KR100946348B1 - Power factor correction of power supply - Google Patents

Abstract

The present invention relates to a power factor improvement circuit of a power supply.

An embodiment of the present invention provides a power factor improvement circuit of a power supply device for rectifying an AC power source into a DC power source and providing the same to a load side, comprising: boosting means for boosting a current input through the rectifying unit; Current limiting means for limiting inrush current inputted through the rectifier; Current detecting means for detecting a current value excited from the boosting means; And switching means 1 for flowing or bypassing the current to the current limiting means while switching operation in accordance with the amount of current detected by the current detecting means.

The embodiment of the present invention can reduce the heat generated by the loss by operating at the time of starting the power supply or during overcurrent.

Description

Power Factor Correction Circuit of Power Supply Unit {POWER FACTOR CORRECTION OF POWER SUPPLY}

1 is a block diagram schematically showing a configuration according to an embodiment of the present invention.

2 is a circuit diagram showing in more detail the configuration according to an embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

10: power factor improvement circuit

11: boosting means

12: current limiting means

13 current detecting means

14: switching means 1

The present invention relates to a power supply.

In general, according to the miniaturization of electric and electronic devices, the demand for miniaturization is very high even for a power supply device that stably supplies driving power to the device, and thus, most power supply devices are switched to a switching method.

The switching power supply uses a capacitor input rectifier circuit, most of which causes the rectifier to conduct only a short period of the peak portion of the commercial power supply to generate a narrow pulsed current waveform.

This pulsed current not only generates many harmonic components but also causes a decrease in input power factor. In particular, as the simultaneous increase in the simultaneous use of electric and electronic devices with built-in switching power supplies such as home appliances and office equipment, the increase in harmonics and power factor deterioration caused by the aforementioned pulsed current may seriously affect the power system. The possibilities are very high.

As a countermeasure, international organizations such as IEC have established standards such as 61000-3-2 for devices with 16A / phase and higher and 61000-3-4 for devices with 16A / phase and higher to strictly regulate harmonic currents. have.

In consideration of the problems of the conventional power supply as described above, the power factor improvement circuit is recently installed to improve the power factor, but there is a problem that the reliability of the product is lowered.

The power factor improvement circuit according to the embodiment of the present invention may reduce heat generation due to loss by operating at the time of starting the power supply or during overcurrent.

An embodiment of the present invention provides a power factor improvement circuit of a power supply device for rectifying an AC power source into a DC power source and providing the same to a load side, comprising: boosting means for boosting a current input through the rectifying unit; Current limiting means for limiting inrush current inputted through the rectifier; Current detecting means for detecting a current value excited from the boosting means; And switching means 1 for flowing or bypassing the current to the current limiting means while switching operation in accordance with the amount of current detected by the current detecting means.

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

2 is a block diagram schematically showing a configuration according to an embodiment of the present invention, Figure 3 is a circuit diagram showing a configuration in more detail according to an embodiment of the present invention.

The power factor improvement circuit 10 of the power supply device rectifying the AC power according to the embodiment of the present invention to a DC power supply to the load side is as shown in FIGS. 1 and 2.

The boosting means 11 boosts the current input through the rectifier 1. The current limiting means 12 limits the inrush current input through the rectifier 1. The current detecting means 13 detects a current value excited from the boosting means 11. The switching means 1 14 causes the current to flow to or bypass the current limiting means 12 while switching according to the amount of current detected by the current detecting means 13.

Here, the boosting means 11 is implemented as an inductor and is connected to the output side of the rectifier 1.

The current limiting means 12 may also be made of an inductor, and is connected in series with the boosting means.

The current detecting means may also be formed of an inductor, and connected in parallel with the boosting means.

Connection of the boosting means 11, the current limiting means 12 and the current detecting means 13 may be made of a single transformer in an equivalent circuit, which may be applied to another embodiment of the present invention, such implementation In the example, as a result, the boosting means 11 and the current limiting means 12 become primary windings (first winding, second winding), and the current detecting means 13 becomes secondary winding.

The switching means 1 14 may be implemented with an FET which is an active element, and the switching means 1 14 are connected in parallel with the current limiting means 12.

In addition, the embodiment of the present invention corrects the phase of the power output through the current limiting means 12 between the output side of the current limiting means 12 and the LOW level stage, while bringing the current waveform closer to the sine wave. Switching means 2 (Q2) for correcting the power factor and converting into a direct DC component while charging / discharging power provided through the PFC diode (D) and the PFC diode (D) on the output side of the current limiting means (12). It further comprises a capacitor (C).

In the embodiment of the present invention configured as described above, first, when AC power is input to the rectifier 1 (eg, a bridge diode), it is full-wave rectified to DC power, and the rectified DC power is input to the power factor improving circuit 10.

The DC power input to the power factor correction circuit 10 passes through the boosting means 11 and the current limiting means 12 or the boosting means 11 and the switching means 1 and 14 according to the amount of current. It is supplied to the SMPS circuit through (C) to supply power to the device.

That is, the power supplied from the rectifier 1 is excited by the current detecting means 13 while passing through the boosting means 11 to detect the amount of current, and the switching means 1 (14) by the amount of the detected current. By controlling the switching operation, the power supply via the boosting means 11 is supplied to the PFC diode D and the capacitor C through the current limiting means 12, or the power supply via the boosting means 11 is switched. Means 1 (14) may be provided to the PFC diode (D) and the capacitor (C).

At this time, the switching means 1 (14) cuts off the current when the current detected from the current detecting means 13 exceeds the reference current, thereby boosting the path of the current flowing through the boosting means 11 and the switching means 1 (14). By flowing through the means 11 and the current limiting means 12, the power supply is turned off at start-up and enters the conducting state after the current is lowered below the reference.

In the state in which the switching means 1 (14) is turned off, the current limiting means 12 and the boosting means 11 are connected in series to perform the inrush current limiting function due to the increased inductance.

That is, since the winding of the current limiting means 12 flows only during startup, the wire diameter of the winding is thin, and the number of turns can be determined within a range allowed by the breaking rating of the switching means 1 (14). For reference, when the current limiting means 12 is the same number of windings as the boosting means 11, the inductance is quadrupled, thereby lowering the rate of increase of the inrush current to one quarter.

On the other hand, in accordance with the amount of current excited by the current detecting means 13, the switching means 2 (Q2) is switched (ON state if it is higher than the current required for driving, and then OFF state), whereby the input AC power source is in phase In particular, the current waveform is close to a sine wave, thereby improving the power factor of the input power supply, thereby delivering a DC voltage to the SMPS circuit through the PFC diode D and the capacitor C.

According to the present invention, the switching loss in switching means 2 (Q2) is a loss in which the product of the instantaneous current and voltage of the switching means 2 (Q2) is proportional to the resistance in the conduction state of the switching means 2 (Q2). Loss occurs, and especially when operating in the continuous mode, a turn by the leakage component of the boosting means 11 and the reverse recovery current of the PFC diode D for blocking. Since a large switching loss occurs at the time of turning on, the flow of the inrush current is delayed so as to reduce the switching loss of the power output to the SMPS circuit through the PFC diode D while being boosted by the boosting means 11.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described.

Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

The power factor improvement circuit of the present invention operates at the time of startup and at abnormal overcurrent, so that the power factor improving circuit has less influence on loss and circuit operation than the normal operation type.

In addition, the present invention does not require a design change by an additional circuit by using a part of the inductor used in the power factor improvement circuit.

Claims (10)

In the power factor improvement circuit of the power supply device which rectifies AC power to DC power and provides it to the load side, Boosting means for boosting a current input through the rectifier; Current limiting means for limiting inrush current inputted through the rectifier; Current detecting means for detecting a current value excited from the boosting means; Switching means 1 for flowing or bypassing the current to the current limiting means while switching operation in accordance with the amount of current detected by the current detecting means, The boosting means, the current limiting means and the current detecting means A power factor improvement circuit of a power supply, comprising a transformer, wherein the boosting means and the current limiting means are the primary side windings, and the current detecting means is the secondary side windings. The method of claim 1, The boosting means, the current limiting means and the current detecting means are each an inductor, The boosting means and the current limiting means are connected in series, and the boosting means and the current detecting means are connected in parallel. delete The method of claim 1, wherein the switching means 1 A power factor improving circuit of the power supply, comprising an active element, connected in parallel with the current limiting means. The method of claim 4, wherein And the switching means 1 is any one of a field effect transistor (FET), a transistor, and a relay. The method of claim 1, And a switching means (2) for correcting the phase of the power output through the current limiting means and correcting the power factor by bringing the current waveform closer to the sine wave. The method of claim 6, And the switching means 2 is provided between the output side of the current limiting means and the LOW level terminal. The method of claim 1, And a diode which blocks the reverse surge current from flowing into the output side of the current limiting means. The method of claim 8, The diode is a power factor improvement circuit of the power supply, characterized in that the PFC diode. The method of claim 8, The power factor improvement circuit of the power supply device, characterized in that it further comprises a capacitor for converting into a direct DC component while charging / discharging the power provided through the diode.

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