CN104660078B

CN104660078B - Three-phase Cuk voltage rising and reducing three-electric level inverter

Info

Publication number: CN104660078B
Application number: CN201510020561.2A
Authority: CN
Inventors: 郭小强; 贾晓瑜; 李建
Original assignee: Yanshan University
Current assignee: HEBEI SHENKE ELECTRIC POWER CO.,LTD.; HEBEI SHENKE ELECTRONICS Co.,Ltd.; Hebei Shenke Intelligent Manufacturing Co.,Ltd.; Hebei Shenke magnetic materials Co.,Ltd.; Hebei Shenke mould Co.,Ltd.; Shenke Technology Group Co.,Ltd.
Priority date: 2015-01-15
Filing date: 2015-01-15
Publication date: 2017-04-12
Anticipated expiration: 2035-01-15
Also published as: CN104660078A

Abstract

The invention discloses a three-phase Cuk voltage rising and reducing three-electric level inverter. The circuit mode comprises a DC bus, switch tubes, diodes, inductors and capacitors. The inverter can be applied to a voltage rising and reducing occasion under the condition that a transformer or a forestage DC converter is not needed, is small in size, high in efficiency and low in cost, can realize that output voltage amplitude value is greater or smaller than input voltage amplitude value, is large in output voltage range, and high in utilization ratio of maximal DC voltage, requires DC bus with low voltage under the condition that requirements of same three-phase loading or three-phase grid are met, and has common mode inhibiting ability; the voltage stress of switch tubes is half of that of conventional voltage rising and reducing inverters of three-phase Cuk inverters, and the like; the inverter is more suitable for being applied to middle-high voltage occasions.

Description

A kind of three-phase Cuk buck-boost type three-level inverters

Technical field

The present invention relates to the inverter of converters technical field, more particularly to a kind of three-phase Cuk bucks Type three-level inverter.

Background technology

Used as a kind of power electronic equipment, its basic role is that direct-current input power supplying is converted into alternating current power supply to inverter, Meet load or the burden requirement of electrical network.Wherein single-phase inverter is mainly used in middle low power occasion, simple structure, cost compared with It is low；And three-phase inverter is due to its construction features, it is adaptable to more large-power occasions, be widely used in grid-connected, Motor drive, The various industrial occasions such as airplane power source.

Conventional three-phase inverter mainly includes three-phase semi-bridge type two-level inverter topology, three level of three-phase neutral-point-clamped type The topologys such as inverter, its common feature are that output voltage amplitude is less than input voltage, belong to voltage-dropping type inverter.And above-mentioned blood pressure lowering Type inverter generally requires DC bus-bar voltage and is more than or equal toOutput AC voltage amplitude again, is suitable only for applying in exchange Output voltage amplitude is less than or equal toThe voltage-dropping type occasion of times DC input voitage amplitude；In practical application, in loading condition In the big occasion of complicated, output voltage amplitude claimed range, especially in buck occasion, inverter need connection transformer or Person's prime DC converter, adjusts output voltage amplitude, meets threephase load or the different voltage requirements of electrical network.However, becoming The access of depressor or prime DC converter can also cause the increase of inverter volume, cost to increase, energy conversion efficiency reduction The problems such as.Meanwhile, in application process, it is high that switching tube high frequency break-make also results in powder inverter common-mode voltage to inverter without transformer Frequency changes, and causes common mode problem in various commercial Applications such as grid-connected, Motor drive, affect system safe and reliable operation, Personal safety is threatened even.Thus, need Three phase voltage boosting/reducing inverter badly and solve the above problems.

Chinese Patent Application No. 201410020413.6, the non-isolated grid-connected generating of entitled single-stage boost inverter System and its control method, the patent application introduce on the basis of conventional three-phase semi-bridge type two-level inverter coupling inductance without Source network, the power supply of inverter and main circuit are coupled, with reference to the control program which is announced, while realizing stepping functions Suppression common mode electric current.However, the inverter scheme that this application case is proposed belongs to two-level inverter, which is limited in high voltage appearance The application of occasion.The article A single-stage three- that Darwish et al. is delivered in IEEE GCC meetings in 2013 Propose in phase DC/AC inverter based on Cuk converter for PV application that one kind is based on The three-phase single-level formula inverter of Cuk DC converters, the inverter output voltage amplitude can be more than or less than input direct-current Voltage magnitude and have preferable common mode inhibition capacity；But the inverter belongs to two-level inverter, in high voltage transformation of electrical energy , there is the defects such as switch tube voltage stress is high, harmonic wave of output voltage content is high, loss is big in occasion.

The content of the invention

In order to solve above-mentioned problem, it is an object of the invention to provide a kind of output voltage range is big, Neng Goushi Merge the three-phase buck-boost type three-level inverter for possessing common mode inhibition capacity for buck applied field.

In order to realize foregoing invention purpose, the present invention is to adopt the following technical scheme that：

A kind of three-phase Cuk buck-boost type three-level inverters, its first circuit form include dc bus, 12 open Guan Guan, six diodes, six inductance and nine electric capacity；

The P ends of dc bus pass through the first inductance L₁With the first electric capacity C₁One end, first switch pipe S₁One end be connected； First electric capacity C₁The other end and the second electric capacity C₂One end, the first diode D₁One end, the second diode D₂One end phase Even；First switch pipe S₁The other end and second switch pipe S₂One end, the first diode D₁The other end be connected；Second switch Pipe S₂The other end be connected with the N-terminal of dc bus；Second electric capacity C₂The other end and the second inductance L₂One end, the 3rd switch Pipe S₃One end be connected；3rd switching tube S₃The other end and the 4th switching tube S₄One end, the second diode D₂Other end phase Even；4th switching tube S₄The other end be connected with the N-terminal of dc bus；Second inductance L₂The other end and the 7th electric capacity C₇One The A of end, threephase load or three phase network is connected to point A；

The P ends of dc bus pass through the 3rd inductance L₃With the 3rd electric capacity C₃One end, the 5th switching tube S₅One end be connected； 3rd electric capacity C₃The other end and the 4th electric capacity C₄One end, the 3rd diode D₃One end, the 4th diode D₄One end phase Even；5th switching tube S₅The other end and the 6th switching tube S₆One end, the 3rd diode D₃The other end be connected；6th switch Pipe S₆The other end be connected with the N-terminal of dc bus；4th electric capacity C₄The other end and the 4th inductance L₄One end, the 7th switch Pipe S₇One end be connected；7th switching tube S₇The other end and the 8th switching tube S₈One end, the 4th diode D₄Other end phase Even；8th switching tube S₈The other end be connected with the N-terminal of dc bus；4th inductance L₄The other end and the 8th electric capacity C₈One The B of end, threephase load or three phase network is connected to point B；

The P ends of dc bus pass through the 5th inductance L₅With the 5th electric capacity C₅One end, the 9th switching tube S₉One end be connected； 5th electric capacity C₅The other end and the 6th electric capacity C₆One end, the 5th diode D₅One end, the 6th diode D₆One end phase Even；9th switching tube S₉The other end and the tenth switching tube S₁₀One end, the 5th diode D₅The other end be connected；Tenth switch Pipe S₁₀The other end be connected with the N-terminal of dc bus；6th electric capacity C₆The other end and the 6th inductance L₆One end, the 11st open Close pipe S₁₁One end be connected；11st switching tube S₁₁The other end and twelvemo close pipe S₁₂One end, the 6th diode D₆'s The other end is connected；Twelvemo closes pipe S₁₂The other end be connected with the N-terminal of dc bus；6th inductance L₆The other end and the 9th Electric capacity C₉The C of one end, threephase load or three phase network be connected to point C；

7th electric capacity C₇The other end, the 8th electric capacity C₈The other end and the 9th electric capacity C₉The other end be connected to point M, three Phase load or three phase network are connected to point O.

Further, in the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention On the basis of, the improvement of one of following measures is taken, to strengthen common mode inhibition capacity：

(1) by the 7th electric capacity C₇, the 8th electric capacity C₈With the 9th electric capacity C₉Junction point M be connected with the N-terminal of dc bus；

(2) the first suppression electric capacity C for connecting is accessed between the P ends of dc bus and N-terminal_t1Suppress electric capacity C with second_t2； First suppresses electric capacity C_t1Suppress electric capacity C with second_t2Point H is connected to, suppresses electric capacity C by first_t1, second suppress electric capacity C_t2Company Contact H and the 7th electric capacity C₇, the 8th electric capacity C₈With the 9th electric capacity C₉Junction point M be connected.

Further, in the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention On the basis of, or in the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention and adopt On the basis of taking enhancing common mode inhibition capacity measure (1), following measures are taken to reduce the quantity of circuit breaker in middle pipe：

The the first derided capacitors C for connecting is accessed between the P ends of dc bus and N-terminal_n1With the second derided capacitors C_n2, the One derided capacitors C_n1With the second derided capacitors C_n2Point J is connected to, wherein any one corresponding inductance, electric capacity, diode is substituted And switching tube, and the corresponding load or electrical network are connected to into the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J；A phases include：First inductance L₁With the second inductance L₂, the first electric capacity C₁With the second electric capacity C₂, the first diode D₁With the two or two pole Pipe D₂, first switch pipe S₁, second switch pipe S₂, the 3rd switching tube S₃With the 4th switching tube S₄；B phases include：3rd inductance L₃With 4th inductance L₄, the 3rd electric capacity C₃With the 4th electric capacity C₄, the 3rd diode D₃With the 4th diode D₄, the 5th switching tube S₅, the 6th Switching tube S₆, the 7th switching tube S₇With the 8th switching tube S₈；C phases include：5th inductance L₅With the 6th inductance L₆, the 5th electric capacity C₅With 6th electric capacity C₆, the 5th diode D₅With the 6th diode D₆, the 9th switching tube S₉, the tenth switching tube S₁₀, the 11st switching tube S₁₁ Pipe S is closed with twelvemo₁₂。

Present invention also offers a kind of second circuit form of three-phase Cuk buck-boost type three-level inverters, it includes Dc bus, 12 switching tubes, six inductance and nine electric capacity；

P ' the ends of dc bus are by the first inductance L₁' and the first electric capacity C₁' one end, first switch pipe S₁' one end phase Even；First electric capacity C₁' the other end and the second inductance L₂' one end, the 3rd switching tube S₃' one end be connected；First switch pipe S₁' the other end and second switch pipe S₂' one end, the second electric capacity C₂' one end be connected；Second switch pipe S₂' the other end It is connected with the N ' ends of dc bus；Second electric capacity C₂' the other end and the 3rd switching tube S₃' the other end, the 4th switching tube S₄′ One end be connected；4th switching tube S₄' the N ' ends of the other end and dc bus be connected；Second inductance L₂' the other end and the 7th Electric capacity C₇' the A of one end, threephase load or three phase network be connected to point A '；

P ' the ends of dc bus are by the 3rd inductance L₃' and the 3rd electric capacity C₃' one end, the 5th switching tube S₅' one end phase Even；3rd electric capacity C₃' the other end and the 4th inductance L₄' one end, the 7th switching tube S₇' one end be connected；5th switching tube S₅' the other end and the 6th switching tube S₆' one end, the 4th electric capacity C₄' one end be connected；6th switching tube S₆' the other end with N ' the ends of dc bus are connected；4th electric capacity C₄' the other end and the 7th switching tube S₇' the other end, the 8th switching tube S₈' One end is connected；8th switching tube S₈' the N ' ends of the other end and dc bus be connected；4th inductance L₄' the other end it is electric with the 8th Hold C₈' the B of one end, threephase load or three phase network be connected to point B '；

P ' the ends of dc bus are by the 5th inductance L₅' and the 5th electric capacity C₅' one end, the 9th switching tube S₉' one end phase Even；5th electric capacity C₅' the other end and the 6th inductance L₆' one end, the 11st switching tube S₁₁' one end be connected；9th switch Pipe S₉' the other end and the tenth switching tube S₁₀' one end, the 6th electric capacity C₆' one end be connected；Tenth switching tube S₁₀' it is another Hold and be connected with the N ' ends of dc bus；6th electric capacity C₆' the other end and the 11st switching tube S₁₁' the other end, twelvemo Close pipe S₁₂' one end be connected；Twelvemo closes pipe S₁₂' the N ' ends of the other end and dc bus be connected；6th inductance L₆' it is another One end and the 9th electric capacity C₉' the C of one end, threephase load or three phase network be connected to point C '；

7th electric capacity C₇' the other end, the 8th electric capacity C₈' the other end and the 9th electric capacity C₉' the other end be connected to a little M ', threephase load or three phase network are connected to point O '.

Further, in a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention On the basis of, the improvement of one of following two measures is taken, to strengthen common mode inhibition capacity：

(3) by the 7th electric capacity C₇', the 8th electric capacity C₈' and the 9th electric capacity C₉' the N ' ends of junction point M ' and dc bus connect Connect；

(4) dc bus P ' end with access between N ' ends connect first suppression electric capacity C_t1' and the second suppression electric capacity C_t2', first suppresses electric capacity C_t1' suppress electric capacity C with second_t2' point H ' is connected to, suppress electric capacity C by first_t1', second suppress electricity Hold C_t2' junction point H ' and the 7th electric capacity C₇', the 8th electric capacity C₈' and the 9th electric capacity C₉' junction point M ' be connected.

Further, in a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention On the basis of, or in a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention and adopt On the basis of taking enhancing common mode inhibition capacity measure (3), reduce contactor quantity using following measures：

The P ' ends of dc bus with the first derided capacitors C for connecting is accessed between N ' ends_n1' and the second derided capacitors C_n2', the first derided capacitors C_n1' and the second derided capacitors C_n2' point J ' is connected to, substitute wherein any one corresponding inductance, electricity Hold and switching tube, and the corresponding load or electrical network are connected to into the first derided capacitors C_n1' and the second derided capacitors C_n2' company Contact J '；A phases include：First inductance L₁' and the second inductance L₂', the first electric capacity C₁' and the second electric capacity C₂', first switch pipe S₁′、 Second switch pipe S₂', the 3rd switching tube S₃' and the 4th switching tube S₄′；B phases include：3rd inductance L₃' and the 4th inductance L₄', the Three electric capacity C₃' and the 4th electric capacity C₄', the 5th switching tube S₅', the 6th switching tube S₆', the 7th switching tube S₇' and the 8th switching tube S₈′；C phases include：5th inductance L₅' and the 6th inductance L₆', the 5th electric capacity C₅' and the 6th electric capacity C₆', the 9th switching tube S₉', Ten switching tube S₁₀', the 11st switching tube S₁₁' and twelvemo pass pipe S₁₂′。

Due to adopting above-mentioned technical proposal, compared with prior art, the invention has the beneficial effects as follows：

1st, compared with conventional three-phase inverter, inverter proposed by the present invention can become without the need for transformator or prime direct current Buck-boost type occasion, small volume, efficiency high, low cost are applied in the case of parallel operation；

2nd, compared with conventional three-phase inverter, inverter proposed by the present invention belongs to voltage boosting/reducing inverter, it is possible to achieve Output voltage amplitude is more than or less than input voltage amplitude, and output voltage range is big.Maximum DC voltage utilization rate is high, full In the case that the same threephase load of foot or three phase network are required, the DC bus-bar voltage of needs is low；

3rd, compared with conventional three-phase inverter, inverter proposed by the present invention possesses common mode inhibition capacity；

4th, compared with three-phase Cuk type two-level inverters, inverter proposed by the present invention is three-level inverter, switching tube Voltage stress is the half of the tradition buck-boost inverter such as three-phase Cuk two-level inverters, is more suitable for being applied to high voltage appearance field Close.

Description of the drawings

Fig. 1 be the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention point M with Circuit theory diagrams in the case of the N-terminal of dc bus is not connected；

Fig. 2 be the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention point M with The N-terminal of dc bus circuit theory diagrams under connection；

Fig. 3 is the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current The the first suppression electric capacity C for connecting is accessed between the P ends of bus and N-terminal_t1Suppress electric capacity C with second_t2, first suppresses electric capacity C_t1With Second suppresses electric capacity C_t2Point H is connected to, suppresses electric capacity C by first_t1, second suppress electric capacity C_t2Junction point H and the 7th electric capacity C₇, the 8th electric capacity C₈, the 9th electric capacity C₉Junction point M be connected in the case of circuit theory diagrams；

Fig. 4 is the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current The the first derided capacitors C for connecting is accessed between the P ends of bus and N-terminal_n1With the second derided capacitors C_n2, the first derided capacitors C_n1With Second derided capacitors C_n2Point J is connected to, wherein A corresponding inductance, electric capacity and diode, switching tube are removed, and by the phase Corresponding load or electrical network are connected to the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J, and electric capacity midpoint M with it is straight Circuit theory diagrams in the case of the N-terminal of stream bus is not connected；

Fig. 5 is the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current The the first derided capacitors C for connecting is accessed between the P ends of bus and N-terminal_n1With the second derided capacitors C_n2, the first derided capacitors C_n1With Second derided capacitors C_n2Point J is connected to, wherein A corresponding inductance, electric capacity and diode, switching tube are removed, and by the phase Corresponding load or electrical network are connected to the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J, and electric capacity midpoint M with it is straight The N-terminal of stream bus circuit theory diagrams under connection；

Fig. 6 is a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in point M ' Circuit theory diagrams in the case of not connected with the N ' ends of dc bus；

Fig. 7 is a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in point M ' The circuit theory diagrams under connection are held with the N ' of dc bus；

Fig. 8 is a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current Bus P ' end with access between N ' ends connect first suppression electric capacity C_t1' and the second suppression electric capacity C_t2', first suppresses electric capacity C_t1' suppress electric capacity C with second_t2' point H ' is connected to, suppress electric capacity C by first_t1', second suppress electric capacity C_t2' junction point H ' with 7th electric capacity C₇', the 8th electric capacity C₈' and the 9th electric capacity C₉' junction point M ' be connected in the case of circuit theory diagrams；

Fig. 9 is a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current P ' the ends of bus with the first derided capacitors C for connecting is accessed between N ' ends_n1' and the second derided capacitors C_n2', the first derided capacitors C_n1' and the second derided capacitors C_n2' point J ' is connected to, A phase inductances, electric capacity, switching tube are removed, and by the corresponding load Or electrical network is connected to the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J ', and electric capacity midpoint M ' and dc bus N ' ends it is not connected in the case of circuit theory diagrams；

Figure 10 is a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current P ' the ends of bus with the first derided capacitors C for connecting is accessed between N ' ends_n1' and the second derided capacitors C_n2', the first derided capacitors C_n1' and the second derided capacitors C_n2' point J ' is connected to, A phase inductances, electric capacity, switching tube are removed, and by the corresponding load Or electrical network is connected to the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J ', and electric capacity midpoint M ' and dc bus N ' ends circuit theory diagrams under connection.

Specific embodiment

Specific description in detail is made further to the specific embodiment of the present invention below in conjunction with the accompanying drawings.

In the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention shown in Fig. 1, can To see that the circuit form is made up of dc bus, 12 switching tubes, six diodes, six inductance and nine electric capacity, its It is characterised by：

The P ends of dc bus pass through the first inductance L₁With the first electric capacity C₁One end, first switch pipe S₁One end be connected, First electric capacity C₁The other end and the second electric capacity C₂One end, the first diode D₁One end, the second diode D₂One end phase Even, first switch pipe S₁The other end and second switch pipe S₂One end, the first diode D₁The other end be connected, second switch Pipe S₂The other end be connected with the N-terminal of dc bus, the second electric capacity C₂The other end and the second inductance L₂One end, the 3rd switch Pipe S₃One end be connected, the 3rd switching tube S₃The other end and the 4th switching tube S₄One end, the second diode D₂Other end phase Even, the 4th switching tube S₄The other end be connected with the N-terminal of dc bus, the second inductance L₂The other end and the 7th electric capacity C₇One The A of end, threephase load or electrical network is connected to point A；

The P ends of dc bus pass through the 3rd inductance L₃With the 3rd electric capacity C₃One end, the 5th switching tube S₅One end be connected, 3rd electric capacity C₃The other end and the 4th electric capacity C₄One end, the 3rd diode D₃One end, the 4th diode D₄One end phase Even, the 5th switching tube S₅The other end and the 6th switching tube S₆One end, the 3rd diode D₃The other end be connected, the 6th switch Pipe S₆The other end be connected with the N-terminal of dc bus, the 4th electric capacity C₄The other end and the 4th inductance L₄One end, the 7th switch Pipe S₇One end be connected, the 7th switching tube S₇The other end and the 8th switching tube S₈One end, the 4th diode D₄Other end phase Even, the 8th switching tube S₈The other end be connected with the N-terminal of dc bus, the 4th inductance L₄The other end and the 8th electric capacity C₈One The B of end, threephase load or electrical network is connected to point B；

The P ends of dc bus pass through the 5th inductance L₅With the 5th electric capacity C₅One end, the 9th switching tube S₉One end be connected, 5th electric capacity C₅The other end and the 6th electric capacity C₆One end, the 5th diode D₅One end, the 6th diode D₆One end phase Even, the 9th switching tube S₉The other end and the tenth switching tube S₁₀One end, the 5th diode D₅The other end be connected, the tenth switch Pipe S₁₀The other end be connected with the N-terminal of dc bus, the 6th electric capacity C₆The other end and the 6th inductance L₆One end, the 11st open Close pipe S₁₁One end be connected, the 11st switching tube S₁₁The other end and twelvemo close pipe S₁₂One end, the 6th diode D₆'s The other end is connected, and twelvemo closes pipe S₁₂The other end be connected with the N-terminal of dc bus, the 6th inductance L₆The other end and the 9th Electric capacity C₉The C of one end, threephase load or electrical network be connected to point C；

Substantially, the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention be On the basis of three-phase Cuk type two-level inverters, the tri-level circuit form constructed using diode clamping circuit.The present invention is proposed The first circuit form of inverter is big in holding conventional three-phase Cuk type two-level inverter output AC voltages amplitude range, While DC input voitage amplitude feature being more than or less than, the voltage stress that its switching tube bears is only conventional three-phase The half of Cuk type two-level inverters, is more applicable for high voltage appearance occasion.

On the basis of the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention, As needed, the improvement of one of following two measures is may also take on, to strengthen common mode inhibition capacity：

(1) by the 7th electric capacity C₇, the 8th electric capacity C₈With the 9th electric capacity C₉Junction point M be connected with dc bus N-terminal, such as Fig. 2 It is shown；

(2) the first suppression electric capacity C for connecting is accessed between dc bus P ends and N-terminal_t1Suppress electric capacity C with second_t2, the One suppresses electric capacity C_t1Suppress electric capacity C with second_t2H points are connected to, suppress electric capacity C by first_t1, second suppress electric capacity C_t2Connection Point H and the 7th electric capacity C₇, the 8th electric capacity C₈, the 9th electric capacity C₉Junction point M be connected, as shown in Figure 3.

On the basis of the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention, As needed, following measures are taken to reduce contactor pipe quantity：First for connecting is accessed between dc bus P ends and N-terminal Derided capacitors C_n1With the second derided capacitors C_n2, the first derided capacitors C_n1With the second derided capacitors C_n2Point J is connected to, is substituted wherein Any one corresponding inductance, electric capacity, diode and switching tube, and the corresponding load or electrical network are connected to into the first partial pressure electricity Hold C_n1With the second derided capacitors C_n2Junction point J；A phases include：First inductance L₁With the second inductance L₂, the first electric capacity C₁With second Electric capacity C₂, the first diode D₁With the second diode D₂, first switch pipe S₁, second switch pipe S₂, the 3rd switching tube S₃With the 4th Switching tube S₄；B phases include：3rd inductance L₃With the 4th inductance L₄, the 3rd electric capacity C₃With the 4th electric capacity C₄, the 3rd diode D₃With Four diode D₄, the 5th switching tube S₅, the 6th switching tube S₆, the 7th switching tube S₇With the 8th switching tube S₈；C phases include：5th is electric Sense L₅With the 6th inductance L₆, the 5th electric capacity C₅With the 6th electric capacity C₆, the 5th diode D₅With the 6th diode D₆, the 9th switching tube S₉, the tenth switching tube S₁₀11st switching tube S₁₁Pipe S is closed with twelvemo₁₂。

Technical scheme its improvement after is illustrated to substitute A phases with reference to Fig. 4：1) a kind of three-phase Cuk buck-boost types three are electric Flat inverter, it includes dc bus, eight switching tubes, four diodes, four inductance and nine electric capacity；

First derided capacitors C of the P ends of dc bus by series connection_n1With the second derided capacitors C_n2The N of connection dc bus End, the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J and the 7th electric capacity C₇One end, threephase load or three-phase electricity The A of net is connected to point A；

The P ends of dc bus pass through the 3rd inductance L₃With the 3rd electric capacity C₃One end, the 5th switching tube S₅One end be connected, 3rd electric capacity C₃The other end and the 4th electric capacity C₄One end, the 3rd diode D₃One end, the 4th diode D₄One end phase Even, the 5th switching tube S₅The other end and the 6th switching tube S₆One end, the 3rd diode D₃The other end be connected, the 6th switch Pipe S₆The other end be connected with the N-terminal of dc bus, the 4th electric capacity C₄The other end and the 4th inductance L₄One end, the 7th switch Pipe S₇One end be connected, the 7th switching tube S₇The other end and the 8th switching tube S₈One end, the 4th diode D₄Other end phase Even, the 8th switching tube S₈The other end be connected with the N-terminal of dc bus, the 4th inductance L₄The other end and the 8th electric capacity C₈One The B of end, threephase load or three phase network is connected to point B；

The P ends of dc bus pass through the 5th inductance L₅With the 5th electric capacity C₅One end, the 9th switching tube S₉One end be connected, 5th electric capacity C₅The other end and the 6th electric capacity C₆One end, the 5th diode D₅One end, the 6th diode D₆One end phase Even, the 9th switching tube S₉The other end and the tenth switching tube S₁₀One end, the 5th diode D₅The other end be connected, the tenth switch Pipe S₁₀The other end be connected with the N-terminal of dc bus, the 6th electric capacity C₆The other end and the 6th inductance L₆One end, the 11st open Close pipe S₁₁One end be connected, the 11st switching tube S₁₁The other end and twelvemo close pipe S₁₂One end, the 6th diode D₆'s The other end is connected, and twelvemo closes pipe S₁₂The other end be connected with the N-terminal of dc bus, the 6th inductance L₆The other end and the 9th Electric capacity C₉The C of one end, threephase load or three phase network be connected to point C；

2) and 3) in the same manner, it is respectively with substituting technical scheme after the improvement of B phases and C phases：

2) a kind of three-phase Cuk buck-boost type three-level inverters, it includes dc bus, eight switching tubes, four two poles Pipe, four inductance and nine electric capacity；

The P ends of dc bus pass through the first inductance L₁With the first electric capacity C₁One end, first switch pipe S₁One end be connected, First electric capacity C₁The other end and the second electric capacity C₂One end, the first diode D₁One end, the second diode D₂One end phase Even, first switch pipe S₁The other end and second switch pipe S₂One end, the first diode D₁The other end be connected, second switch Pipe S₂The other end be connected with the N-terminal of dc bus, the second electric capacity C₂The other end and the second inductance L₂One end, the 3rd switch Pipe S₃One end be connected, the 3rd switching tube S₃The other end and the 4th switching tube S₄One end, the second diode D₂Other end phase Even, the 4th switching tube S₄The other end be connected with the N-terminal of dc bus, the second inductance L₂The other end and the 7th electric capacity C₇One The A of end, threephase load or three phase network is connected to point A；

First derided capacitors C of the P ends of dc bus by series connection_n1With the second derided capacitors C_n2The N of connection dc bus End, the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J and the 8th electric capacity C₈One end, threephase load or three-phase electricity The B of net is connected to point B；

3) a kind of three-phase Cuk buck-boost type three-level inverters, it includes dc bus, eight switching tubes, four two poles Pipe, four inductance and nine electric capacity；

First derided capacitors C of the P ends of dc bus by series connection_n1With the second derided capacitors C_n2The N of connection dc bus End, the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J and the 9th electric capacity C₉One end, threephase load or three-phase electricity The C of net is connected to point C；

In the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention and take increasing On the basis of strong common mode inhibition capacity measure (1), as needed, following measures are taken to reduce contactor pipe quantity：In direct current The the first derided capacitors C for connecting is accessed between bus P ends and N-terminal_n1With the second derided capacitors C_n2, the first derided capacitors C_n1With Two derided capacitors C_n2It is connected to J points, substitutes wherein any one corresponding inductance, electric capacity, diode and switching tube, and by the phase Corresponding load or electrical network are connected to the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J；A phases include：First inductance L₁With the second inductance L₂, the first electric capacity C₁With the second electric capacity C₂, the first diode D₁With the second diode D₂, first switch pipe S₁、 Second switch pipe S₂, the 3rd switching tube S₃With the 4th switching tube S₄；B phases include：3rd inductance L₃With the 4th inductance L₄, the 3rd electric capacity C₃With the 4th electric capacity C₄, the 3rd diode D₃With the 4th diode D₄, the 5th switching tube S₅, the 6th switching tube S₆, the 7th switching tube S₇With the 8th switching tube S₈；C phases include：5th inductance L₅With the 6th inductance L₆, the 5th electric capacity C₅With the 6th electric capacity C₆, the five or two pole Pipe D₅With the 6th diode D₆, the 9th switching tube S₉, the tenth switching tube S₁₀, the 11st switching tube S₁₁Pipe S is closed with twelvemo₁₂。 Fig. 5 is the first circuit form of a kind of three-phase Cuk buck-boost types three-level inverter proposed by the present invention at the P ends of dc bus The the first derided capacitors C for connecting is accessed between N-terminal_n1With the second derided capacitors C_n2, the first derided capacitors C_n1With the second partial pressure electricity Hold C_n2Point J is connected to, wherein A corresponding inductance, electric capacity and diode, switching tube are removed, and by the corresponding load Or electrical network is connected to the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J, and the N-terminal of electric capacity midpoint M and dc bus Circuit theory diagrams under connection.

Present invention also offers a kind of second circuit form of three-phase Cuk buck-boost type three-level inverters.Shown in Fig. 6 In a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter of the present invention, it can be seen that the circuit form bag Include dc bus, 12 switching tubes, six inductance and nine electric capacity；

P ' the ends of dc bus are by the first inductance L₁' and the first electric capacity C₁' one end, first switch pipe S₁' one end phase Even, the first electric capacity C₁' the other end and the second inductance L₂' one end, the 3rd switching tube S₃' one end be connected, first switch pipe S₁' the other end and second switch pipe S₂' one end, the second electric capacity C₂' one end be connected, second switch pipe S₂' the other end It is connected with the N ' ends of dc bus, the second electric capacity C₂' the other end and the 3rd switching tube S₃' the other end, the 4th switching tube S₄′ One end be connected, the 4th switching tube S₄' the N ' ends of the other end and dc bus be connected, the second inductance L₂' the other end and the 7th Electric capacity C₇' the A of one end, threephase load or three phase network be connected to point A '；

P ' the ends of dc bus are by the 3rd inductance L₃' and the 3rd electric capacity C₃' one end, the 5th switching tube S₅' one end phase Even, the 3rd electric capacity C₃' the other end and the 4th inductance L₄' one end, the 7th switching tube S₇' one end be connected, the 5th switching tube S₅' the other end and the 6th switching tube S₆' one end, the 4th electric capacity C₄' one end be connected, the 6th switching tube S₆' the other end with N ' the ends of dc bus are connected, the 4th electric capacity C₄' the other end and the 7th switching tube S₇' the other end, the 8th switching tube S₈' One end is connected, the 8th switching tube S₈' the N ' ends of the other end and dc bus be connected, the 4th inductance L₄' the other end it is electric with the 8th Hold C₈' the B of one end, threephase load or three phase network be connected to point B '；

P ' the ends of dc bus are by the 5th inductance L₅' and the 5th electric capacity C₅' one end, the 9th switching tube S₉' one end phase Even, the 5th electric capacity C₅' the other end and the 6th inductance L₆' one end, the 11st switching tube S₁₁' one end be connected, the 9th switch Pipe S₉' the other end and the tenth switching tube S₁₀' one end, the 6th electric capacity C₆' one end be connected, the tenth switching tube S₁₀' it is another Hold and be connected with the N ' ends of dc bus, the 6th electric capacity C₆' the other end and the 11st switching tube S₁₁' the other end, twelvemo Close pipe S₁₂' one end be connected, twelvemo close pipe S₁₂' the N ' ends of the other end and dc bus be connected, the 6th inductance L₆' it is another One end and the 9th electric capacity C₉' the C of one end, threephase load or three phase network be connected to point C '；

Substantially, a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention be On the basis of conventional three-phase Cuk type two-level inverters, the tri-level circuit form constructed using striding capacitance.The present invention is carried Second form for going out inverter is keeping conventional three-phase Cuk type two-level inverters output AC voltage more than direct current input electricity While pressure feature, the voltage stress that its switching tube bears is only the half of conventional three-phase Cuk type two-level inverters, more applicable In high voltage appearance applications.

On the basis of a kind of second circuit form of three-phase buck-boost type three-level inverter proposed by the present invention, according to Need, may also take on the improvement of one of following two measures, to strengthen common mode inhibition capacity：

(3) by the 7th electric capacity C₇', the 8th electric capacity C₈' and the 9th electric capacity C₉' the N ' ends of junction point M ' and dc bus connect Connect, as shown in Figure 7；

(4) dc bus P ' end with access between N ' ends connect first suppression electric capacity C_t1' and the second suppression electric capacity C_t2', first suppresses electric capacity C_t1' suppress electric capacity C with second_t2' point H ' is connected to, suppress electric capacity C by first_t1', second suppress electricity Hold C_t2' junction point H ' and the 7th electric capacity C₇', the 8th electric capacity C₈', the 9th electric capacity C₉' junction point M ' be connected, as shown in Figure 8.

On the basis of a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention, As needed, contactor quantity can also be reduced using following measures：String is accessed between the P ' ends and N ' ends of dc bus First derided capacitors C of connection_n1' and the second derided capacitors C_n2', the first derided capacitors C_n1' and the second derided capacitors C_n2' be connected to Point J ', substitutes wherein any one corresponding inductance, electric capacity and switching tube, and the corresponding load or electrical network is connected to first Derided capacitors C_n1' and the second derided capacitors C_n2' junction point J '；A phases include：First inductance L₁' and the second inductance L₂', first Electric capacity C₁' and the second electric capacity C₂', first switch pipe S₁', second switch pipe S₂', the 3rd switching tube S₃' and the 4th switching tube S₄′；B Mutually include：3rd inductance L₃' and the 4th inductance L₄', the 3rd electric capacity C₃' and the 4th electric capacity C₄', the 5th switching tube S₅', the 6th switch Pipe S₆', the 7th switching tube S₇' and the 8th switching tube S₈′；C phases include：5th inductance L₅' and the 6th inductance L₆', the 5th electric capacity C₅′ With the 6th electric capacity C₆', the 9th switching tube S₉', the tenth switching tube S₁₀', the 11st switching tube S₁₁' and twelvemo pass pipe S₁₂′。

Technical scheme its improvement after is illustrated to substitute A phases with reference to Fig. 9：

4) a kind of three-phase Cuk buck-boost type three-level inverters, as shown in figure 9, it includes dc bus, eight switches Pipe, four inductance and nine electric capacity；

First derided capacitors C of the P ' ends of dc bus by series connection_n1' and the second derided capacitors C_n2' connection dc bus N ' ends, the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J ' and the 7th electric capacity C₇' one end, threephase load Or the A of three phase network is connected to point A '；

7th electric capacity C₇' the other end, the 8th electric capacity C₈' the other end, the 9th electric capacity C₉' the other end be connected to point M ', Threephase load or three phase network are connected to point O '.

5) and 6) in the same manner, after substituting the improvement of B phases and C phases, technical scheme is respectively：

5) a kind of three-phase Cuk buck-boost type three-level inverters, it includes dc bus, eight switching tubes, four inductance With nine electric capacity；

P ' the ends of dc bus are by the first inductance L₁' and the first electric capacity C₁' one end, first switch pipe S₁' one end phase Even, the first electric capacity C₁' the other end and the second inductance L₂' one end, the 3rd switching tube S₃' one end be connected, first switch pipe S₁' the other end and second switch pipe S₂' one end, the second electric capacity C₂' one end be connected, second switch pipe S₂' the other end with N ' the ends of dc bus are connected, the second electric capacity C₂' the other end and the 3rd switching tube S₃' the other end, the 4th switching tube S₄' One end is connected, the 4th switching tube S₄' the N ' ends of the other end and dc bus be connected, the second inductance L₂' the other end it is electric with the 7th Hold C₇' the A of one end, threephase load or three phase network be connected to point A '；

First derided capacitors C of the P ' ends of dc bus by series connection_n1' and the second derided capacitors C_n2' connection dc bus N ' ends, the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J ' and the 8th electric capacity C₈' one end, threephase load Or the B of three phase network is connected to point B '；

6) a kind of three-phase Cuk buck-boost type three-level inverters, it includes dc bus, eight switching tubes, four inductance With nine electric capacity；

First derided capacitors C of the P ' ends of dc bus by series connection_n1' and the second derided capacitors C_n2' connection dc bus N ' ends, the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point H ' and the 9th electric capacity C₉' one end, threephase load Or the C of three phase network is connected to point C '；

In a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention and take increasing On the basis of strong common mode inhibition capacity measure 1, as needed, contactor quantity can also be reduced using following measures：Straight P ' the ends of stream bus with the first derided capacitors C for connecting is accessed between N ' ends_n1' and the second derided capacitors C_n2', the first partial pressure electricity Hold C_n1' and the second derided capacitors C_n2' J ' points are connected to, wherein any one corresponding inductance, electric capacity and switching tube are substituted, and The corresponding load or electrical network are connected to into the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J '；A phases are wrapped Include：First inductance L₁' and the second inductance L₂', the first electric capacity C₁' and the second electric capacity C₂', first switch pipe S₁', second switch pipe S₂', the 3rd switching tube S₃' and the 4th switching tube S₄′；B phases include：3rd inductance L₃' and the 4th inductance L₄', the 3rd electric capacity C₃' and 4th electric capacity C₄', the 5th switching tube S₅', the 6th switching tube S₆', the 7th switching tube S₇' and the 8th switching tube S₈′；C phases include：The Five inductance L₅' and the 6th inductance L₆', the 5th electric capacity C₅' and the 6th electric capacity C₆', the 9th switching tube S₉', the tenth switching tube S₁₀', 11 switching tube S₁₁' and twelvemo pass pipe S₁₂′。

Figure 10 is a kind of second circuit form of three-phase Cuk buck-boost types three-level inverter proposed by the present invention in direct current The the first derided capacitors C for connecting is accessed between the P ends of bus and N-terminal_n1' and the second derided capacitors C_n2', the first derided capacitors C_n1′ With the second derided capacitors C_n2' point J ' is connected to, A phase inductances, electric capacity, switching tube are removed, and by the corresponding load or electricity Net is connected to the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J ', and the N ' of electric capacity midpoint M ' and dc bus Hold the circuit theory diagrams under connection.

Claims

1. a kind of three-phase Cuk buck-boost type three-level inverters, it include dc bus, 12 switching tubes, six diodes, Six inductance and nine electric capacity；It is characterized in that：

The P ends of dc bus pass through the first inductance L₁With the first electric capacity C₁One end, first switch pipe S₁One end be connected；First Electric capacity C₁The other end and the second electric capacity C₂One end, the first diode D₁One end, the second diode D₂One end be connected；The One switching tube S₁The other end and second switch pipe S₂One end, the first diode D₁The other end be connected；Second switch pipe S₂'s The other end is connected with the N-terminal of dc bus；Second electric capacity C₂The other end and the second inductance L₂One end, the 3rd switching tube S₃'s One end is connected；3rd switching tube S₃The other end and the 4th switching tube S₄One end, the second diode D₂The other end be connected；The Four switching tube S₄The other end be connected with the N-terminal of dc bus；Second inductance L₂The other end and the 7th electric capacity C₇One end, three The A of phase load or three phase network is connected to point A；

The P ends of dc bus pass through the 3rd inductance L₃With the 3rd electric capacity C₃One end, the 5th switching tube S₅One end be connected；3rd Electric capacity C₃The other end and the 4th electric capacity C₄One end, the 3rd diode D₃One end, the 4th diode D₄One end be connected；The Five switching tube S₅The other end and the 6th switching tube S₆One end, the 3rd diode D₃The other end be connected；6th switching tube S₆'s The other end is connected with the N-terminal of dc bus；4th electric capacity C₄The other end and the 4th inductance L₄One end, the 7th switching tube S₇'s One end is connected；7th switching tube S₇The other end and the 8th switching tube S₈One end, the 4th diode D₄The other end be connected；The Eight switching tube S₈The other end be connected with the N-terminal of dc bus；4th inductance L₄The other end and the 8th electric capacity C₈One end, three The B of phase load or three phase network is connected to point B；

The P ends of dc bus pass through the 5th inductance L₅With the 5th electric capacity C₅One end, the 9th switching tube S₉One end be connected；5th Electric capacity C₅The other end and the 6th electric capacity C₆One end, the 5th diode D₅One end, the 6th diode D₆One end be connected；The Nine switching tube S₉The other end and the tenth switching tube S₁₀One end, the 5th diode D₅The other end be connected；Tenth switching tube S₁₀ The other end be connected with the N-terminal of dc bus；6th electric capacity C₆The other end and the 6th inductance L₆One end, the 11st switching tube S₁₁One end be connected；11st switching tube S₁₁The other end and twelvemo close pipe S₁₂One end, the 6th diode D₆It is another End is connected；Twelvemo closes pipe S₁₂The other end be connected with the N-terminal of dc bus；6th inductance L₆The other end and the 9th electric capacity C₉The C of one end, threephase load or three phase network be connected to point C；

7th electric capacity C₇The other end, the 8th electric capacity C₈The other end and the 9th electric capacity C₉The other end be connected to point M, three-phase is born Carry or three phase network is connected to point O.

2. a kind of three-phase Cuk buck-boost type three-level inverters according to claim 1, it is characterised in that：7th electric capacity C₇, the 8th electric capacity C₈With the 9th electric capacity C₉Junction point M be connected with the N-terminal of dc bus.

3. a kind of three-phase Cuk buck-boost type three-level inverters according to claim 1, it is characterised in that：It is female in direct current The the first suppression electric capacity C for connecting is accessed between the P ends of line and N-terminal_t1Suppress electric capacity C with second_t2, first suppresses electric capacity C_t1With Two suppress electric capacity C_t2It is connected to point H；First suppresses electric capacity C_t1, second suppress electric capacity C_t2Junction point H and the 7th electric capacity C₇, Eight electric capacity C₈With the 9th electric capacity C₉Junction point M be connected.

4. a kind of three-phase Cuk buck-boost type three-level inverters according to claim 1 and 2, it is characterised in that：In direct current The the first derided capacitors C for connecting is accessed between the P ends of bus and N-terminal_n1With the second derided capacitors C_n2, the first derided capacitors C_n1With Second derided capacitors C_n2Point J is connected to, wherein any one corresponding inductance, electric capacity, diode and switching tube is substituted, and should Corresponding load or electrical network are connected to the first derided capacitors C_n1With the second derided capacitors C_n2Junction point J；A phases include：First is electric Sense L₁With the second inductance L₂, the first electric capacity C₁With the second electric capacity C₂, the first diode D₁With the second diode D₂, first switch pipe S₁, second switch pipe S₂, the 3rd switching tube S₃With the 4th switching tube S₄；B phases include：3rd inductance L₃With the 4th inductance L₄, the 3rd Electric capacity C₃With the 4th electric capacity C₄, the 3rd diode D₃With the 4th diode D₄, the 5th switching tube S₅, the 6th switching tube S₆, the 7th open Close pipe S₇With the 8th switching tube S₈；C phases include：5th inductance L₅With the 6th inductance L₆, the 5th electric capacity C₅With the 6th electric capacity C₆, the 5th Diode D₅With the 6th diode D₆, the 9th switching tube S₉, the tenth switching tube S₁₀, the 11st switching tube S₁₁Close with twelvemo and manage S₁₂。

5. a kind of three-phase Cuk buck-boost type three-level inverters, it include dc bus, 12 switching tubes, six inductance and Nine electric capacity；It is characterized in that：

P ' the ends of dc bus are by the first inductance L₁' and the first electric capacity C₁' one end, first switch pipe S₁' one end be connected； First electric capacity C₁' the other end and the second inductance L₂' one end, the 3rd switching tube S₃' one end be connected；First switch pipe S₁' The other end and second switch pipe S₂' one end, the second electric capacity C₂' one end be connected；Second switch pipe S₂' the other end and direct current N ' the ends of bus are connected；Second electric capacity C₂' the other end and the 3rd switching tube S₃' the other end, the 4th switching tube S₄' one end It is connected；4th switching tube S₄' the N ' ends of the other end and dc bus be connected；Second inductance L₂' the other end and the 7th electric capacity C₇' the A of one end, threephase load or three phase network be connected to point A '；

P ' the ends of dc bus are by the 3rd inductance L₃' and the 3rd electric capacity C₃' one end, the 5th switching tube S₅' one end be connected； 3rd electric capacity C₃' the other end and the 4th inductance L₄' one end, the 7th switching tube S₇' one end be connected；5th switching tube S₅' The other end and the 6th switching tube S₆' one end, the 4th electric capacity C₄' one end be connected；6th switching tube S₆' the other end and direct current N ' the ends of bus are connected；4th electric capacity C₄' the other end and the 7th switching tube S₇' the other end, the 8th switching tube S₈' one end It is connected；8th switching tube S₈' the N ' ends of the other end and dc bus be connected；4th inductance L₄' the other end and the 8th electric capacity C₈' the B of one end, threephase load or three phase network be connected to point B '；

P ' the ends of dc bus are by the 5th inductance L₅' and the 5th electric capacity C₅' one end, the 9th switching tube S₉' one end be connected； 5th electric capacity C₅' the other end and the 6th inductance L₆' one end, the 11st switching tube S₁₁' one end be connected；9th switching tube S₉′ The other end and the tenth switching tube S₁₀' one end, the 6th electric capacity C₆' one end be connected；Tenth switching tube S₁₀' the other end with it is straight N ' the ends of stream bus are connected；6th electric capacity C₆' the other end and the 11st switching tube S₁₁' the other end, twelvemo close pipe S₁₂′ One end be connected；Twelvemo closes pipe S₁₂' the N ' ends of the other end and dc bus be connected；6th inductance L₆' the other end with 9th electric capacity C₉' the C of one end, threephase load or three phase network be connected to point C '；

7th electric capacity C₇' the other end, the 8th electric capacity C₈' the other end and the 9th electric capacity C₉' the other end be connected to point M ', three Phase load or three phase network are connected to point O '.

6. a kind of three-phase Cuk buck-boost type three-level inverters according to claim 5, it is characterised in that：7th electric capacity C₇', the 8th electric capacity C₈' and the 9th electric capacity C₉' the N ' ends of junction point M ' and dc bus be connected.

7. a kind of three-phase Cuk buck-boost type three-level inverters according to claim 5, it is characterised in that：It is female in direct current Line P ' end with access between N ' ends connect first suppression electric capacity C_t1' and the second suppression electric capacity C_t2', first suppresses electric capacity C_t1′ Suppress electric capacity C with second_t2' point H ' is connected to, first suppresses electric capacity C_t1', second suppress electric capacity C_t2' junction point H ' and the 7th Electric capacity C₇', the 8th electric capacity C₈' and the 9th electric capacity C₉' junction point M ' be connected.

8. a kind of three-phase Cuk buck-boost type three-level inverters according to claim 5 or 6, it is characterised in that：In direct current P ' the ends of bus with the first derided capacitors C for connecting is accessed between N ' ends_n1' and the second derided capacitors C_n2', the first derided capacitors C_n1' and the second derided capacitors C_n2' point J ' is connected to, wherein any one corresponding inductance, electric capacity and switching tube are substituted, and will The corresponding load or electrical network are connected to the first derided capacitors C_n1' and the second derided capacitors C_n2' junction point J '；A phases include： First inductance L₁' and the second inductance L₂', the first electric capacity C₁' and the second electric capacity C₂', first switch pipe S₁', second switch pipe S₂′、 3rd switching tube S₃' and the 4th switching tube S₄′；B phases include：3rd inductance L₃' and the 4th inductance L₄', the 3rd electric capacity C₃' and the 4th Electric capacity C₄', the 5th switching tube S₅', the 6th switching tube S₆', the 7th switching tube S₇' and the 8th switching tube S₈′；C phases include：5th is electric Sense L₅' and the 6th inductance L₆', the 5th electric capacity C₅' and the 6th electric capacity C₆', the 9th switching tube S₉', the tenth switching tube S₁₀', the 11st Switching tube S₁₁' and twelvemo pass pipe S₁₂′。