CN206790354U - The two-way charging device of the more level of high-frequency isolation series resonance - Google Patents

Abstract

It the utility model is related to a kind of two-way charging device of more level of high-frequency isolation series resonance, including two-way DC converter and T-shaped three-level three-phase inverter；Two-way DC converter includes two double active H bridges series resonance DC DC converters, two DC sides of two-way DC converter are formed after two double active H bridges series resonance DC DC converter serial or parallel connections, one DC side of two-way DC converter is connected with battery pack, another DC side of two-way DC converter is connected with the DC side of T-shaped three-level three-phase inverter, and the AC of T-shaped three-level three-phase inverter is connected with power network.It is of the present utility model to realize soft switch technique, so as to improve the efficiency of DC DC converters, and inverter performance is improved by the Level Technology of output voltage three, it can flexibly select type of attachment according to voltage range, system reliability and flexibility are improved, there is good application prospect.

Description

The two-way charging device of the more level of high-frequency isolation series resonance

Technical field

It the utility model is related to a kind of high-frequency isolation string for being used to connect power network and battery pack and realize bidirectional electric energy flowing Join the two-way charging device of the more level of resonance.

Background technology

With the growing tension of the worldwide petrochemical energy, there is an urgent need to renewable and clean energy resource.With new energy energy storage, electronic vapour Car, hybrid vehicle is flourished for the new energy application technology of representative and extensive concern.As obtained in recent years extensively V2G (vehicle-to-grid) system of concern, the system can realize the interface of electric automobile and power network.V2G systems Efficiency, weight, volume, harmonic wave etc. directly affect whole charge-discharge system.

At present, the DC-DC converter for the charger of electric automobile uses double active H bridges, realizes electric automobile electricity Pond and the isolation of power network.But high-frequency isolation DC-DC converter is realized using hard switching, cause its switching loss bigger.Separately Outside, for the level PWM voltage source inverter of DC-AC inverter generally use two in the charger of electric automobile, with more level phases Than with power electronic devices voltage stress is big, inverter output voltage waveform total harmonic distortion factor is big, electromagnetic interference is big, damage Consume the deficiencies of big.Meanwhile traditional single-phase high frequency isolation AC-DC converters are widely used in charging electric vehicle and uninterrupted In the systems such as power supply, the two-way flow of energy is realized.Such as the patent of invention of Application No. 201110167515.7《A kind of electronic vapour Car vehicle-mounted bidirectional charger》In a kind of vehicle-mounted bidirectional charger for electric automobile, including：AC/DC converters, DC/DC conversion Device, microprocessor control circuit and filter circuit.The DC/DC converters of patent medium-high frequency isolation are using double active H bridges.But The DC/DC converters of the high-frequency isolation of the patent are not carried out zero voltage turn-off, so as to cause transducer effciency low.For another example Shen Please number patent of invention for being 201310199098.3《A kind of two-way charging device and system》In invented a kind of two-way charging dress Put and system, realize the two-way flow of energy.The DC-DC converters of the patent are not carried out high-frequency isolation, DC-AC inverter For two level PWM voltage source inverters, cause the efficiency of system low.Therefore, high efficiency isolation DC-DC and DC-AC inverter topology knot The key link for being selected to charging system for electric automobile and new energy energy-storage system of structure.And do not take into account in the prior art The topological structure of various aspects of performance.

The content of the invention

The purpose of this utility model is to provide a kind of with efficiency high, the height that inversion performance is good, reliability and flexibility are high The frequency isolation two-way charging device of the more level of series resonance.

To reach above-mentioned purpose, the technical solution adopted in the utility model is：

The two-way charging device of a kind of more level of high-frequency isolation series resonance, for connecting power network and battery pack and realizing two-way Flow of electrical power, the two-way charging device of the more level of high-frequency isolation series resonance include two-way DC converter and T-shaped three level Three-phase inverter；

The two-way DC converter includes two double active H bridges series resonant DC-DC converters, and two described double active Two DC sides of the two-way DC converter are formed after H bridge series resonant DC-DC converter serial or parallel connections, it is described two-way One DC side of DC converter is connected with the battery pack, and another of the two-way DC converter is described straight Stream side be connected with the DC side of the T-shaped three-level three-phase inverter, the AC of the T-shaped three-level three-phase inverter and The power network is connected.

Preferably, each double active H bridges series resonant DC-DC converters have the first DC sides and the 2nd DC sides, institute Stating the first DC sides has the first plus end and the first negative terminal, and the 2nd DC sides have the second plus end and the second negative terminal；

Two double active H bridges series resonant DC-DC converters are respectively first pair of active H bridges series resonant DC-DC Converter and second pair of active H bridges series resonant DC-DC converter,

When two double active H bridges series resonant DC-DC converter series connection, first pair of active H bridges series connection is humorous First plus end phase of the first negative terminal of DC-DC converter of shaking and second pair of active H bridges series resonant DC-DC converter Connection, the first plus end of first pair of active H bridges series resonant DC-DC converter are connected with the positive pole of the battery pack Connect, the first negative terminal of second pair of active H bridges series resonant DC-DC converter is connected with the negative pole of the battery pack； Second negative terminal of first pair of active H bridges series resonant DC-DC converter and second pair of active H bridges series resonance Second plus end of DC-DC converter is connected, the second anode of first pair of active H bridges series resonant DC-DC converter The sub DC side positive pole with the T-shaped three-level three-phase inverter is connected, second pair of active H bridges series resonant DC-DC Second negative terminal of converter is connected with the DC side negative pole of the T-shaped three-level three-phase inverter；

When two double active H bridges series resonant DC-DC converter parallel connections, first pair of active H bridges series connection is humorous First plus end phase of the first plus end of DC-DC converter of shaking and second pair of active H bridges series resonant DC-DC converter Connect and be connected to the positive pole of the battery pack, the first negative terminal of first pair of active H bridges series resonant DC-DC converter It is connected with the first negative terminal of described second pair active H bridges series resonant DC-DC converter and is connected to the battery pack Negative pole；Second negative terminal of first pair of active H bridges series resonant DC-DC converter and second pair of active H bridges series connection Second plus end of resonance DC-DC converter is connected, and the second of first pair of active H bridges series resonant DC-DC converter Plus end is connected with the DC side positive pole of the T-shaped three-level three-phase inverter, second pair of active H bridges series resonance Second negative terminal of DC-DC converter is connected with the DC side negative pole of the T-shaped three-level three-phase inverter.

Preferably, double active H bridges series resonant DC-DC converters include the first H-bridge circuit and the first H bridges Series resonance inductor that circuit is connected, the series resonant capacitance being connected with first H-bridge circuit, with the series resonance Inductance and the series resonance are electrically connected the transformer connect and the second H-bridge circuit being connected with the transformer.

Preferably, first H-bridge circuit includes electronic power switch pipe S1, electronic power switch pipe S2, power electronics Switching tube S3, electronic power switch pipe S4；

One end of the electronic power switch pipe S1 is connected with one end of the electronic power switch pipe S2 and forms institute State a bridge arm of the first H-bridge circuit, the one of one end of the electronic power switch pipe S3 and the electronic power switch pipe S4 End be connected and form another bridge arm of first H-bridge circuit, the other end of the electronic power switch pipe S1 with it is described The electronic power switch pipe S3 other end is connected and forms the first of double active H bridges series resonant DC-DC converter just Terminal；The electronic power switch pipe S1 and the electronic power switch pipe S2 common end and the one of the series resonance inductor End is connected, the electronic power switch pipe S3 and the electronic power switch pipe S4 common end and the series resonant capacitance One end be connected, the other end of the series resonance inductor, the series resonant capacitance the other end respectively with the transformation The both ends of the primary side of device are connected；

Second H-bridge circuit includes electronic power switch pipe S5, electronic power switch pipe S6, electronic power switch pipe S7, electronic power switch pipe S8；

One end of the electronic power switch pipe S5 is connected with one end of the electronic power switch pipe S6 and forms institute State a bridge arm of the second H-bridge circuit, one end of the electronic power switch pipe S7 and the one of the electronic power switch pipe S8 End is connected and forms another bridge arm of second H-bridge circuit, the electronic power switch pipe S5 and the power electronics Switching tube S6 common end, the electronic power switch pipe S7 and electronic power switch pipe S8 common end respectively with it is described The both ends of the secondary of transformer are connected；The other end of the electronic power switch pipe S5 is with the electronic power switch pipe S7's The other end is connected and forms the second plus end of double active H bridges series resonant DC-DC converters, and the power electronics is opened The other end for closing pipe S6 is connected with the other end of the electronic power switch pipe S8 and forms double active H bridges series resonances Second negative terminal of DC-DC converter.

Preferably, the electronic power switch pipe S1, the electronic power switch pipe S2, the electronic power switch pipe S3, the electronic power switch pipe S4, the electronic power switch pipe S5, the electronic power switch pipe S6, electric power electricity Sub switch pipe S7, the electronic power switch pipe S8 are electric metal oxide semiconductor field effect transistor；

The source electrode of the electronic power switch pipe S1 is connected with the drain electrode of the electronic power switch pipe S2, the electric power Electronic switching tube S3 source electrode is connected with the drain electrode of the electronic power switch pipe S4, the leakage of the electronic power switch pipe S1 Pole is connected with the drain electrode of the electronic power switch pipe S3, source electrode and the power electronics of the electronic power switch pipe S2 Switching tube S4 source electrode is connected；

The source electrode of the electronic power switch pipe S5 is connected with the drain electrode of the electronic power switch pipe S6, the electric power Electronic switching tube S7 source electrode is connected with the drain electrode of the electronic power switch pipe S8, the leakage of the electronic power switch pipe S5 Pole is connected with the drain electrode of the electronic power switch pipe S7, source electrode and the power electronics of the electronic power switch pipe S6 Switching tube S8 source electrode is connected.

Preferably, the electronic power switch pipe S1, the electronic power switch pipe S2, the electronic power switch pipe S3, the electronic power switch pipe S4, the electronic power switch pipe S5, the electronic power switch pipe S6, electric power electricity Sub switch pipe S7, the electronic power switch pipe S8 are parallel with diode between source electrode and drain electrode.

Preferably, the T-shaped three-level three-phase inverter includes electronic power switch pipe Sa1, electronic power switch pipe Sa2, electronic power switch pipe Sa3, electronic power switch pipe Sa4, electronic power switch pipe Sb1, electronic power switch pipe Sb2, Electronic power switch pipe Sb3, electronic power switch pipe Sb4, electronic power switch pipe Sc1, electronic power switch pipe Sc2, electric power Electronic switching tube Sc3, electronic power switch pipe Sc4；

One end of the electronic power switch pipe Sa1 is connected with one end of the electronic power switch pipe Sa4, the electricity Power electronic switching tube Sb1 one end is connected with one end of the electronic power switch pipe Sb4, the electronic power switch pipe Sc1 one end is connected with one end of the electronic power switch pipe Sc4, the other end of the electronic power switch pipe Sa1, institute State the electronic power switch pipe Sb1 other end, the other end of the electronic power switch pipe Sc1 is connected and formed described T-shaped The DC side positive pole of three-level three-phase inverter, the other end, the electronic power switch pipe of the electronic power switch pipe Sa4 The Sb4 other end, the other end of the electronic power switch pipe Sc4 are connected and form the T-shaped three-level three-phase inverter DC side negative pole；

One end of the electronic power switch pipe Sa2 is connected with one end of the electronic power switch pipe Sa3, the electricity Power electronic switching tube Sb2 one end is connected with one end of the electronic power switch pipe Sb3, the electronic power switch pipe Sc2 one end is connected with one end of the electronic power switch pipe Sc3, the other end of the electronic power switch pipe Sa2, institute The electronic power switch pipe Sb2 other end is stated, the other end of the electronic power switch pipe Sc2 is connected and is connected to the T The DC side neutral point of type three-level three-phase inverter, the other end and the power electronics of the electronic power switch pipe Sa3 Switching tube Sa1 is connected with the common end of the electronic power switch pipe Sa4, the other end of the electronic power switch pipe Sb3 It is connected with the electronic power switch pipe Sb1 and the electronic power switch pipe Sb4 common end, the electronic power switch The pipe Sc3 other end is connected with the electronic power switch pipe Sc1 and the electronic power switch pipe Sc4 common end, institute State electronic power switch pipe Sa1 and the electronic power switch pipe Sa4 common end, the electronic power switch pipe Sb1 and institute State being total to for electronic power switch pipe Sb4 common end, the electronic power switch pipe Sc1 and the electronic power switch pipe Sc4 The AC of the T-shaped three-level three-phase inverter is collectively formed with end.

Preferably, the electronic power switch pipe Sa1, the electronic power switch pipe Sa2, the electronic power switch pipe Sa3, the electronic power switch pipe Sa4, the electronic power switch pipe Sb1, the electronic power switch pipe Sb2, the electricity Power electronic switching tube Sb3, the electronic power switch pipe Sb4, the electronic power switch pipe Sc1, the electronic power switch Pipe Sc2, the electronic power switch pipe Sc3, the electronic power switch pipe Sc4 are insulated gate bipolar transistor；

The source electrode of the electronic power switch pipe Sa1 is connected with the drain electrode of the electronic power switch pipe Sa4, the electricity Power electronic switching tube Sb1 source electrode is connected with the drain electrode of the electronic power switch pipe Sb4, the electronic power switch pipe Sc1 source electrode is connected with the drain electrode of the electronic power switch pipe Sc4, and the electronic power switch pipe Sa1's drains, be described The draining of electronic power switch pipe Sb1, the drain electrode of the electronic power switch pipe Sc1 is connected, the electronic power switch pipe Sa4 source electrode, the source electrode of the electronic power switch pipe Sb4, the source electrode of the electronic power switch pipe Sc4 are connected；

The source electrode of the electronic power switch pipe Sa2 is connected with the source electrode of the electronic power switch pipe Sa3, the electricity Power electronic switching tube Sb2 source electrode is connected with the source electrode of the electronic power switch pipe Sb3, the electronic power switch pipe Sc2 source electrode is connected with the source electrode of the electronic power switch pipe Sc3, and the electronic power switch pipe Sa2's drains, be described The draining of electronic power switch pipe Sb2, the drain electrode of the electronic power switch pipe Sc2 is connected, the electronic power switch pipe Sa3 drain electrode and the source electrode of the electronic power switch pipe Sa1, drain electrode and the electric power of the electronic power switch pipe Sb3 Electronic switching tube Sb1 source electrode is connected, the drain electrode of the electronic power switch pipe Sc3 and the electronic power switch pipe Sc1 Source electrode be connected.

Preferably, the electronic power switch pipe Sa1, the electronic power switch pipe Sa2, the electronic power switch pipe Sa3, the electronic power switch pipe Sa4, the electronic power switch pipe Sb1, the electronic power switch pipe Sb2, the electricity Power electronic switching tube Sb3, the electronic power switch pipe Sb4, the electronic power switch pipe Sc1, the electronic power switch Pipe Sc2, the electronic power switch pipe Sc3, the electronic power switch pipe Sc4 are parallel with two poles between source electrode and drain electrode Pipe.

Preferably, the filtered inductance of AC of the T-shaped three-level three-phase inverter and be connected with the power network.

Because above-mentioned technical proposal is used, the utility model has following advantages compared with prior art：The utility model Topological structure can realize soft switch technique, so as to improve the efficiency of DC-DC converter, and pass through the level skill of output voltage three Art improves inverter performance, and it can flexibly select type of attachment according to voltage range, improve system reliability and flexibly Property, there is good application prospect.

Brief description of the drawings

Accompanying drawing 1 is the system of the two-way charging device of the more level of high-frequency isolation series resonance of embodiment one of the present utility model Structure chart.

Accompanying drawing 2 is the system of the two-way charging device of the more level of high-frequency isolation series resonance of embodiment two of the present utility model Structure chart.

Accompanying drawing 3 is double active H bridges series connection in the two-way charging device of the more level of high-frequency isolation series resonance of the present utility model The circuit diagram of resonance DC-DC converter.

Accompanying drawing 4 is T-shaped three-level three-phase in the two-way charging device of the more level of high-frequency isolation series resonance of the present utility model The circuit diagram of inverter.

Embodiment

Shown embodiment is further described to the utility model below in conjunction with the accompanying drawings.

Embodiment one：As shown in Figure 1, a kind of high frequency for being used to connect power network and battery pack and realize bidirectional electric energy flowing Isolate the two-way charging device of the more level of series resonance, including two-way DC converter and T-shaped three-level three-phase inverter.T-shaped three The end of AC three of level three-phase inverter respectively filtered inductance L and be connected with power network.Battery pack works in the present embodiment In high pressure range（Such as 400-700V）.

Two-way DC converter includes two double active H bridges series resonant DC-DC converters, respectively first couple of active H Bridge series resonant DC-DC converter and second pair of active H bridges series resonant DC-DC converter.Two double active H bridges series resonances Two DC sides of two-way DC converter are formed after DC-DC converter series connection.One DC side of two-way DC converter with Battery pack is connected, and another DC side of two-way DC converter is connected with the DC side of T-shaped three-level three-phase inverter. And the AC of T-shaped three-level three-phase inverter is connected with power network.

Specifically, each double active H bridges series resonant DC-DC converters are respectively provided with the first DC sides and the 2nd DC sides, first DC sides have first plus end P1, P2 and first negative terminal N1, N2, and the 2nd DC sides have second plus end P3, P4 and second negative Terminal N3, N4.Then the first negative terminal N1 of the first pair of active H bridges series resonant DC-DC converter and second pair of active H bridges series connection First plus end P2 of resonance DC-DC converter is connected, first pair of active H bridges series resonant DC-DC converter first just Terminals P 1 is connected with the positive pole of battery pack, the first negative terminal N2 and the electricity of second pair of active H bridges series resonant DC-DC converter The negative pole of pond group is connected.The the second negative terminal N3 and second couple of active H of first pair of active H bridges series resonant DC-DC converter Second plus end P4 of bridge series resonant DC-DC converter is connected, the first pair of active H bridges series resonant DC-DC converter Second plus end P3 is connected with the DC side positive pole P of T-shaped three-level three-phase inverter, second couple of active H bridges series resonance DC- Second negative terminal N4 of DC converters is connected with the DC side negative pole N of T-shaped three-level three-phase inverter.

Embodiment two：As shown in Figure 2, when battery pack is operated in low pressure range（Such as 200-400V）When, high-frequency isolation string In the two-way DC converter for joining the two-way charging device of the more level of resonance, two double active H bridges series resonant DC-DC converters are simultaneously Two DC sides of two-way DC converter are formed after connection.First anode of first pair of active H bridges series resonant DC-DC converter First plus end P2 of sub- P1 and second pair of active H bridges series resonant DC-DC converter is connected and is connected to battery pack just Pole, the first negative terminal N1 and second pair of active H bridges series resonant DC-DC of first pair of active H bridges series resonant DC-DC converter First negative terminal N2 of converter is connected and is connected to the negative pole of battery pack.First pair of active H bridges series resonant DC-DC conversion Second plus end P4 of the second negative terminal N3 of device and second pair of active H bridges series resonant DC-DC converter is connected, first pair Second plus end P3 of active H bridges series resonant DC-DC converter and T-shaped three-level three-phase inverter DC side positive pole P phases Connection, the second negative terminal N4 of second pair of active H bridges series resonant DC-DC converter are straight with T-shaped three-level three-phase inverter Stream side negative pole N is connected.

As shown in Figure 3, double active H bridges series resonant DC-DC converters in both examples above include the first H bridges Circuit, the series resonance inductor Lr being connected with the first H-bridge circuit, the series resonant capacitance Cr being connected with the first H-bridge circuit, Be electrically connected the transformer Tr connect and the second H-bridge circuit being connected with transformer Tr with series resonance inductor and series resonance. The input capacitance of double active H bridges series resonant DC-DC converters is Cin, output filter capacitor Co.

First H-bridge circuit includes electronic power switch pipe S1, electronic power switch pipe S2, electronic power switch pipe S3, electricity Power electronic switching tube S4.Electronic power switch pipe S1 one end is connected with electronic power switch pipe S2 one end and forms first One bridge arm of H-bridge circuit, electronic power switch pipe S3 one end are connected and formed with electronic power switch pipe S4 one end Another bridge arm of the first H-bridge circuit, the other end phase of electronic power switch pipe the S1 other end and electronic power switch pipe S3 Connect and form the first plus end of double active H bridges series resonant DC-DC converters；Electronic power switch pipe S1 and power electronics Switching tube S2 common end is connected with series resonance inductor Lr one end, electronic power switch pipe S3 and electronic power switch pipe S4 common end is connected with series resonant capacitance Cr one end, series resonance inductor the Lr other end, series resonant capacitance Cr Both ends of the other end respectively with transformer Tr primary side be connected.Specifically include electronic power switch pipe S1 source electrode and electric power Electronic switching tube S2 drain electrode is connected, and electronic power switch pipe S3 source electrode is connected with electronic power switch pipe S4 drain electrode Connect, electronic power switch pipe S1 drain electrode is connected with electronic power switch pipe S3 drain electrode, electronic power switch pipe S2 source Pole is connected with electronic power switch pipe S4 source electrode.

Second H-bridge circuit includes electronic power switch pipe S5, electronic power switch pipe S6, electronic power switch pipe S7, electricity Power electronic switching tube S8.Electronic power switch pipe S5 one end is connected with electronic power switch pipe S6 one end and forms second One bridge arm of H-bridge circuit, electronic power switch pipe S7 one end are connected and formed with electronic power switch pipe S8 one end Another bridge arm of the second H-bridge circuit, electronic power switch pipe S5 and electronic power switch pipe S6 common end, power electronics are opened Pipe S7 is closed with both ends of the electronic power switch pipe S8 common end respectively with transformer Tr secondary to be connected；Electronic power switch The pipe S5 other end is connected with the electronic power switch pipe S7 other end and forms double active H bridges series resonant DC-DC conversion Second plus end of device, the electronic power switch pipe S6 other end are connected and formed with the electronic power switch pipe S8 other end Second negative terminal of double active H bridges series resonant DC-DC converters.Specifically include electronic power switch pipe S5 source electrode and electric power Electronic switching tube S6 drain electrode is connected, and electronic power switch pipe S7 source electrode is connected with electronic power switch pipe S8 drain electrode Connect, electronic power switch pipe S5 drain electrode is connected with electronic power switch pipe S7 drain electrode, electronic power switch pipe S6 source Pole is connected with electronic power switch pipe S8 source electrode.

Electronic power switch pipe S1, electronic power switch pipe S2, electronic power switch pipe S3, electronic power switch pipe S4, Electronic power switch pipe S5, electronic power switch pipe S6, electronic power switch pipe S7, electronic power switch pipe S8 are high frequency gold Belong to oxide semiconductor field effect transistor（Metal-Oxide-Semiconductor Field Effect Transistor, MOSFET）, and electronic power switch pipe S1, electronic power switch pipe S2, electronic power switch pipe S3, electronic power switch pipe S4, electronic power switch pipe S5, electronic power switch pipe S6, electronic power switch pipe S7, electronic power switch pipe S8 are in source Diode is parallel between pole and drain electrode.By controlling electronic power switch pipe S1, electronic power switch pipe S2, power electronics to open Close pipe S3, electronic power switch pipe S4, electronic power switch pipe S5, electronic power switch pipe S6, electronic power switch pipe S7, electricity Power electronic switching tube S8 can realize DC-DC conversion and series resonance soft switch technique.

As shown in Figure 4, T-shaped three-level three-phase inverter includes electronic power switch pipe Sa1, electronic power switch pipe Sa2, electronic power switch pipe Sa3, electronic power switch pipe Sa4, electronic power switch pipe Sb1, electronic power switch pipe Sb2, Electronic power switch pipe Sb3, electronic power switch pipe Sb4, electronic power switch pipe Sc1, electronic power switch pipe Sc2, electric power Electronic switching tube Sc3, electronic power switch pipe Sc4.

Electronic power switch pipe Sa1 one end is connected with electronic power switch pipe Sa4 one end, electronic power switch pipe Sb1 one end is connected with electronic power switch pipe Sb4 one end, and electronic power switch pipe Sc1 one end is opened with power electronics The one end for closing pipe Sc4 is connected, electronic power switch pipe the Sa1 other end, electronic power switch pipe the Sb1 other end, electric power The electronic switching tube Sc1 other end is connected and forms the DC side positive pole P of T-shaped three-level three-phase inverter, and power electronics is opened The other end, electronic power switch pipe the Sb4 other end, the electronic power switch pipe Sc4 other end for closing pipe Sa4 are connected and structure Into the DC side negative pole N of T-shaped three-level three-phase inverter.Electronic power switch pipe Sa2 one end and electronic power switch pipe Sa3 One end be connected, electronic power switch pipe Sb2 one end is connected with electronic power switch pipe Sb3 one end, power electronics Switching tube Sc2 one end is connected with electronic power switch pipe Sc3 one end, electronic power switch pipe the Sa2 other end, electric power The electronic switching tube Sb2 other end, the electronic power switch pipe Sc2 other end is connected and to be connected to T-shaped three-level three-phase inverse Become the DC side neutral point O of device, electronic power switch pipe the Sa3 other end and electronic power switch pipe Sa1 and power electronics are opened The common end for closing pipe Sa4 is connected to form an ac terminal A, and the electronic power switch pipe Sb3 other end is opened with power electronics Pipe Sb1 is closed to be connected to form an ac terminal B with electronic power switch pipe Sb4 common end, electronic power switch pipe Sc3's The other end is connected to form an ac terminal C with electronic power switch pipe Sc1 and electronic power switch pipe Sc4 common end. Electronic power switch pipe Sa1 and electronic power switch pipe Sa4 common end, electronic power switch pipe Sb1 and electronic power switch The common end at pipe Sb4 common end, electronic power switch pipe Sc1 and electronic power switch pipe Sc4, i.e. ac terminal A, exchange end Sub- B, ac terminal C collectively form the AC of T-shaped three-level three-phase inverter.Specifically include electronic power switch pipe Sa1's Source electrode is connected with electronic power switch pipe Sa4 drain electrode, electronic power switch pipe Sb1 source electrode and electronic power switch pipe Sb4 drain electrode is connected, and electronic power switch pipe Sc1 source electrode is connected with electronic power switch pipe Sc4 drain electrode, electric power electricity Sub switch pipe Sa1 drain electrode, electronic power switch pipe Sb1 drain electrode, electronic power switch pipe Sc1 drain electrode are connected, electric power Electronic switching tube Sa4 source electrode, electronic power switch pipe Sb4 source electrode, electronic power switch pipe Sc4 source electrode are connected.Electricity Power electronic switching tube Sa2 source electrode is connected with electronic power switch pipe Sa3 source electrode, electronic power switch pipe Sb2 source electrode It is connected with electronic power switch pipe Sb3 source electrode, electronic power switch pipe Sc2 source electrode is with electronic power switch pipe Sc3's Source electrode is connected, electronic power switch pipe Sa2 drain electrode, electronic power switch pipe Sb2 drain electrode, electronic power switch pipe Sc2 Drain electrode be connected, electronic power switch pipe Sa3 drain electrode and electronic power switch pipe Sa1 source electrode, electronic power switch pipe Sb3 drain electrode is connected with electronic power switch pipe Sb1 source electrode, and electronic power switch pipe Sc3 drain electrode is opened with power electronics The source electrode for closing pipe Sc1 is connected.

Electronic power switch pipe Sa1, electronic power switch pipe Sa2, electronic power switch pipe Sa3, electronic power switch pipe Sa4, electronic power switch pipe Sb1, electronic power switch pipe Sb2, electronic power switch pipe Sb3, electronic power switch pipe Sb4, Electronic power switch pipe Sc1, electronic power switch pipe Sc2, electronic power switch pipe Sc3, electronic power switch pipe Sc4 are exhausted Edge grid bipolar transistor（Insulated Gate Bipolar Transistor,IGBT）, and electronic power switch pipe Sa1, Electronic power switch pipe Sa2, electronic power switch pipe Sa3, electronic power switch pipe Sa4, electronic power switch pipe Sb1, electric power Electronic switching tube Sb2, electronic power switch pipe Sb3, electronic power switch pipe Sb4, electronic power switch pipe Sc1, power electronics Switching tube Sc2, electronic power switch pipe Sc3, electronic power switch pipe Sc4 are parallel with diode between source electrode and drain electrode.

Above topology structure realizes the high-frequency isolation and series resonance soft switch technique of DC-DC converter, substantially increases The efficiency of DC-DC converter；In addition, the DC-AC inverter of the topological structure realizes the level of output voltage three, inversion is improved The performance of device；Finally, the invention topological structure can flexibly be gone here and there or in parallel according to the voltage range of battery pack, Improve reliability and the flexibility of system.Therefore, the topological structure in new energy energy-storage system（Such as electric automobile, photovoltaic Energy-storage system etc.）There is good application prospect.

For above-described embodiment only to illustrate technical concepts and features of the present utility model, its object is to allow be familiar with technique Personage can understand content of the present utility model and implement according to this, the scope of protection of the utility model can not be limited with this. All equivalent change or modifications made according to the utility model Spirit Essence, should all cover the scope of protection of the utility model it It is interior.

Claims (10)

1. A kind of 1. two-way charging device of more level of high-frequency isolation series resonance, for connecting power network and battery pack and realizing two-way electricity It can flow, it is characterised in that：The two-way charging device of the more level of high-frequency isolation series resonance includes two-way DC converter and T Type three-level three-phase inverter；

   The two-way DC converter includes two double active H bridges series resonant DC-DC converters, two double active H bridges Two DC sides of the two-way DC converter are formed after series resonant DC-DC converter serial or parallel connection, it is described two-way straight One DC side of current converter is connected with the battery pack, another described direct current of the two-way DC converter Side is connected with the DC side of the T-shaped three-level three-phase inverter, the AC of the T-shaped three-level three-phase inverter and institute Power network is stated to be connected.
2. 2. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 1, it is characterised in that：Each institute Stating double active H bridges series resonant DC-DC converters has the first DC sides and the 2nd DC sides, and the first DC sides have the first anode Son and the first negative terminal, the 2nd DC sides have the second plus end and the second negative terminal；

   Two double active H bridges series resonant DC-DC converters are respectively first pair of active H bridges series resonant DC-DC conversion Device and second pair of active H bridges series resonant DC-DC converter,

   When two double active H bridges series resonant DC-DC converter series connection, first couple of active H bridges series resonance DC- First negative terminal of DC converters is connected with the first plus end of described second pair active H bridges series resonant DC-DC converter, First plus end of first pair of active H bridges series resonant DC-DC converter is connected with the positive pole of the battery pack, described First negative terminal of second pair of active H bridges series resonant DC-DC converter is connected with the negative pole of the battery pack；Described first Second negative terminal of double active H bridges series resonant DC-DC converters and second pair of active H bridges series resonant DC-DC conversion Second plus end of device is connected, the second plus end and the T of first pair of active H bridges series resonant DC-DC converter The DC side positive pole of type three-level three-phase inverter is connected, and the of second pair of active H bridges series resonant DC-DC converter Two negative terminals are connected with the DC side negative pole of the T-shaped three-level three-phase inverter；

   When two double active H bridges series resonant DC-DC converter parallel connections, first couple of active H bridges series resonance DC- First plus end of DC converters is connected with the first plus end of described second pair active H bridges series resonant DC-DC converter And the positive pole of the battery pack is connected to, the first negative terminal of first pair of active H bridges series resonant DC-DC converter and institute The first negative terminal for stating second pair of active H bridges series resonant DC-DC converter is connected and is connected to the negative pole of the battery pack； Second negative terminal of first pair of active H bridges series resonant DC-DC converter and second pair of active H bridges series resonance Second plus end of DC-DC converter is connected, the second anode of first pair of active H bridges series resonant DC-DC converter The sub DC side positive pole with the T-shaped three-level three-phase inverter is connected, second pair of active H bridges series resonant DC-DC Second negative terminal of converter is connected with the DC side negative pole of the T-shaped three-level three-phase inverter.
3. 3. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 2, it is characterised in that：It is described double The series resonance electricity that active H bridges series resonant DC-DC converter includes the first H-bridge circuit, is connected with first H-bridge circuit Sense, the series resonant capacitance being connected with first H-bridge circuit and the series resonance inductor and the series resonance electricity phase The transformer of connection and the second H-bridge circuit being connected with the transformer.
4. 4. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 3, it is characterised in that：Described One H-bridge circuit includes electronic power switch pipe S1, electronic power switch pipe S2, electronic power switch pipe S3, electronic power switch Pipe S4；

   One end of the electronic power switch pipe S1 is connected with one end of the electronic power switch pipe S2 and forms described One bridge arm of one H-bridge circuit, one end of the electronic power switch pipe S3 and the electronic power switch pipe S4 one end phase Connect and form another bridge arm of first H-bridge circuit, the other end and the electric power of the electronic power switch pipe S1 The electronic switching tube S3 other end is connected and forms the first plus end of double active H bridges series resonant DC-DC converters； The electronic power switch pipe S1 and the electronic power switch pipe S2 common end and one end phase of the series resonance inductor Connection, the electronic power switch pipe S3 and the electronic power switch pipe S4 common end and the one of the series resonant capacitance End is connected, the other end of the series resonance inductor, the series resonant capacitance the other end respectively with the transformer The both ends of primary side are connected；

   Second H-bridge circuit includes electronic power switch pipe S5, electronic power switch pipe S6, electronic power switch pipe S7, electricity Power electronic switching tube S8；

   One end of the electronic power switch pipe S5 is connected with one end of the electronic power switch pipe S6 and forms described One bridge arm of two H-bridge circuits, one end of the electronic power switch pipe S7 and one end phase of the electronic power switch pipe S8 Connect and form another bridge arm of second H-bridge circuit, the electronic power switch pipe S5 and the electronic power switch Pipe S6 common end, the electronic power switch pipe S7 and the electronic power switch pipe S8 common end respectively with the transformation The both ends of the secondary of device are connected；The other end of the electronic power switch pipe S5 is another with the electronic power switch pipe S7's End is connected and forms the second plus end of double active H bridges series resonant DC-DC converters, the electronic power switch pipe The S6 other end is connected with the other end of the electronic power switch pipe S8 and forms double active H bridges series resonance DC- Second negative terminal of DC converters.
5. 5. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 4, it is characterised in that：The electricity Power electronic switching tube S1, the electronic power switch pipe S2, the electronic power switch pipe S3, the electronic power switch pipe S4, the electronic power switch pipe S5, the electronic power switch pipe S6, the electronic power switch pipe S7, electric power electricity Sub switch pipe S8 is electric metal oxide semiconductor field effect transistor；

   The source electrode of the electronic power switch pipe S1 is connected with the drain electrode of the electronic power switch pipe S2, the power electronics Switching tube S3 source electrode is connected with the drain electrode of the electronic power switch pipe S4, the drain electrode of the electronic power switch pipe S1 with The drain electrode of the electronic power switch pipe S3 is connected, source electrode and the electronic power switch of the electronic power switch pipe S2 Pipe S4 source electrode is connected；

   The source electrode of the electronic power switch pipe S5 is connected with the drain electrode of the electronic power switch pipe S6, the power electronics Switching tube S7 source electrode is connected with the drain electrode of the electronic power switch pipe S8, the drain electrode of the electronic power switch pipe S5 with The drain electrode of the electronic power switch pipe S7 is connected, source electrode and the electronic power switch of the electronic power switch pipe S6 Pipe S8 source electrode is connected.
6. 6. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 5, it is characterised in that：The electricity Power electronic switching tube S1, the electronic power switch pipe S2, the electronic power switch pipe S3, the electronic power switch pipe S4, the electronic power switch pipe S5, the electronic power switch pipe S6, the electronic power switch pipe S7, electric power electricity Sub switch pipe S8 is parallel with diode between source electrode and drain electrode.
7. 7. the two-way charging device of the more level of high-frequency isolation series resonance according to any one of claim 2 to 6, its feature It is：The T-shaped three-level three-phase inverter includes electronic power switch pipe Sa1, electronic power switch pipe Sa2, power electronics Switching tube Sa3, electronic power switch pipe Sa4, electronic power switch pipe Sb1, electronic power switch pipe Sb2, electronic power switch Pipe Sb3, electronic power switch pipe Sb4, electronic power switch pipe Sc1, electronic power switch pipe Sc2, electronic power switch pipe Sc3, electronic power switch pipe Sc4；

   One end of the electronic power switch pipe Sa1 is connected with one end of the electronic power switch pipe Sa4, the electric power electricity Sub switch pipe Sb1 one end is connected with one end of the electronic power switch pipe Sb4, the electronic power switch pipe Sc1's One end is connected with one end of the electronic power switch pipe Sc4, the other end, the electricity of the electronic power switch pipe Sa1 The power electronic switching tube Sb1 other end, the other end of the electronic power switch pipe Sc1 are connected and form T-shaped three electricity The DC side positive pole of flat three-phase inverter, the other end of the electronic power switch pipe Sa4, the electronic power switch pipe Sb4 The other end, the other end of the electronic power switch pipe Sc4 is connected and forms the straight of the T-shaped three-level three-phase inverter Flow side negative pole；

   One end of the electronic power switch pipe Sa2 is connected with one end of the electronic power switch pipe Sa3, the electric power electricity Sub switch pipe Sb2 one end is connected with one end of the electronic power switch pipe Sb3, the electronic power switch pipe Sc2's One end is connected with one end of the electronic power switch pipe Sc3, the other end, the electricity of the electronic power switch pipe Sa2 The power electronic switching tube Sb2 other end, the other end of the electronic power switch pipe Sc2 are connected and are connected to described T-shaped three The DC side neutral point of level three-phase inverter, the other end and the electronic power switch of the electronic power switch pipe Sa3 Pipe Sa1 is connected with the common end of the electronic power switch pipe Sa4, the other end of the electronic power switch pipe Sb3 and institute The common end that electronic power switch pipe Sb1 is stated with the electronic power switch pipe Sb4 is connected, the electronic power switch pipe The Sc3 other end is connected with the electronic power switch pipe Sc1 and the electronic power switch pipe Sc4 common end, described Electronic power switch pipe Sa1 and the electronic power switch pipe Sa4 common end, the electronic power switch pipe Sb1 and described Electronic power switch pipe Sb4 common end, the electronic power switch pipe Sc1 and the electronic power switch pipe Sc4 it is common End collectively forms the AC of the T-shaped three-level three-phase inverter.
8. 8. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 7, it is characterised in that：The electricity Power electronic switching tube Sa1, the electronic power switch pipe Sa2, the electronic power switch pipe Sa3, the electronic power switch It is pipe Sa4, the electronic power switch pipe Sb1, the electronic power switch pipe Sb2, the electronic power switch pipe Sb3, described Electronic power switch pipe Sb4, the electronic power switch pipe Sc1, the electronic power switch pipe Sc2, the power electronics are opened Close pipe Sc3, the electronic power switch pipe Sc4 is insulated gate bipolar transistor；

   The source electrode of the electronic power switch pipe Sa1 is connected with the drain electrode of the electronic power switch pipe Sa4, the electric power electricity Sub switch pipe Sb1 source electrode is connected with the drain electrode of the electronic power switch pipe Sb4, the electronic power switch pipe Sc1's Source electrode is connected with the drain electrode of the electronic power switch pipe Sc4, the draining of the electronic power switch pipe Sa1, the electric power The draining of electronic switching tube Sb1, the drain electrode of the electronic power switch pipe Sc1 is connected, the electronic power switch pipe Sa4's Source electrode, the source electrode of the electronic power switch pipe Sb4, the source electrode of the electronic power switch pipe Sc4 are connected；

   The source electrode of the electronic power switch pipe Sa2 is connected with the source electrode of the electronic power switch pipe Sa3, the electric power electricity Sub switch pipe Sb2 source electrode is connected with the source electrode of the electronic power switch pipe Sb3, the electronic power switch pipe Sc2's Source electrode is connected with the source electrode of the electronic power switch pipe Sc3, the draining of the electronic power switch pipe Sa2, the electric power The draining of electronic switching tube Sb2, the drain electrode of the electronic power switch pipe Sc2 is connected, the electronic power switch pipe Sa3's Drain electrode and the source electrode of the electronic power switch pipe Sa1, the drain electrode of the electronic power switch pipe Sb3 are opened with the power electronics The source electrode for closing pipe Sb1 is connected, the drain electrode of the electronic power switch pipe Sc3 and the source electrode of the electronic power switch pipe Sc1 It is connected.
9. 9. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 8, it is characterised in that：The electricity Power electronic switching tube Sa1, the electronic power switch pipe Sa2, the electronic power switch pipe Sa3, the electronic power switch It is pipe Sa4, the electronic power switch pipe Sb1, the electronic power switch pipe Sb2, the electronic power switch pipe Sb3, described Electronic power switch pipe Sb4, the electronic power switch pipe Sc1, the electronic power switch pipe Sc2, the power electronics are opened Close pipe Sc3, the electronic power switch pipe Sc4 is parallel with diode between source electrode and drain electrode.
10. 10. the two-way charging device of the more level of high-frequency isolation series resonance according to claim 1, it is characterised in that：The T The filtered inductance of AC of type three-level three-phase inverter and be connected with the power network.