CN105337486A

CN105337486A - Passive-type coupling inductor soft switching circuit for power factor corrector

Info

Publication number: CN105337486A
Application number: CN201410406175.2A
Authority: CN
Inventors: 洪宗良; 姚宇桐
Original assignee: YARONGYUAN TECHNOLOGY (SHENZHEN) Co Ltd
Current assignee: YARONGYUAN TECHNOLOGY (SHENZHEN) Co Ltd
Priority date: 2014-08-13
Filing date: 2014-08-13
Publication date: 2016-02-17
Anticipated expiration: 2034-08-13
Also published as: CN105337486B

Abstract

The invention proposes a passive-type coupling inductor soft switching circuit for a power factor corrector, and the circuit comprises a power input end, a first inductor, a second diode, a power output end, a power switch, and a buffering circuit, wherein one end of the first inductor is coupled to the power input end, the positive end of the second diode is coupled to the other end of the first inductor, the power output end is coupled to the negative end of the second diode, and the buffering circuit is connected with the power switch. A circuit design employing the buffering circuit enables the waveforms of voltage and current to generate phase intersection displacement, so as to reduce switching loss.

Description

The passive type coupling inductance soft-switching circuit of power factor corrector

Technical field

The invention relates to a kind of power factor corrector, and relate to a kind of power factor corrector applying to the tool soft-switching circuit of continuous conduction mode especially.

Background technology

Along with progress and the expanding economy of science and technology, the demand of the mankind to switch type converter grows with each passing day.In recent years, due to the significantly progress of power electronic technology, most future development also tending to compactization electronic equipment day, the power supply changeover device of its inside also need design towards compact trend, therefore, have that volume is little, lightweight, just to replace conventional linear be gradually transducer to the switch type power converter of efficiency advantages of higher, becomes the main flow of power supply changeover device.Switch type converter is except the short and small advantage such as frivolous, and a nearlyer step improves converter efficiency and quality.

At power factor corrector (powerfactorcorrector, PFC) common operator scheme has continuous conduction mode (continuousconductionmode, CCM), discontinuous conduction mode (discontinuousconductionmode, DCM).With low power system, the normal method realizing power factor corrector adopts discontinuous conduction mode to control switch mode.Otherwise, when higher-wattage demand, usually can change and adopt continuous conduction mode.

Generally speaking, if the boosting type converter of tradition continuous conduction mode operates in hard handoff, produce with the loss having energy during conducting when power switch disconnects, it is mainly owing to disconnecting with caused by the voltage of conducting moment and current slow, and this is switch cost.And the mode mainly solved utilizes external circuit by the waveform generation phase cross-over displacement of voltage and electric current, so that reduce switch cost.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of passive type coupling inductance soft-switching circuit of power factor corrector, utilizes external circuit by the waveform generation phase cross-over displacement of voltage and electric current, so that reduce switch cost.

For reaching above-mentioned or other object, the present invention proposes a kind of passive type coupling inductance soft-switching circuit of power factor corrector, it includes a power input end, one first inductance, its one end and this power input end couples, one first diode, the other end of its anode and this first inductance couples, a power output end, the negative terminal of itself and this first diode couples, a power switch and a buffer circuit, and itself and this power switch couples.Wherein, utilize the circuit design of buffer circuit by the waveform generation phase cross-over displacement of voltage and electric current, so that reduce switch cost.

Accompanying drawing explanation

Fig. 1 is the circuit diagram of present pre-ferred embodiments.

Fig. 2 to Fig. 7 is the circuit start sequential flow chart of the preferred embodiment of the present invention.

Embodiment

For above and other objects of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and coordinate institute's accompanying drawings, be described in detail below.

Refer to shown in Fig. 1 to Fig. 7, it is circuit diagram and the circuit start sequential flow chart of present pre-ferred embodiments.The present invention proposes a kind of passive type soft-switching circuit of power factor corrector, and it includes a power input end (10), a power output end (11), one first inductance (12), one first diode (13), a power switch (14), one the 3rd electric capacity (15), one the 4th electric capacity (16) and a buffer circuit (20).

This power input end (10) couples with one end of this first inductance (12), and the 3rd electric capacity (15) can be coupled between this power input end (10) and this first inductance (12).The anode of this first diode (13) and the other end of this first inductance (12) couple, the negative terminal of this first diode (13) then couples with this power output end (11), and the 4th electric capacity (16) to be coupled to this power output end (11) front.

This buffer circuit (20) and this power switch (14) couple, and this buffer circuit (20) includes a coupling inductance (21), one first electric capacity (22), one second diode (23), one the 3rd diode (24), one second electric capacity (25), one the 4th diode (26) and one the 5th diode (27).And this power switch (14) can be the assembly of metal-oxide half field effect transistor or other equivalence, and this coupling inductance (21) consists predominantly of one first coiling group (21a) and one second coiling group (21b).

One end of this first coiling group (21a) of this coupling inductance (21) is coupled between this first inductance (12) and this first diode (13), and the other end of this first coiling group (21a) is then coupled to this power switch (14).This end of this first coiling group (21a) also couples with one end of this first electric capacity (22) and the anode of the 5th diode (27), the negative terminal of the anode of this second diode (23) and the other end of this first electric capacity (22) and the 4th diode (26) couples, and the anode coupled in series of the 4th diode (26) is in one end of this second coiling group (21b).The anode of the 3rd diode (24) is coupled between this second inductance (21) and this power switch (14), and the negative terminal of the negative terminal of the 3rd diode (24) and the 5th diode (27), the other end of the second coiling group (21b) and one end of this second electric capacity (25) couple.The negative terminal of this second diode (23) is coupled between this first diode (13) and the defeated end of this electric power (11), and the other end of this second electric capacity (25) is coupled to the negative terminal same equipotential circuit place with this second diode (23).Wherein, the 5th diode (27), mainly as a protective circuit assembly, prevents abnormal current from causing the damage of integrated circuit.

The aforementioned annexation that each correlation unit is first described, below then will describe its operation.First, this power input end (10) can provide the source of electric power, and the 3rd electric capacity (15) can provide effect of filtering.When power switch (14) presents closed condition, after the electric power that this power input end provided first directly is supplied to this first inductance (12) and this first diode (13), directly electric power is exported by this power output end (11), and the 4th electric capacity (16) is charged simultaneously.

When this power switch (14) presents opening, the electric power that this power input end (10) provides will have part and flow through this first line group (21a) and this power switch (14), relative current starts decline (in a switch periods, input current supposition is constant) through the electric current of the first diode (13).The electric power that last power input end (10) provides will all flow through this first line group (21a) and this power switch (14), and now the 4th electric capacity (16) will discharge, the electric power of its electric discharge sequentially will flow through this second electric capacity (25), this second sets of lines (21b), 4th diode (26), this first electric capacity (22), this first line group (21a) and finally by this power switch (14), and this first electric capacity (22) and this second electric capacity (25) store electric power because of the 4th electric capacity (16) electric discharge.And after the 4th electric capacity (16) exhausts stored electric power, the electric power that this power input end (10) provides all will flow through this second inductance (21) and this power switch (14).

When and then being closed by this power switch (14), the electric power that first this first inductance (12) provides sequentially will flow through this first line group (21a), the 3rd diode (24) and this second electric capacity (25).Then, after the available electric power of this first coiling group (21a) reduces, the electric power that this first inductance (12) provides also starts sequentially to flow through this first electric capacity (22) and this second diode (23).Finally, when this first line group (21a) cannot provide electric power, and after this first electric capacity (22) and this second electric capacity (25) also cannot provide electric power, integrated circuit system is then returned to initial condition.

The explanation of above, the present invention effectively by electric current waveform its corresponding waveform generation phase cross-over displacement in the time switched with voltage, and can reach the function of soft handover, and then reduces the loss because of energy during switching.

Although the present invention discloses as above with preferred embodiment; so itself and be not used to limit the present invention, anyly have the knack of this those skilled in the art, without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is worked as is that the scope that claim defines is as the criterion.

Claims

1. a passive type coupling inductance soft-switching circuit for power factor corrector, is characterized in that this circuit comprises:

One power input end;

One first inductance, its one end and this power input end couple;

One first diode, the other end of its anode and this first inductance couples;

One power output end, the negative terminal of itself and this first diode couples;

One power switch;

One buffer circuit, itself and this power switch couples, and this buffer circuit includes,

One coupling inductance, it has two coiling groups, and be respectively one first coiling group and one second coiling group, and one end of this first coiling group is coupled between this first inductance and this first diode, its other end is coupled to this power switch;

One first electric capacity, its one end is coupled to this end of this first coiling group;

One second diode, its anode is coupled to the other end of this first electric capacity, and negative terminal is coupled between this first diode and this power output end;

One the 3rd diode, its anode is coupled between this first coiling group and this power switch;

One second electric capacity, its one end is coupled to the negative terminal of the 3rd diode, and the other end is coupled to the negative terminal same place with this second diode; And

One the 4th diode, its negative terminal is coupled between this first electric capacity and this second diode, and one end coupled in series of anode and this second coiling group, the other end of this second coiling group is coupled between this second electric capacity and the 3rd diode.

2. the passive type coupling inductance soft-switching circuit of power factor corrector as claimed in claim 1, is characterized in that this power switch is a metal-oxide half field effect transistor.

3. the passive type coupling inductance soft-switching circuit of power factor corrector as claimed in claim 2, it is characterized in that this circuit has one the 3rd electric capacity further, the 3rd electric capacity is coupled between this power input end and this first inductance.

4. the passive type coupling inductance soft-switching circuit of power factor corrector as claimed in claim 3, is characterized in that this circuit has one the 4th electric capacity further, before the 4th electric capacity is coupled to this power output end.

5. the passive type coupling inductance soft-switching circuit of power factor corrector as claimed in claim 4, it is characterized in that this circuit has one the 5th diode further, its anode is coupled to this end of this first electric capacity, and negative terminal is coupled between this second electric capacity and the 3rd diode.