KR100843451B1 - Power supply having protect circuit - Google Patents

Abstract

A power supply unit having a protection circuit is provided to prevent the damage of switch by blocking power supplied to the switch when an error is generated. A power supply unit having a protection circuit includes a first power unit(110), a controller(130), a second power unit(140), and a blocking unit(150). The first power unit converts an AC(Alternating Current) voltage into plural DC(Direct Current) source voltages through a PWM(Pulse Width Modulation) scheme. The controller transmits an operation signal for controlling the operation of the first power unit to the first power unit. The second power unit converts at least one DC source voltage among the plural DC source voltages into an output source voltage having a voltage level through the PWM scheme. The blocking unit stops PWM switching operation of the second power unit when the operation signal is a PWM operation off signal.

Description

Power supply unit with protection circuit {POWER SUPPLY HAVING PROTECT CIRCUIT}

1 is a block diagram of a conventional power supply device.

2 is a block diagram of a power supply apparatus of the present invention.

3 is a timing chart of each component of the power supply apparatus of the present invention.

Figure 4 (a) is a graph showing the waveform of each part of the conventional power supply device.

Figure 4 (b) is a graph showing the waveform of each part of the power supply device of the present invention.

<Detailed Description of Major Symbols in Drawing>

100 ... power supply unit 110 ... first power supply unit

111 Rectifier 112 Power factor correction unit

113 ... first power supply 114 ... second power supply

115 ... first switching unit 116 ... second switching unit

120 Standby power supply 130 Control unit

140 2nd power supply unit 141 switch

142 ... 150 switching parts

The present invention relates to a power supply device, and more particularly, to a power supply device having a protection circuit for protecting a circuit by immediately shutting off power during abnormal operation in a power supply device employed in a PDP.

Recently, PDP (Plasma Cisplay Panel) products have been in the spotlight as the size of display devices has increased. In these PDP products, a power supply unit for supplying power for operation is essential.

1 is a configuration diagram of a conventional power supply device.

Referring to FIG. 1, the conventional power supply device 10 rectifies and power factor corrects an AC power source to switch a power factor corrected AC power source using a PWM method, and thus, different preset DC power sources (VS, VA, Vin, and Vcc2) may be used. PWM to the standby power supply unit 12 and the first power supply unit 11 that receives the outputting first power supply unit 11 and the rectified AC power supply AC` to supply the operational standby power supply Vcc1 to the first power supply unit 11. The driving power supply Vcc2 is supplied from the control unit 13 and the first power supply unit 11 which transmits the operation signals VS_ON and PS_ON to control the operation on / off, respectively, and outputs the input power Vin by switching the PWM method. The second power supply unit 14 converts the power supply Vout.

The first power supply unit 11 transmits operation power VS and VA having different voltage levels to the PDP module and the lighting device included in the PDP product, and the driving power supply Vcc2 is the switching unit of the second power supply unit 14. Is passed to 14b. The switching unit 14b controls the PWM switching operation of the switch 14a for switching the input power Vin from the first power source 11.

On the other hand, the operation signals VS-ON and PS_ON operate in a preset sequence and have different on / off periods. At this time, when the operation signals PS_ON and VS_ON are simultaneously turned off due to a malfunction of a circuit or a device breakdown, surplus power among the driving power sources Vcc2 of the first power supply unit 11 is applied to the switch 14a. There is a problem that the switch insulation is broken.

In order to solve the above problems, it is an object of the present invention to provide a power supply device having a protection circuit that immediately cuts off the power during abnormal operation in the power supply device employed in the PDP to protect the circuit.

In order to achieve the above object, the power supply apparatus of the present invention, the first power supply unit for switching the AC power supply to each of a plurality of preset DC power by switching the PWM method, and the on / off of each PWM operation of the first power supply unit A control unit which transmits an operation signal for controlling the control unit to the first power supply unit, and converts at least one DC power supply among the plurality of DC power supplies from the first power supply unit in a PWM manner to convert the output power having a preset voltage level. And a blocking unit to stop the PWM switching operation of the second power supply unit when the operation signal of the control unit is a PWM operation off signal.

According to an embodiment of the present invention, the first power supply unit is a first power supply for switching the AC power in a PWM method to convert to a predetermined first operating power, and by switching the AC power in a PWM method in advance A second power supply configured to convert the set second operating power and the first driving power and the input power transmitted to the second power supply unit, and receiving the operation signal from the controller, respectively, PWM switching of the first and second power supplies It may include a first and second switching unit for controlling the respectively.

According to an embodiment of the present invention, the second power supply is a switch for switching the input power to the PWM method to convert the output power, and a switching unit for controlling the PWM switching of the switch receiving the first driving power It may include.

According to an embodiment of the present invention, the control unit transmits a first operation signal for controlling the on / off of the PWM operation to the first switching unit and controls the on / off of the PWM operation to the second switching unit. The second operation signal may be transmitted.

According to an embodiment of the present invention, the blocking unit includes a diode having a cathode connected to a second operation signal terminal of the controller and an anode connected to a first driving power terminal of the second power supply, wherein the diode When the second operation signal is a PWM operation off signal, the second driving signal may be conductive to pass the first driving power supply.

According to an embodiment of the present invention, the first power supply unit rectifies and smoothes the AC power, and the power factor correcting the power factor of the AC power rectified from the rectifying unit to be delivered to the first and second power supplies, respectively. It may further include a correction unit.

According to one embodiment of the present invention, the power supply device of the present invention may further include a standby power supply unit for converting the AC power from the rectifying unit to a predetermined second drive power to transfer to the first and second switching unit. have.

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

2 is a configuration diagram of a power supply apparatus of the present invention.

Referring to FIG. 2, the power supply device 100 of the present invention includes a first power supply unit 110, a standby power supply unit 120, a control unit 130, a second power supply unit 140, and a blocking unit 150.

The first power supply unit 110 may receive the AC power and switch the PWM power in a PWM manner to convert a plurality of DC powers set in advance. Accordingly, the first power supply unit 110 may include a rectifying unit 111 for rectifying and smoothing the AC power and a power factor correcting unit 112 for correcting the power factor of the AC power rectified from the rectifying unit 111. 111 may further perform an electro-magnetic interference (EMI) removal function in addition to the rectification and smoothing functions of the AC power.

In addition, the first power supply unit 110 switches the power factor corrected AC power from the power factor correction unit 112 in a PWM manner to convert the first and second power supplies 113 and 114 into voltages having different voltage levels. ), And may include first and second switching units 115 and 116 for controlling PWM switching of the first and second power supplies 113 and 114, respectively.

The first power supply 113 converts the power factor corrected AC power from the power factor correcting unit 112 in a PWM manner to convert it into a first operating power VA having a preset voltage level, and converts the second power supply ( 114 converts the power factor corrected AC power supply from the power factor correcting unit 112 in a PWM manner to convert to a second operating power source VS having a voltage level which is preset and having a voltage level different from that of the first operating power source. In addition, the second power supply 114 switches the power factor corrected AC power in a PWM manner to have a preset voltage level and is transmitted to the second power supply 140 and the first driving power Vcc2. To).

The first power supply unit 110 may include first and second switching units 115 and 116 for controlling switching of the first and second power supplies 113 and 114, respectively, and the first switching unit 115 may be used. Receives the first operating power VA from the first power supply 113, adjusts the PWM switching of the first power supply 113, and adjusts the PWM switching of the second switching unit 116 from the second power supply 114. The second operating power supply VS is fed back to adjust the PWM switching of the second power supply 114.

The standby power supply unit 120 converts the rectified AC power from the rectifier 111 into a preset second driving power source Vcc1 and transmits the same to the first and second switching units 115 and 116, respectively. The first and second switching units 115 and 116 receive the second driving power source Vcc1 to perform the above-described PWM switching control operation.

The controller 130 transmits the first and second operation signals VS_ON and PS_ON to control the PWM operation on / off to the first and second switching units 115 and 116, respectively. The second operation signal PS_ON from the controller 130 is also transmitted to the blocking unit 150.

The second power supply unit 140 receives an input power supply Vin from the first power supply unit 110 and receives a first driving power supply Vcc2 from the switch 141 and the first power supply unit 110 that switch in a PWM manner. And a switching unit 142 for controlling the PWM switching of the switch 141.

The blocking unit 150 receives one end of the second operation signal PS_ON from the controller 130, and the other end thereof is connected to the switching unit 142, and the first driving power Vcc2 from the second power supply 114. Connected to the stage. The blocking unit 150 may be formed of a diode, so that the cathode of the diode is connected to the second operation signal PS_ON from the controller 130 and the anode is the first driving power of the second power supply 114. It is connected to the (Vcc2) stage and the switching unit 142.

3 is a timing chart of each component of the power supply apparatus of the present invention.

Referring to Figure 3, it can be seen the operation sequence of each component adopted in the power supply device of the present invention.

Fig. 4A is a graph showing waveforms of respective parts of the conventional power supply device, and Fig. 4B is a graph showing waveforms of each part of the power supply device of the present invention.

Referring to FIGS. 4A and 4B, waveforms of respective parts of the conventional power supply device and the power supply device of the present invention can be compared.

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

2 and 3, in normal operation, when AC power is first input, the AC power is rectified and smoothed and input to the standby power unit 120, and the standby power unit 120 removes the rectified and smoothed AC power. 2 is converted into driving power Vcc1 and transferred to the first and second switching units 115 and 116. When the AC power is off, the standby power supply 120 may perform a step-down function in which the voltage drops sequentially to protect the device.

On the other hand, the rectified and smoothed AC power is input to the power factor correcting unit 112 and the reverse flow is corrected and then transmitted to the first and second power supply (113, 114), respectively. In this case, the controller 130 transmits the first and second operation signals VS_ON and PS_ON to turn on the PWM operation to the first and second switching units 115 and 116, respectively. The two switching units 115 and 116 control the PWM switching operations of the first and second power supplies 113 and 114 by turning on the PWM operation. Accordingly, the first and second power supplies 113 and 114 output the first and second operating power supplies VA and VS, respectively, and the second power supply 114 and the first driving power supply Vcc2 are respectively. The input power Vin is transmitted to the second power supply 140. Here, the first and second operating power sources (VA, VS) can be used for the lighting of the lamp employed in the PDP product, and can also be supplied to the module for controlling the lamp lighting.

The switch 141 of the second power supply unit 140 outputs an output power Vout having a predetermined voltage level by switching the input power Vin in a PWM manner. In this case, the switching unit 142 receives the first driving power Vcc2 from the second power supply 114 to control the PWM switching of the switch 141. The blocking unit 150 does not operate in the above-described normal operation.

On the other hand, the operation signals PS_ON and VS_ON may be turned off at the same time during abnormal operation such as malfunction of a circuit or damage to a device.

Referring to FIG. 4A, when the operation signals VS_ON and PS_ON are turned off during the abnormal operation described above, the operation signals VS_ON and PS_ON do not ideally fall to the '0' potential but rather form a hysteresis curve. Drops to '0' potential. Accordingly, referring to FIG. 1, in the conventional power supply apparatus, the potential of the first driving power supply Vcc2 from the first power supply unit 11 drops to a '0' potential by forming a hysteresis curve. While drawing the curve, the first driving power source Vcc2 is transmitted to the switching unit 14b. At this time, since the switching unit 14b is turned off, the first driving power source Vcc2 described above is applied to the switch 14a electrically connected to the switching unit 14b so that the voltage Vgs across the switch is instantaneously. You can see the rise. Accordingly, in the conventional power supply apparatus, when the second operation signal PS_ON is turned off during abnormal operation, the first driving power supply Vcc2 from the first power supply 1n 11 is applied to the switch 14a to switch 14a. Excessive rated power of) causes a problem that the insulation of the switch is broken.

On the contrary, referring to FIG. 4B, the blocking unit 150 senses the second operation signal PS_ON during the abnormal operation described above. The blocking unit 150 senses the second operation signal PS_ON and conducts the second operation signal PS_ON when the second operation signal PS_ON is a PWM operation off signal to be transferred from the second power supply 114 to the second power supply 140. Shut off the drive power supply (Vcc2). This is possible because the voltage level of the second operation signal PS_ON is lower than the voltage level of the first driving power supply Vcc2. Accordingly, the voltage Vgs applied to both ends of the switch 141 does not exceed the rated power supply of the switch 141, thereby preventing breakdown of the switch 141 even during abnormal operation.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, but is defined by the claims below, 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 the present invention may be changed and modified.

As described above, according to the power supply apparatus of the present invention, when the operation signals PS_ON and VS_ON are simultaneously turned off due to a malfunction of a circuit or a device breakdown, the second operation signal PS_ON is sensed and applied to a switch. It is effective to cut off surplus power immediately to prevent breakdown of the switch.

Claims (7)

A first power supply unit for converting AC power into a plurality of preset DC power by switching AC power in a PWM manner; A control unit which transmits an operation signal for controlling on / off of each PWM operation of the first power supply unit to the first power supply unit; A second power supply unit for converting at least one DC power supply from among the plurality of DC power supplies from the first power supply unit in a PWM manner to convert an output power supply having a predetermined voltage level; And Blocking unit for stopping the PWM switching operation of the second power supply if the operation signal of the control unit is a PWM operation off signal Power supply having a protection circuit comprising a. The method of claim 1, wherein the first power supply unit A first power supply for switching the AC power in a PWM manner and converting the AC power into a preset first operating power; A second power supply configured to switch the AC power in a PWM manner to convert a predetermined second operating power and a first driving power and an input power delivered to the second power supply; And First and second switching units receiving the operation signals from the controller, respectively, to control PWM switching of the first and second power supplies, respectively. Power supply having a protection circuit comprising a. The method of claim 1, wherein the second power supply unit A switch for switching the input power to the output power by switching the PWM power; And A switching unit configured to control the PWM switching of the switch by receiving the first driving power Power supply having a protection circuit comprising a. The method of claim 3, The control unit transmits a first operation signal for controlling the on and off of the PWM operation to the first switching unit and a second operation signal for controlling the on and off of the PWM operation to the second switching unit. Power supply having a protective circuit characterized in that. The method of claim 3, The blocking unit includes a diode having a cathode connected to a second operation signal terminal of the controller and an anode connected to a first driving power terminal of the second power supply, wherein the diode has the second operation signal turned off in a PWM operation. The power supply device having a protection circuit, characterized in that conducting the signal to pass the first driving power supply. The method of claim 3, wherein the first power supply unit Rectifier for rectifying and smoothing the AC power; A power factor correction unit corrects the power factor of the AC power rectified from the rectifier and transfers the power factor to the first and second power supplies, respectively. Power supply having a protection circuit, characterized in that it further comprises. The method of claim 5, The power supply device further comprises a standby power supply unit for converting the AC power from the rectifying unit to a predetermined second drive power supply to the first and second switching unit.

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