CN203734543U - Integrated magnetic circuit multi-level switch power supply device - Google Patents

Abstract

The utility model discloses an integrated magnetic circuit multi-level switch power supply device which utilizes the mode of multiple winding integrated magnetic circuit, utilizes a plurality of switch components to connect in series with a plurality of windings of the integrated magnetic circuit, thereby enabling the magnetic flow in a magnetic core component to be allocated automatically, and the currents in the windings to share automatically and voltage stresses on the switch components to share automatically; in this way, a lower withstand voltage switch component can be utilized to bear the voltage stress formed on the switch component by higher input voltage; especially, in this way, the low withstand voltage MOS switch components form a high-frequency and large-power or even super-high-power switch power supply device; and the power density of the switch power supply device is improved. Therefore, the requirements for small size, high frequency and large input voltage are met, and the needs of a market are met.

Description

Many level switches of integrated magnetic circuit supply unit

Technical field

The utility model relates to many level switches of high input voltage power technique fields, exactly relates to a kind of many level switches power technology of the magnetic flux with balance magnetic core element.

Background technology

Traditional many level switches power supply in the market, the mode that adopts switch element to connect, there is many weak points in it, specifically sees Fig. 1.Traditional many level switches supply unit, adopts the transformer of independent magnetic circuit and the mode that multiple switch element is in series, and its shortcoming is:

1, the switch element of multiple series connection distributes input voltage by the mode of switch in parallel diode and electric capacity.If diode parameters and capacitance parameter have error, the voltage on each tandem tap element can be uneven, and the switch element that shunt capacitance is little can bear higher voltage.

2, the electric current in independent magnetic circuit transformer primary side winding is the same with the electric current in all tandem tap elements, so bear the voltage that voltage is high, switch element just produces higher loss, and working life is also just shorter.

Utility model content

The purpose of this utility model is to provide a kind of isolation that forms after adopting integrated magnetic circuit transformer that multiple switch elements and multiple integrated magnetic circuit transformer are in series, can automatically distribute for each series connection integrated magnetic circuit transformer the power output being equal to, also can automatically input voltage etc. be given to the switching power unit of each switch element simultaneously.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is:

A kind of many level switches of integrated magnetic circuit supply unit, be in series and form by the winding of each transformer in multiple switch elements and same integrated magnetic circuit element or inductance, the magnetic circuit element of described integrated magnetic circuit element is made up of single hole or laddic and winding integrated multiple transformers or inductance.

Its further technical scheme is: when described integrated magnetic circuit element is single-apertured core, adopt the coil of point groove mode coiling transformer or inductance on described single-apertured core; When described integrated magnetic circuit element is laddic, adopt the coil of point magnetic post mode coiling transformer or inductance on described laddic; The each transformer forming or the parameter of inductance are consistent.

Its further technical scheme for: the unit switch power circuit that each transformer in each switch element and integrated magnetic circuit or inductance form is in parallel with each filter capacitor being connected in series of input respectively.

Its further technical scheme is: each transformer in described integrated magnetic circuit element or the output winding of inductance connect respectively the anode of rectifier diode, the negative electrode of described rectifier diode interconnects as output, and connects same sample circuit and feedback regulating circuit.

Its further technical scheme is connected respectively drive circuit separately for the unit switch power circuit that: each switch element and each transformer in integrated magnetic circuit or inductance form, each drive circuit connects same controller, and described controller connects same sample circuit and feedback regulating circuit.

The technique effect that the utility model is useful is:

Adopt after many level switches of integrated magnetic circuit power supply topologies, the voltage that each switch element bears is by integrated magnetic circuit transformer or inductance automatically equalizing voltage, to reduce the voltage stress of each switch element, can form with lower withstand voltage switch element the Switching Power Supply of high-line input voltage, or form the Switching Power Supply of high output voltage with lower withstand voltage switch element.Electric current automatic current equalizing in each integrated magnetic circuit transformer or inductor winding, the object of distributing to reach input series connection filter capacitor average voltage, and then the voltage stress that reaches each switch element equates, many level switches of integrated magnetic circuit supply unit can, at the ambient stable of high input voltage, normally be worked.The switch element of each series connection can obtain the equalizing voltage of complete decile, the power output that each switch element is born, and voltage stress and current stress all can equate.Thereby application market of the present utility model can be very large.

Brief description of the drawings

Fig. 1 is the structural representation of traditional many level switches power supply.

Fig. 2 is the structural representation of many level switches of integrated magnetic circuit supply unit.

Fig. 3 is the single hole transformer device structure schematic diagram of many level switches of integrated magnetic circuit supply unit.

Fig. 4 is the porous transformer device structure schematic diagram of many level switches of integrated magnetic circuit supply unit.

Fig. 5 is the ortho-exciting electric source example structure schematic diagram of many level switches of integrated magnetic circuit supply unit.

Fig. 6 is the flyback power supply example structure schematic diagram of many level switches of integrated magnetic circuit supply unit.

Fig. 7 is the bridge power example structure schematic diagram of many level switches of integrated magnetic circuit supply unit.

Embodiment

Below in conjunction with concrete drawings and Examples, the utility model is described in further detail.

As shown in Figure 2, many level switches of integrated magnetic circuit supply unit of isolated form of the present utility model, comprises integrated magnetic circuit transformer T1, T2 ... Tn and switch element (MOS switching tube) Q11, Q12, Q21, Q22 ... Qn1, Qn2.Integrated magnetic circuit transformer can be single hole or porous type magnetic core.Integrated magnetic circuit transformer (see figure 3) for single-apertured core: it comprises magnetic core 1, winding skeleton 2, respectively Transformer Winding 3,4,5 independently ... n.Transformer Winding is on winding skeleton 2 at magnetic core middle post, adopts point groove method coiling transformer primary side and secondary coil respectively, forms an integrated transformer, and the umber of turn of each point of groove transformer is all identical.Integrated magnetic circuit transformer (see figure 4) for laddic: it comprises magnetic core 1, winding skeleton 2 and Transformer Winding 3,4,5 ... n.Transformer Winding respectively around magnetic core independently magnetic post be on winding skeleton 2, magnetic post respectively two coils of coiling, as former limit and the secondary of transformer, forms a transformer, the Transformer Winding number of turn on each independent magnetic post is all identical.As shown in Figure 2, then according to the topology of concrete Switching Power Supply, by switch element Q11, Q12, Q21, Q22 ... Qn1, Qn2 and each integrated magnetic circuit transformer T1, T2 ... Tn is connected in series.The secondary winding of each integrated magnetic circuit transformer adopts parallel connection structure, the unit switch power circuit of the switch element of each series connection and single integrated magnetic circuit transformer composition respectively with each filter capacitor C1 being connected in series of input, C2, Cn is connected in parallel, and has so just formed many level switches of integrated magnetic circuit supply unit.Each switch element is with drive circuit independently separately, and the drive control signal of each drive circuit adopts same controller, and output sampling simultaneously and feedback regulating circuit all adopt same sample circuit and feedback regulating circuit.

Owing to having adopted above-mentioned structure, operation principle of the present utility model is: after the filter capacitor of the high voltage source of input through being connected in series, be connected to integrated magnetic circuit switching power unit.The high pressure of input is first by the filter capacitor C1 being connected in series, C2 ... Cn dividing potential drop forms the voltage of incomplete decile on electric capacity, but the voltage at each electric capacity two ends is all less than the voltage of input power, that is: Vc1 ≈ Vc2 ≈ ... ≈ Vcn<<V1.

The voltage-drop loading of this incomplete decile is in the circuit of many level switches of integrated magnetic circuit supply unit, and at the tandem tap element Q11 of Switching Power Supply, Q12 only bears the voltage of Vc1, Q21, and Q22 only bears the voltage of Vc2 ..., Qn1, Qn2 only bears the voltage of Vcn.Q11 like this, Q12, Q21, Q22 ... Qn1, Qn2 just can use lower withstand voltage switch element.

Each integrated magnetic circuit transformer T1, T2 ... the secondary output winding of Tn connects respectively rectifier diode D13, D23 ... the anode of Dn3, and diode D13, D23 ... the negative electrode of Dn3 links together as output, connects subsequent conditioning circuit.

When sending, controller drive signal to drive circuit, drive circuit driving switch element.Switch element Q11, Q12, Q21, Q22 ... Qn1, Qn2 conducting simultaneously, at integrated magnetic circuit transformer T1, T2 ... in Tn, form electric current.Due to integrated magnetic circuit transformer T1, T2 ... Tn uses same core material, the coil of the identical number of turn of coiling on same magnetic circuit, thus integrated magnetic circuit transformer T1, T2 ... the inductance value of the magnetizing inductance of Tn is identical.If in the ideal situation:

the former limit winding current in each integrated magnetic circuit transformer is equal to completely, and the voltage on each transformer and power output are also completely equal.

As filter capacitor C1, C2 ... while there is imbalance in the voltage on Cn, integrated magnetic circuit transformer T1, T2 ... primary coil electric current in Tn also there will be difference.The primary current of filter capacitor both end voltage Gao Na road transformer is just larger, the discharging current of the filter capacitor that voltage is high is just large, because discharging current is large, the voltage drop at filter capacitor two ends is just larger, through several cycles, the voltage of the filter capacitor that voltage is high will drop to consistent with the voltage at other filter capacitor two ends gradually, reaches balance of voltage state.

As long as adopt the mode of integrated magnetic circuit, each parameter of the transformer in same magnetic structure is exactly identical, thereby magnetic flux in integrated magnetic circuit transformer to make every effort to equilibrium phase with, the voltage that the balance of this magnetic flux will be adjusted on input filter capacitor automatically reaches balance, also allow the transformer T1 of each separation in integrated magnetic circuit simultaneously, T2 ... the power output of Tn reaches equally size.

Below by several embodiment, the utility model is described in further detail.

One, ortho-exciting electric source embodiment

As shown in Figure 5, many level switches of integrated magnetic circuit supply unit of the present embodiment, comprises integrated magnetic circuit transformer T1, T2 ... Tn, the filter capacitor group C1 being connected in series, C2 ... Cn, switch element Q11, Q12, Q21, Q22 ... Qn1, the switching circuit of Qn2 composition, and the drive circuit of switch element.In the time that control circuit is added to driving pulse on the drive circuit of switch element, switch element Q11, Q12, Q21, Q22, Qn1, Qn2 conducting simultaneously, integrated magnetic circuit transformer T1, T2, the former limit winding of Tn flows through primary current, because the winding of integrated magnetic circuit transformer is on same magnetic core, the parameter of its magnetizing inductance is in full accord, and the former limit of each integrated magnetic circuit transformer is identical with the turn ratio of secondary simultaneously, so in the time of the Voltage unbalance of series capacitance, the primary current in each transformer of integrated magnetic circuit will produce imbalance.Primary current in the high transformer of voltage is just large, thereby the discharging current of electric capacity increases, and the voltage drop at electric capacity two ends is just large, and after such adjustment, electric capacity both end voltage reaches balance gradually.

In the circuit designing by legend 5, the voltage stress of switch element is:

in formula, Vi is input voltage, and n is the number of the integrated magnetic circuit transformer of series connection.

In circuit, diode D11, D12, D21, D22 ..., Dn1, the magnetizing inductance that Dn2 is transformer provides degaussing loop.

Two, flyback power supply embodiment

As shown in Figure 6, many level switches of integrated magnetic circuit supply unit of the present embodiment, comprises integrated magnetic circuit transformer T1, T2 ... Tn, the filter capacitor group C1 being connected in series, C2 ... Cn, switch element Q11, Q1, Q2 ... the switching circuit of Qn composition, and the drive circuit of switch element.In the time that control circuit is added to driving pulse on the drive circuit of switch element, switch element Q1, Q2 ... Qn conducting simultaneously, integrated magnetic circuit transformer T1, T2, the magnetizing inductance of Tn flows through exciting current, and because the winding of integrated magnetic circuit transformer is on same magnetic core, the parameter of its magnetizing inductance is in full accord, in the time of Voltage unbalance in series capacitance, the exciting current in each transformer of integrated magnetic circuit will produce imbalance.The exciting current of the transformer that voltage is high is just large, thereby the increase of the discharging current of electric capacity, and the voltage drop at electric capacity two ends is just large, and after such adjustment, electric capacity both end voltage reaches balance gradually.

In the circuit designing by legend 6, the voltage stress of switch element is:

in formula, n is the number of the switch element of series connection, and N is the turn ratio of each integrated magnetic circuit transformer, and Vi is input voltage, and Vo is output voltage.

D1 in circuit, C11, R1 and D2, C21, R2 and Dn, Cn1, Rn forms respectively the absorbing circuit of each Switching Power Supply electronic circuit, for absorbing lead-in inductance, the energy of transformer leakage inductance.

Three, bridge power embodiment

As shown in Figure 7, many level switches of integrated magnetic circuit supply unit of the present embodiment, comprises integrated magnetic circuit bridge transformer T1, T2 ... Tn, the filter capacitor group C1 being connected in series, C2 ... Cn, the switching circuit of switch element composition, and the drive circuit of switch element.In the present embodiment, the unit being made up of four switching device bridge joints, is considered as a switch element.In the time that control circuit is added to positive half cycle driving pulse on the drive circuit of switch element, switching device Q11, Q13, Q21, Q23, Qn1, Qn3 conducting simultaneously, and switching device Q12, Q14, Q22, Q24 ... Qn2, Qn4 closes simultaneously, and forward current is flow through on the former limit of transformer.And in the time that control circuit is added to negative half period driving pulse on the drive circuit of switch element, switching device Q12, Q14, Q22, Q24 ... Qn2, Qn4 conducting simultaneously, and switching device Q11, Q13, Q21, Q23 ... Qn1, Qn3 closes simultaneously, transformer adds reverse voltage, flows through reverse current in transformer.Because the winding of transformer is on same magnetic core, its parameter is in full accord, and in the time of Voltage unbalance in series capacitance, the electric current in each transformer of integrated magnetic circuit will produce imbalance.Electric current in the high transformer of voltage is just large, thereby the discharging current of electric capacity is large, and the voltage drop at electric capacity two ends is just large, and after such adjustment, electric capacity both end voltage reaches balance gradually.

In the circuit designing by legend 7, the voltage stress of switching device is:

in formula, Vi is input voltage, and n is the number of the integrated magnetic circuit transformer of series connection.

Note: transformer in the utility model and embodiment is replaceable is inductance, and the effect of principle and realization is identical.

Above-described is only preferred implementation of the present utility model, and the utility model is not limited to above embodiment.Be appreciated that the oher improvements and changes that those skilled in the art directly derive or associate under the prerequisite that does not depart from spirit of the present utility model and design, within all should thinking and being included in protection range of the present utility model.

Claims (5)

1. many level switches of integrated magnetic circuit supply unit, it is characterized in that: be in series and form by the winding of each transformer in multiple switch elements and same integrated magnetic circuit element or inductance, the magnetic circuit element of described integrated magnetic circuit element is made up of single hole or laddic and winding integrated multiple transformers or inductance.

2. many level switches of integrated magnetic circuit supply unit according to claim 1, is characterized in that: when described integrated magnetic circuit element is single-apertured core, adopt the coil of point groove mode coiling transformer or inductance on described single-apertured core; When described integrated magnetic circuit element is laddic, adopt the coil of point magnetic post mode coiling transformer or inductance on described laddic; The each transformer forming or the parameter of inductance are consistent.

3. many level switches of integrated magnetic circuit supply unit according to claim 1, is characterized in that: the unit switch power circuit that each transformer in each switch element and integrated magnetic circuit or inductance form is in parallel with each filter capacitor being connected in series of input respectively.

4. many level switches of integrated magnetic circuit supply unit according to claim 1, it is characterized in that: each transformer in described integrated magnetic circuit element or the output winding of inductance connect respectively the anode of rectifier diode, the negative electrode of described rectifier diode interconnects as output, and connects same sample circuit and feedback regulating circuit.

5. many level switches of integrated magnetic circuit supply unit according to claim 1, it is characterized in that: the unit switch power circuit that each switch element and each transformer in integrated magnetic circuit or inductance form is connected respectively drive circuit separately, each drive circuit connects same controller, and described controller connects same sample circuit and feedback regulating circuit.