KR101300379B1 - Power supply having protection function - Google Patents

Abstract

The present invention relates to a power supply having a protection function capable of detecting an abnormal current, such as an overcurrent or a short circuit current caused by an abnormal operation, a failure, or the like during a power supply operation, and blocking the operation. A power conversion unit for converting to a power source and controlling interruption and maintenance of a switching operation according to an input level change signal, and after charging the current generated during the switching operation of the power conversion unit at an initial stage of operation, the power conversion unit after charging It provides a power supply having a protection function comprising a protection unit for transmitting a level change of the current generated during the switching operation to the power conversion unit.

Description

Power supply with protection function {POWER SUPPLY HAVING PROTECTION FUNCTION}

The present invention relates to a power supply having a protection function capable of detecting an abnormal current, such as an overcurrent or a short circuit current due to an abnormal operation, a failure, or the like during a power supply operation, and blocking the operation.

In general, a power supply device for supplying driving power for driving is employed in various electronic devices having various electrical functions.

Such a power supply device uses a semiconductor device such as a power metal oxide semiconductor field effect transistor as a switching device, and the switching device periodically performs an on / off operation to control the magnitude of the output voltage. In this case, a control circuit for controlling a periodic operation and a protection function of the switching element may be employed in the power supply device, and the control circuit is mainly implemented in an analog manner due to an electrical characteristic having a high speed response.

However, control circuits implemented in an analog manner usually have a fixed circuit configuration, resulting in poor stability and reliability of the protection function. Accordingly, a stable and reliable protection circuit is separately required.

The separate protection circuit should be insensitive to spike current or noise pulse at the beginning of operation in order to realize smooth power supply operation of the power supply, and to quickly operate the switching element when over current or short current flows through the switching element. It is necessary to have protection function to block it.

An object of the present invention is to provide an insensitive response to spike-like current or noise pulses at the beginning of operation, and a power supply having a protection function that can quickly shut down the operation of the switching element when an overcurrent or short-circuit current flows through the switching element. To provide.

In order to achieve the above object, one technical aspect of the present invention is a power conversion unit for switching the input power to convert to a predetermined drive power, and controls the interruption and maintenance of the switching operation according to the input level change signal And charging the current generated during the switching operation of the power converter in the initial stage of operation, and then transmitting the level change signal having a level variation of the current generated during the switching operation of the power converter after charging. It is to provide a power supply having a protection function comprising a unit.

According to one technical aspect of the present invention, the power converter is a switching unit for switching the power factor correcting power corrected the power factor of the input power, and the level of the protection unit to control the switching of the switching unit, input to the signal input terminal It may include a control unit for controlling the operation of the switching unit according to the change.

According to one technical aspect of the present invention, the switching unit is a first switch for switching the power factor corrected power, and the first switch is connected in series with the first switch between the power supply terminal and the ground to which the power factor corrected power is supplied to the first switch It may include a second switch to switch alternately as opposed to the switching of.

According to one technical aspect of the present invention, a detection resistor for detecting a current of the switched power supply when switching on the second switch, a capacitor for charging the current of the switched power supply, and a current charged in the capacitor And a first resistor and a second resistor for discharging the voltage charged in the capacitor when the switching operation of the power conversion unit is interrupted according to a predetermined resistance value ratio.

According to one technical aspect of the present invention, the detection resistor may have one side connected to the second switch, the other side connected to ground, and the capacitor may have one end connected to one side of the detection resistor, and the controller It may have the other end connected to the signal input terminal of the, the first resistor has one side connected to the other end of the capacitor, may have the other side connected to the ground, the second resistor has one side connected to one side of the first resistor In addition, the diode may have an anode connected to the other side of the second resistor and a cathode connected to ground.

According to one technical aspect of the present invention, the resistance value of the first resistor may be greater than the resistance value of the second resistor.

According to one technical aspect of the present invention, the capacitance value of the capacitor may be 1 nF or more and 1 uF or less.

According to one technical aspect of the present invention, the power converter is rectified and smoothed by receiving a commercial AC power, a power factor correction unit for correcting the phase difference between the current and the voltage of the rectified smoothed power, and the switched power supply The transformer may further include a transformer configured to transform a voltage level to a predetermined voltage level, and an output stabilizer configured to stabilize the power transformed by the transformer and output the driving power.

According to the present invention, by charging the current generated during the switching operation to determine whether the current is abnormal according to the change in the charged voltage level, the response is insensitive to spike current or noise pulse at the beginning of operation, and overcurrent to the switching element Alternatively, when a short circuit current flows, the operation of the switching device is quickly cut off.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic configuration diagram of a power supply device of the present invention; FIG.
2 is a graph showing the switching current and the detected voltage in the power supply of the present invention.

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

1 is a schematic configuration diagram of a power supply device of the present invention.

Referring to FIG. 1, the power supply device 100 of the present invention may include a power conversion unit 110 and a protection unit 120.

The power converter 110 may include a rectifier 111, a power factor corrector 112, a switch 113, a controller 114, a transformer 115, and an output stabilizer 116.

The rectifier 111 may receive a commercial AC power of approximately 90V to 264V to rectify and smooth it.

The power factor correction unit 112 may correct the power factor of the power source by correcting a phase difference between the current and the voltage by switching the DC power source from the rectifier 111.

The switching unit 113 may include first and second switches Q1 and Q2. The first and second switches Q1 and Q2 may be connected in series between a power supply terminal to which power from the power factor correcting unit 112 is transmitted and a ground. Each of the first and second switches Q1 and Q2 may be constituted by a metal oxide semiconductor field effect transistor. A drain of the first switch Q1 is connected to the power supply terminal, and a gate is controlled. It is connected to 114, the source (source) can be connected to the second switch (Q2). The drain of the second switch Q2 is connected to the source of the first switch Q1, the gate is connected to the control unit 114, and the source is connected to one end of the detection resistor R _sense of the protection unit 120. . The first switch Q1 and the second switch Q2 may alternately switch each other.

The control unit 114 may control the switching on and off operations of the switching unit 113 and includes a signal input terminal CS to receive the level change from the protection unit 120 to receive the first change of the switching unit 113. And determining whether the current flowing through the second switches Q1 and Q2 is abnormal, and controlling the switching operation of the switching unit 113 to be blocked when the abnormal current flows. The control signal of the controller 114 may be input to the gates of the first and second switches Q1 and Q2.

The transformer 115 may include a transformer T having a primary winding that receives a switched power and a secondary winding having a primary winding and a preset winding ratio, and output a power having a predetermined voltage level. In this case, the transformer 115 may include a resonant capacitor Cr and a leakage inductor L _lkg .

The output stabilization unit 116 may include first and second output diodes Do1 and Do2 having respective anodes connected to one end and the other end of the secondary winding of the transformer 115, and the first and second output diodes Do1 and Do2. One end is connected to the cathode of the) and may include an output capacitor (Co) is connected to the other end of the secondary ground.

The protection unit 120 may include a detection resistor R _sense , a capacitor C1, a first resistor R1, a second resistor R2, and a diode D1.

One end of the detection resistor R _sense may be connected to the source of the second switch Q2 of the switching unit 113, and the other end thereof may be connected to the primary side ground. One end of the capacitor C1 may be connected to one end of the detection resistor R _sense , and the other end thereof may be connected to the signal input terminal CS of the controller 114. One end of the first resistor R1 may be connected to the other end of the capacitor C1 and the other end thereof may be connected to the primary side ground. One end of the second resistor R2 may be connected to one end of the first resistor R1, and the other end may be connected to the anode of the diode D1. The cathode of the diode D1 may be connected to the primary side ground.

2 is a graph showing the switching current and the detected voltage in the power supply of the present invention.

Referring to FIG. 2 together with FIG. 1, supplying and blocking of the current I _DS flowing through the switching unit 113 as shown by an arrow may be repeated. In this case, the capacitor C1 may have a size of about 1 nF to 1 uF to charge the current I _DS applied to the detection resistor R _sense . As shown in the graph, the charging voltage V _CS may be maintained at a substantially constant voltage except for a portion where the voltage level is reduced by natural discharge. Accordingly, the protection function is prevented from operating by current conversion such as spike current or abnormal and instantaneous pulses that may be included in the current I _DS flowing in the switching unit 113 at the beginning of the operation of the power supply device. Stability can be improved.

In the normal operation, since the charging voltage V _CS maintains a constant voltage level due to the reverse characteristics of the capacitor C1 and the diode D1, when an overcurrent or a short circuit current flows through the switching unit 113, The level change is rapidly made to a level which can be determined as an abnormal operation, thereby accurately detecting an abnormal flow of current, thereby quickly shutting off the operations of the first and second switches Q1 and Q2 of the switching unit 113. Accordingly, the current flowing through the first and second switches Q1 and Q2 decreases, thereby preventing the loss and damage of the first and second switches Q1 and Q2.

At this time, the resistance value of the first resistor R1 is set to be larger than the resistance value of the second resistor R2 so that when the overcurrent or short circuit current occurs, the first resistor R1 does not affect the level variation. It may be used to discharge the charge charged in the capacitor (C1) when the operation of the power supply is completely stopped.

As described above, according to the present invention, by charging the current generated during the switching operation and determining whether the current is abnormal according to the change of the charged voltage level, the response is insensitive to the spike-like current or noise pulse in the initial operation. When the over current or short current flows through the switching element, the operation of the switching element can be cut off quickly.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular forms disclosed. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100 ... power supply
110 ... power conversion unit
111 Rectifier
112 ... Power Factor Correction
113 ... Switching Part
114.Control part
115.Transformer
116 ... output stabilizer
120 ... protector

Claims (8)

A power conversion unit for switching input power to convert to a predetermined driving power, and controlling interruption and maintenance of the switching operation according to an input level change signal; And
A protection unit which charges the current generated during the switching operation of the power conversion unit at the initial stage of operation, and transmits the level change signal having a level variation of the current generated during the switching operation of the power conversion unit after charging to the power conversion unit; Including;
And the power conversion unit has a protection function to prevent operation of the protection unit when a spike current or an instantaneous pulse is included in a current generated by a switching operation at an initial stage of operation. The method of claim 1, wherein the power conversion unit
A switching unit for switching a power factor correction power source for correcting the power factor of the input power source; And
A control unit for controlling the switching of the switching unit and controlling the operation of the switching unit according to the level change of the protection unit input to the signal input terminal;
Power supply having a protection function comprising a. 3. The apparatus of claim 2, wherein the switching unit
A first switch electrically connected to a power supply terminal to which the power factor corrected power is supplied and switching the power factor corrected power; And
A second switch connected in series with the first switch, connected to ground through the protection unit, and alternately switching with the switching of the first switch;
Power supply having a protection function comprising a. The method of claim 3, wherein the protection unit
A detection resistor detecting a current of the switched power supply when the second switch is switched on;
A capacitor charging the current of the switched power supply;
A diode which maintains a current charged in the capacitor at a constant level; And
And a first resistor and a second resistor for discharging the voltage charged in the capacitor when the switching operation of the power converter is interrupted according to a preset resistance value ratio. 5. The method of claim 4,
The detection resistor has one side connected to the second switch and the other side connected to ground;
The capacitor has one end connected to one side of the detection resistor, the other end connected to the signal input terminal of the control unit,
The first resistor has one side connected to the other end of the capacitor and the other side connected to the ground,
The second resistor has one side connected to one side of the first resistor and has the other side,
And the diode has an anode connected to the other side of the second resistor and a cathode connected to ground. 5. The method of claim 4,
The power supply having a protection function, characterized in that the resistance value of the first resistor is larger than the resistance value of the second resistor. 5. The method of claim 4,
And a capacitance value of the capacitor is greater than or equal to 1 nF and less than or equal to 1 uF. The method of claim 2, wherein the power conversion unit
Rectifier for rectifying and smoothing the commercial AC power input;
A power factor correcting unit correcting a phase difference between the current and the voltage of the rectified smoothed power source;
A transformer for transforming a voltage level of the switched power supply into a preset voltage level; And
An output stabilization unit which outputs the driving power by stabilizing the power transformed by the transformer;
Power supply having a protection function, characterized in that it further comprises.

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