CN107317482A - A kind of self-powered circuit of synchronous rectification and its Switching Power Supply - Google Patents

Abstract

The invention discloses a kind of self-powered circuit of synchronous rectification, including metal-oxide-semiconductor, produce transformer of the synchronous drive signal to control the metal-oxide-semiconductor, the self-powered circuit of synchronous rectification also includes current-limiting circuit, the first reduction voltage circuit and the first bleeder circuit, and the output end of the transformer after the current-limiting circuit being sequentially connected in series, first reduction voltage circuit and first bleeder circuit with the metal-oxide-semiconductor by being connected.The invention also discloses a kind of Switching Power Supply with the self-powered circuit of synchronous rectification.The present invention can not only improve the conversion efficiency of power supply but also can avoid puncturing metal-oxide-semiconductor.

Description

A kind of self-powered circuit of synchronous rectification and its Switching Power Supply

Technical field

The present invention relates to switch power technology field, and in particular to a kind of self-powered circuit of synchronous rectification and its Switching Power Supply.

Background technology

Switching Power Supply is as a kind of high frequency device for converting electric energy, and it is to utilize electronic switching device（As transistor, field are imitated Ying Guan, controllable silicon thyristor etc.）, by controlling circuit, make electronic switching device ceaselessly " on " and " shut-off ", allow electronic cutting Close device and impulse modulation is carried out to input voltage, so that DC/AC, DC/DC voltage transformation are realized, and output voltage can reconcile certainly Dynamic voltage stabilizing.

In order to reduce the rectifier loss present in the Switching Power Supply using commutation diode, partial switch power supply is had at present Using the extremely low field-effect transistor of on state resistance, i.e. metal-oxide-semiconductor to replace commutation diode to realize that the self-powered of Switching Power Supply is same Walk rectification.Metal-oxide-semiconductor belongs to voltage-controlled device, therefore, and mostly in Switching Power Supply at this stage connected by Transformer Winding Connect current-limiting resistance to directly drive metal-oxide-semiconductor, metal-oxide-semiconductor conducting is reached the purpose of synchronous rectification.But the circuit of synchronous rectification The conversion efficiency of Switching Power Supply can be not only reduced, but also it is breakdown to be easily caused field-effect transistor.

The content of the invention

In order to overcome the deficiencies in the prior art, it is an object of the invention to provide a kind of self-powered circuit of synchronous rectification, both may be used Field-effect transistor can be avoided breakdown again with the conversion efficiency for improving power supply.

The purpose of the present invention is achieved through the following technical solutions：

A kind of self-powered circuit of synchronous rectification, including metal-oxide-semiconductor, produce transformation of the synchronous drive signal to control the metal-oxide-semiconductor Device, the self-powered circuit of synchronous rectification also includes current-limiting circuit, the first reduction voltage circuit and the first bleeder circuit, the transformer Output end by after the current-limiting circuit being sequentially connected in series, first reduction voltage circuit and first bleeder circuit with it is described Metal-oxide-semiconductor is connected.

It is preferred that, one end of the secondary windings of the transformer is connected with the input of the current-limiting circuit, the transformation The other end ground connection of the secondary windings of device, the centre cap of the secondary windings of transformer source electrode respectively with the metal-oxide-semiconductor, The output end connection of first bleeder circuit, the grid of the metal-oxide-semiconductor is connected to first reduction voltage circuit and described first Between bleeder circuit, the drain electrode of the metal-oxide-semiconductor connects load.

It is preferred that, the self-powered circuit of synchronous rectification also include being series at the output end of first reduction voltage circuit with it is described The second reduction voltage circuit between the grid of metal-oxide-semiconductor.

It is preferred that, the self-powered circuit of synchronous rectification also includes the second bleeder circuit, one end of second bleeder circuit It is connected with the source electrode of the metal-oxide-semiconductor, the other end is connected between second reduction voltage circuit and the grid of the metal-oxide-semiconductor.

It is preferred that, the current-limiting circuit includes the first current-limiting resistance and the second current-limiting resistance in parallel.

It is preferred that, first reduction voltage circuit includes the first decompression capacitor and the second decompression capacitor in parallel.

It is preferred that, first bleeder circuit includes the first divider resistance.

It is preferred that, second reduction voltage circuit includes the 3rd decompression capacitor.

It is preferred that, second bleeder circuit includes the second divider resistance.

In order to solve identical technical problem, present invention also offers a kind of Switching Power Supply, including above-mentioned self-powered are synchronous Rectification circuit.

Compared with prior art, the present invention has the advantages that：

The present invention between the output end of transformer and the metal-oxide-semiconductor by setting the current-limiting circuit being sequentially connected, the first decompression Circuit and the first bleeder circuit, can so cause when the secondary windings of the transformer exports conducting, the transformer Secondary windings exports synchronous drive waveforms to the metal-oxide-semiconductor simultaneously, to drive the metal-oxide-semiconductor to reach the mesh of output synchronous rectification 's.At the same time, it is ensured that in this process, the drive waveforms of the transformer output are after the current-limiting circuit current limliting, through institute The decompression of the first reduction voltage circuit is stated, then again through the first bleeder circuit partial pressure, so as to drive the voltage of the metal-oxide-semiconductor not only steady Determine and in the range of restriction, so that the conversion efficiency of power supply is improved, and avoid puncturing the metal-oxide-semiconductor, protect it from Damage.

Brief description of the drawings

Fig. 1 is the circuit theory diagrams of the self-powered circuit of synchronous rectification of the embodiment of the present invention.

Embodiment

The present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, a kind of self-powered circuit of synchronous rectification of the preferred embodiment of the present invention, including metal-oxide-semiconductor Q1, generation are synchronously Transformer T1 of the drive signal to control the metal-oxide-semiconductor Q1, wherein, the self-powered circuit of synchronous rectification also includes current limliting electricity Road 1, the first reduction voltage circuit 2 and the first bleeder circuit 3, the output end of the transformer T1 are electric by the current limliting being sequentially connected in series It is connected after road 1, first reduction voltage circuit 2 and first bleeder circuit 3 with the metal-oxide-semiconductor Q1.

Specifically, one end of the secondary windings of the transformer T1 is connected with the input of the current-limiting circuit 1, it is described to become The other end ground connection of depressor T1 secondary windings, the centre cap of the secondary windings of the transformer T1 respectively with the metal-oxide-semiconductor The output end connection of Q1 source electrode, first bleeder circuit 3, the grid of the metal-oxide-semiconductor Q1 is connected to the first decompression electricity Between road 2 and first bleeder circuit 3, the drain electrode of the metal-oxide-semiconductor Q1 connects load.

Above-mentioned self-powered circuit of synchronous rectification drives the metal-oxide-semiconductor Q1 work using the transformer T1 [q1], when described During transformer T1 secondary windings output conducting, the secondary windings of the transformer T1 exports synchronous drive waveforms to institute simultaneously Metal-oxide-semiconductor Q1 is stated, to drive the metal-oxide-semiconductor Q1 to reach the purpose of output synchronous rectification.During being somebody's turn to do, the transformer T1 outputs Drive waveforms are depressured after the current limliting of current-limiting circuit 1 through first reduction voltage circuit 2, then again through first partial pressure electricity The partial pressure of road 3, so as to drive the voltage of the metal-oxide-semiconductor Q1 not only to stablize but also in the range of restriction, so that the conversion effect of power supply Rate is improved, and avoids puncturing the metal-oxide-semiconductor Q1, protects it from being damaged.

In order to further improve the conversion efficiency of the self-powered circuit of synchronous rectification and the protection of the metal-oxide-semiconductor Q1 be imitated Really, exemplary, the self-powered circuit of synchronous rectification can also include output end and the institute for being series at first reduction voltage circuit 2 State the second reduction voltage circuit 4 between metal-oxide-semiconductor Q1 grid.Preferably, the self-powered circuit of synchronous rectification can also include second Bleeder circuit 5, one end of second bleeder circuit 5 is connected with the source electrode of the metal-oxide-semiconductor Q1, and the other end is connected to described second Between reduction voltage circuit 4 and the metal-oxide-semiconductor Q1 grid.It is, of course, also possible to increase bleeder circuit and reduction voltage circuit as needed Quantity.

Exemplary in order to simplify circuit, the current-limiting circuit 1 can include the first current-limiting resistance R1 and second in parallel Current-limiting resistance R2.First reduction voltage circuit 2 can include the first decompression capacitor C1 and the second decompression capacitor C2 in parallel.It is described First bleeder circuit 3 can include the first divider resistance R3.Second reduction voltage circuit 4 can include the 3rd decompression capacitor C3. Second bleeder circuit 5 can include the second divider resistance R4.

The embodiment of the present invention additionally provides a kind of Switching Power Supply with above-mentioned self-powered circuit of synchronous rectification, to improve power supply Conversion efficiency and the metal-oxide-semiconductor Q1 is protected.Exemplary, after synchronous rectification is realized, the first filter can also be passed through Ripple electric capacity C4, the first filter inductance L1, the second filter capacitor C5, the 3rd filter capacitor C6 and the 4th filter capacitor C7 are to output Rectified wave be filtered.

The implementation of the present invention is not limited to this, according to the above of the present invention, is known using the ordinary skill of this area Know and customary means, under the premise of above-mentioned basic fundamental thought of the invention is not departed from, the present invention can also make other a variety of shapes Modification, replacement or the change of formula, all fall within rights protection scope of the present invention.

Claims (10)

1. a kind of self-powered circuit of synchronous rectification, including metal-oxide-semiconductor, produce change of the synchronous drive signal to control the metal-oxide-semiconductor Depressor, it is characterised in that the self-powered circuit of synchronous rectification also includes current-limiting circuit, the first reduction voltage circuit and the first partial pressure electricity Road, the output end of the transformer passes through the current-limiting circuit that is sequentially connected in series, first reduction voltage circuit and described first It is connected after bleeder circuit with the metal-oxide-semiconductor.

2. self-powered circuit of synchronous rectification as claimed in claim 1, it is characterised in that one end of the secondary windings of the transformer It is connected with the input of the current-limiting circuit, the other end ground connection of the secondary windings of the transformer, the secondary of the transformer The centre cap of winding source electrode respectively with the metal-oxide-semiconductor, the output end of first bleeder circuit are connected, the metal-oxide-semiconductor Grid is connected between first reduction voltage circuit and first bleeder circuit, and the drain electrode of the metal-oxide-semiconductor connects load.

3. self-powered circuit of synchronous rectification as claimed in claim 2, it is characterised in that the self-powered circuit of synchronous rectification also includes It is series at the second reduction voltage circuit between the output end of first reduction voltage circuit and the grid of the metal-oxide-semiconductor.

4. self-powered circuit of synchronous rectification as claimed in claim 3, it is characterised in that the self-powered circuit of synchronous rectification also includes Second bleeder circuit, one end of second bleeder circuit is connected with the source electrode of the metal-oxide-semiconductor, and the other end is connected to described second Between the grid of reduction voltage circuit and the metal-oxide-semiconductor.

5. the self-powered circuit of synchronous rectification as described in claim any one of 1-4, it is characterised in that the current-limiting circuit is included simultaneously The first current-limiting resistance and the second current-limiting resistance of connection.

6. self-powered circuit of synchronous rectification as claimed in claim 5, it is characterised in that first reduction voltage circuit includes in parallel First decompression capacitor and the second decompression capacitor.

7. self-powered circuit of synchronous rectification as claimed in claim 6, it is characterised in that first bleeder circuit includes first point Piezoresistance.

8. self-powered circuit of synchronous rectification as claimed in claim 7, it is characterised in that second reduction voltage circuit includes the 3rd drop Voltage capacitance.

9. self-powered circuit of synchronous rectification as claimed in claim 8, it is characterised in that second bleeder circuit includes second point Piezoresistance.

10. a kind of Switching Power Supply, it is characterised in that including：Self-powered circuit of synchronous rectification described in claim any one of 1-9.