CN108306533A - A kind of single-phase three-level inverter circuit - Google Patents

Abstract

The invention discloses a kind of single-phase three-level inverter circuits, using three level designs, inverter output voltage in each switch periods only has zero level and a positive or negative level, compared with two level circuits, it shows more excellent on output voltage and current harmonics performance, simultaneously because the variation of each switch periods inverter output voltage is the half of two level circuits, therefore the parameter of its output filter will be obviously reduced；It is simpler using single phase design, facilitate analyzing processing.Therefore, the present invention has the following advantages：Design is simple, facilitates analysis, and the parameter of output filter is smaller, and in terms of output voltage and the performance of harmonic wave aspect of performance is preferable, can meet low EMI and low ripple electric current, interference is smaller.

Description

A kind of single-phase three-level inverter circuit

Technical field

The present invention relates to the convertor circuit in field of power electronics, especially a kind of single-phase three-level inverter circuit.

Background technology

Inverter refer to by semiconductor power IGBT pipes turn on and off effect by converting direct-current power into alternating-current power A kind of converter.Common inverter circuit includes topological full-bridge circuit, half-bridge circuit and half-bridge mid point clamp circuit etc.；It presses According to the difference of output level, inverter circuit can be divided into two level circuits, tri-level circuit and multi-level circuit.Wherein, Two level circuits refer under PWM modulation mode, and the waveform of inverter output voltage can occur positive and negative two in each switch periods The polar level of kind, each of which switch periods inverter output voltage changes greatly, therefore the parameter of output filter is larger, whole The volume and weight of a circuit device is larger, performs poor with harmonic wave aspect of performance in terms of output voltage, especially EMI and line Wave electric current is higher, and there is larger interference.

Invention content

To solve the above-mentioned problems, the object of the present invention is to provide a kind of single-phase three-level inverter circuit, the circuit designs Simply, facilitate processing, the parameter of output filter is smaller, and in terms of output voltage and the performance of harmonic wave aspect of performance is preferable.

In order to make up for the deficiencies of the prior art, the technical solution adopted by the present invention is：

A kind of single-phase three-level inverter circuit, including inversion element, the first inductance, the second inductance, the first capacitance, the second electricity Appearance and Input voltage terminal；Inversion element includes the first inversion element, the second inversion element, third inversion element, the 4th inversion member Part, the 5th inversion element, the 6th inversion element and the 7th inversion element；The emitter of 5th inversion element is arranged in the first inversion On the intersection node of element, third inversion element and the first inductance, the collector of the 5th inversion element is connected on the 7th inversion element Collector and the 6th inversion element collector intersection node on；The emitter of 6th inversion element is arranged in the second inversion On the intersection node of element, the 4th inversion element and the second inductance, the collector of the 6th inversion element is connected on the 7th inversion element Collector and the 5th inversion element collector intersection node on；First inversion element and third inversion element are connected in series And be connected in series respectively with the first inductance connection, the second inversion element and the 4th inversion element and respectively with the second inductance connection； First capacitance and the second capacitance are connected in series, and the collector of the 7th inversion element is connected respectively to the 5th inversion element and the 6th inverse Dependent element, the emitter of the 7th inversion element are connected to the intersection node of the first capacitance and the second capacitance；The setting of first inductance exists Connect on firewire and with the emitter of the 5th inversion element, the second inductance be arranged on zero curve and with the transmitting of the 6th inversion element Pole connects；The anode of first capacitance is connected to the anode of Input voltage terminal, and the cathode of the second capacitance is connected to the negative terminal of Input voltage terminal.

Further, the first inversion element includes the first internal diode of the first IGBT pipe and reverse parallel connection, the second inversion Element includes the second internal diode of the 2nd IGBT pipe and reverse parallel connection, and third inversion element includes the 3rd IGBT pipes and reversed Diode in third body in parallel, the 4th inversion element include the 4th internal diode of the 4th IGBT pipe and reverse parallel connection, the Five inversion elements include the 5th internal diode of the 5th IGBT pipe and reverse parallel connection, and the 6th inversion element is managed including the 6th IGBT With diode in the hexasomic of reverse parallel connection, the 7th inversion element includes the 7th internal two pole of the 7th IGBT pipe and reverse parallel connection Pipe；

The collector of first IGBT pipes is connected to the collector of the 2nd IGBT pipes, and the anode of the first internal diode is connected to The anode of the collector of the emitter and the 3rd IGBT pipes of 5th IGBT pipes, the second internal diode is connected to the 6th IGBT pipes The collector of the collector of emitter and the 4th IGBT pipes, the 7th IGBT pipes is connected to the cathode and the 6th of the 5th internal diode The cathode of internal diode, the anode of the 7th internal diode are connected to the intersection node of the first capacitance and the second capacitance, third The anode of internal diode is connected to the anode of the 4th internal diode.

Further, the invention also includes filter capacitor, filter capacitor is arranged between firewire and zero curve and is connected respectively to First inductance and the second inductance, the both ends of filter capacitor connect with load.

Further, when the present invention works under a work period, including the following course of work, detect Input voltage terminal The input voltage VI and load voltage VO for loading both ends：

It works in positive half period, works as VO<When 0.5VI, the 5th inversion element is in normal open state, at the 4th inversion element In pulsewidth modulation state, other inversion elements are in off state；

It works in positive half period, works as VO>When 0.5VI, the first inversion element, the 4th inversion element and the 7th inversion element In pulsewidth modulation state, other inversion elements are in off state；

It works in negative half-cycle, works as VO<When 0.5VI, the 6th inversion element is in normal open state, at third inversion element In pulsewidth modulation state, other inversion elements are in off state；

It works in negative half-cycle, works as VO>When 0.5VI, the second inversion element, third inversion element and the 7th inversion element In pulsewidth modulation state, other inversion elements are in off state.

Further, it works in positive half period, works as VO<When 0.5VI, the 5th inversion element is in normal open state, and the 4th is inverse Dependent element is in pulsewidth modulation state, including the 4th inversion element ON or shutdown：

When the 4th inversion element ON, electric current flows into the second capacitance cathode, the 7th internal diode, the 5th inversion successively Element, the first inductance, load, the second inductance, the 4th inversion element and capacitance cathode；

When the 4th inversion element OFF, electric current flows into the first inductance, load, the second inductance, two poles in hexasomic successively Pipe, the 5th inversion element and the first inductance.

Further, it works in positive half period, works as VO>When 0.5VI, the first inversion element, the 4th inversion element and the 7th Inversion element is in pulsewidth modulation state, including turns off the 7th inversion element and open the first inversion element and the 4th inversion member Part, or open the 7th inversion element and the first inversion element of shutdown and the 4th inversion element：

When turning off the 7th inversion element and opening the first inversion element and the 4th inversion element, electric current flows into defeated successively Enter the anode of voltage end, the first inversion element, the first inductance, load, the second inductance, the 4th inversion element and Input voltage terminal Negative terminal；

When opening the 7th inversion element and the first inversion element of shutdown and when the 4th inversion element, electric current flows into the successively One inductance, load, the second inductance, diode in hexasomic, the 7th inversion element, the second capacitance, two poles in third inversion element Pipe and the first inductance.

Further, it works in negative half-cycle, works as VO<When 0.5VI, the 6th inversion element is in normal open state, and third is inverse Dependent element is in pulsewidth modulation state, including third inversion element ON or shutdown：

When third inversion element ON, electric current flows into the second capacitance cathode, the 7th internal diode, the 6th inversion successively Element, the second inductance, load, the first inductance, third inversion element and capacitance cathode；

When third inversion element OFF, electric current flows into the second inductance, load, the first inductance, the 5th internal two pole successively Pipe, the 6th inversion element and the second inductance.

Further, it works in negative half-cycle, works as VO>When 0.5VI, the second inversion element, third inversion element and the 7th Inversion element is in pulsewidth modulation state, including turns off the 7th inversion element and open the second inversion element and third inversion member Part, or open the 7th inversion element and the second inversion element of shutdown and third inversion element：

When turning off the 7th inversion element and opening the second inversion element and third inversion element, electric current flows into defeated successively Enter the anode of voltage end, the second inversion element, the second inductance, load, the first inductance, third inversion element and Input voltage terminal Negative terminal；

When opening the 7th inversion element and the second inversion element of shutdown and when third inversion element, electric current flows into the successively Two inductance, load, the first inductance, the 5th internal diode, the 7th inversion element, the second capacitance, two in the 4th inversion element body Pole pipe and the second inductance.

The beneficial effects of the invention are as follows：The present invention provides a kind of single-phase three-level inverter circuit, using three level designs, Inverter output voltage in each switch periods only has zero level and a positive or negative level, compared with two level circuits, Showed on output voltage and current harmonics performance it is more excellent, simultaneously because the variation of each switch periods inverter output voltage is two electricity The half on ordinary telegram road, therefore the parameter of its output filter will be obviously reduced；Inversion element has multiple sub-units, can be perfect suitable Drivings of the Ying Yu under the normal work period；Single phase design is used simultaneously, it is simpler, facilitate analyzing processing；First inductance Play the role of reducing ripple current with the second inductance, ensure that the steady operation of entire inverter circuit.Therefore, the present invention has Following advantages：Design is simple, facilitates analysis, and the parameter of output filter is smaller, in terms of output voltage with harmonic wave aspect of performance Performance is preferable, can meet low EMI and low ripple electric current, and interference is smaller.

Description of the drawings

Present pre-ferred embodiments are provided below in conjunction with the accompanying drawings, with the embodiment that the present invention will be described in detail.

Fig. 1 is the circuit diagram of the present invention.

Specific implementation mode

Referring to Fig.1, a kind of single-phase three-level inverter circuit of the invention, including inversion element 1, the first inductance L1, second Inductance L2, the first capacitance C1, the second capacitance C2 and Input voltage terminal；Inversion element 1 includes the first inversion element Q1, the second inversion Element Q2, third inversion element Q3, the 4th inversion element Q4, the 5th inversion element Q5, the 6th inversion element Q6 and the 7th inversion Element Q7；The emitter of 5th inversion element Q5 is arranged in the first inversion element Q1, third inversion element Q3 and the first inductance L1 Intersection node on, the collector of the 5th inversion element Q5 is connected on the collector and the 6th inversion element Q6 of the 7th inversion element Q7 Collector intersection node on；The emitter of 6th inversion element Q6 is arranged in the second inversion element Q2, the 4th inversion element On the intersection node of Q4 and the second inductance L2, the collector of the 6th inversion element Q6 be connected on the collector of the 7th inversion element Q7 with On the intersection node of the collector of 5th inversion element Q5；First inversion element Q1 and third inversion element Q3 is connected in series and divides It is not connect with the first inductance L1, the second inversion element Q2 and the 4th inversion element Q4 are connected in series and connect respectively with the second inductance L2 It connects；First capacitance C1 and the second capacitance C2 are connected in series, and the collector of the 7th inversion element Q7 is connected respectively to the 5th inversion member The emitter of part Q5 and the 6th inversion element Q6, the 7th inversion element Q7 are connected to the intersection of the first capacitance C1 and the second capacitance C2 Node；First inductance L1 is arranged on firewire and connects with the emitter of the 5th inversion element Q5, and the second inductance L2 is arranged zero Connect on line and with the emitter of the 6th inversion element Q6；The anode of first capacitance C1 is connected to the anode of Input voltage terminal, and second The cathode of capacitance C2 is connected to the negative terminal of Input voltage terminal.

Specifically, firewire is indicated with L in Fig. 1, and zero curve is indicated with N；Two level circuits refer under PWM modulation mode, Inverter output voltage waveform in each switch periods only will appear the polar level of both positive and negative, and use three level designs, Inverter output voltage in each switch periods has zero level and a positive or negative level, compared with two level circuits, defeated Go out on voltage and current harmonic performance to show it is more excellent, simultaneously because the variation of each switch periods inverter output voltage is two level The half of circuit, therefore the parameter of its output filter will be obviously reduced；The inversion element 1 of the present invention has multiple sub-units, Perfect it can be adapted to the driving under positive half period and negative half-cycle；Single phase design is used simultaneously, it is simpler, facilitate at analysis Reason；First inductance L1 and the second inductance L2 plays the role of reducing ripple current, ensure that the steady operation of entire inverter circuit.

Wherein, the first inversion element Q1 includes the first internal diode D1 of the first IGBT pipes S1 and reverse parallel connection, and second Inversion element Q2 includes the second internal diode D2 of the 2nd IGBT pipes S2 and reverse parallel connection, and third inversion element Q3 includes third Diode D3 in the third body of IGBT pipes S3 and reverse parallel connection, the 4th inversion element Q4 include the 4th IGBT pipes S4 and reverse parallel connection The 4th internal diode D4, the 5th inversion element Q5 includes the 5th internal diode of the 5th IGBT pipes S5 and reverse parallel connection D5, the 6th inversion element Q6 include diode D6 in the hexasomic of the 6th IGBT pipes S6 and reverse parallel connection, the 7th inversion element Q7 The 7th internal diode D7 including the 7th IGBT pipes S7 and reverse parallel connection；

The collector of first IGBT pipes S1 is connected to the collector of the 2nd IGBT pipes S2, the anode of the first internal diode D1 It is connected to the collector of the emitter and the 3rd IGBT pipes S3 of the 5th IGBT pipes S5, the anode of the second internal diode D2 is connected to The collector of the collector of the emitter and the 4th IGBT pipes S4 of 6th IGBT pipes S6, the 7th IGBT pipes S7 is connected to the 5th in vivo The cathode of diode D6 in the cathode and hexasomic of diode D5, the anode of the 7th internal diode D7 are connected to the first capacitance C1 With the intersection node of the second capacitance C2, the anode of diode D3 is connected to the anode of the 4th internal diode D4 in third body.

Above-mentioned setting ensure that the overall operation of inverter circuit is stablized, but above-mentioned setting does not limit uniquely, therein IGBT pipes can be replaced with metal-oxide-semiconductor, and the poles D of metal-oxide-semiconductor are analogous to the collector of IGBT pipes in the present invention, and the poles S of metal-oxide-semiconductor are analogous to this The emitter of IGBT pipes in invention；External diode can also be used to substitute internal diode, above-mentioned setting is for this field Similar implementation can be carried out for technical staff.

Wherein, referring to Fig.1, the invention also includes filter capacitor C3, filter capacitor C3 be arranged between firewire and zero curve and It is connected respectively to the first inductance L1 and the second inductance L2, the both ends access load of filter capacitor C3 ensures that inverter circuit has and stablizes Output.

Wherein, referring to Fig.1, when working under a work period, including the following course of work, detect Input voltage terminal The input voltage VI and load voltage VO for loading both ends：

It works in positive half period, works as VO<When 0.5VI, the 5th inversion element Q5 is in normal open state, the 4th inversion element Q4 is in pulsewidth modulation state, and other inversion elements 1 are in off state；

It works in positive half period, works as VO>When 0.5VI, the first inversion element Q1, the 4th inversion element Q4 and the 7th inversion Element Q7 is in pulsewidth modulation state, and other inversion elements 1 are in off state；

It works in negative half-cycle, works as VO<When 0.5VI, the 6th inversion element Q6 is in normal open state, third inversion element Q3 is in pulsewidth modulation state, and other inversion elements 1 are in off state；

It works in negative half-cycle, works as VO>When 0.5VI, the second inversion element Q2, third inversion element Q3 and the 7th inversion Element Q7 is in pulsewidth modulation state, and other inversion elements 1 are in off state.

Realize that inverter circuit drives in the way of above-mentioned 4 kinds, the output voltage and low EMI of available stabilization, interference are small Current harmonics.

Wherein, referring to Fig.1, it works in positive half period, works as VO<When 0.5VI, the 5th inversion element Q5 is in normal open shape State, the 4th inversion element Q4 are in pulsewidth modulation state, including the 4th inversion element Q4 is switched on or off：

When the 4th inversion element Q4 is opened, electric current flows into the second capacitance C2 anode, in the 7th inversion element Q7 bodies successively Diode, the 5th inversion element Q5, the first inductance L1, load, the second inductance L2, the 4th inversion element Q4 and the second capacitance C2 are negative Pole；

When the 4th inversion element Q4 shutdowns, electric current flows into the first inductance L1, load, the second inductance L2, hexasomic successively Interior diode D6, the 5th inversion element Q5 and the first inductance L1.

Wherein, referring to Fig.1, it works in positive half period, works as VO>When 0.5VI, the first inversion element Q1, the 4th inversion member Part Q4 and the 7th inversion element Q7 is in pulsewidth modulation state, including turns off the 7th inversion element Q7 and open the first inversion member Part Q1 and the 4th inversion element Q4, or open the 7th inversion element Q7 and the first inversion element Q1 of shutdown and the 4th inversion element Q4：

When turning off the 7th inversion element Q7 and opening the first inversion element Q1 and the 4th inversion element Q4, electric current is successively Flow into anode, the first inversion element Q1, the first inductance L1, load, the second inductance L2, the 4th inversion element Q4 of Input voltage terminal With the negative terminal of Input voltage terminal；When open the 7th inversion element Q7 and shutdown the first inversion element Q1 and the 4th inversion element Q4 When, electric current flows into the first inductance L1, load, the second inductance L2, diode D6, the 7th inversion element Q7, in hexasomic successively Diode and the first inductance L1 in two capacitance C2, third inversion element Q3 bodies.

Wherein, referring to Fig.1, it works in negative half-cycle, works as VO<When 0.5VI, the 6th inversion element Q5 is in normal open shape State, third inversion element Q3 are in pulsewidth modulation state, including third inversion element Q3 is switched on or off：

When third inversion element Q3 is opened, electric current flows into the second capacitance C2 anodes, the 7th internal diode D7, successively Six inversion element Q6, the second inductance L2, load, the first inductance L1, third inversion element Q3 and the second capacitance C2 cathode；

When third inversion element Q3 is turned off, electric current flows into the second inductance L2, load, the first inductance L1, five body constituents successively Interior diode D5, the 6th inversion element Q6 and the second inductance L2.

Wherein, referring to Fig.1, it works in negative half-cycle, works as VO>When 0.5VI, the second inversion element Q2, third inversion member Part Q3 and the 7th inversion element Q7 is in pulsewidth modulation state, including turns off the 7th inversion element Q7 and open the second inversion member Part Q2 and third inversion element Q3, or open the 7th inversion element Q7 and the second inversion element Q2 of shutdown and third inversion element Q3：

When turning off the 7th inversion element Q7 and opening the second inversion element Q2 and third inversion element Q3, electric current is successively Flow into anode, the second inversion element Q2, the second inductance L2, load, the first inductance L1, the third inversion element Q3 of Input voltage terminal With the negative terminal of Input voltage terminal；

When opening the 7th inversion element Q7 and shutdown the second inversion element Q2 and third inversion element Q3, electric current is successively Flow into the second inductance L2, load, the first inductance L1, the 5th internal diode D5, the 7th inversion element Q7, the second capacitance C2, Diode and the second inductance L2 in four inversion element Q4 bodies.

Pulsewidth modulation makes certain components in inversion element 1 be periodically switched on or off, according to aforesaid way, often Inverter output voltage in a switch periods has zero level and a positive or negative level, compared with two level circuits, exporting It is showed on voltage and current harmonic performance more excellent.

Presently preferred embodiments of the present invention and basic principle is discussed in detail in the above content, but the invention is not limited in The above embodiment, those skilled in the art should be recognized that also had under the premise of without prejudice to spirit of that invention it is various Equivalent variations and replacement, these equivalent variations and replacement all fall within the protetion scope of the claimed invention.

Claims (8)

1. a kind of single-phase three-level inverter circuit, it is characterised in that：Including inversion element (1), the first inductance (L1), the second inductance (L2), the first capacitance (C1), the second capacitance (C2) and Input voltage terminal；The inversion element (1) includes the first inversion element (Q1), the second inversion element (Q2), third inversion element (Q3), the 4th inversion element (Q4), the 5th inversion element (Q5), the 6th Inversion element (Q6) and the 7th inversion element (Q7)；The emitter of the 5th inversion element (Q5) is arranged in the first inversion element (Q1), on the intersection node of third inversion element (Q3) and the first inductance (L1), the collector of the 5th inversion element (Q5) is connected on On the intersection node of the collector of 7th inversion element (Q7) and the collector of the 6th inversion element (Q6)；The 6th inversion member The emitter of part (Q6) is arranged in the second inversion element (Q2), the intersection node of the 4th inversion element (Q4) and the second inductance (L2) On, the collector of the 6th inversion element (Q6) is connected on the collection of the collector and the 5th inversion element (Q5) of the 7th inversion element (Q7) On the intersection node of electrode；The first inversion element (Q1) and third inversion element (Q3) be connected in series and respectively with first electricity Feel (L1) connection, the second inversion element (Q2) and the 4th inversion element (Q4) be connected in series and respectively with the second inductance (L2) Connection；First capacitance (C1) and the second capacitance (C2) are connected in series, the collector difference of the 7th inversion element (Q7) It is connected to the 5th inversion element (Q5) and the 6th inversion element (Q6), the emitter of the 7th inversion element (Q7) is connected to the first electricity Hold the intersection node of (C1) and the second capacitance (C2)；First inductance (L1) be arranged on firewire and with the 5th inversion element (Q5) emitter connects, second inductance (L2) be arranged on zero curve and with the emitter phase of the 6th inversion element (Q6) It connects；The anode of first capacitance (C1) is connected to the anode of Input voltage terminal, and the cathode of second capacitance (C2) is connected to input The negative terminal of voltage end.

2. a kind of single-phase three-level inverter circuit according to claim 1, it is characterised in that：The first inversion element (Q1) include the first internal diode (D1) of the first IGBT pipes (S1) and reverse parallel connection, the second inversion element (Q2) includes 2nd IGBT manages the second internal diode (D2) of (S2) and reverse parallel connection, and the third inversion element (Q3) includes the 3rd IGBT Manage diode (D3) in the third body of (S3) and reverse parallel connection, the 4th inversion element (Q4) include the 4th IGBT manage (S4) and 4th internal diode (D4) of reverse parallel connection, the 5th inversion element (Q1) include the 5th IGBT pipes (S5) and reverse parallel connection The 5th internal diode (D5), the 6th inversion element (Q1) include the 6th IGBT pipe (S6) and reverse parallel connection hexasomic Interior diode (D6), the 7th inversion element (Q7) include the 7th internal diode of the 7th IGBT pipes (S7) and reverse parallel connection (D7)；

The collector of the first IGBT pipes (S1) is connected to the collector of the 2nd IGBT pipes (S2), the first internal diode (D1) anode be connected to the 5th IGBT pipe (S5) emitter and the 3rd IGBT pipe (S3) collector, described second internal two The anode of pole pipe (D2) be connected to the 6th IGBT pipe (S6) emitter and the 4th IGBT pipe (S4) collector, the described 7th The collector of IGBT pipes (S7) is connected to the cathode of diode (D6) in the cathode and hexasomic of the 5th internal diode (D5), institute The anode for stating the 7th internal diode (D7) is connected to the intersection node of the first capacitance (C1) and the second capacitance (C2), the third The anode of internal diode (D3) is connected to the anode of the 4th internal diode (D4).

3. a kind of single-phase three-level inverter circuit according to claim 1, it is characterised in that：It further include filter capacitor (C3), the filter capacitor (C3) is arranged between firewire and zero curve and is connected respectively to the first inductance (L1) and the second inductance (L2), the both ends of the filter capacitor (C3) connect with load.

4. a kind of single-phase three-level inverter circuit according to claim 2, which is characterized in that the work under a work period When making, including the following course of work, it detects the input voltage VI of Input voltage terminal and loads the load voltage VO at both ends：

It works in positive half period, works as VO<When 0.5VI, the 5th inversion element (Q5) is in normal open state, the 4th inversion element (Q4) it is in pulsewidth modulation state, other inversion elements (1) are in off state；

It works in positive half period, works as VO>When 0.5VI, the first inversion element (Q1), the 4th inversion element (Q4) and the 7th inversion Element (Q7) is in pulsewidth modulation state, and other inversion elements (1) are in off state；

It works in negative half-cycle, works as VO<When 0.5VI, the 6th inversion element (Q6) is in normal open state, third inversion element (Q3) it is in pulsewidth modulation state, other inversion elements (1) are in off state；

It works in negative half-cycle, works as VO>When 0.5VI, the second inversion element (Q2), third inversion element (Q3) and the 7th inversion Element (Q7) is in pulsewidth modulation state, and other inversion elements (1) are in off state.

5. a kind of single-phase three-level inverter circuit according to claim 4, which is characterized in that it works in positive half period, Work as VO<When 0.5VI, the 4th inversion element (Q4) is in pulsewidth modulation state, including the 4th inversion element (Q4) is switched on or off, 5th inversion element (Q5) is in normal open state；

When the 4th inversion element (Q4) is opened, electric current flows into capacitance (C2) anode, the 7th internal diode (D7), the 5th successively Inversion element (Q5), the first inductance (L1), load, the second inductance (L2), the 4th inversion element (Q4) and the second capacitance (C2) are negative Pole；

When the 4th inversion element (Q4) turns off, electric current flows into the first inductance (L1), load, the second inductance (L2), the 6th successively Internal diode (D6), the 5th inversion element (Q5) and the first inductance (L1).

6. a kind of single-phase three-level inverter circuit according to claim 4, which is characterized in that it works in positive half period, Work as VO>When 0.5VI, the first inversion element (Q1), the 4th inversion element (Q4) and the 7th inversion element (Q7) are in pulsewidth modulation State, including turn off the 7th inversion element (Q7) and open the first inversion element (Q1) and the 4th inversion element (Q4), or open Logical 7th inversion element (Q7) and the first inversion element (Q1) of shutdown and the 4th inversion element (Q4)：

When turning off the 7th inversion element (Q7) and when opening the first inversion element (Q1) and the 4th inversion element (Q4), electric current according to The secondary anode of Input voltage terminal, the first inversion element (Q1), the first inductance (L1), load, the second inductance (L2), the 4th inverse of flowing into The negative terminal of dependent element (Q4) and Input voltage terminal；

When opening the 7th inversion element (Q7) and the first inversion element (Q1) of shutdown and when the 4th inversion element (Q4), electric current according to The first inductance of secondary inflow (L1), load, the second inductance (L2), diode (D6), the 7th inversion element (Q7), second in hexasomic Diode (D3) and the first inductance (L1) in capacitance (C2), third body.

7. a kind of single-phase three-level inverter circuit according to claim 4, which is characterized in that it works in negative half-cycle, Work as VO<When 0.5VI, third inversion element (Q3) is in pulsewidth modulation state, including third inversion element (Q3) is switched on or off, 6th inversion element (Q6) is in normal open state：

When third inversion element (Q3) is opened, electric current flow into successively the second capacitance (C2) anode, the 7th internal diode (D7), 6th inversion element (Q6), the second inductance (L2), load, the first inductance (L1), third inversion element (Q3) and the second capacitance (C2) cathode；

When third inversion element (Q3) turns off, electric current flows into the second inductance (L2), load, the first inductance (L1), the 5th successively Internal diode (D5), the 6th inversion element (Q6) and the second inductance (L2).

8. a kind of single-phase three-level inverter circuit according to claim 4, which is characterized in that it works in negative half-cycle, Work as VO>When 0.5VI, the second inversion element (Q2), third inversion element (Q3) and the 7th inversion element (Q7) are in pulsewidth modulation State, including turn off the 7th inversion element (Q7) and open the second inversion element (Q2) and third inversion element (Q3), or open Logical 7th inversion element (Q7) and the second inversion element (Q2) of shutdown and third inversion element (Q3)：

When turning off the 7th inversion element (Q7) and when opening the second inversion element (Q2) and third inversion element (Q3), electric current according to The secondary anode for flowing into Input voltage terminal, the second inversion element (Q2), the second inductance (L2), load, the first inductance (L1), third are inverse The negative terminal of dependent element (Q3) and Input voltage terminal；

When opening the 7th inversion element (Q7) and the second inversion element (Q2) of shutdown and when third inversion element (Q3), electric current according to The second inductance of secondary inflow (L2), load, the first inductance (L1), the 5th internal diode (D5), the 7th inversion element (Q7), second Diode (D4) and the second inductance (L2) in capacitance (C2), the 4th inversion element.