CN102938620A - Single-stage three-phase cascade voltage-type quasi-impedance source inverter with large step-up ratio - Google Patents
Single-stage three-phase cascade voltage-type quasi-impedance source inverter with large step-up ratio Download PDFInfo
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Abstract
A single-stage three-phase cascade voltage-type quasi-impedance source inverter circuit structure with a large step-up ratio is composed of an input DC power supply, a large step-up ratio impedance network, a three-phase inverter bridge, a three-phase filter, and a three-phase AC load or a three-phase AC network, which are sequentially connected in cascade. The large step-up ratio impedance network consists of an energy storage inductor, and n identical SLCC (subscriber line control circuit)-type two-port impedance network units sequentially connected in series, wherein n is a natural number larger than 1; and each SLCC-type two-port impedance network unit is composed of one power diode, one energy storage inductor and two energy storage capacitors. The three-phase inverter bridge consists of six two-quadrant power switches. The inverter provided by the invention can perform single-stage conversion on instable low-voltage DC current with wide change range to obtain stable high-quality three-phase sinusoidal AC current, has the advantages of single-stage power conversion, high power density, high conversion efficiency, large step-up ratio, high quality of the output waveform, high reliability, low cost and the like, and is suitable for medium-capacity and large-capacity three-phase inversion occasions.
Description
Technical field
The accurate Z-source inverter of the large step-up ratio cascade voltage of a kind of single-stage three-phase type involved in the present invention belongs to power electronic technology.
Background technology
Inverter is a kind of static ac dc converter device that the applied power semiconductor device is transformed into direct current alternating current, generates electricity by way of merging two or more grid systems for AC load or with AC network.
Because fossil energy (non-renewable energy resources) growing tensions such as oil, coal and natural gas, environmental pollution are serious, global warming, nuclear energy production can produce the reasons such as nuke rubbish and contaminated environment, the energy and environment have become the significant problem that the 21 century mankind face.The regenerative resources (green energy resource) such as solar energy, wind energy, Hydrogen Energy, tidal energy and geothermal energy, have cleanliness without any pollution, cheapness, the advantage such as reliable, abundant, its development and utilization more and more is subject to people's attention, and this sustainable development to countries in the world economy has considerable meaning.The direct current energy of the renewable energy conversion such as solar energy, wind energy, Hydrogen Energy, tidal energy, geothermal energy is normally unsettled, and needs adopt inverter that it is transformed into the use of AC energy supply load or generate electricity by way of merging two or more grid systems with AC network.In the conversion occasion take DC generator, storage battery, solar cell, fuel cell, wind energy conversion system etc. as main dc power supply, inverter is with a wide range of applications.
At present, large capacity inversion occasion adopts traditional three-phase voltage type PWM inverter circuit structure usually in.Must satisfy dc voltage greater than the peak value that exchanges side line voltage during this class inverter normal operation, therefore there is an obvious defective: when dc voltage (such as the photovoltaic cell fan-out capability) reduces, such as overcast and rainy or night, whole electricity generation system will be difficult to normal operation, and the utilance of system descends.To this, often adopt following two kinds of methods to solve: (1) prime adds Boost type DC converter or high-frequency isolation type DC-DC converter, has increased power conversion progression, circuit complexity, loss and cost; (2) output adds the three-phase main-frequency transformer, has greatly increased volume, weight and the cost of system, is difficult to adapt to today that the copper iron prices of raw and semifnished materials are risen sharply.
Therefore, seeking a kind of brachium pontis, need not to establish the accurate Z-source inverter of the large step-up ratio cascade voltage of Three phase type of Dead Time, high reliability, single-level circuit structure extremely urgent.This must establish not large and cost the is high defectives such as (output add the three-phase main-frequency transformer) of the volume weight of large (non-isolation type), system of Dead Time, step-up ratio for effectively overcoming brachium pontis that conventional P WM converter exists, improve output waveform quality, reliability and the reduction input side EMI of transformation system, widen power electronics inversion transformation technique and renewable energy power generation technical know-how, promote the development of generation of electricity by new energy industry and develop energy-savingly all to have great importance with conservation-minded society.
Summary of the invention
The present invention seeks to provide a kind of and have large step-up ratio, single-stage power conversion, power density is high, conversion efficiency is high, the output waveform quality is high, reliability is high, change range of input voltage is wide, cost is low, be applicable in the accurate Z-source inverter of the large step-up ratio cascade voltage of single-stage three-phase type of the characteristics such as large capacity inversion occasion.
Technical program of the present invention lies in: the accurate Z-source inverter of the large step-up ratio cascade voltage of a kind of single-stage three-phase type is to be made of input DC power, large step-up ratio impedance network, three phase inverter bridge, Three-phase electric-wave filter, three-phase alternating current load or the sequentially cascade of three-phase alternating current electrical network; Described large step-up ratio impedance network is by energy storage inductor L
0The n of sequentially cascade identical SLCC type two port Impedance network element series connection consists of, and wherein n is the natural number greater than 1; Each SLCC type two port Impedance network element is by a power diode S
j, an energy storage inductor L
j, two storage capacitor C
jAnd C
j' consist of power diode S
jNegative electrode and energy storage inductor L
jAn end, storage capacitor C
jPositive ends be connected energy storage inductor L
jThe other end, power diode S
jAnode respectively with storage capacitor C
j' positive and negative polarity end be connected storage capacitor C
jThe negative polarity end and the negative polarity end of input DC power connect into common port, power diode S
jWith storage capacitor C
j' link and storage capacitor C
jCommon port consisted of the input port of j SLCC type two port Impedance network element, energy storage inductor L
jWith storage capacitor C
j' link and storage capacitor C
jCommon port consisted of the output port of j SLCC type two port Impedance network element, power diode S
1With storage capacitor C
1' link and the input DC power positive ends between be in series with energy storage inductor L
0, wherein j is the natural number that is not more than n; Described three phase inverter bridge is to be made of six two quadrant power switchs that bear unidirectional voltage stress and bidirectional current stress.
The present invention is configured to " by large step-up ratio impedance network; the single-level circuit structure that the sequentially cascade of three phase inverter bridge and Three-phase electric-wave filter consists of " with " by three phase inverter bridge; Three-phase electric-wave filter; traditional single stage Three-Phase PWM Converter circuit structure or multi-stage cascade pwm converter circuit structure that (three-phase main-frequency transformer) cascade consists of ", the accurate Z-source inverter new ideas of the large step-up ratio cascade voltage of single-stage three-phase type and circuit structure have been proposed first, i.e. identical SLCC type two port Impedance network element of n by sequentially cascade is provided utilize the output of prime SLCC type two port Impedance network element to improve the step-up ratio of inverter as the input of rear class SLCC type two port Impedance network element.By the exponent number n of adjusting SLCC type two port Impedance network element and the duty ratio D that magnetizes of inverter energy storage inductor
0=T
0/ T
SRealize the adjusting of inverter step-up ratio, wherein T
SBe HF switch cycle time, T
0For three phase inverter bridge at a T
SThe interior bridge arm direct pass time.
The invention has the advantages that: the present invention can be transformed into three phase sine alternating current stable, high-quality with unsettled wide excursion low-voltage DC single-stage, have single-stage power conversion, power density is high, conversion efficiency is high, step-up ratio is large, the output waveform quality is high, reliability is high, low cost and other advantages, large capacity three-phase passive inverter and parallel network reverse occasion in being applicable to.
Description of drawings
Fig. 1. the circuit structure of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type.
Fig. 2. the principle waveform of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type.
Fig. 3. the circuit topology example one of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type---three-phase LC ripple formula circuit theory diagrams.
Fig. 4. the circuit topology example two of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type---three-phase LCL filtering type circuit theory diagrams.
Fig. 5. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type D during bridge arm direct pass
0T
SThe equivalent electric circuit that magnetizes---S
1', S
3', S
5', S
4', S
6', S
2The ' conducting.
Fig. 6. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 0 (000)
4', S
6', S
2' conducting and S
1', S
3', S
5The ' cut-off.
Fig. 7. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 1 (001)
4', S
5', S
6' conducting and S
1', S
2', S
3The ' cut-off.
Fig. 8. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 2 (010)
2', S
3', S
4' conducting and S
1', S
5', S
6The ' cut-off.
Fig. 9. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 3 (011)
3', S
4', S
5' conducting and S
1', S
2', S
6The ' cut-off.
Figure 10. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 4 (100)
1', S
2', S
6' conducting and S
3', S
4', S
5The ' cut-off.
Figure 11. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 5 (101)
1', S
5', S
6' conducting and S
2', S
3', S
4The ' cut-off.
Figure 12. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 6 (110)
1', S
2', S
3' conducting and S
4', S
5', S
6The ' cut-off.
Figure 13. the accurate Z-source inverter energy storage inductor of the large step-up ratio cascade voltage of single-stage three-phase type brachium pontis non-straight-through during (1-D
0) T
SMagnetic equivalent electric circuit--the S that dispels during mode 7 (111)
1', S
3', S
5' conducting and S
4', S
6', S
2The ' cut-off.
Figure 14. the control principle block diagram of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type.
Figure 15. the control principle waveform of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type.
Embodiment
Below in conjunction with drawings and Examples technical scheme of the present invention is described further.
The accurate Z-source inverter of the large step-up ratio cascade voltage of single-stage three-phase type is to be made of input DC power, large step-up ratio impedance network, three phase inverter bridge, Three-phase electric-wave filter, three-phase alternating current load or the sequentially cascade of three-phase alternating current electrical network; Described large step-up ratio impedance network is by energy storage inductor L
0The n of sequentially cascade identical SLCC type two port Impedance network element series connection consists of, and wherein n is the natural number greater than 1; Each SLCC type two port Impedance network element is by a power diode S
j, an energy storage inductor L
j, two storage capacitor C
jAnd C
j' consist of power diode S
jNegative electrode and energy storage inductor L
jAn end, storage capacitor C
jPositive ends be connected energy storage inductor L
jThe other end, power diode S
jAnode respectively with storage capacitor C
j' positive and negative polarity end be connected storage capacitor C
jThe negative polarity end and the negative polarity end of input DC power connect into common port, power diode S
jWith storage capacitor C
j' link and storage capacitor C
jCommon port consisted of the input port of j SLCC type two port Impedance network element, energy storage inductor L
jWith storage capacitor C
j' link and storage capacitor C
jCommon port consisted of the output port of j SLCC type two port Impedance network element, power diode S
1With storage capacitor C
1' link and the input DC power positive ends between be in series with energy storage inductor L
0, wherein j is the natural number that is not more than n; Described three phase inverter bridge is to be made of six two quadrant power switchs that bear unidirectional voltage stress and bidirectional current stress.
The accurate Z-source inverter circuit structure of the large step-up ratio cascade voltage of single-stage three-phase type and principle waveform, respectively as shown in Figure 1, 2.Among Fig. 1,2, U
iBe input direct voltage, Z
La, Z
Lb, Z
LcBe the impedance of three-phase output passive load, u
a, u
b, u
cBe phase voltage or the three-phase alternating current electrical network voltage of three-phase output passive load impedance, i
a, i
b, i
cBe phase current or the three-phase alternating current electrical network electric current of the impedance of three-phase output passive load, the dotted line that threephase load mid point or three-phase alternating current electrical network mid point are drawn is center line.Large step-up ratio impedance network is by energy storage inductor L
0The n of sequentially cascade identical SLCC type two port Impedance network element series connection consists of, and wherein n is the natural number greater than 1, and each SLCC type two port Impedance network element is by a power diode S
j, an energy storage inductor L
j, two storage capacitor C
jAnd C
j' consist of; Three phase inverter bridge is to be made of six two quadrant power switchs that can bear unidirectional voltage stress and bidirectional current stress; Three-phase electric-wave filter is three-phase LC filter (during the three-phase alternating current passive load) or three-phase LCL filter (during the load of three-phase alternating current electrical network); Input DC power U
iAnd can arrange between the large step-up ratio impedance network or input filter is not set, can reduce the pulsation of input direct-current electric current when input filter is set.When the three phase inverter bridge bridge arm direct pass, input DC power U
iWith all storage capacitor to energy storage inductor L
0, L
1... L
nMagnetize three-phase output passive load Z
La, Z
Lb, Z
LcOr three-phase alternating current electrical network u
a, u
b, u
cRely on Three-phase electric-wave filter to keep power supply; When switch conduction of three phase inverter bridge brachium pontis, another switch cut-off, energy storage inductor L
0, L
1... L
nMagnetic and and input DC power U dispel
iTogether jointly to all storage capacitors, three-phase output passive load Z
La, Z
Lb, Z
LcOr three-phase alternating current electrical network u
a, u
b, u
cPower supply.Large step-up ratio impedance network and three phase inverter bridge are with input direct voltage U
iBe modulated into the high frequency pulse dc voltage u that width is identical, amplitude changes by six times of output frequency sinusoidal envelope wire gauge rules
1, three phase inverter bridge is with u
1Be reverse into amplitude difference, pulsewidth by the ternary phase voltage u that modulates of the three-phase of sinusoidal rule variation
2a, u
2b, u
2c, after three-phase filtering, obtain high-quality three phase sine phase voltage u at the three-phase alternating current passive load
a, u
b, u
cOr at the high-quality three phase sine phase current i of the online acquisition of three-phase alternating current
a, i
b, i
c
Single-stage three-phase inverter of the present invention, be the single-level circuit structure that the input that utilizes the identical SLCC type two port Impedance network element of the n of sequentially cascade and prime two port Impedance network element to be output as rear class two port Impedance network element improves the inverter step-up ratio, exist in essence difference with single-stage three-phase Voltage Source PWM Inverter or multi-stage cascade PWM inverter circuit structure.Therefore, single-stage three-phase inverter of the present invention has novelty and creativeness, and has conversion efficiency high (meaning that energy loss is little), power density is high (to mean volume, weight is little), step-up ratio large (meaning that the wider or lower input direct voltage of excursion can be transformed into needed three-phase output AC voltage or three-phase output power network current), the output waveform distortion factor is low, reliability is high, the input voltage preparation flexibly, cost is low, the advantages such as application prospect is extensive, be a kind of desirable energy-saving and cost-reducing type three-phase inverter, construction is energy-saving vigorously advocating, have more important value today of conservation-minded society.
The accurate Z-source inverter circuit topology of the large step-up ratio cascade voltage of single-stage three-phase type embodiment is shown in Fig. 3,4.Fig. 3 is three-phase LC filtering type circuit, is applicable to the inversion occasion higher to the output waveform quality requirement; Fig. 4 is three-phase LCL filtering type circuit, is applicable to the inversion occasion higher to the output waveform quality requirement.In the circuit, three phase inverter bridge is selected the MOSFET device shown in Fig. 3,4, also can select the devices such as IGBT, GTR.Described single-stage three-phase inverter can be transformed into a kind of unsettled low-voltage DC (such as storage battery, photovoltaic cell, fuel cell, wind energy conversion system etc.) the three phase sine alternating current of required stable, high-quality, high pressure, the civilian industry inverter of large capacity, the occasion of boosting in being widely used in (such as communication inverter and photovoltaic combining inverter 24VDC/380V50HzAC, 48VDC/380V50HzAC, 96VDC/380V50HzAC) and national defense industry inverter (such as Aviation Static Inverter 27VDC/200V400HzAC) etc.
Each energy storage inductor of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type is a HF switch cycle T
SIn magnetize and dispel magnetic each once, D during the corresponding bridge arm direct pass during magnetizing
0T
S, and during the magnetic of dispelling corresponding brachium pontis non-straight-through during (1-D
0) T
S(comprising during two outer during AC output energy, bridge arm direct pass zero vectors).The driving signal of three brachium pontis upper, lower tubes of three phase inverter bridge is complementary, if use respectively " 1 ", " 0 " expression when the conducting of upper pipe, cut-off, then three phase inverter bridge has 0 (000), 1 (001), 2 (010), 3 (011), 4 (100), 5 (101), 6 (110), 7 (111) eight kind of operation mode.Wherein, 0 (000) and 7 (111) two mode is two outer during the bridge arm direct pass traditional zero vectors; And 1 (001), 2 (010), 3 (011), 4 (100), 5 (101), 6 (110) six mode are effective vector, all equivalent electric circuits when these six mode have comprised a, b, the positive and negative half cycle of c three-phase output voltage.Described inverter energy storage inductor D during bridge arm direct pass
0T
SThe equivalent electric circuit that magnetizes, brachium pontis non-straight-through during (1-D
0) T
SThe magnetic equivalent electric circuit of dispelling corresponding to eight mode, respectively shown in Fig. 5,6,7,8,9,10,11,12,13.Among the figure, output voltage u
a, u
b, u
cPolarity be reference direction, and each current polarity is actual direction.
If the storage capacitor terminal voltage is a HF switch cycle T
SIn be invariable, use
,
Expression; The input DC power current i
iEnergy storage inductor L namely
0Current i
L0By energy storage inductor shown in Figure 5 D during bridge arm direct pass
0T
SThe equivalent electric circuit that magnetizes can get,
In the formula (1.0)-(1.n), n is the natural number greater than 1, and j is the natural number that is not more than n.By energy storage inductor shown in Fig. 6,7,8,9,10,11,12,13 brachium pontis non-straight-through during (1-D
0) T
SThe magnetic equivalent electric circuit of dispelling corresponding to eight mode can get,
(2.2)
If the voltage magnitude of three-phase inversion bridge DC side is U
1, can replenish equation
According to State-space Averaging Principle,
, order
, association type (3), large step-up ratio impedance network storage capacitor magnitude of voltage
,
For
The voltage magnitude U of three-phase inversion bridge DC side
1For
(6)
In the formula (6), (n+1) D
0<1, i.e. D
0<1/(n+1).If the index of modulation of three phase inverter bridge is M(0<M≤1-D
0), then the voltage transmission of the accurate Z-source inverter of single-stage three-phase large step-up ratio cascade voltage type is than (output phase voltage u
a, u
b, u
cWith input voltage U
iRatio) be
(7)
By formula (7) as can be known, the voltage transmission of described three-phase inverter than greater than the voltage transmission of traditional single stage three-phase voltage type PWM inverter than M/2, and at different n, M and D
0During value voltage transmission than exist less than, be equal to and greater than 1 three kinds of situations.As the D of M/2>1-(n+1)
0The time, for example get n=2 and M>2(1-3D
0), can realize that the voltage transmission ratio of described inverter is greater than 1, thereby embody the superiority of this inverter, particularly can improve the step-up ratio of inverter by increasing the n value, therefore be called the accurate Z-source inverter of the large step-up ratio cascade voltage of single-stage three-phase type.
The accurate Z-source inverter of the large step-up ratio cascade voltage of single-stage three-phase type only has the single-stage power conversion link, its control system need to realize the control of storage capacitor voltage and the output voltage (grid-connected current) of large step-up ratio impedance network, also needs to realize the MPPT maximum power point tracking control MPPT of photovoltaic cell during supplying power for photovoltaic cell.Therefore, this three-phase inverter adopts three-phase output voltage or the three-phase grid current instantaneous value rectifying and wave-filtering feedback SPWM control strategy with large step-up ratio impedance network storage capacitor voltage feedforward control, shown in Figure 14,15.Three-phase output voltage or three-phase grid current instantaneous value rectifying and wave-filtering feedback SPWM control strategy are used for regulating the modulation ratio M of transformation system, and large step-up ratio impedance network storage capacitor voltage U
CnFeed-forward Control Strategy is used for regulating the straight-through duty ratio D of transformation system
0
Three-phase output voltage or three-phase grid current instantaneous value rectifying and wave-filtering feedback signal U
OfWith reference voltage U
rComparison, error obtain controlling three-phase reference sine wave u after amplifying
Ar, u
Br, u
CrThe signal of amplitude (characterizing Sine Modulated than signal M), storage capacitor voltage feedback signal U
CnfWith storage capacitor voltage reference signal U
CnrComparison, error obtain signal u after amplifying
d(characterize straight-through duty cycle signals D
0); u
Ar, u
Br, u
Cr, u
dAnd inversion signal respectively with triangular carrier u
cHand over and cut and output three phase inverter bridge S behind suitable logical circuit
1', S
3', S
5', S
4', S
6', S
2' control signal.As input voltage U
iDuring variation, by regulating straight-through duty cycle signals D
0Realize the storage capacitor voltage U
CnStable; As output loading Z
LWhen changing, realize output voltage u by regulating Sine Modulated than signal M
oStable.Therefore, to adopt three-phase output voltage or three-phase grid current instantaneous value rectifying and wave-filtering feedback SPWM control strategy with large step-up ratio impedance network storage capacitor voltage feedforward control be practicable for described single-stage three-phase inverter.
Claims (1)
1. accurate Z-source inverter of the large step-up ratio cascade voltage of single-stage three-phase type is characterized in that: this inverter circuit structure is to be made of input DC power, large step-up ratio impedance network, three phase inverter bridge, Three-phase electric-wave filter, three-phase alternating current load or the sequentially cascade of three-phase alternating current electrical network; Described large step-up ratio impedance network is by energy storage inductor L
0The n of sequentially cascade identical SLCC type two port Impedance network element series connection consists of, and wherein n is the natural number greater than 1; Each SLCC type two port Impedance network element is by a power diode S
j, an energy storage inductor L
j, two storage capacitor C
jAnd C
j' consist of power diode S
jNegative electrode and energy storage inductor L
jAn end, storage capacitor C
jPositive ends be connected energy storage inductor L
jThe other end, power diode S
jAnode respectively with storage capacitor C
j' positive and negative polarity end be connected storage capacitor C
jThe negative polarity end and the negative polarity end of input DC power connect into common port, power diode S
jWith storage capacitor C
j' link and storage capacitor C
jCommon port consisted of the input port of j SLCC type two port Impedance network element, energy storage inductor L
jWith storage capacitor C
j' link and storage capacitor C
jCommon port consisted of the output port of j SLCC type two port Impedance network element, power diode S
1With storage capacitor C
1' link and the input DC power positive ends between be in series with energy storage inductor L
0, wherein j is the natural number that is not more than n; Described three phase inverter bridge is to be made of six two quadrant power switchs that bear unidirectional voltage stress and bidirectional current stress.
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| CN104716855A (en) * | 2015-04-09 | 2015-06-17 | 山东科技大学 | Current-type quasi-impedance source inverter with two-way power flow |
| CN108199597A (en) * | 2018-01-09 | 2018-06-22 | 青岛大学 | Single-stage three-phase voltage source inverter with cascade magnetic integrated switch L.C. network |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104716830A (en) * | 2015-04-09 | 2015-06-17 | 山东科技大学 | Bidirectional power flow current type quasi-impedance source direct current-direct current converter |
| CN104716855A (en) * | 2015-04-09 | 2015-06-17 | 山东科技大学 | Current-type quasi-impedance source inverter with two-way power flow |
| CN108199597A (en) * | 2018-01-09 | 2018-06-22 | 青岛大学 | Single-stage three-phase voltage source inverter with cascade magnetic integrated switch L.C. network |
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