller And a second control unit for supplying driving power to the panel driving circuit.

Description

Power supply circuit of plasma display device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply circuit of a plasma display device, and more particularly, to a power supply of a plasma display device that generates a standby mode power supply using a main power supply circuit and a microcomputer (controller) without separately providing a standby mode power supply circuit. It relates to a supply circuit.

In general, the power supply circuit of the plasma display device provides a main power supply and a standby power supply separately to supply power only from the standby power supply in the standby mode, and the main power supply and standby in the operation mode of the plasma display device. Power was supplied using a power supply.

However, the conventional power supply of the plasma display device has a problem in that the standby power due to the efficiency of the power supply in the standby mode is excessively consumed, and a separate standby power supply device must be provided.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to generate a standby mode power source using a main power supply circuit and a microcomputer (controller) without separately providing a standby mode power supply circuit. The present invention provides a power supply circuit for a display device.

1 is a detailed view of a power supply circuit of a plasma display device according to an embodiment of the present invention.

2 is a flowchart illustrating a power supply operation of the plasma display device according to the embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10 switching 20 full wave rectifier

30: PWM converter 40: controller

50: power supply unit 60: comparison unit

70: first control unit 80: second control unit

PC: Photo Coupler CM1, CM2: Comparator

Q1-Q3: Transistor ZD1: Zener Diode

Rl, R2: Resistor Cl: Condenser

Dl: diode

The power supply circuit of the plasma display device of the present invention for achieving the above object is a power supply circuit of the plasma display device for supplying power to the plasma display panel driving circuit, the switch unit for switching the AC input voltage, and PWM conversion of the voltage input through the switch to generate a power source for driving the plasma display panel and to generate the first and second drive power for the standby mode, and the standby mode applied from the PWM conversion unit A controller unit for inputting a second driving power source and generating first and second control signals, a power supply unit for storing the second driving power source for the standby mode generated from the PWM converter, a potential of the power supply unit and the The control unit compares a signal obtained by comparing the second driving power supply for the standby mode with a reference voltage, respectively. A comparison unit for outputting to a roller, a first control unit controlling the operation of the PWM converter by the first control signal generated by the controller unit, and the PWM converter by the second control signal generated by the controller unit And a second controller for supplying driving power to the plasma display panel driving circuit.

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

1 shows a power supply circuit of a plasma display device according to an embodiment of the present invention, comprising: a switch 10 for switching an AC input voltage; Full-wave rectifying unit 20 for full-wave rectifying the AC input voltage through the switch 10, and power supply for driving the plasma display panel by PWM converting the voltage applied from the full-wave rectifying unit 20 (Vs, Va) And a PWM converter 30 for generating the driving power supplies Vccl and Vcc2 for the standby mode; A controller (40) for providing the battery (50) with standby power (Vcc2) applied from the PWM converter (30) and generating first and second control signals (CS1, CS2); A power supply unit 50 including a capacitor Cl for supplying the PWM driving power and a battery BAT for supplying power for driving the controller 40; The first and second comparators CM1 and CM2 for comparing the potential of the capacitor Cl and the battery BAT of the power supply unit 50 with the reference voltage, respectively, and provide the result to the controller 40. Comparing unit 60 composed of; A first controller 70 driven by a first control signal CS1 generated from the controller 40 to control driving of the PWM converter 30; By the second control signal CS2 generated from the controller 40 to the second control unit 80 for controlling the supply of power (Vs, Va) from the PWM converter 30 to the PDP driving circuit 90 Is done.

The controller 40 inputs a comparison signal from the first comparator CMI and generates a first control signal CS1 for turning off the PWM converter 30 when the potential of the capacitor is higher than the reference voltage. In addition, when the power-on signal is input from the outside and the potential of the battery is higher than the reference voltage, the second control signal CS2 for driving the second controller 80 is generated.

The first controller 70 includes a transistor Ql to which a first control signal CS1 from the controller 40 is applied to a gate, and an emitter is grounded, a collector of the transistor Q1 and a first and The photo coupler PC is connected between the second standby power supplies Vccl and Vcc2.

The second controller 80 has a second control signal CS2 from the controller 40 applied to the gate, the transistor Q2 having the emitter grounded, and the collector of the transistor Q2 connected to the base. And an emitter connected to the PWM converter 30 and a collector connected to the PDP driving circuit 90, between the collector of the transistor Q2 and the base of the transistor Q3. Consisting of a resistor Rl and a zener diode ZD1.

The operation of the power supply circuit of the plasma display device of the present invention as described above will be described based on the flowchart of FIG.

When the first AC power is applied by the turn-on of the switch 10 to supply power to the plasma display device (step 101), the PWM converter 30 PWM converts the full-wave rectified voltage through the full-wave rectifier 20 to control the controller. The driving voltage Vcc2 is applied to the 40 (step 102), and the controller 40 applies the driving voltage Vcc2 provided from the PWM converter 30 to the power supply unit 50. The driving voltage ( Vcc2 is provided as a backup battery BAT for driving the controller 40 so that the potential of the battery BAT is gradually increased, and at the same time, the driving voltage Vcc2 is applied to the first control unit 70 of the power supply unit 50. It is provided and charged to a capacitor Cl that provides a power source for driving the photo coupler.

At this time, the controller 40 detects a power-on signal (not shown in the figure) of the plasma display element applied from the outside (step 103), and drives the PDP driving circuit 90 when the power-on signal is input. Therefore, the controller 40 generates the second control signal CS2 to the second controller 80 (step 104), and accordingly, the transistors Q2 and Q3 of the second controller 80 are driven to generate a PWM converter ( The drive signals Vs and Va are generated by a driver for generating a signal for driving the plasma display panel from step 30 (step 105).

Subsequently, the controller 40 checks the power-on signal (step 106), so that the power-on signal is

If so, the process returns to step 102 and the conversion operation of the PWM converter 30 is continued in the manner described above.

In step 106, when the power-on signal is checked and the power-on signal is turned off, the transistors Q2 and Q3 of the second control unit 80 are turned off by the second control signal CS2 from the controller 40 so that the PWM converter ( The driving voltages Vs and Va provided from the 30 to the PDP driving circuit 90 are cut off.

If no power-on signal is detected in step 103, operation is performed in the standby mode. Therefore, the potential of the battery BAT of the power supply unit 50 and the potential of the capacitor Cl are compared with the reference voltage VR, which is a predetermined value, respectively (step 109). If each potential is lower than the reference voltage, step 102 Return to to continue charging operation.

In step 109, if each potential is higher than the reference voltage VR, the controller 40 generates the first control signal CS1 to the first control unit 70 (step 110), and accordingly the first control unit 70 Transistor Q1 is driven to operate the photo coupler PC. Accordingly, the power applied to the PWM converter 30 is cut off and turned off (step 120), so that the plasma display element operates in the standby mode (step 130).

In the standby mode, the controller 40 checks whether the power-on signal is input (step 131), and when the power-on signal is input, the controller 40 determines whether the first control unit 70 is controlled by the first control signal CS from the controller 40. The transistor Q1 is turned off (step 132), and thus the photo coupler PC is turned off (133). Then, the controller 40 generates the second control signal CS to the second controller 80 (step 134), drives the transistors Q2 and Q3 (step 134), and accordingly the PDP driving circuit 90 Drive voltages Vs and Va are generated (step 135).

On the other hand, if the power-on signal is not detected in step 131, the flow goes to step 137 to compare the battery BAT potential of the power supply unit 50 and the potential of the capacitor Cl with the reference voltage VR, and as a result of the comparison, the power supply unit 50 If the potential of the battery is lower than the set value, go to step 102 to drive the PWM converter 30 to charge the battery BAT to the desired level. If the battery potential is at the set value, the flow proceeds to step 130 to continue the standby mode.

As described in detail above, according to the present invention, the PDP driving with the backup battery is built using only the main power circuit by controlling the sequence using the main power circuit and the microcomputer (controller) without separately providing a standby mode power circuit. There is an advantage to supply power. In addition, there is an advantage that can reduce the cost and power consumption by effectively controlling the standby mode power supply.

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

Claims (8)

A power supply circuit of a plasma display device for supplying power to a plasma display panel driving circuit, comprising: a switch unit for switching an AC input voltage and a PWM converting a voltage input through the switch unit to drive a plasma display panel A PWM converter which generates power and generates first and second drive power for the standby mode, and a second driving power source for the standby mode applied from the PWM converter, and generates first and second control signals. And a signal for comparing a controller unit for controlling the power supply unit, a power supply unit for storing the second driving power source for the standby mode generated from the PWM converter, and a potential voltage of the power supply unit and the second driving power source for the standby mode, respectively. A comparator for outputting to a controller and the first control signal generated by the controller And a second controller for controlling the operation of the PWM converter and a second controller for supplying driving power from the PWM converter to the plasma display panel driving circuit by a second control signal generated by the controller. A power supply circuit for a plasma display device. The power supply circuit of claim 1, further comprising a full-wave rectifying portion between the switch portion and the PWM converting portion. The power supply of claim 1, wherein the power supply unit comprises a capacitor for storing the second driving power for the standby mode output from the PWM converter, and a battery for supplying power to the controller unit. Supply circuit. The controller of claim 3, wherein the comparator comprises: a first comparator configured to output a signal comparing the second driving power supply for the standby mode with a reference voltage to the controller; and a signal comparing the potential of the capacitor with a reference voltage. A power supply circuit for a plasma display device, comprising a second comparator for outputting negatively. The plasma display of claim 4, wherein the controller is configured to input the output signal of the first comparator and generate a first control signal for turning off the PWM converter when the potential of the capacitor is higher than a reference voltage. Power supply circuit of the device. The method of claim 4, wherein the controller unit outputs a control signal for driving the second control unit when a power-on signal is input from the outside, and inputs an output signal of the second comparator unit when the potential of the battery is higher than a reference voltage. And a second control signal for driving the second control unit. 2. The first control unit of claim 1, wherein the first control unit comprises: a first NPN bipolar transistor in which a first control signal from the controller unit is applied to a base, and an emitter is grounded; a collector of the first NPN bipolar transistor; And a photo coupler connected between the output terminals of the PWM converting unit for generating a second driving power for the mode. 2. The apparatus of claim 1, wherein the second controller comprises: a second NPN type bipolar transistor to which a second control signal from the controller is applied to the base and the emitter is grounded; A PNP bipolar transistor having an emitter of the second NPN bipolar transistor connected to the PWM converter and a collector connected to the PDP driving circuit; And a Zener diode and a resistor connected in series between the base of the PNP type bipolar transistor and the collector of the second NPN type bipolar transistor.