JP2020150728A - Power supply circuit and efficiency improving method of the same - Google Patents

Abstract

To provide a power supply circuit comprising a power factor improvement circuit that performs a soft switching, and an efficiency improving method of the power supply circuit.SOLUTION: A power supply circuit comprises: a power factor improvement circuit that improves a power factor by a soft switching control; a DC/DC conversion circuit that converts a DC power output from an output part of the power factor improvement circuit to the DC power of a constant voltage; a current detection circuit that detects a current supplied to the DC/DC conversion circuit; and a power consumption circuit that is connected to the output part of the power factor improvement circuit, and performs a consumption of the power when the current detected in the current detection circuit is a prescribed threshold value or less.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to a power supply circuit including a power factor improvement (PFC) circuit that performs soft switching, and a method for improving the efficiency of the power supply circuit.

Generally, a switching power supply connected to an AC input uses a PFC circuit in order to improve efficiency with respect to input power and suppress harmonic current. A rectifying bridge is generally provided in a PFC circuit, but in improving efficiency, the diode loss of the rectifying bridge cannot be ignored as a factor of efficiency reduction, and efficiency is improved without providing such a rectifying bridge. A bridgeless PFC circuit has been proposed.

For example, Patent Document 1 describes a technique for improving the efficiency of a totem pole bridgeless PFC circuit by detecting an inductor voltage and using it for switching control with respect to a bridgeless PFC having a totem pole structure. ..

Patent No. 6231673

In the totem pole bridgeless PFC circuit, in order to increase the conversion efficiency, soft switching, that is, switching in a state where the voltage or current becomes zero, is controlled so as to suppress the switching loss. However, since the soft switching control is used, the switching frequency of the PFC circuit fluctuates according to the load. Under the condition that the load is light, the switching frequency becomes high frequency, and as a result, there is a problem that the control by the controller becomes difficult and the efficiency also decreases. Moreover, in the case of a general switching element, the element may be damaged.

In addition, a method using a switching element corresponding to high frequency soft switching (for example, a gallium nitride (Gan) transistor) can be considered, but basically, a switching element corresponding to high frequency soft switching is general switching. There is a problem that the cost is higher than that of the element. In addition, there is a problem that the switching elements that can be selected in the design are limited.

Therefore, the subject of the present disclosure relates to a power supply circuit provided with a power factor improving circuit performing soft switching, and a method for improving the efficiency of the power supply circuit.

The present disclosure adopts the following configuration in order to solve the above-mentioned problems.

The power supply circuit according to one of the embodiments of the present disclosure is a power factor improving circuit that improves the power factor by soft switching control, and converts the DC power output from the output unit of the power factor improving circuit into a constant voltage DC power. When the DC / DC conversion circuit, the current detection circuit that detects the current supplied to the DC / DC conversion circuit, and the output section of the power factor improvement circuit are connected and the current detected by the current detection circuit is equal to or less than a predetermined threshold value. It is equipped with a power consumption circuit that consumes power.

According to the above configuration, power can be consumed by the power consumption circuit according to the current detected by the current detection circuit. As a result, even if the current is equal to or less than a predetermined threshold value, it is possible to secure a current of a certain value or more as a whole and prevent the switching frequency from becoming a high frequency. Further, when the detected current is large, the power consumption circuit does not consume power, and unnecessary power consumption can be prevented. Therefore, the efficiency of the power supply circuit that performs soft switching control can be improved.

In addition, in the power supply circuit according to one of the above embodiments, the power consumption circuit can continuously change the power consumption according to the load detected by the current detection circuit.

According to the above configuration, continuous and appropriate power for preventing the switching frequency from becoming high can be consumed in the power consumption circuit.

Further, in the power supply circuit according to one of the above embodiments, the current detection circuit can detect the current corresponding to the power output to the load by the DC / DC conversion circuit.

According to the above configuration, the current detection circuit can appropriately detect the current corresponding to the load output by the DC / DC conversion circuit.

Further, in the power supply circuit according to one of the above embodiments, the power factor improving circuit may be a totem pole bridgeless type power factor improving circuit.

According to the above configuration, the power factor improving circuit can be applied to a totem pole bridgeless type power factor improving circuit, and the power factor can be further improved.

According to the present disclosure, it is possible to provide a technique capable of improving the efficiency of a power supply circuit.

FIG. 1 is a schematic diagram illustrating an example of a circuit configuration of a PFC circuit including a current detection circuit and a power consumption circuit according to an embodiment.

FIG. 2 is a schematic diagram illustrating an example of a detailed circuit configuration of the current detection circuit and the power consumption circuit in the schematic diagram of FIG.

FIG. 3 is a graph illustrating an example of circuit efficiency and switching frequency according to the output power of the PFC circuit.

Hereinafter, embodiments of this disclosure will be described in detail with reference to the drawings.

FIG. 1 is a schematic view of a power supply circuit 1 as an embodiment according to the present disclosure. The power supply circuit 1 includes a PFC circuit 10, a power consumption unit 20, and a DC / DC conversion circuit 31.

The PFC circuit 10 is a totem pole bridgeless PFC circuit including a rectifying and smoothing unit 11 and a control unit 12. The rectifying and smoothing unit 11 is a circuit that converts an AC voltage input from an AC power supply Vin into a DC voltage, and has a total of four MOSFETs (S3 to S6) and two inductors (L11) connected in series, two each. , L12) and the capacitor C1. The rectifying and smoothing unit 11 soft-switches the MOSFETs (S3 to S6) based on the input of the AC power supply Vin to control opening and short-circuiting, thereby controlling the power consumption unit 20 and the DC / DC conversion circuit 31. A predetermined DC voltage rectified and smoothed is applied to. The control unit 12 includes a control circuit 13 connected to the rectifying / smoothing unit 11 and MOSFETs 1 and 2. Based on the polarity of the AC voltage supplied to the rectifying and smoothing unit 11 and the voltage value, the MOSFETs 1 and MOSFETs 2 are switched and controlled to improve the power factor of the AC power.

The power consumption unit 20 includes a current detection circuit 21 and a power consumption circuit 22. The current detection circuit 21 can detect the current flowing through the current detection circuit 21, that is, can detect the magnitude of the load 32. The power consumption circuit 22 is a circuit capable of consuming power, and the power consumed by the power consumption circuit 22 is controlled based on the current detected by the current detection circuit 21.

The DC / DC conversion circuit 31 converts the DC voltage applied from the rectifying / smoothing unit 11 into a predetermined voltage. The load 32 is connected to the DC / DC conversion circuit 31 and operates by a predetermined voltage after conversion.

By detecting the current flowing through the DC / DC conversion circuit 31, the current detection circuit 21 detects the power output from the DC / DC conversion circuit 31 to the load 32, that is, the power consumed by the load 32. Further, the power consumption circuit 22 can continuously change the power consumption according to the load detected by the current detection circuit 21. The power consumed by the power consumption circuit 22 is controlled based on the current detected by the current detection circuit 21 according to the power consumed by the load 32.

FIG. 2 is a schematic diagram of an example of a circuit showing the current detection circuit 21 and the power consumption circuit 22 in detail. FIG. 2 has a current detection circuit 21, a power consumption circuit 22, and a control circuit that controls the power consumption circuit 22 based on the detection current of the current detection circuit 21.

The current detection circuit 21 includes a current detection resistor R1. The current flowing through the current detection resistor R1 is detected based on the voltage across the current detection resistor R1.

The power consumption circuit 22 includes a power supply Vpfc, a transistor Tr1, and a power consumption resistor R2. Power is consumed by the current flowing through the power consumption resistor R2.

The control circuit includes an amplifier circuit 23 including the operational amplifier OP1, a constant current circuit 24 including the operational amplifier OP2, and a reference power supply Vcc. These circuits control the power consumption in the power consumption circuit 22 based on the detected current.

The amplifier circuit 23 is a circuit general to those skilled in the art and will not be described in detail. In the illustrated circuit, for example, an electric potential amplified at a predetermined amplification factor is generated at the end V2 of the amplifier circuit based on the potential of the end V1 of the current detection resistor R1.

The constant current circuit 24 is a circuit general to those skilled in the art and will not be described in detail. The illustrated circuit supplies a current to the power consumption circuit 22 so as to keep the potential of the end V4 of the power consumption resistor R2 at a predetermined potential based on the potential of the end V3 near the constant current circuit 24, for example. Give rise.

An example of controlling the power consumed by the control circuit will be described with reference to FIG. It is assumed that the potential of the end V1 of the current detection resistor R1 is −100 mV based on the current flowing through the DC / DC conversion circuit 31, that is, the power consumed by the load 32. When the amplification factor of the amplifier circuit 23 is, for example, 100 times, the potential of the end V2 of the amplifier circuit is −10 V. Then, when the voltage of the reference power supply Vcc is, for example, 5V, the potential of the end V3 becomes −5V. In this case, the power consumed by the load 32 can be estimated to be the normal power consumption assumed by the PFC circuit 10, and the power consumption circuit 22 does not consume the power.

Next, with reference to FIG. 2, another example of controlling the power consumed by the control circuit will be described. It is assumed that the potential of the end V1 of the current detection resistor R1 is -1 mV. When the amplification factor of the amplifier circuit 23 is also 100 times, the potential of the end V2 of the amplifier circuit 23 becomes −0.1V. Then, when the voltage of the reference power supply Vcc is also 5V, the potential of the end V3 becomes 2V. When the potential of the end V3 becomes a positive value in this way, it can be estimated that the power consumed by the load 32 is smaller than the power consumption assumed by the PFC circuit 1. In this case, a current flows through the transistor Tr1 so that the potential of the end V4 of the power consumption resistor R2 becomes 2V, which is the same as the potential of the end V3, and the power consumption resistor R2 consumes power. As a result, even if the power consumed by the load 32 is small, it is possible to prevent the power consumption circuit 22 from consuming power and causing the switching frequency to become high.

As described above, the power is based on the potential of the end V1 of the current detection resistor R1 generated by the current detected by the current detection circuit 21 (that is, the current detected according to the power consumed by the load at the load 32). The power consumed by the consumption circuit 22 is controlled.

An example of a situation to which the present disclosure is applied will be described with reference to FIG. FIG. 3 illustrates an example of the efficiency of the circuit and the switching frequency of the soft switching control according to the output power of the PFC circuit. The solid line shows the efficiency according to the output power, and the broken line shows the switching frequency according to the output power. As shown in FIG. 3, when the output power of the PFC circuit decreases, the switching frequency becomes high frequency and the efficiency of the circuit decreases. In the case of the region in the vicinity surrounded by the ellipse in FIG. 3, the efficiency of the circuit is particularly low. Therefore, in the case of such output power, it is possible to secure a certain level or more of the output power as a whole by performing control to further consume the power.

The present disclosure is not limited to the illustrated embodiments, and various improvements and design changes can be made without departing from the gist of the present disclosure.

According to the present disclosure, in the PFC circuit, even when the actual load is smaller than the assumed load, the switching frequency of the soft switching control does not become high frequency, and as a result, the efficiency of the power supply circuit can be improved. ..

1: Power supply circuit 10: PFC circuit 11: Rectification smoothing unit 12: Control unit 13: Control circuit 20: Power consumption unit 21: Current detection circuit 22: Power consumption circuit 31: DC / DC conversion circuit 32: Load R1: Current detection Resistance

Claims (5)

A power factor improvement circuit that improves the power factor by soft switching control,
A DC / DC conversion circuit that converts DC power output from the output section of the power factor improvement circuit into constant voltage DC power, and
A current detection circuit that detects the current supplied to the DC / DC conversion circuit, and
It includes a power consumption circuit connected to an output unit of the power factor improving circuit and consuming power when the current detected by the current detection circuit is equal to or less than a predetermined threshold value.
Power circuit. The power supply circuit according to claim 1, wherein the power consumption circuit continuously changes the power consumption according to the load detected by the current detection circuit. The power supply circuit according to claim 1 or 2, wherein the current detection circuit detects a current corresponding to the electric power output to the load by the DC / DC conversion circuit. The power supply circuit according to any one of claims 1 to 3, wherein the power factor improving circuit is a totem pole bridgeless type power factor improving circuit. Efficiency improvement of a power supply circuit including a power factor improvement circuit that improves the power factor by soft switching control and a DC / DC conversion circuit that converts DC power output from the output unit of the power factor improvement circuit into constant voltage DC power. It's a method
The current detection circuit detects the current supplied to the DC / DC conversion circuit,
The power consumption circuit connected to the output unit of the power factor improving circuit consumes power when the current detected by the current detection circuit is equal to or less than a predetermined threshold value.
How to improve the efficiency of the power supply circuit.

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