KR100735478B1 - Power supply for pdp - Google Patents

Abstract

A power supply device for a plasma display panel is provided to prevent electrical damage to a discharge circuit by blocking a driving source voltage even when the discharge circuit is operated during output of driving source voltage due to erroneous operation of a micom or an integrated circuit. A power supply device for a plasma display panel includes a power supply unit(100), a discharge unit(200), a controller(300), and a blocking unit(400). The power supply unit converts an AC(Alternating Current) source voltage to a driving source voltage through a PWM(Pulse Width Modulation) operation. The discharge unit discharges the driving source voltage when the PWM operation is stopped. The controller controls on/off of the discharge and power supply units. The blocking unit blocks the control of the power supply unit by the controller and thus stops the operation of the power supply unit, when the discharge unit is operated during operation of the power supply unit.

Description

Power supply for plasma display panel {POWER SUPPLY FOR PDP}

1 is a block diagram conceptually showing a conventional plasma display panel power supply device.

2A is a graph showing the normal operation of a conventional plasma display panel power supply.

2B is a graph showing an abnormal operation of a conventional plasma display panel power supply device.

3 is a block diagram conceptually illustrating a power supply for a plasma display panel according to the present invention.

4 is a circuit diagram showing an embodiment of a power supply for plasma display panel according to the present invention.

5 is a graph showing the operation of the power supply for the plasma display panel according to the present invention.

<Detailed description of the major symbols in the drawings>

100 ... Vs power supply 200 ... discharge

300 ... control section 400 ... blocking section

SW1 ... first switch SW2 ... second switch

Rd ... discharge resistance

The present invention relates to a power supply device, and more particularly, to a power supply device for a plasma display panel which cuts off the power supply when a discharge circuit malfunctions due to an abnormal operation of a microcomputer or a control device during power supply. .

In general, a plasma display panel (PDP) is a device for displaying a screen by forming a discharge space between the front panel and the rear panel and causing plasma discharge between the electrodes to be excited by the phosphors present around the screen. Such plasma display panels have been spotlighted as practical next-generation displays along with liquid crystal displays (LCDs). In particular, the plasma display panel has a higher brightness and wider viewing angle than a liquid crystal display device, and thus has wide applicability as a thin, large display such as an outdoor advertising tower, a wall display TV, or a theater display.

The above-described plasma display panel product essentially requires a power supply device for supplying power.

1 is a block diagram conceptually showing a conventional plasma display panel power supply device.

Referring to FIG. 1, a conventional plasma display panel power supply device includes a power supply unit 10 for supplying power, a discharge unit 20 for discharging surplus power of the power supply unit 10, and switching of the power supply unit 10. And a controller 30 that controls the discharge of the discharge unit 20.

The power supply unit 10 supplies driving power for driving the plasma display panel. The power supply unit 10 receives commercial AC power and smoothes and rectifies it. The power supply unit 10 includes a PWM IC therein to switch the rectified AC power through the PWM IC to convert to DC power. The power supply unit 10 converts and converts the converted DC power into a predetermined driving power.

The discharge unit 20 discharges the surplus driving power remaining when the switching operation of the power supply unit 10 is stopped.

The control unit 30 outputs a switching control signal for controlling the switching of the power supply unit 10 and a discharge control signal for controlling the discharge of the discharge unit 20 including a microcomputer and the like. The controller 30 outputs the switching control signal and the discharge control signal to control the switching of the power supply unit 10 and the discharge of the discharge unit 20.

2A is a graph showing the normal operation of a conventional plasma display panel power supply.

1 and 2A, the power supply unit 10 performs a switching operation according to the on of the switching control signal of the controller 30 to output the driving power Vs. Subsequently, when the plasma display panel product does not need the driving power source Vs such as waiting for a user's selection, the controller 30 turns off the switching control signal and discharges the discharge unit 20. Turn on the discharge control signal for controlling The discharge unit 20 discharges the surplus driving power of the power supply unit 10 according to the discharge control signal.

On the other hand, the control unit 30 includes an integrated circuit (IC) such as a microcomputer therein to output the switching control signal and the discharge control signal. The switching control signal or the discharge control signal output from the controller 30 may include a noise component or the like, or an unwanted switching control signal or discharge control signal may be output due to a malfunction of the integrated circuit included in the controller 30. Can be.

2B is a graph showing an abnormal operation of a conventional plasma display panel power supply device.

1 to 2B, as described above, the power supply unit 10 outputs driving power Vs according to the switching control signal of the control unit 30. The discharge control signal may be turned on due to noise of the discharge control signal or malfunction of the integrated circuit while outputting the driving power supply Vs. During the time periods t1 to t2 in which the switching control signal and the discharge control signal are simultaneously turned on, driving power as much as the hatched area A is introduced into the discharge unit 20. The discharge unit 20 is configured of a circuit capable of discharging the surplus driving power of the power supply unit 10, the discharge unit 20 when the drive power as much as the hatched area (A) is introduced The problem that the circuit constituting the breakage occurs. Problems as described above are fatal problems that hinder the reliability of plasma display panel products.

An object of the present invention for solving the above problems is a protection function that immediately stops the output of the driving power when the discharge circuit is operating during the output of the driving power, due to noise introduced into the discharge control signal or malfunction of the integrated circuit. It is to provide a power supply for the plasma display panel.

In order to achieve the above object, the plasma display panel power supply of the present invention includes a power supply unit for converting AC power to a predetermined drive power by PWM operation, and a discharge unit for discharging the drive power when the PWM operation is stopped. A control unit for complementarily controlling the operation on / off of the power supply unit and the operation on / off of the discharge unit; and when the discharge unit operates during the operation of the power supply unit, the control unit blocks the control of the power supply unit from the control unit. It characterized in that it comprises a block for stopping operation.

According to one embodiment of the present invention, the discharge unit is connected to one end of the first switch for switching on and off under the control of the discharge resistor supplied with the driving power, the control from the control unit through one end; And switching on and off complementarily with the first switch and connected to the other end of the discharge resistor to provide a ground path of the discharge resistor when the power supply is stopped to discharge the driving power through the discharge resistor. It is characterized by consisting of two switches.

In addition, according to an embodiment of the present invention, the blocking unit is composed of a diode having an anode receiving the operation on-off control of the power supply unit from the control unit and a cathode connected to the other end of the discharge resistor, the diode is the power supply unit When the discharge unit operates during the operation of the power supply unit of the control unit to turn on / off the ground characterized in that the operation of the power supply unit is stopped.

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

3 is a block diagram conceptually illustrating a power supply for a plasma display panel according to the present invention.

Referring to FIG. 3, the power supply apparatus for plasma display panel according to the present invention includes a power supply unit 100 for supplying driving power by switching AC power, and a discharge unit 200 for discharging surplus driving power of the power supply unit 100. And a control unit 300 for controlling the switching of the power supply unit 100 and the discharge of the discharge unit 200, and a blocking unit 400 for stopping the switching of the power supply unit 100 when an abnormal operation of the control unit 300 occurs. ).

The power supply unit 100 supplies driving power for driving the plasma display panel. The power supply unit 100 is typically composed of a smoothing and rectifying circuit, a PWM IC, a transformer and the like.

The power supply unit 100 receives commercial AC power, smoothes and rectifies the AC power through the smoothing and rectifying circuit, and switches the rectified AC power through a PWM IC. The power supply unit 100 performs a PWM switching operation or stops a PWM switching operation under the control of the controller 300.

The switched AC power is converted into DC power through the transformer. The power supply unit 100 converts the converted DC power into a predetermined driving power and supplies the same.

That is, the power supply unit 100 supplies the driving power by performing a switching operation under the control of the control unit 300, or stops the supply of the driving power by stopping the switching operation. When the switching operation is interrupted while the driving power is supplied by performing the switching operation, excess driving power is generated.

The discharge unit 200 discharges surplus driving power when the switching operation of the power supply unit 100 is stopped under the control of the control unit 300.

The control unit 300 includes a switching control signal for controlling the power supply unit 100 to perform a PWM switching operation or to stop the PWM switching operation, including a microcomputer, etc., and a discharge control for controlling the discharge of the discharge unit 200. Output the signal.

The control unit 300 controls the power supply unit 100 and the discharge unit 200 to operate complementarily.

That is, when the power supply unit 100 outputs a switching control signal to perform a switching operation of outputting driving power, the control unit 300 outputs a discharge control signal so as not to operate the discharge unit 200 complementarily. The operation of the discharge unit 200 is stopped.

On the contrary, the control unit 300 outputs the switching control signal to stop the switching operation of the power supply unit when the operation of the power supply unit 100 is stopped, and the discharge unit 200 complementarily the power supply unit 100. Outputs the discharge control signal to discharge the surplus driving power generated by the interruption of the switching operation of the control unit, and operates the discharging unit 200 to discharge the surplus driving power.

The blocking unit 400 forcibly stops the switching operation of the power supply unit 100 during an abnormal operation of the control unit 300.

The control unit 300 is composed of a microcomputer or an integrated circuit to control the switching operation of the power supply unit 100 or the discharge operation of the discharge unit 200. The switching control signal or the discharge control signal from the controller 300 may include a noise component to perform an unwanted operation, or may malfunction due to external static electricity.

The blocking unit 400 stops the switching operation of the power supply unit 100 when the control unit 300 abnormally operates to output an incorrect discharge control signal.

In more detail, when the power supply unit 100 and the discharge unit 200 do not operate complementarily, the PWM switching operation of the power supply unit 100 is stopped. That is, when the discharge unit 200 operates while the power supply unit 100 performs the PWM switching operation, the switching control signal is immediately interrupted to cut off the switching operation of the power supply unit 100 to output driving power. Stop it.

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

4 is a circuit diagram showing an embodiment of a power supply for plasma display panel according to the present invention.

3 and 4, first, the power supply unit 100 performs a PWM switching operation according to a switching control signal of the controller 300. That is, when the switching control signal of the controller 300 is high, the power supply unit 100 performs a switching operation.

Looking at the switching operation in detail, the power supply unit 100 receives the commercial AC power to rectify and smooth.

The power supply unit 100 converts the rectified AC power Vi into PWM power according to the switching control signal. When the switching control signal is high, the PWM IC switches a constant pulse on and off to the drive IC, and the drive IC applies the pulse from the PWM IC to the upper and lower FETs to supply the rectified AC power. Pass it to the transformer.

The energy delivered to the transformer is resonated by the LLC by an inductor, a capacitor, and the like and is excited to the secondary side. The energy excited to the secondary side is converted into a predetermined driving power source Vs, charged in a capacitor C connected to an output terminal, and supplied to a circuit such as an external plasma display panel (not shown).

When the switching control signal of the controller 300 is low, the power supply unit 100 stops the switching operation, and thus, the driving power Vs charged to the capacitor C is stopped.

Meanwhile, even when the switching operation of the power supply unit 100 is stopped, the surplus driving power Vs is present in the capacitor C, so that the control unit 300 operates the discharge unit 200.

Looking at the operation of the discharge unit 200 in detail, first, the control unit 300 stops the switching operation of the power supply unit 100.

Thereafter, the discharge unit 200 outputs a discharge control signal to operate. The discharge control signal may be output high to operate the discharge unit 200 or may be output low to operate the discharge unit 200.

In the embodiment of the present invention, the discharge control signal is set low so as to operate the discharge unit 200.

The control unit 300 outputs the switching control signal low to stop the switching operation of the power supply unit 100, and then outputs the discharge control signal low to operate the discharge unit 200. Let's do it.

The discharge unit 200 includes a first switch SW1 formed of npn and a second switch SW2 composed of FETs. The discharge unit 200 receives the discharge control signal through a base end of the first switch SW1. When the discharge control signal is low, the first switch SW1 is switched off according to the discharge control signal.

On the other hand, the discharge unit 200 is always supplied with standby power (Vcc) from an external standby power circuit (not shown).

Accordingly, when the first switch SW1 is switched off according to the low discharge control signal, the standby power Vcc flows into the second switch SW2 (B) The two switches SW2 are switched on according to the standby power supply Vcc. That is, standby power Vcc flowing into the second switch SW2 (B) operates the discharge unit 200 complementarily to the switching control signal transmitted to the power supply unit 100.

The second switch SW2 presents a transmission path of the surplus driving power Vs charged in the capacitor C of the power supply 100. As the second switch SW2 is switched on, surplus driving power Vs charged in the capacitor C of the power supply unit 100 flows into the first diode D1. The surplus driving power Vs introduced into the first diode D1 is transmitted to a discharge resistor Rd having one end connected to the first diode D1 and the other end connected to the second switch SW2.

The discharge resistor Rd discharges driving power from the diode as the second switch SW2 is switched on.

On the other hand, the discharge control signal from the controller 300 may include a noise component or an unwanted signal may be output due to an abnormal operation of the controller 300.

In the above-described case, the driving power supplied from the power supply unit 100 may be transmitted to the discharge unit 200 to damage components included in the discharge unit 200. In order to prevent component breakage of the discharge unit 200, the blocking unit 400 detects a discharge control signal from the control unit 300. The blocking unit 400 detects the discharge control signal during the PWM switching operation of the power supply unit 100 and stops the PWM switching operation of the power supply unit 100 when a discharge control signal for operating the discharge unit 200 is introduced. To prevent damage to the discharge unit 200.

The blocking unit 400 includes a diode D2 having an anode receiving the switching control signal and a cathode connected between the discharge resistor Rd of the discharge unit 200 and the second switch SW2. Damage to the entirety 200 can be prevented.

For example, when the switching control signal from the control unit 300 is outputted high and the switching operation of the power supply unit 100 is performed, the power supply unit 100 supplies driving power Vs to the capacitor. It is charged to C) and supplied to the outside.

During the above operation, when the discharge control signal is output low while the switching control signal from the controller 300 is high due to the abnormal operation of the controller 300, the second switch The point at which SW2 is switched on and the cathode of the diode D2 of the breaker 400 is connected has a lower voltage level than the switch control signal, so that the switching control signal of the breaker 400 is Flows into the diode D2. The switching control signal introduced through the diode D2 is grounded through the second switch SW2.

That is, when the discharge unit 200 operates during the operation of the power supply unit 100, the blocking unit 400 grounds the switching control signal from the control unit 300 to supply the power supply unit 100 from the control unit 300. The high switching control signal transferred to the high switching control signal is converted into a low switching control signal to stop the PWM switching operation of the power supply unit 100.

5 is a graph showing the operation of the power supply for the plasma display panel according to the present invention.

4 and 5, when the discharge unit 200 operates while the power supply unit 100 operates due to an abnormal operation of the control unit 300, the blocking unit Blocking the control of the power supply unit 100 of the control unit 300 through (400).

The switching control signal is changed from high to low so that the power supply unit 100 stops the switching operation.

Through the above-described operation, the blocking unit 400 prevents the driving power from flowing into the discharge unit 200 to prevent damage to the discharge unit 200.

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

As described above, according to the present invention, even when the discharge circuit operates during the output of the driving power supply due to a malfunction of a microcomputer or an integrated circuit, the output of the driving power supply is cut off, thereby preventing damage to the discharge circuitry.

Claims (3)

A power supply unit for converting AC power to a predetermined driving power by PWM operation; A discharge unit discharging the driving power when the PWM operation is stopped; A controller for complementarily controlling the operation on / off of the power supply unit and the operation on / off of the discharge unit; And A blocking unit which interrupts the operation of the power supply unit by blocking the control of the power supply unit from the control unit when the discharge unit operates while the power supply unit is operated; Power supply for plasma display panel comprising a. The method of claim 1, wherein the discharge unit A discharge resistor supplied with the driving power through one end; A first switch receiving the control from the controller and switching on and off; And A discharge path connected to one end of the first switch and complementarily switching on and off with the first switch and connected to the other end of the discharge resistor to provide a ground path of the discharge resistor when the power supply is stopped. A second switch discharging the driving power through Power supply for plasma display panel, characterized in that consisting of. The method of claim 2, The blocking unit includes a diode having an anode receiving the operation on / off control of the power supply unit from the control unit and a cathode connected to the other end of the discharge resistor, And the diode stops the operation of the power supply unit by grounding a control terminal for turning on / off the power supply unit of the control unit when the discharge unit operates during the operation of the power supply unit.

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