CN1625032A

CN1625032A - Five-level high-frequency DC. converter

Info

Publication number: CN1625032A
Application number: CNA2004100734124A
Authority: CN
Inventors: 石勇; 杨旭; 王兆安
Original assignee: Xian Jiaotong University
Current assignee: MOSO Power Supply Technology Co., Ltd.
Priority date: 2004-12-16
Filing date: 2004-12-16
Publication date: 2005-06-08
Anticipated expiration: 2024-12-16
Also published as: CN100386959C

Abstract

This invention penta-level high frequency DC changer, including input voltage resource and the serial electrolytic condenser paralleled on the input voltage resource, and the arm A and B are paralleled at the two ends of the condenser, the arm A is made up of two serial switches, and the arm B is composed of four serial switches, and the transformer is connected between the d point of the arm A and the c point of the arm B, bidirectional switches that are backing serial connected are serial at jointed between the node a of the electrolytic condenser and node c of the arm B, and two floating capacitances are paralleled between node b of the two bidirectional switches and nodes e and f of the arm B.

Description

The five-level high-frequency dc converter

Technical field

The present invention relates to a kind of high frequency direct-current switch power supply, particularly a kind of five-level high-frequency dc converter.

Background technology

Miniaturization, lightweight are the developing direction of power electronic equipment.As everyone knows, the volume and weight maximum is passive device in the middle of power electronic equipment, and the volume and weight that how to reduce passive device is one of problem of generally being concerned about of industrial quarters.Along with the development of power electronic technology, the performance of high speed gate-controlled switch device such as IGBT, MOSFET improves constantly, and it is found that by improving the volume and weight that switching frequency can effectively reduce passive device.The mid-80 is higher than the appearance of the high frequency switch power of 20kHz, the volume that has reduced passive device of success.But along with the raising of switching frequency, the switching loss of power electronic device sharply increases, and electromagnetic interference problem is on the rise, and these all problems are all restricting the impossible unconfined growth of switching frequency of power supply.How overcoming this bottleneck problem, is the difficult problem of pendulum in face of the power electronic equipment engineer.In the middle of all existing technology, multilevel converter is one of solution wherein.Multi-level circuit is conceived to solve the unbalanced problem of dynamic electric voltage that is run into when using low-voltage device to realize high pressure conversion, adopts a plurality of level splicing output levels simultaneously.But in the middle of traditional multi-level circuit, structure is too complicated, has limited to the application of multi-level circuit to a great extent.

Summary of the invention

The objective of the invention is to overcome the baroque shortcoming of multi-level circuit, proposed a kind of simple in structure, the output waveform quality good and the switching frequency that does not improve power electronic device, do not increase extra switching loss and the aggravation electromagnetic interference problem condition under, reduce the output filter circuit volume, improve the five-level high-frequency dc converter of the dynamic characteristic of system.

For achieving the above object, the technical solution used in the present invention is: comprise input voltage source U _InAnd be connected in parallel on input voltage source U _InOn the electrochemical capacitor C of mutual series connection _In1And C _In2, it is characterized in that: at electrochemical capacitor C _In1And C _In2Two ends also be parallel with brachium pontis A and brachium pontis B, brachium pontis A is by the switch S of two series connection ₅And S ₆Form, brachium pontis B is by the switch S of four series connection ₁, S ₂, S ₃And S ₄Form, between the c of the d of brachium pontis A point and brachium pontis B point, also be connected with transformer E, by switch S ₇And S ₈, S ₉And S ₁₀Two bidirectional switchs of differential concatenation formation are connected on electrochemical capacitor C separately _In1And C _In2Between node a and the node c of brachium pontis B between, and between node e, the node f of the node b of two bidirectional switchs and brachium pontis B, also be parallel with two floating capacitance C _Fly1And C _Fly2

Because the present invention adopts multi-level circuit, multi-level circuit reduces harmonic component in output voltage by increasing the output level number, this device has been simplified the complex structure degree of original multi-level circuit greatly, makes multi-level circuit might be used for mesolow Power Conversion occasion.

Description of drawings

Fig. 1 is circuit theory diagrams of the present invention;

Fig. 2 is the former edge work ideograph of transformer of the present invention;

Fig. 3 is two of the former edge work ideograph of transformer of the present invention.

Embodiment

Below in conjunction with accompanying drawing structural principle of the present invention and operation principle are described in further detail.

Referring to Fig. 1, the present invention includes input voltage source U _InAnd be connected in parallel on input voltage source U _InOn the electrochemical capacitor C of mutual series connection _In1And C _In2, it is characterized in that: at electrochemical capacitor C _In1And C _In2Two ends also be parallel with brachium pontis A and brachium pontis B, brachium pontis A is by the switch S of two series connection ₅And S ₆Form, brachium pontis B is by the switch S of four series connection ₁, S ₂, S ₃And S ₄Form, between the c of the d of brachium pontis A point and brachium pontis B point, also be connected with transformer E, by switch S ₇And S ₈, S ₉And S ₁₀Two bidirectional switchs of differential concatenation formation are connected on electrochemical capacitor C separately _In1And C _In2Between node a and the node c of brachium pontis B between, and between node e, the node f of the node b of two bidirectional switchs and brachium pontis B, also be parallel with two floating capacitance C _Fly1And C _Fly2

Traditional multi-level circuit is conceived to solve the unbalanced problem of dynamic electric voltage that is run into when using low-voltage device to realize high pressure conversion.And in mesolow Power Conversion field, no matter existing device still is that performance is said and can be satisfied the demand from electric pressure.The present invention at first simplifies original circuit, four switches about the brachium pontis of original five level full-bridge circuits are simplified to each switch up and down, such circuit has many level outputs, reduced by 6 main switching devices simultaneously, simplified the scale of control, driving and protective circuit accordingly greatly; In the middle of traditional multi-level circuit, numerous clamp diodes or clamper floating capacitance circuit also are to cause the multi-level circuit huge too fat to move main cause that seems.Second of the present invention what will solve is exactly to simplify clamp circuit.Because the starting point of the present invention is to provide many level outputs, and does not require that each switch bears identical voltage stress, make that reaching same output effect by the change circuit structure becomes possibility.

The difference of the present invention and other five level circuits is: 1) brachium pontis A is kept to 2 switches from 8 switching devices, has avoided corresponding clamp circuit simultaneously.2) brachium pontis B is carried out structural adjustment, or else increase under the situation of switch, only increase by two floating capacitances and realized five level output effects, its structure is all simpler than existing multi-level circuit.

Device has five output levels, 12 switching modes.According to the difference of output voltage, 4 kinds of mode of operation combinations can be arranged.Be respectively and work as 3U _In/ (4k)＜U _o＜U _In/ k contains U before the output filter _In/ k and 3U _In/ (4k) two kinds of level; U _In/ (2k)＜U _o＜3U _In/ (4k), contain U before the output filter _In/ (2k) and 3U _In/ (4k) two kinds of level; U _In/ (4k)＜U _o＜U _In/ (2k), contain U before the output filter _In/ (2k) and U _In/ (4k) two kinds of level; 0＜U _o＜U _In/ (4k), contain 0 and U before the output filter _In/ (4k) two kinds of level, k is a transformer voltage ratio therein.Requirement difference according to output voltage can be selected different mode combinations.In the course of work of five level DC/DC translation circuits, stable capacitance voltage is the basis of converter work, makes up effectively control capacittance voltage by the different switching modes of regulating each intermediate level correspondence in circuit.Here with output voltage at 3U _In/ (4k)＜U _o＜U _InIn/k the scope is example, analyzes:

Fig. 2 and Fig. 3 are all working pattern diagram, and thick dashed line is a current flow path among the figure.

Mode of operation 1, figure (2-a): t ₀Constantly, switch S ₁, S ₂And S ₆Conducting, ν _AB=U _In, the former limit of transformer is to transformer secondary output energy.The transformer primary current is linear to rise.

Mode of operation 2, figure (2-a): t ₁Constantly, open S ₇, this moment is because S ₈Inverse parallel diode D ₈Bear back-pressure, S ₇Be zero current turning-on.

Mode of operation 3, figure (2-c): t ₂Constantly, turn-off S ₁, S ₇, D ₈, S ₂And S ₆Conducting, ν _AB=3U _In/ 4, former limit of transformer and output inductor provide energy to output together.

Mode of operation 4, figure (2-a): t ₃Constantly, open S ₁, D ₈Turn-off, after this turn-off S ₇, S ₇Be zero-current switching.

Mode of operation 5, figure (2-a): t ₄Constantly, open S ₉, this moment is because S ₁₀Inverse parallel diode D ₁₀Bear back-pressure and turn-off S ₉Be zero current turning-on.

Mode of operation 6, figure (2-d): t ₅Constantly, turn-off S ₂, S ₉, D ₁₀, S ₁And S ₆Conducting, ν _AB=3U _In/ 4, former limit of transformer and output inductor provide energy to output together.

Mode of operation 7 t ₆Constantly, turn-off S ₁, transformer former limit afterflow, S ₃And S ₄The inverse parallel diode current flow, ν _AB=0, transformer former limit afterflow.Give S ₃And S ₄Create the condition that no-voltage is opened, give S this moment ₃And S ₄Drive signal, S ₃And S ₄Can realize that no-voltage is open-minded.

Mode of operation 8 t ₇Constantly, turn-off S ₆, diode D ₃, D ₄And D ₅According to the situation afterflow of load, when heavy duty or seal under the situation of resonant inductance switch S ₅Possible no-voltage is open-minded.

Mode of operation 9, figure (2-b): t ₈Constantly, driving switch S ₅, switch S ₃, S ₄And S ₅Conducting, ν _AB=-U _In, the former limit of transformer is to transformer secondary output energy.Converter enters into the negative half period operating state.The operating state of negative half period is similar with positive half cycle, is not described in detail in this.

In this mode of operation, C _Fly1The ON time of capacitance voltage by the switching mode shown in the switching mode shown in Fig. 2-c) and Fig. 2-d) is than regulating;

In this mode of operation, C _Fly2The ON time of capacitance voltage by the switching mode shown in the switching mode shown in Fig. 2-e) and Fig. 2-f) is than regulating.

Each figure is the mode of operation of device when being operated in other operating state among Fig. 3:

Fig. 3-a) is ν _AB=U _In/ 2 o'clock working mode figure;

Fig. 3-b) is ν _AB=-U _In/ 2 o'clock working mode figure;

Fig. 3-c) is ν _AB=U _InOne of working mode figure of/4 o'clock;

Fig. 3-d) is ν _AB=U _InTwo of/4 o'clock working mode figure;

Fig. 3-e) is ν _AB=-U _InOne of working mode figure of/4 o'clock;

Fig. 3-f) is ν _AB=-U _InTwo of/4 o'clock working mode figure;

Claims

1, a kind of five-level high-frequency dc converter comprises input voltage source U _InAnd be connected in parallel on input voltage source U _InOn the electrochemical capacitor C of mutual series connection _In1And C _In2, it is characterized in that: at electrochemical capacitor C _In1And C _In2Two ends also be parallel with brachium pontis A and brachium pontis B, brachium pontis A is by the switch S of two series connection ₅And S ₆Form, brachium pontis B is by the switch S of four series connection ₁, S ₂, S ₃And S ₄Form, between the c of the d of brachium pontis A point and brachium pontis B point, also be connected with transformer E, by switch S ₇And S ₈, S ₉And S ₁₀Two bidirectional switchs of differential concatenation formation are connected on electrochemical capacitor C separately _In1And C _In2Between node a and the node c of brachium pontis B between, and between node e, the node f of the node b of two bidirectional switchs and brachium pontis B, also be parallel with two floating capacitance C _Fly1And C _Fly2