KR100697207B1 - Sources circuit of controlling plasma display panel' output voltage - Google Patents

Abstract

A power supply circuit for controlling an output voltage of a plasma display panel is provided to prevent an excessive current from being applied on an output terminal by maintaining a constant output voltage when output terminals of the voltage supply circuit are short-circuited. A power supply circuit for controlling an output voltage of a plasma display panel(PDP) includes a standby voltage output unit(100) and a constant current circuit unit(200). The standby voltage output unit supplies a source voltage to a PDP and outputs a standby voltage. The constant current circuit unit maintains an output voltage at a constant value when the standby voltage output unit is short-circuited. When an excessive current is generated by the standby voltage output unit, the constant current circuit uses an output sensing resistor, a switch, and a zener diode to obtain a constant output current. When the standby voltage output unit is short-circuited, the switch is turned on and off by a voltage across both terminals of the output sensing resistor, so that a constant current is obtained.

Description

Source circuit for controlling plasma display panel's output voltage

1 is a block diagram showing a configuration of a plasma display panel power supply circuit according to the related art;

2 is a block diagram showing a configuration of a power supply circuit for controlling an output voltage of a PDP according to the present invention;

3 is a circuit diagram showing the configuration of a power supply circuit for controlling the output voltage of the PDP according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: power supply circuit 20: recognition circuit

30: feedback circuit 40: PWM-IC circuit

100: standby voltage output unit 110: power supply

111: transformer 112: rectifier

113: first capacitor 120: filter stage

121: inductor 122: second capacitor

130: output terminal 200: constant current circuit

210: switching unit 220: first resistor

230: second resistor 240: third resistor

250 Zener diode

The present invention relates to a power supply circuit for controlling an output voltage of a plasma display panel, and more particularly, to a power supply circuit for controlling an output voltage of a plasma display panel to maintain a constant output voltage when a short occurs during standby voltage output. It is about.

1 is a block diagram showing a configuration of a plasma display panel power supply circuit according to the related art.

As shown in FIG. 1, the power supply circuit of the plasma display panel includes a power supply circuit 10 for supplying power to the panel of the plasma display to generate an output voltage, and a voltage output from the power supply circuit 10. An output voltage recognition circuit 20 that determines whether a short occurs according to the feedback circuit, and a feedback circuit 30 that compares and determines whether there is an overcurrent to the power supply circuit 10 according to an output voltage applied through the output voltage recognition circuit 20. And a PWM-IC circuit 40 for ON / OFF control of the switching-IC according to the result determined by the feedback circuit 30.

The power supply circuit 10 includes the transformer, the inductor, the capacitor, and the zener diode, converts the input voltage, and controls the output voltage according to the reactance value of the inductor.

The output voltage recognition circuit 20 determines whether a short occurs according to the output voltage of the power supply circuit 10.

The feedback circuit 30 determines whether an overcurrent occurs in the power supply circuit 10 by comparing the output voltage and the reference set value output when a short occurs through the output voltage recognition circuit 20.

That is, the feedback circuit 30 determines that overcurrent flows when the output voltage applied from the power supply circuit 10 exceeds a reference set value, and controls to prevent the overcurrent of the power supply circuit 10 from flowing.

The PWM-IC 40 shuts down the switching-IC so as not to cause an overcurrent of the power supply circuit when an overcurrent occurs in the feedback circuit 30 to prevent overcurrent.

The power supply circuit of the conventional plasma display panel includes an output voltage recognition circuit 20 and a feedback circuit for preventing an overcurrent from occurring when a short occurs at an output terminal when the power supply circuit 10 supplies a voltage to the plasma display panel. 30), the PWM-IC circuit 40 constitutes a complicated circuit configuration for preventing overcurrent.

That is, in the case where the short circuit occurs, the PWM-IC 40 which prevents the inflow of the overcurrent is delayed due to the complexity of the circuit. During this delay time, excessive current flows into the output, resulting in circuit component breakage. There is such a problem.

The present invention has been made to solve the above problems of the prior art, the object of which is to provide a constant current circuit so that the output voltage is kept constant when a short occurs in the output terminal of the power supply circuit when supplying power to the plasma display panel The present invention provides a power supply circuit that controls an output voltage of a plasma display panel to prevent excessive current from flowing into the output.

The power circuit for controlling the output voltage of the plasma display panel according to the present invention for solving the above problems is a standby voltage output unit for outputting a standby voltage to the plasma display panel, and a voltage output when a short occurs in the standby voltage output unit It is characterized by including a constant current circuit portion to keep this constant.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is a block diagram showing the configuration of a power supply circuit for controlling the output voltage of the PDP according to the present invention.

As shown in FIG. 2, the power supply circuit for controlling the output voltage of the plasma display panel according to the present invention includes a standby voltage output unit 100 for supplying power to the plasma display panel to output a standby voltage, and the standby voltage output. It includes a constant current circuit unit 200 to maintain a constant voltage output when the short occurs in the unit 100.

The standby voltage output unit 100 converts an input voltage, rectifies the converted voltage, and regulates an output current through the rectified voltage to output a standby voltage.

At this time, the standby voltage output unit 100 outputs the output voltage normally when a short does not occur when the standby voltage is output, and the overcurrent through the constant current circuit unit 200 when a short occurs during the output. Will be controlled.

The constant current circuit unit 200 controls the output current to be constantly maintained through the output sensing resistor, the switch, and the zener diode when a short occurs when an output is generated from the standby voltage output unit 50.

At this time, the constant current circuit unit 200 is a short occurs during the output when the over-current flows the switch is turned ON / OFF by the voltage across the resistor for output sensing resistance provided that the current flowing in is kept constant, The standby voltage is output by the standby voltage output unit 100 through a constant current.

3 is a circuit diagram showing the configuration of a power supply circuit for controlling the output voltage of the PDP according to the present invention.

As shown in FIG. 3, the power supply circuit that controls the output voltage of the plasma display maintains a constant current when a short occurs in the standby power output unit 100 supplied with power to the plasma display panel. It consists of a constant current circuit unit 200 to be.

The standby power output unit 100 is applied through a power stage 110, a filter stage 120 for adjusting an output current according to the power supplied from the power stage 110, and the filter stage 120. The output terminal 130 outputs a standby voltage according to the current.

The power supply terminal 110 includes a transformer 111 for converting an applied voltage into a low voltage or a high voltage, and a rectifier 112 for rectifying the voltage converted by the transformer 111.

In this case, the rectifier 112 is composed of a diode to rectify the voltage converted through the transformer 111.

In addition, the power supply terminal 110 further includes a first capacitor 113 for storing a current which is constantly maintained through the constant current circuit unit 200.

The filter stage 120 includes an inductor 121 that adjusts an output current through a voltage applied from the power supply terminal 110, and a second capacitor 122 that stores the output current in parallel.

That is, the filter stage 120 has an output current adjusted according to the reactance value of the inductor 121 to output a voltage by the output terminal 130. In this case, when a short occurs in the output terminal 130, an overcurrent occurs. .

Therefore, when the short circuit occurs in the output terminal 130, the filter terminal 120 stores the output current in the second capacitor 122, and the output current flows to the constant current circuit unit 200.

The constant current circuit unit 200 includes a switch unit 210 that is turned on when a short occurs in the output terminal 130 and a zener diode 250 that is turned off when the switch unit is turned on to reduce the output voltage.

In addition, the constant current circuit unit 200 may control the output current applied through the filter terminal 120 when a short occurs in the output terminal 130. A resistor 240 is provided to operate the switch unit 210 on or off.

For example, the constant current circuit unit 200 includes the first resistor 220 and the second resistor 230 in parallel, and the first resistor 220 and the voltage across the second resistor 230. As a result, the switch unit 210 is turned on.

At this time, when the switch unit 210 is turned on, the zener diode 250 reducing the output voltage is turned off, and the output current value is kept constant.

In addition, when the short circuit does not occur in the output terminal 130, the constant current circuit unit 200 is turned off so that an output voltage value is normally output. When the short occurs, the filter stage 120 is performed. The output current value applied through the first resistor and the second resistor and the third resistor is changed to the output current value, and the switch unit 210 is turned on, thereby turning off the zener diode 250 to output the output voltage. Reduce the output voltage to keep it constant.

Here, the output current which is constantly maintained in the constant current circuit unit 200 is stored as the first capacitor, and is output as the standby voltage by the output terminal 130.

As described above, the power supply circuit for controlling the output voltage of the plasma display panel has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and the technical concept of the present invention is protected. It can be applied by those skilled in the art within the range to be.

The power supply circuit for controlling the output voltage of the plasma display panel according to the present invention configured as described above is provided with a constant current circuit to control the output voltage at the output terminal of the power supply circuit so that the output voltage is kept constant, circuit configuration This simple and improved processing time for keeping the output voltage constant at the output short of the power circuit, thereby preventing excessive current from flowing into the output, thereby increasing the stability and efficiency of circuit components.

Claims (6)

An output voltage of the plasma display panel, the standby voltage output unit outputting a standby voltage to the plasma display panel, and a constant current circuit unit configured to maintain a constant voltage output when a short occurs in the standby voltage output unit. Power circuit to control. The method according to claim 1, The standby voltage output unit is characterized in that it comprises a power stage, a filter stage for adjusting the output current according to the power supplied from the power stage, and an output stage for outputting a standby voltage by the current applied through the filter stage Power supply circuit for controlling the output voltage of the plasma display panel. The method according to claim 2, The power supply terminal includes a transformer and a rectifying unit configured to rectify the voltage converted by the transformer, wherein the power supply circuit controls the output voltage of the plasma display panel. The method according to claim 2, The filter stage is provided with an inductor and a second capacitor in parallel, the power supply circuit for controlling the output voltage of the plasma display panel, characterized in that the voltage applied through the power supply terminal is adjusted according to the reactance value of the inductor. The method according to claim 2, The constant current circuit unit may include a switch unit that is turned on when a short occurs in the standby voltage output unit and a zener diode that is turned off when the switch unit is turned on to reduce an output voltage. Power circuit. The method according to claim 5, The switch unit is provided with a resistor for output sensing, the power supply circuit for controlling the output voltage of the plasma display panel, characterized in that on / off by the voltage of both ends of the provided output sensing resistor.

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