KR100905835B1 - Pdp power supply - Google Patents

Abstract

The present invention relates to a PDP power supply for monitoring the output voltage of the DC / DC converter using a lower voltage through the secondary auxiliary winding of the transformer,

The PDP power supply apparatus according to the present invention, the primary winding (L10) and the secondary winding (L20) for converting the input primary voltage into the secondary voltage, and the supervisory voltage of the primary voltage of the primary winding (L10) A DC / DC converter 50 having a transformer 52 comprising an auxiliary winding L21 converting to VM; A supervisory voltage detector (100) for detecting a supervisory voltage (VM) from the auxiliary winding (L21) of the DC / DC converter (50); And the low voltage determination unit 200 that determines whether or not the detection monitoring voltage VMd detected by the monitoring voltage detection unit 100 is a low voltage to determine an abnormal output voltage of the DC / DC converter 50. Include.

PDP, Power, SMPS, Plasma Display Panel, Output Supervision

Description

PD Power Supply {PDP POWER SUPPLY}

1 is a configuration diagram of an overcurrent detection circuit of a conventional PDP power supply.

2 is a block diagram showing an embodiment of a PDP power supply according to the invention.

3 is a configuration diagram of the monitoring voltage detector of FIG. 2.

4 is a detection voltage waveform diagram of the monitoring voltage detector of FIG. 3.

5 is a block diagram of a low voltage determination unit of the PDP power supply according to the present invention.

6 is an operation timing chart of voltages and main components related to the low voltage determination unit of FIG. 4;

Explanation of symbols on the main parts of the drawings

50: DC / DC converter 51: PWM unit

52: transformer 100: monitoring voltage detector

200: low voltage determination unit 210: low voltage determination circuit

220: delay switch 230: delay circuit

300: abnormal determination unit 400: protection switch

Q21: first transistor Q22: second transistor

Vin: Input Voltage Vout: Output Voltage

Vstb: Standby voltage Vcc: Operating voltage

Vs-on: Sustain on voltage SP: Protection signal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply of a plasma display panel (hereinafter referred to as a PDP) having an under voltage protection (UVP) function. In particular, in a PDP power supply, an output voltage of a DC / DC converter is directly By monitoring the output voltage of the DC / DC converter by using a lower voltage through the secondary auxiliary winding of the transformer, it can operate according to the sequence of the PDP power supply to detect the low voltage The present invention relates to a PDP power supply capable of producing and preventing damage to internal elements even when an internal diode for low voltage determination is shorted.

In general, a power supply device such as a PDP Switching Mode Power Supply (SMPS) has a plurality of voltages, ie, standby voltage (Vstb), multi-voltage (Vm), and address voltage (Va) when AC power is turned on and off. And an operation sequence in which the sustain voltage Vs has different on / off points.

On the other hand, like the power supply of other systems, the PDP power supply also includes a protection circuit to protect the power supply or the driving, image, and logic boards in an abnormal state of each output voltage. This protection circuit must be designed to satisfy the sequence of the plurality of voltages of the PDP module.

In general, the DC / DC converter of a power supply for a PDP may include a PWM unit and a transformer for converting a DC voltage into a sustain voltage using a PWM method.

In addition, the PDP power supply apparatus includes an overcurrent detection circuit, an abnormality determination unit and a switch, and the overcurrent detection circuit is configured to supply a current flowing through the load of the DC / DC converter to a resistor connected to the ground side RTN terminal of the load. And detect whether the detected current is an overcurrent. The abnormality determining unit controls the operation voltage Vcc of the PWM unit of the DC / DC converter when the overcurrent is detected from the overcurrent detecting circuit.

At this time, the switch outputs an overcurrent detection voltage Vocp according to the switching control from the abnormality determining unit 30 to turn off the operating voltage Vcc of the PWM control unit 11.

1 is a configuration diagram of an overcurrent detection circuit of a conventional PDP power supply.

Referring to FIG. 1, the overcurrent detection circuit of a conventional PDP power supply detects a current flowing in a load as a voltage through a resistor connected to the ground RTN terminal of the load, as mentioned above, and compares the detected voltage. A voltage detection circuit section 10 for dividing the voltage into an appropriate detection voltage VD, a reference voltage circuit section 20 for dividing a predetermined voltage into an appropriate reference voltage Vref for comparison, and the voltage detection circuit section 10 Compares the detected voltage VD from and the reference voltage Vref from the reference voltage circuit unit 20 to determine the overcurrent, and supplies the overcurrent judging voltage Vocp according to the overcurrent determination result to the abnormality determination unit. And an overcurrent comparator 30.

However, since the conventional low voltage detection circuit must be designed to match the sequence of the PDP power supply as described above, the voltage protection circuit of each output is operated before the sustain on voltage (Vs-on) of the PDP power supply is input. In order not to have to have a separate protection circuit for each of the plurality of output voltages, there is a problem that the circuit is complicated, the number of parts is increased, and also the production cost is increased.

On the other hand, the direct detection of the output voltage of the DC / DC converter is because the output voltage is so high as about 200V in the case of detecting such a high voltage directly, the blocking element for blocking the high voltage, and when the blocking element is shorted At the same time, the problem that internal components may be damaged must be solved.

The present invention has been proposed to solve the above problems, the object is,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply of a plasma display panel (hereinafter referred to as a PDP), and in particular, in a PDP power supply, the output voltage of a DC / DC converter is not directly detected, but through a secondary auxiliary winding of a transformer. By implementing the lower voltage to monitor the output voltage of the DC / DC converter, it can operate according to the sequence of the PDP power supply to detect the low voltage, more affordable production, the low voltage determination internal diode short Even if the present invention relates to a PDP power supply that can prevent damage to the internal elements.

To provide.

In order to achieve the above object of the present invention, an embodiment of the PDP power supply according to the present invention, the primary winding and the secondary winding for converting the input primary voltage into secondary voltage, and the A DC / DC converter having a transformer including an auxiliary winding for converting a primary voltage into a supervisory voltage; A supervisory voltage detector for detecting a supervisory voltage from an auxiliary winding of the DC / DC converter; And a low voltage determination unit determining whether or not the detection monitoring voltage detected by the monitoring voltage detection unit is a low voltage in order to determine an output voltage abnormality of the DC / DC converter.

The DC / DC converter is characterized in that it further comprises a PWM unit for controlling the voltage conversion of the transformer PWM method.

The PDP power supply device may include an abnormality determination unit that determines whether the voltage at the connection node between the output voltage terminal and the standby voltage terminal of the low voltage determination unit is an abnormal voltage, and outputs a protection signal when the voltage is determined to be an abnormal voltage; And a protection switch for blocking the operation voltage of the PWM unit according to the protection signal of the abnormality determination unit.

The number of turns of the auxiliary winding is characterized in that less than the number of turns of the secondary winding.

The monitoring voltage detector may include: a rectifier diode rectifying the monitoring voltage from the auxiliary winding; And a capacitor that smoothes the voltage from the rectifying diode.

The supervisory voltage detector further includes a resistor connected to the capacitor in parallel to determine a response speed with respect to the output voltage of the DC / DC converter.

The low voltage determination unit is connected in series between a detection monitoring voltage terminal of the monitoring voltage detecting unit and an output terminal of the low voltage determination unit, and when the detection monitoring voltage of the monitoring voltage detecting unit is lower than a preset voltage, the detection monitoring voltage of the monitoring voltage detecting unit is detected. A low voltage judging circuit for outputting a voltage as a detection voltage; A delay switch connected between the low voltage determination circuit and the connection node and turned on when a sustain on voltage is input; And a delay circuit for turning on the delay switch after a set time from the sustain on voltage input.

The low voltage determination circuit may include: a first diode having a cathode connected to the detection monitoring voltage terminal of the monitoring voltage detector; And a second diode having a cathode connected to the anode of the first diode and an anode connected to the delay switch.

The delay switch may include a PNP transistor having a collector connected to an anode of the second diode, an emitter connected to the connection node, and a base connected to the delay circuit.

The delay circuit includes a thyristor having a cathode connected to the base of the PNP transistor and an anode and a gate connected to ground; A capacitor having one end connected to a gate of the thyristor and the other end connected to ground; A first resistor connected to the cathode of the thyristor and a charge voltage terminal; A second resistor connected to one end of the capacitor and connected to a charging voltage terminal; And a transistor having an emitter and a collector connected to both ends of the capacitor, and a base connected to the sustain on voltage.

The sustain on voltage may be a voltage having an active high level, and the transistor may be a PNP type transistor that is turned off when the sustain on voltage is high level to block a discharge path of the capacitor.

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

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

2 is a block diagram showing an embodiment of a PDP power supply according to the invention.

2, the power supply apparatus according to the present invention includes a DC / DC converter 50, a monitoring voltage detection unit 100, a low voltage determination unit 200, an abnormality determination unit 300, and a protection switch 400. do.

The DC / DC converter 50 monitors the primary winding L10 and the secondary winding L20 for converting the input primary voltage into the secondary voltage, and the primary voltage of the primary winding L10. Transformer 52 having an auxiliary winding L21 that converts to voltage VM. Here, the number of turns of the auxiliary winding (L21), so that the monitoring voltage (VM) output through the auxiliary winding (L21) is lower than the output voltage (Vout) output through the secondary winding (L20), Less than the number of turns of the secondary winding.

In addition, the DC / DC converter 50 may include a PWM unit 51 for controlling the PWM method of voltage conversion of the transformer 52.

The monitoring voltage detection unit 100 detects the monitoring voltage VM from the auxiliary winding L21 of the DC / DC converter 50.

The low voltage determination unit 200 determines whether the detection monitoring voltage VMd detected by the monitoring voltage detection unit 100 is a low voltage in order to determine an abnormality of the output voltage of the DC / DC converter 50. Judge.

The abnormality determination unit 300 determines whether the voltage at the connection node N1 between the output voltage Vd terminal and the standby voltage Vstb terminal of the low voltage determination unit 200 is an abnormal voltage, and determines it as an abnormal voltage. Outputs a protection signal (SP).

The protection switch 400 blocks the operation voltage Vcc of the PWM unit 51 according to the protection signal SP of the abnormality determination unit 300.

The monitoring voltage detection unit 100 may include at least one diode, and the number of diodes included in this case may be determined according to the output voltage of the PDP power supply to which the PDP power supply is applied, the magnitude of the monitoring voltage, and the like. For example, it demonstrates with reference to FIG.

3 is a configuration diagram illustrating the monitoring voltage detector of FIG. 2.

Referring to FIG. 3, the monitoring voltage detection unit 100 smoothes the rectifying diode D10 for rectifying the monitoring voltage VM from the auxiliary winding L21 and the voltage from the rectifying diode D10. Capacitor C10 is included.

In this case, the supervisory voltage detector 100 may include a resistor R10 connected in parallel to the capacitor C10 so as to determine a response speed with respect to the output voltage of the DC / DC converter 50.

4 is a detection voltage waveform diagram of the monitoring voltage detector of FIG. 3.

In FIG. 4, Vout is an output voltage of the DC / DC converter 50, VMd is an output voltage of the monitoring voltage detector 100, and τ1 and τ2 are capacitors C10 of the monitoring voltage detector 100. ) And the discharge time constant determined by the resistor R10, which can be adjusted differently according to the value of the resistor R10.

5 is a configuration diagram of a low voltage determination unit of a PDP power source according to the present invention.

Referring to FIG. 5, one embodiment of the low voltage determination unit 200 is shown. The low voltage determination unit 200 includes a detection monitoring voltage VMd terminal of the monitoring voltage detection unit 100 and the connection node N1. ) Is connected in series to each other, and when the detection monitoring voltage VMd of the monitoring voltage detecting unit 100 is lower than a preset voltage, the detection monitoring voltage VMd of the monitoring voltage detecting unit 100 is converted into the detection voltage Vd. A low voltage judging circuit 210 to be output, a delay switch 220 connected between the low voltage judging circuit 210 and the connection node N1 and turned on when a sustain on voltage Vs-on is input, and the sustain And a delay circuit 230 for turning on the delay switch 220 after a set time from an ON voltage Vs-on input.

The low voltage determination circuit 210 may include a first diode D10 having a cathode connected to a detection monitoring voltage VMd terminal of the monitoring voltage detector 100, a cathode connected to an anode of the first diode D10, and a cathode; It includes a second diode (D20) having an anode connected to the delay switch 220.

The delay switch 220 includes a PNP transistor Q21 having a collector connected to the anode of the second diode D20, an emitter connected to the connection node, and a base connected to the delay circuit 230. Can be.

The delay circuit 230 includes a thyristor (SCR) having a cathode connected to the base of the PNP transistor (Q21) and an anode and a gate connected to ground, and one end connected to the gate of the thyristor (SCR) and the other end connected to the ground. A capacitor (C20), a first resistor (R21) connected to the cathode of the thyristor (SCR) and the charging voltage terminal, and a second resistor connected to one end of the capacitor (C20) and connected to the charging voltage (Vcha) terminal. And a transistor Q22 having an emitter and a collector connected to both ends of the capacitor C10, and a base connected to the sustain on voltage Vs-on.

On the other hand, when the sustain on voltage Vs-on is a voltage having an active high level, the transistor Q22 is turned off when the sustain on voltage Vs-on is at a high level to discharge the capacitor C20. It may be made of a PNP type transistor blocking the path.

6 is an operation timing chart of voltages and main components related to the low voltage determination unit of FIG. 4.

In FIG. 6, Vstb is a standby voltage of the PDP power supply, Vm is a multi-voltage of the PDP power supply, Va is an address voltage of the PDP power supply, Vs-on is a sustain on voltage of the PDP power supply, and Vout is the above. The output voltage output from the DC / DC converter, for example, may be a sustain voltage. In addition, operation timings of Q10, C10, SCR, and Q20 included in the overcurrent protection circuit 200 are shown.

In addition, t1 is a time point when the standby voltage Vstb is supplied, t2 is a time point at which the multi-voltage Vm and the address voltage Va are supplied, and t3 is the sustain on voltage Vs-on being active high. Indicates a time point at which t4 is indicated, and t4 indicates a time point at which the SCR and transistor Q21 are turned on.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 2 to 6, the PDP power supply of the present invention will be described. First, in FIG. The unit 200, the abnormality determination unit 300, and the protection switch 400 are included.

The DC / DC converter 50 includes a PWM unit 51 and a transformer 52. The transformer 52 includes a primary winding L10, a secondary winding L20, and an auxiliary winding L21. It includes, by the primary winding (L10) and the secondary winding (L20) of the transformer 52, the input primary voltage is converted into a secondary voltage. By the auxiliary winding L21 of the transformer 52, the primary voltage of the primary winding L10 is converted into a monitoring voltage VM and supplied to the monitoring voltage detection unit 100.

In this case, when the output voltage of the DC / DC converter 50 is a sustain voltage, since the output voltage Vout corresponds to a high voltage of about 200V, such high output voltage Vout is not directly detected. Instead, the auxiliary winding L21 is used to sense the magnitude and the variation of the output voltage Vout.

Accordingly, the number of turns of the auxiliary winding L21 is such that the monitoring voltage VM output through the auxiliary winding L21 is lower than the output voltage Vout output through the secondary winding L20. It is necessary to make less than the number of turns of the secondary winding.

On the other hand, in the DC / DC converter 50, the voltage conversion of the transformer 52 is controlled by the PWM unit 51 in a PWM manner.

The normal operation of the sustain voltage DC / DC converter 50 using this PWM method will be described in more detail.

The DC / DC converter 50 includes a transformer 52, a main switch, a rectifier, a feedback circuit, and a PWM unit 51, and the input voltage Vin is input to the primary winding of the transformer. When the PWM unit 51 controls the main switch in the PWM method according to the feedback voltage through the feedback circuit unit, the main switch is switched in the PWM method to convert the voltage input to the primary winding of the transformer into a pulsed voltage. The pulsed voltage is induced and converted into the secondary winding of the transformer according to the winding ratio of the primary winding and the secondary winding.

After that, the output voltage of the transformer is rectified from the rectifying unit into a DC voltage and supplied to the load. At this time, the feedback circuit unit detects the voltage (or current) of the load and supplies it to the PWM unit 51. Reference numeral 51 adjusts the pulse width of the PWM signal based on the feedback voltage to adjust the voltage supplied to the load.

In this case, when the output voltage Vout by the DC / DC converter 50 is supplied to the load, when the output voltage Vout supplied to the load becomes low due to causes such as over current or short circuit, In order to protect a circuit unit such as a PWM unit, the operating power Vcc supplied to the PWM unit 51 should be cut off.

At this time, by detecting a case where the output voltage (Vout) of the DC / DC converter 50 becomes a low voltage, the operating voltage (Vcc) of the PWM unit 51 must be cut off, for this purpose, the DC / DC converter ( The output voltage Vout of 50 should be stably and accurately detected, and the operation thereof will be described.

2, the monitoring voltage detection unit 100 detects the monitoring voltage VM from the auxiliary winding L21 of the DC / DC converter 50 and outputs the monitoring voltage VM to the low voltage determination unit 200.

The low voltage determination unit 200 determines whether the detection monitoring voltage VMd detected by the monitoring voltage detection unit 100 is a low voltage to determine an abnormal output voltage of the DC / DC converter 50. The low voltage judgment voltage Vd is output.

Subsequently, the abnormality determination unit 300 determines whether or not the voltage at the connection node N1 between the output voltage Vd terminal and the standby voltage Vstb terminal of the low voltage determination unit 200 is an abnormal voltage. In the determination, the protection signal SP is output to the protection switch 400.

Accordingly, the protection switch 400 cuts off the operating voltage Vcc of the PWM unit 51 according to the protection signal SP of the abnormality determination unit 300.

The monitoring voltage detection unit 100 may include at least one diode, and the number of diodes included in the monitoring voltage detection unit 100 may be determined according to the output voltage of the applied PDP power supply and the magnitude of the monitoring voltage. For example, it demonstrates with reference to FIG.

The monitoring voltage detection unit 100 will be described in detail with reference to FIGS. 2 to 4.

2 and 3, when the monitoring voltage detection unit 100 includes the rectifying diode D10, the capacitor C10, and the resistor R10, the auxiliary winding L21 is formed by the rectifying diode D10. The supervisory voltage VM is rectified, and the rectified supervisory voltage VM is smoothed and output while being charged in the capacitor C10.

In this case, the resistor R10 connected in parallel to the capacitor C10 may determine the response speed with respect to the output voltage of the DC / DC converter 50 together with the capacitor C10.

Referring to FIG. 4, the discharge time constant determined by the capacitor C10 and the resistor R10 of the monitoring voltage detector 100 may be changed to τ1 or τ2 according to the value of the resistor R10. Accordingly, the response speed when the output voltage Vout of the DC / DC converter 50 becomes a low voltage may be determined according to the value of the resistor R10.

The low voltage determination unit 200 will be described with reference to FIGS. 2 to 6.

 Referring to FIG. 5, the low voltage determination circuit 210 of the low voltage determination unit 200 is connected in series between the output voltage VM terminal of the monitoring voltage detection unit 100 and the connection node N1. When the detection monitoring voltage VMd output from the monitoring voltage detection unit 100 is lower than a preset voltage, the detection monitoring voltage VMd output from the monitoring voltage detection unit 100 is output to the delay switch 220.

For example, when the standby voltage Vstb of the connection node N1 is supplied, the preset voltage becomes the standby voltage Vstb, and the detection monitoring voltage VMd output from the monitoring voltage detection unit 100 is provided. ) Is lower than the standby voltage Vstb of the connection node N1 by a predetermined voltage, and outputs the detection monitoring voltage VMd to the delay switch 220.

Subsequently, the delay switch 220 is connected between the low voltage determination circuit 210 and the connection node N1, and when the output voltage Vout is a sustain voltage, the sustain on voltage Vs-on. When the input is turned on, the detection monitoring voltage VMd output from the low voltage determination circuit 210 is supplied to the abnormality determination unit 300.

The delay circuit 230 outputs an on signal to the delay switch 220 after a set time from the input of the sustain on voltage Vs-on to turn on the delay switch 220.

The low voltage determination unit 200 will be described in detail with reference to FIGS. 5 and 6.

First, as described above, when the delay circuit 230 includes a thyristor (SCR), a capacitor (C20), a first resistor (R21), a second resistor (R22), and a transistor (Q22), FIG. As shown in FIG. 8, when the sustain on voltage Vs-on is at a low level before the start of operation, that is, at the time t1, the transistor Q22 is turned on so that the discharge path of the capacitor C20 becomes the transistor Q22. Since it is formed by, the capacitor (C20) is charged directly to the charging voltage.

Subsequently, as shown in FIG. 6, when the sustain on voltage Vs-on is at a high level after the initial operation, that is, after the time t1, the transistor Q22 is turned off, and the capacitor C20 is turned off. Since the discharge path is blocked, the capacitor C20 is charged with the charging voltage Vcha through the second resistor R22. Here, the charging voltage Vcha is supplied as a bias voltage to the anode terminal of the thyristor SCR through the first resistor R21.

As shown in FIG. 6, the thyristor SCR is turned on at the time t4 when the voltage charged in the capacitor C20 becomes equal to or higher than the conduction voltage of the thyristor SCR, and the delay switch 220 is connected to the delay switch 220. Supply a low level signal, which is a switching on signal.

Next, when the delay switch 220 is formed of the PNP transistor Q21, a low level signal, which is a switching-on signal, is supplied to the base by the delay circuit 230, and the PNP transistor Q21 is supplied to the switching-on signal. As the delay switch 220 is turned on, the output signal of the low voltage determination circuit 210 may be supplied to the abnormality determination unit 300.

In this way, the delay switch 220 is maintained in the on state at a time point t4 after the time point t3 when the sustain on voltage Vs-on is at a high level.

Accordingly, before the time t4, the abnormality determining unit 300 operates according to the standby voltage Vstb regardless of the state of the output voltage Vout of the DC / DC converter 50. On the contrary, since the delay switch 220 is all turned on after the time t4, when the output voltage Vout is a low voltage, the low voltage determination circuit 210 is turned on and the monitoring voltage detection unit 100 is turned on. The output voltage VMd may be supplied to the abnormality determination unit 300 as the low voltage determination voltage Vd.

Accordingly, the abnormality determination unit 300 determines that the current output voltage is in the low voltage state according to the low voltage determination voltage Vd, and outputs a protection signal to the protection switch 400.

As shown in FIG. 6, from the time point t1 at which the standby voltage Vstb is supplied, the time point at which the transistor of the delay switch 220 is turned on by an actis high level of the sustain on voltage Vs-on. During the time difference DELTA t2 up to t4, the operation of the low voltage determination circuit 210 is delayed.

That is, the delay switch 220 and the delay circuit 230 disables the operation of the low voltage determination circuit 210 until a time point t3 at which the output voltage Vout is normally output, and the output voltage Vout is After the time t3 normally output, the low voltage determination circuit 210 enables the operation of the low voltage determination circuit 210.

On the other hand, when the transistor 52 of the DC / DC converter 50 includes the feedback auxiliary winding used in the feedback circuit section of the DC / DC converter 50, the feedback auxiliary winding is connected to the monitoring voltage. When used in common as an auxiliary winding for detection, there is an additional advantage that it can be implemented more inexpensively without incurring additional costs.

According to the present invention as described above, in the power supply of the plasma display panel (hereinafter referred to as PDP), the output voltage of the DC / DC converter is not directly detected, and is lowered through the secondary auxiliary winding of the transformer. By implementing the voltage to monitor the output voltage of the DC / DC converter, it can operate in accordance with the sequence of the PDP power supply to detect the low voltage, more inexpensive production, when the low voltage determination internal diode is short In addition, there is an effect that can prevent damage to the internal elements.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, but is defined by the claims, and the apparatus of the present invention may be substituted, modified, and modified in various ways without departing from the spirit of the present invention. It is apparent to those skilled in the art that modifications are possible.

Claims (11)

A DC / DC converter having a transformer including a primary winding and a secondary winding converting an input primary voltage into a secondary voltage, and an auxiliary winding converting the primary voltage of the primary winding into a supervisory voltage; A supervisory voltage detector for detecting a supervisory voltage from an auxiliary winding of the DC / DC converter; And A low voltage determination unit that determines whether or not the detection monitoring voltage detected by the monitoring voltage detection unit is a low voltage in order to determine an output voltage abnormality of the DC / DC converter, The low voltage determination unit, The detection monitoring voltage terminal of the monitoring voltage detecting unit and the output terminal of the low voltage judging unit are connected in series with each other. A low voltage determination circuit; A delay switch connected between the low voltage determination circuit and an output terminal of the low voltage determination unit and turned on when a sustain on voltage is input; And Delay circuit for turning on the delay switch after the set time from the sustain on voltage input PDP power supply comprising a. The method of claim 1, wherein the DC / DC converter, PDP power supply characterized in that it further comprises a PWM unit for controlling the PWM voltage conversion of the transformer. The PDP power supply of claim 2, An abnormality determination unit that determines whether the voltage at the connection node between the output voltage terminal and the standby voltage terminal of the low voltage determination unit is an abnormal voltage, and outputs a protection signal when the voltage is determined to be an abnormal voltage; And A protection switch for blocking an operation voltage of the PWM unit according to the protection signal of the abnormality determination unit; PDP power supply comprising a. The number of turns of the auxiliary winding is: PDP power supply, characterized in that less than the number of turns of the secondary winding. The method of claim 1, wherein the monitoring voltage detection unit, A rectifier diode for rectifying the monitoring voltage from the auxiliary winding; And A capacitor that smoothes the voltage from the rectifying diode PDP power supply comprising a. The method of claim 5, wherein the monitoring voltage detection unit, And a resistor connected in parallel to the capacitor to determine a response speed with respect to the output voltage of the DC / DC converter. delete The circuit of claim 1, wherein the low voltage determination circuit comprises: A first diode having a cathode connected to the detection monitoring voltage terminal of the monitoring voltage detection unit; And A second diode having a cathode connected to the anode of the first diode and an anode connected to the delay switch; PDP power supply comprising a. The method of claim 8, wherein the delay switch, And a PNP transistor having a collector connected to an anode of the second diode, an emitter connected to an output terminal of the low voltage determination unit, and a base connected to the delay circuit. The method of claim 9, wherein the delay circuit, A thyristor having a cathode connected to the base of the PNP transistor and an anode and a gate connected to ground; A capacitor having one end connected to a gate of the thyristor and the other end connected to ground; A first resistor connected to the cathode of the thyristor and a charge voltage terminal; A second resistor connected to one end of the capacitor and connected to a charging voltage terminal; A transistor having an emitter and a collector connected across the capacitor and a base connected to the sustain on voltage PDP power supply comprising a The method of claim 10, wherein the sustain on voltage is a voltage having an active high level, And the transistor is a PNP type transistor which is turned off when the sustain on voltage is at a high level to block a discharge path of the capacitor.

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