CN109962660A - Driving circuit, drive system of electric automobile and driving method - Google Patents

Abstract

The application provides a kind of driving circuit, drive system of electric automobile and driving method.The driving circuit includes power supply unit and inverter circuit.Said supply unit includes three battery packs.One end of each battery pack is mutually indepedent.The other end of each battery pack and the other end of other two battery pack are conllinear.The inverter circuit includes three bridge arms.One potential point of three bridge arms is conllinear.Conllinear potential point one end conllinear with battery pack is connected.Another potential point of each bridge arm connects the mutually independent one end of battery pack.Three battery packs are mutually indepedent, and three bridge arms are mutually indepedent, so that the driving circuit has more freedom.The driving circuit can realize heating function, the fast charge function, equalization function of battery on the basis of not increasing other devices.

Description

Driving circuit, drive system of electric automobile and driving method

Technical field

This application involves new-energy automobile fields, more particularly to a kind of driving circuit, drive system of electric automobile and drive Dynamic method.

Background technique

Currently, the energy accumulating device of electric car can be lithium ion battery.The power device of electric car can adopt With three-phase synchronous motor or threephase asynchronous machine.Single-cell lithium-ion battery nominal voltage is generally less than 5V, passes through a section or more piece Battery is in parallel, and tens sections or batteries up to a hundred are composed in series voltage and arrive the battery pack of several hectovolts in driving vehicle for tens.Multiply It is 275V-550V with vehicle busbar voltage range, commercial vehicle busbar voltage range is 450V-820V.

The scheme of traditional battery pack driving motor are as follows: the series-parallel battery pack of monomer as a whole with high direct voltage bus It is connected, the direct current of battery is converted to by alternating current by three-phase full-bridge inverting circuit, by three-phase alternating current electric drive three-phase motor. The scheme of traditional battery pack driving motor has a single function, and cannot achieve and runs under battery pack failure.

Summary of the invention

Based on this, it is necessary to be had a single function for the scheme of traditional battery pack driving motor, cannot achieve battery pack event The problem of barrier lower operation, provides a kind of driving circuit, drive system of electric automobile and driving method.

A kind of driving circuit, comprising:

Power supply unit, including the first battery pack, the second battery pack and third battery pack；And

Inverter circuit, including the first bridge arm, the second bridge arm and third bridge arm；

The first electrode of first battery pack is connect with the upper bridge arm bus of first bridge arm, second battery pack First electrode connect with the upper bridge arm bus of second bridge arm, the first electrode of the third battery pack and the third bridge The upper bridge arm bus of arm connects；

The of the second electrode of first battery pack, the second electrode of second battery pack and the third battery pack Two electrodes are collinearly to form first end；

The lower bridge arm of the lower bridge arm of first bridge arm, the lower bridge arm of second bridge arm and the third bridge arm collinearly with Form second end；

The first end is connect with the second end bus.

Each battery pack in said supply unit includes a battery unit and one the in one of the embodiments, Bypass switch, a battery unit and first by-pass switch are connected in series.

Each battery unit includes: in one of the embodiments,

Multiple battery cores, the institute in battery unit described in the quantity and another two of the battery core in a battery unit It is identical to state battery core quantity；

The electricity in battery unit described in the connection type and another two of the battery core in one battery unit The connection type of core is identical.

The connection type of the battery core in one battery unit is multiple institutes in one of the embodiments, State battery core series connection, multiple battery cores it is in parallel after after series connection, multiple battery cores be in parallel or multiple battery core series connection in parallel connection One kind.

In one of the embodiments, further include:

Second by-pass switch is electrically connected between the first end and the second end.

In one of the embodiments, second by-pass switch be electromagnetic relay, insulated gate bipolar transistor or One of person's Metal-Oxide Semiconductor field effect transistor.

Each bridge arm in the inverter circuit includes: in one of the embodiments,

Two concatenated device for power switching, a device for power switching in described two concatenated device for power switching Collector terminal connect with the positive electrode bus of a battery pack；

The emitter terminal of another device for power switching in described two concatenated device for power switching and a battery The negative electrode bus connection of group.

A kind of drive system of electric automobile, comprising:

Driving circuit as described in any one of above-described embodiment；

Battery management circuit is electrically connected with the driving circuit；And

First controller is electrically connected with the driving circuit.

The battery management circuit includes: in one of the embodiments,

Detection circuit is electrically connected with said supply unit；And

Second controller is electrically connected with said supply unit.

The detection circuit includes voltage detection unit, current detecting unit and temperature inspection in one of the embodiments, Survey unit, the voltage detection unit, the current detecting unit and the temperature detecting unit respectively with said supply unit Electrical connection.

A kind of electric car driving method, it is real using the drive system of electric automobile as described in any one of above-described embodiment Existing electric car driving method, the driving method include:

S10 detects whether said supply unit is in normal power supply state by the battery management circuit；

S20, if first battery pack, second battery pack and the third battery pack are in normal power supply state When, first battery pack, second battery pack and the third battery pack are successively detected by the battery management circuit State of charge, determine highest Electronic power batteries group and minimum Electronic power batteries group；

S30 passes through first controller control and institute when electric car is in starting state or is in driving status The time for stating the upper bridge arm conducting of the bridge arm of highest Electronic power batteries group connection is greater than the bridge connecting with the minimum Electronic power batteries group The time of the upper bridge arm conducting of arm is greater than the minimum electricity electricity to control the time of the highest Electronic power batteries group output electricity Pond group exports the time of electricity, and then synthesizes driving voltage, it is ensured that the electric car carries out balanced drive.

The S10 in one of the embodiments, detects whether said supply unit is located by the battery management circuit Include: in the step of normal power supply state

The battery management circuit detects and judges whether the output voltage of said supply unit is more than or equal to fault threshold Voltage；

If the output voltage is more than or equal to the fault threshold voltage, said supply unit is in normal power supply shape State.

The S10 in one of the embodiments, detects whether said supply unit is located by the battery management circuit Include: in the step of normal power supply state

The battery management circuit detects and judges whether the battery core temperature of said supply unit is less than fault threshold temperature；

If the battery core temperature is less than the fault threshold temperature, said supply unit is in normal power supply state.

In one of the embodiments, the method also includes:

If the output voltage is more than or equal to the fault threshold voltage or the battery core temperature is more than or equal to the failure Threshold temperature, then said supply unit is in abnormal electrical power state；

When said supply unit is in abnormal electrical power state, the battery management circuit is by detecting each battery pack Output voltage or each battery pack temperature, whether normal power supply state is in determination each battery pack；

When a battery pack is in abnormal electrical power state, the battery combination of normal power supply is controlled into driving voltage, with Ensure that the electric car has the function of limp-home.

In one of the embodiments, further include:

When determining highest Electronic power batteries group and minimum Electronic power batteries group, and when the electric car is in on-position, The time that the upper bridge arm for the bridge arm that first controller control is connected with the highest Electronic power batteries group is connected less than or equal to It the time of the upper bridge arm conducting of the bridge arm of the minimum Electronic power batteries group connection, is absorbed with controlling the battery pack of the minimum electricity The battery pack that the electricity time is greater than the highest electricity absorbs the electricity time, and then ensures that the electric car carries out balanced system It is dynamic.

The application provides a kind of driving circuit, drive system of electric automobile and driving method.The driving circuit includes supplying Electric unit and inverter circuit.Said supply unit includes three battery packs.One end of each battery pack is mutually indepedent.Each battery The other end of group is conllinear with the other end of other two battery pack.The inverter circuit includes three bridge arms.Three bridge arms A potential point it is conllinear.Conllinear potential point one end conllinear with battery pack is connected.Another current potential of each bridge arm One mutually independent one end of battery pack of point connection.Three battery packs are mutually indepedent, and three bridge arms are mutually indepedent, make Obtaining the driving circuit has more freedom.The driving circuit can realize battery on the basis of not increasing other devices Failure under operation, heating function, fast charge function, equalization function.

Detailed description of the invention

Fig. 1 is a kind of driving circuit figure that the application one embodiment provides；

Fig. 2 is a kind of driving circuit figure that the application one embodiment provides；

Fig. 3 is a kind of space vector of voltage figure for driving circuit that the application one embodiment provides；

Fig. 4 is a kind of drive system of electric automobile figure that the application one embodiment provides；

Fig. 5 is a kind of drive system of electric automobile figure that the application one embodiment provides；

Fig. 6 is a kind of electric car driving method flow chart that the application one embodiment provides；

Fig. 7 is a kind of batteries of electric automobile heating means flow chart that the application one embodiment provides；

Fig. 8 is a kind of Current Voltage state diagram that the application one embodiment provides；

Fig. 9 is a kind of electric car fast charge and equalization methods flow chart that the application one embodiment provides；

Curent change figure in a kind of charging process that Figure 10 provides for the application one embodiment；

Figure 11 is a kind of electric car charging topological diagram that the application one embodiment provides.

Main element drawing reference numeral explanation

100 second bridge arm of driving circuit, 22 first controller 50

10 third bridge arm of power supply unit, 23 distributor 60

First battery pack, 11 second end, 201 first charge switch 61

Second battery pack, 12 device for power switching, 211 second charge switch 62

13 three-phase motor of third battery pack, 30 third charge switch 63

The 4th charge switch 64 of 101 drive system of electric automobile 200 of first end

The 5th charge switch 65 of 110 battery management circuit 40 of battery unit

The 6th charge switch 66 of 111 detection circuit 41 of battery core

First by-pass switch, 120 voltage detection unit, 411 charging interface 70

Second by-pass switch, 130 current detecting unit 412 first charging muzzle 71

20 temperature monitoring unit 413 second of inverter circuit charging muzzle 72

First bridge arm, 21 second controller, 42 third charging muzzle 73

Specific embodiment

In order to make the above objects, features, and advantages of the present application more apparent, with reference to the accompanying drawing to the application Specific embodiment be described in detail.Many details are explained in the following description in order to fully understand this Shen Please.But the application can be implemented with being much different from other way described herein, those skilled in the art can be not Similar improvement is done in the case where violating the application intension, therefore the application is not limited by following public specific implementation.

It should be noted that it can directly on the other element when element is referred to as " being set to " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein and the technical field for belonging to the application The normally understood meaning of technical staff is identical.The term used in the description of the present application is intended merely to description tool herein The purpose of the embodiment of body, it is not intended that in limitation the application.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

Referring to Figure 1, the application one embodiment provides a kind of driving circuit 100.The driving circuit 100 includes power supply Unit 10 and inverter circuit 20.

Said supply unit 10 includes the first battery pack 11, the second battery pack 12 and third battery pack 13.The inversion electricity Road 20 includes the first bridge arm 21, the second bridge arm 22 and third bridge arm 23.The first electrode of first battery pack 11 and described the The upper bridge arm bus of one bridge arm 21 connects.The upper bridge arm of the first electrode of second battery pack 12 and second bridge arm 22 is female Line connection.The first electrode of the third battery pack 13 is connect with the upper bridge arm bus of the third bridge arm 23.First electricity The second electrode of the second electrode of pond group 11, the second electrode of second battery pack 12 and the third battery pack 13 collinearly with Form first end 101.The lower bridge arm of first bridge arm 21, the lower bridge arm of second bridge arm 22 and the third bridge arm 23 Lower bridge arm is collinearly to form second end 201.The first end 101 is connect with 201 bus of second end.First battery pack 11 have equivalent resistance R1.Second battery pack 12 has equivalent resistance R2.The third battery pack 13 has equivalent resistance R3。

In the present embodiment, said supply unit 10 includes three battery packs.One end of each battery pack is mutually indepedent.It is described The other end of each battery pack and the other end of other two battery pack are conllinear.The inverter circuit 20 includes three bridge arms.Three One potential point of a bridge arm is conllinear.Conllinear potential point one end conllinear with the battery pack is connected.Each bridge Another potential point of arm connects the mutually independent one end of battery pack.Three battery packs are mutually indepedent, three bridge arms Independently of each other, so that the driving circuit 100 has more freedom.The driving circuit 100 can not increase other devices Heating function, the fast charge function, equalization function of battery are realized on the basis of part.

Fig. 2 is referred to, each battery pack in said supply unit 10 includes a battery in one of the embodiments, Unit 110 and first by-pass switch 120.

One battery unit 110 and first by-pass switch 120 are connected in series.In said supply unit 10 Including multiple battery cores 111.The model of the multiple battery core 111, nominal capacity can be identical.The multiple battery core 111 can be put down It is divided into three groups.Multiple battery cores 111 are interconnected so as to form a battery unit 110 in every group.One battery unit 110 In the battery core 111 connection type and the battery core 111 in battery unit 110 described in another two connection type phase Together.The connection type is series connection, multiple battery cores after multiple series connection of battery core 111, multiple 111 parallel connections of battery core One of parallel connection after 111 in parallel or multiple battery cores 111 are connected.

First by-pass switch 120 can be a relay.First by-pass switch 120 can also for one after Switching circuit after electric appliance is in parallel with concatenated preliminary filling relay, precharge group.First by-pass switch 120 is electromagnetism relay One of device, insulated gate bipolar transistor or Metal-Oxide Semiconductor field effect transistor.

In the present embodiment, each battery pack connects first by-pass switch 120, may be implemented to each battery pack Independent control.When one of battery failure, by disconnecting the first by-pass switch 120 connecting with fail battery group, Being isolated for fail battery group and normal battery may be implemented.Fail battery group is isolated with normal battery, avoid due to The problem of failure of one battery pack causes entire power supply unit 10 that can not work.

The driving circuit 100 further includes the second by-pass switch 130 in one of the embodiments,.

Second by-pass switch 130 is electrically connected between the first end 101 and the second end 201.Described second By-pass switch 130 can be a relay.Second by-pass switch 130 can also be a relay and concatenated preliminary filling Switching circuit after relay, precharge group are in parallel.Second by-pass switch 130 is electromagnetic relay, insulated gate bipolar One of transistor or Metal-Oxide Semiconductor field effect transistor.By disconnecting second by-pass switch 130, It can achieve the purpose for disconnecting said supply unit 10 and the inverter circuit 20.

Each bridge arm in the inverter circuit 20 includes two concatenated power switch devices in one of the embodiments, Part 211.

The collector terminal of a device for power switching 211 in described two concatenated device for power switching 211 with one The positive electrode bus of battery pack connects.Another device for power switching 211 in described two concatenated device for power switching 211 Emitter terminal is connect with the negative electrode bus of a battery pack.One device for power switching 211 of each bridge arm may be constructed The upper bridge arm of one bridge arm.Another device for power switching 211 of each bridge arm may be constructed the lower bridge arm of a bridge arm. The bridge arm can be insulated gate bipolar transistor.The three-phase output end of the inverter circuit 20 respectively with three-phase motor 30 Three-phase bus W, U, V are connected.The three-phase motor 30 can be three-phase synchronous motor.The three-phase motor 30 can also be three-phase Asynchronous machine.

When the load current of the first battery pack 11 is I₁, the load current of the second battery pack 12 is I₂, third battery pack 13 Load current is I₃When, the voltage of three-phase independence bridge arm is respectively u₁、u₂、u₃.The u₁, the u₂And the u₃Meet as follows Formula:

u₁=E₁-I₁R₁

u₂=E₂-I₂R₂

u₃=E₃-I₃R₃Formula group (1)

In control process, each bridge of the inverter circuit 20 only has a switch conduction at any time.It can lead to Three-dimensional vector is crossed to characterize 20 state of inverter circuit.The lower bridge arm of first bridge arm 21 is connected, second bridge arm The upper bridge arm conducting of 22 lower bridge arm conducting, the third bridge arm 23 is denoted as U₁(001).And so on U can be obtained₀(000)、U₁ (001)、U₂(010)、U₃(011)、U₄(100)、U₅(101)、U₆(110)、U₇(111).Due to three of the inverter circuit 20 The voltage of bridge arm is mutually indepedent, therefore the voltage vector table such as the following table 1 of the driving circuit 100 under different bridge arm switch states It is shown.

In table 1, the u_abRepresent the potential difference between first bridge arm 21 and second bridge arm 22.The u_bcGeneration Potential difference between second bridge arm 22 and the third bridge arm 23 described in table.The u_caRepresent the third bridge arm 23 and described the Potential difference between one bridge arm 21.By carrying out space vector transformation, available drive as shown in Figure 3 to the above state vector The space vector of voltage figure of dynamic circuit.

Voltage vector table of 1 driving circuit of table under different bridge arm switch states

In space vector of voltage figure in the present embodiment, the corresponding six kinds of voltage output spaces arrow of eight kinds of bridge arm switch states Amount, a kind of kernel vector U₀, it is a kind of due to each battery pack difference space vector generate space vector U₇.Wherein basic vector U₄(100) only by voltage u₁It influences, basic vector U₂(010) only by voltage u₂It influences, basic vector U₁(001) only by voltage u₃Shadow It rings；Basic vector U₆(110) by voltage u₁、u₂It influences, basic vector U₃(011) by voltage u₂、u₃It influences, basic vector U₅ (101) by voltage u₁、u₃It influences.

As vector U₆(110) amplitude is greater than vector U₄(100) amplitude, and need to synthesize electric car target drives voltage arrow It, can be balanced while in order to ensure electric car starting in order to ensure the electric vehicle carries out balanced drive when amount Battery capacity can extend basic voltage vectors U₆(110) action time of target drives vector is synthesized.It needs to synthesize electronic When vehicle target driving voltage vector, the higher sub- battery pack of electricity is allowed to export more energy.As vector U₆(110) amplitude is greater than Vector U₄(100) amplitude, and when needing to synthesize electric car target brake voltage vector, basic voltage vectors U can be extended₄ (100) when synthesizing the action time of target drives vector, i.e. synthesis electric car target brake voltage vector.Allow current electric quantity compared with Low sub- battery pack absorbs more energy.It is basic to swear when the first battery pack 11 this catastrophe failure of failure occurs in electric car Measure U₂(010), U₁(001), U₃(011), U₀(000) unaffected.U can be passed through₂(010)、U₁(001)、U₃(011) or U₀(000) In a power device switch combination continue synthesize target vector, it is ensured that electric powered motor does not interrupt, and has and walk lamely back The function of family.When needing electric quantity balancing between the battery pack, space vector U can use₇Charge and discharge are carried out, and then balanced each Electricity between battery pack.

Fig. 4 is referred to, the application one embodiment provides a kind of drive system of electric automobile 200.The electric car drives Dynamic system 200 includes driving circuit 100, battery management circuit 40 and the first controller 50.

The battery management circuit 40 is electrically connected with the driving circuit 100.First controller 50 and the driving Circuit 100 is electrically connected.The drive of the driving circuit 100 in the driving circuit 100 and above-described embodiment in the present embodiment Flowing mode is similar, and details are not described herein again.The battery management circuit 40 be used for detect said supply unit 10 state-of-charge and The working condition of said supply unit 10.The battery management circuit 40 is also used to manage said supply unit 10.Example Such as, the battery management circuit 40 can control first by-pass switch 120 and described second in said supply unit 10 The opening and closing of by-pass switch 130.First controller 50 is for controlling the fixed conducting power switch of the inverter circuit 20 211 combinations.Pass through isolation signals circuit connection between the battery management circuit 40 and first controller 50.

In the present embodiment, the drive system of electric automobile 200 includes driving circuit 100, battery management circuit 40 and the One controller 50.Said supply unit 10 in the driving circuit 100 includes three battery packs.One end phase of each battery pack It is mutually independent.The other end of each battery pack is conllinear with the other end of other two battery pack.The inverter circuit 20 includes Three bridge arms.One potential point of three bridge arms is conllinear.Conllinear potential point one end conllinear with the battery pack is connected. Another potential point of each bridge arm connects the mutually independent one end of battery pack.Three battery packs are mutually only Vertical, three bridge arms are mutually indepedent, so that the driving circuit 100 has more freedom.The drive system of electric automobile 200 Heating function, the fast charge function, equalization function of batteries of electric automobile can be realized on the basis of not increasing other devices.

Fig. 5 is referred to, the electric vehicle has control centre in one of the embodiments,.The battery management circuit 40 include detection circuit 41 and second controller 42.

The detection circuit 41 includes voltage detection unit 411, current detecting unit 412 and temperature detecting unit 413, institute State voltage detection unit 411, the current detecting unit 412 and the temperature detecting unit 413 respectively with said supply unit 10 electrical connections.The second controller 42 is electrically connected with said supply unit 10.

Voltage, electric current and the temperature signal that the detection circuit 41 will test are reported to the control of the electric car Center.The control centre passes through first controller 50 and the second controller 42 according to the signal received The driving circuit 100 driving, braking, heating and equilibrium are controlled.

Fig. 6 is referred to, above-mentioned drive system of electric automobile 200 is based in the application one embodiment and a kind of electronic vapour is provided Vehicle driving method.Electric car driving is realized using the drive system of electric automobile 200 as described in any one of above-described embodiment Method, the driving method include:

S10, the battery management circuit 40 detect whether said supply unit 10 is in normal power supply state.

In step S10, first battery pack 11 has equivalent resistance R1.Second battery pack 12 has equivalent resistance R2.The third battery pack 13 has equivalent resistance R3.It include multiple battery cores 111 in said supply unit 10.The multiple electricity The model of core 111, nominal capacity can be identical.The multiple battery core 111 can be divided into three groups.Multiple battery cores in every group 111 are interconnected so as to form a battery unit 110.The connection type of the battery core 111 in one battery unit 110 It is identical identical as the connection type of the battery core 111 in battery unit 110 described in another two.The connection type is multiple institutes State the series connection of battery core 111, series connection, the in parallel or multiple battery cores 111 of multiple battery cores 111 after multiple 111 parallel connections of battery core One of parallel connection after series connection.

S20, if first battery pack 11, second battery pack 12 and the third battery pack 13 are in normal confession When electricity condition, the battery management circuit 40 successively detects first battery pack 11, second battery pack 12 and described The state of charge of three battery packs 13 determines highest Electronic power batteries group and minimum Electronic power batteries group.

In step S20, the battery management circuit 40 includes detection circuit and judging unit.The detection circuit is for examining Survey voltage, electric current, electricity and the temperature of each battery pack.

S30, when electric car is in starting state or when in driving status, by first controller 50 control with Time of the upper bridge arm conducting of the bridge arm of highest Electronic power batteries group connection is greater than to be connect with the minimum Electronic power batteries group The time of the upper bridge arm conducting of bridge arm is greater than the minimum electricity to control the time of the highest Electronic power batteries group output electricity Battery pack exports the time of electricity, and then synthesizes driving voltage, it is ensured that the electric car carries out balanced drive.

In step S30, as vector U₆(110) amplitude is greater than vector U₄(100) amplitude, and need to synthesize electric car target When driving voltage vector, basic voltage vectors U can be extended₆(110) action time of target drives vector is synthesized.

In the present embodiment, electric car driving method is realized using the drive system of electric automobile 200.It is described electronic Automobile drive method may insure in electric car starting or driving process, can in balanced said supply unit 10 three The electricity of a battery pack.

The S10 in one of the embodiments, the battery management circuit 40 detect whether said supply unit 10 is located Include: in the step of normal power supply state

The battery management circuit 40 detects and judges whether the output voltage of said supply unit 10 is more than or equal to failure Threshold voltage.If the output voltage is more than or equal to the fault threshold voltage, said supply unit 10 is in normal power supply State.The fault threshold voltage can be the fault threshold voltage of the storage in the battery management circuit 40.

In another embodiment, the S10, the battery management circuit 40 detect whether said supply unit 10 is in Normal power supply state, said supply unit 10 include the steps that the first battery pack 11, the second battery pack 12 and third battery pack 13 Include:

The battery management circuit 40 detects and judges whether the battery core temperature of said supply unit 10 is less than fault threshold Temperature.If the battery core temperature is less than the fault threshold temperature, said supply unit 10 is in normal power supply state.It is described Fault threshold temperature can be the fault threshold temperature of the storage in the battery management circuit 40.

In the present embodiment, when said supply unit 10 breaks down, output voltage, output electric current and electricity may be caused The variation of core temperature.Therefore, by detecting the output voltage of said supply unit 10 or by detection said supply unit 10 Whether battery core temperature can detecte said supply unit 10 in normal power supply state.It can also be single by detecting the power supply Whether the output electric current of member 10, detection said supply unit 10 are in normal power supply state.

In one of the embodiments, the method also includes:

If the output voltage is less than the fault threshold voltage or the battery core temperature is more than or equal to the fault threshold Temperature, then said supply unit 10 is in abnormal electrical power state.When said supply unit 10 is in abnormal electrical power state, The battery management circuit 40 is described every with determination by detecting the output voltage of each battery pack or the temperature of each battery pack Whether a battery pack is in normal power supply state.When a battery pack is in abnormal electrical power state, normal power supply is controlled Battery combination is at driving voltage, to ensure that the electric car has the function of limp-home.

In one alternate embodiment, when the first battery pack 11 this catastrophe failure of failure occurs in electric car, substantially Vector U₂(010), U₁(001), U₃(011), U₀(000) unaffected.U can be passed through₂(010)、U₁(001)、U₃(011) or U₀ (000) switch combination in continues to synthesize target vector, it is ensured that electric powered motor does not interrupt, and has limp-home Function.

In the present embodiment, when catastrophe failure occurs in the power system of electric automobile, (such as a battery pack is lost Effect), it can be using the basic voltage vectors synthesis target drives/brake voltage vector not influenced by failure, it is ensured that electric car Power does not interrupt, and has the function of limp-home.

In one of the embodiments, the method also includes:

When determining highest Electronic power batteries group and minimum Electronic power batteries group, and the electric car is in on-position.Institute State time that the upper bridge arm of the bridge arm that the control of the first controller 50 is connected with the highest Electronic power batteries group is connected less than or equal to The time of the upper bridge arm conducting of the bridge arm of the minimum Electronic power batteries group connection.First controller 50 for control it is described most The battery pack of low battery absorbs the battery pack absorption electricity time for the electricity time being greater than the highest electricity, and then ensures the electricity Electrical automobile carries out gradual braking.

In one alternate embodiment, vector U₆(110) amplitude is greater than vector U₄(100) amplitude.It needs to synthesize electric car When target brake voltage vector, basic voltage vectors U can be extended₄(100) action time of synthesis target braking vector.Close When at electric car target brake voltage vector, the lower sub- battery pack of current electric quantity is allowed to absorb more energy.

In the present embodiment, when synthesizing electric car target brake voltage vector, the lesser basic voltage vectors of amplitude are improved Action time, the lower sub- battery pack of current electric quantity can be allowed to absorb more in the case where guaranteeing the electric vehicle brake Multipotency amount.

Fig. 7 is referred to, a kind of batteries of electric automobile heating means are provided in the application one embodiment.Using electric car Drive system 200 realizes the batteries of electric automobile heating means.

The battery that the drive system of electric automobile 200 includes driving circuit 100, is electrically connected with the driving circuit 100 Management circuit 40 and the first controller 50 being electrically connected with the driving circuit 100.

The driving circuit 100 includes power supply unit 10, inverter circuit 20 and the three-phase motor 30 connected by bus. Said supply unit 10 includes three battery packs.The inverter circuit 20 includes three bridge arms.Each battery pack anode with The upper bridge arm bus connection of one bridge arm.It is female with the lower bridge arm of three bridge arms after the cathode of three battery packs is conllinear Line connection.Each phase bus of the three-phase motor 30 connects the output end of a bridge arm.

The battery heating means include:

Before the electric car starting, judge whether the electric car needs to carry out by the battery management circuit 40 Battery heating.After confirming that the electric car needs to carry out battery heating, controlled by first controller 50 described inverse Power transformation road 20, so that said supply unit 10 charges to the three-phase motor 30,30 storing electricity of three-phase motor.

After the electricity in the three-phase motor 30 reaches storage threshold value, controlled by first controller 50 described inverse Power transformation road 20, so that the three-phase motor 30 charges to said supply unit 10, said supply unit 10 had been charged and discharged Itself polarizes in journey, to realize the controllable heating of each battery pack in said supply unit 10.

The battery heating means include that the energy between battery pack described in any two mutually shifts.The battery heating Method further includes that the energy between three battery packs mutually shifts.In energy transfer process, the battery pack is in three-phase The energy stored in the coil of motor does not dissipate.The energy that the battery pack stores in the coil of the three-phase motor 30 It can be transferred in another described battery pack.It is consumed in the only few online group of power that i.e. said supply unit 10 exports, Remaining power is returned in said supply unit 10.Said supply unit 10 is in energy transfer process, due to the battery pack Itself polarization, can generate heat, which can be used for heating battery inside battery core.

2 four kinds of Switch State Combination in Power Systems Basic Ways of table

To realize above-mentioned energy transfer, the device for power switching 211 is successively switched on and off.The device for power switching 211 switch states are in above-mentioned switch state U0 (000), U1 (001), U2 (010), U3 (011), U4 (100), U5 (101), U6 (110), switching in U7 (111).The switching method can be four kinds of switch states step1, step2, step3, step4 by Timing switching constitutes circulation.The circulation can be step1 → step2 → step3 → step4 → step1.The circulation may be used also Think step1 → step4 → step3 → step2 → step1.Four kinds of Switch State Combination in Power Systems Basic Ways can be such as table 2 It is shown.

The switching method can realize energy transfer by a kind of above-mentioned Basic Ways.The switching method is also The combination of above two or a variety of Basic Ways can be passed through.The combined method of the Basic Ways is included in a kind of Basic Ways In some step be directly switch to the step of same switch state in another approach.In an alternative embodiment, described The combined method of Basic Ways can be U₄→U₆→U₂→U₀→U₄.Fig. 8 is the Current Voltage state under this switch combination Figure.In Fig. 8, by controlling switch combination and the switch time of the inverter circuit 20, rectangular line voltage can be applied to On the inductance of the three-phase motor 30.Line current under the line voltage is the form of approximate triangular wave.

In an alternative embodiment, each battery pack uses battery technology parameter voltages 400V, capacity 42Ah, energy 16.8kWh, weight 67kg, 13001/1kg1 DEG C 1 of specific heat capacity, internal resistance 132m Ω (25 DEG C) 396m Ω (0 DEG C) 1188m Ω (- 20 ℃).The three-phase motor 30 uses motor technology parameter rated power 60kW, nominal DC busbar voltage 400V, rated current 115A, peak point current 230A, line resistance 15.4m Ω, line inductance 1.44mH.

Under above-mentioned technical parameter, by the battery heating means carry out battery heat temperature rise rate be 14.4 DEG C/ m11(-20℃)、4.8℃/m11(0℃)、1.6℃/m11(25℃)。

In the present embodiment, the battery heating means control the three of the inverter circuit 20 by first controller 50 The opening and closing of a bridge arm, to complete driving repeatedly, the braking to the three-phase motor 30.The driving repeatedly of the three-phase motor 30, Braking realizes energy output and the energy regenerating of said supply unit 10.And then pole is occurred by said supply unit 10 itself Change, to realize that the battery of said supply unit 10 controllably heats up.Device for power switching 211 in the inverter circuit 20 is most The maximum operating currenbt of big operating current and the three-phase motor 30 is higher.High-power add may be implemented in the battery heating means Heat effectively increases heating efficiency.The device for power switching 211 is used as control element, and the three-phase motor 30 is used as energy storage Element.Without adding special heating element in battery heating process, thus reduce power system of electric automobile cost.

It is described after confirming that the electric car needs to carry out battery heating in one of the embodiments, by described First controller 50 controls the inverter circuit 20, so that said supply unit 10 charges to the three-phase motor 30, described three The step of phase 30 storing electricity of motor includes:

The upper bridge arm conducting of at least one bridge arm in the inverter circuit 20 is controlled by first controller 50.And The lower bridge arm conducting of at least one bridge arm in the remaining bridge arm of the inverter circuit 20 is controlled by first controller 50, with The battery pack for connecting the bridge arm be connected with the upper bridge arm charges to the three-phase motor 30.In the present embodiment, by described Inverter circuit 20 realizes the electric discharge of at least one battery pack in said supply unit 10.

It is described after the electricity in the three-phase motor 30 reaches storage threshold value in one of the embodiments, pass through institute It states the first controller 50 and controls the inverter circuit 20, so that the three-phase motor 30 charges to said supply unit 10, it is described Power supply unit 10 itself polarizes during charging and discharging, to realize each battery pack in said supply unit 10 The step of controllable heating includes:

The upper bridge arm conducting of at least one bridge arm in the inverter circuit 20 is controlled by first controller 50.And The lower bridge arm conducting of at least one bridge arm in the remaining bridge arm of the inverter circuit 20 is controlled by first controller 50, so that The battery pack charging that the three-phase motor 30 is connected to the bridge arm be connected with the upper bridge arm.In the present embodiment, by described inverse Power transformation road 20 realizes the charging of at least one battery pack into said supply unit 10 of three-phase motor 30.

It is described after the electricity in the three-phase motor 30 reaches storage threshold value in one of the embodiments, pass through institute It states the first controller 50 and controls the inverter circuit 20, so that the three-phase motor 30 charges to said supply unit 10, it is described Power supply unit 10 itself polarizes during charging and discharging, to realize each battery pack in said supply unit 10 The step of controllable heating includes:

The upper bridge arm for the bridge arm being connect by first controller 50 control with the battery pack of electric discharge disconnects, with electric discharge The lower bridge arm conducting of the bridge arm of battery pack connection.And the remaining bridge arm of the inverter circuit 20 is controlled by first controller 50 In at least one bridge arm upper bridge arm conducting so that the three-phase motor 30 to be connected with the upper bridge arm bridge arm connection Battery pack charging.In the present embodiment, the three-phase motor 30 is realized to except the discharge battery by the inverter circuit 20 The charging of at least one battery pack in said supply unit 10 outside group.

It is described after the electricity in the three-phase motor 30 reaches storage threshold value in one of the embodiments, pass through institute It states the first controller 50 and controls the inverter circuit 20, so that the three-phase motor 30 charges to said supply unit 10, it is described Power supply unit 10 itself polarizes during charging and discharging, to realize each battery pack in said supply unit 10 The step of controllable heating includes:

It is connected by first controller 50 control with the upper bridge arm of the bridge arm of the battery pack of electric discharge connection, and passes through institute The lower bridge arm conducting that the first controller 50 controls at least one bridge arm in the remaining bridge arm of the inverter circuit 20 is stated, so that described three Phase motor 30 charges to the battery pack of the electric discharge.In the present embodiment, the three-phase is realized by the inverter circuit 20 Motor 30 charges to except the discharge battery group.

It is described after confirming that the electric car needs to carry out battery heating in one of the embodiments, by described First controller 50 controls the inverter circuit 20, so that said supply unit 10 charges to the three-phase motor 30, described three The step of phase 30 storing electricity of motor further include:

The state of charge that three battery packs are successively detected by the battery management circuit 40 determines highest electricity electricity Pond group and minimum Electronic power batteries group.The bridge arm connecting with the battery pack of the highest electricity is controlled by first controller 50 The conducting of upper bridge arm, and the lower bridge arm conducting of at least one bridge arm in the remaining bridge arm of the inverter circuit 20 is controlled, so that institute The battery pack for stating highest electricity charges to the three-phase motor 30.In the present embodiment, institute is realized by the inverter circuit 20 State the electric discharge of highest Electronic power batteries group in power supply unit 10.The battery heating means are also real while heating the battery pack The electric quantity balancing between the battery pack is showed.

It is described after the electricity in the three-phase motor 30 reaches storage threshold value in one of the embodiments, pass through institute It states the first controller 50 and controls the inverter circuit 20, so that the three-phase motor 30 charges to said supply unit 10, it is described Power supply unit 10 itself polarizes during charging and discharging, to realize each battery pack in said supply unit 10 The step of controllable heating includes:

After the three-phase motor 30 is completed to charge, pass through the electricity of first controller 50 control and the minimum electricity The upper bridge arm conducting of the bridge arm of pond group connection, and control the lower bridge of at least one bridge arm in the remaining bridge arm of the inverter circuit 20 Arm conducting, so that the three-phase motor 30 charges to the battery pack of the minimum electricity.In the present embodiment, pass through the inversion electricity Road 20 realizes the charging of the three-phase motor 30 minimum Electronic power batteries group into said supply unit 10.The battery heating side Method also achieves the electric quantity balancing between the battery pack while heating the battery pack.

In one of the embodiments, before the electric car starting, judged by the battery management circuit 40 described Whether electric car needs the step of carrying out battery heating to include:

Whether it is less than drive threshold temperature by the battery core temperature that the battery management circuit 40 detects said supply unit 10 Degree.When the battery core temperature is less than the drive threshold temperature, then confirm that the electric car needs to carry out battery heating.When When the battery core temperature is more than or equal to the drive threshold temperature, the electric car normally starts.

It is described after the electricity in the three-phase motor 30 reaches storage threshold value in one of the embodiments, pass through institute It states the first controller 50 and controls the inverter circuit 20, so that the three-phase motor 30 charges to said supply unit 10, it is described Power supply unit 10 itself polarizes during charging and discharging, to realize each battery pack in said supply unit 10 After the step of controllable heating further include:

Whether it is less than drive threshold temperature by the battery core temperature that the battery management circuit 40 detects said supply unit 10 Degree.When the battery core temperature is less than the drive threshold temperature, then confirm that the electric car needs to continue battery and adds Heat.When the battery core temperature is more than or equal to the drive threshold temperature, the electric car normally starts.

Fig. 9 is referred to, above-mentioned drive system of electric automobile is based in the application one embodiment and a kind of electric car is provided Control method.The Control of Electric Vehicles method includes realizing the electric car and existing base by charging topological circuit first The high-power charging that plinth electrically-charging equipment is mutually compatible with vehicle-mounted device.After charging, the electricity detected between each battery pack is poor It is different.If being less than or equal to electric quantity balancing threshold without the electricity difference between electricity difference or each battery pack between each battery pack Value, the electric car directly can wait driver to launch into normal running mode.If electricity between each battery pack Difference is greater than electric quantity balancing threshold value, then needs to carry out electric quantity balancing.

When the electric car is completed to charge or in use, successively detects institute by the battery management circuit 40 The state of charge for stating three battery packs determines highest Electronic power batteries group and minimum Electronic power batteries group.Pass through the battery management electricity Road 40 judges whether the electricity difference between the highest Electronic power batteries group and the minimum Electronic power batteries group is greater than electric quantity balancing Threshold value.If the electricity difference is greater than electric quantity balancing threshold value, by described in parking balanced way or driving balanced way equilibrium The electricity of each battery pack in power supply unit 10, so that the electricity difference is less than or equal to the electric quantity balancing threshold value.The electricity Amount trimming threshold is stored in the storage unit of the battery management circuit 40.

In the present embodiment, the control method determines highest Electronic power batteries group and minimum by the battery management circuit 40 Electronic power batteries group.And the control method judges whether to need to carry out electric quantity balancing by the battery management circuit 40.When need When carrying out electric quantity balancing, pass through parking balanced way or the balanced electric car electricity of driving balanced way.The parking Balanced way or the driving balanced way pass through three bridge arms that first controller 50 controls the inverter circuit 20 Opening and closing, with realize three battery packs between energy output and energy regenerating, avoid energy waste problem.The controlling party Method is not necessarily to add special energy storage component in balancing procedure, thus reduces power system of electric automobile cost.

The electric quantity balancing method further includes the equilibrium for detecting whether having time and carrying out under parking operating condition.If the no time carries out Electric quantity balancing under the parking operating condition, then the electric car directly etc. it is to be launched.Under the parking as described in carrying out having time Electric quantity balancing then needs to calculate parking euqalizing current I₀If the parking euqalizing current I₀Permit less than in the driving circuit 100 Perhaps current threshold I_max, then it is shorted using inductance balanced.If euqalizing current I under parking₀Permit greater than in the driving circuit 100 Perhaps current threshold I_max, then balanced using electricity transfer.

Battery pack equilibrium method in the case of the parking is used in the case where the electric car has the enough parking time. Euqalizing current I under the parking₀Calculation formula are as follows:

I₀=1E_max-E_m111/R_totalFormula (2)

Wherein, E_maxAnd E_m11The battery pack initial open circuit voltage of the respectively described highest electricity and the electricity of the minimum electricity Pond group initial open circuit voltage；R_totalFor the battery pack resistance of the highest electricity, battery pack resistance, the conducting wire of the minimum electricity The sum of line resistance and the resistance of the three-phase motor (30) line.

The inductance is shorted the upper of the bridge arm that equalization methods include the battery pack connection balanced with needs of direct closure The device for power switching 211 of bridge arm.At this point, the battery power discharge of highest electricity, electric current flows through the function of the upper bridge arm of the bridge arm The inductance of rate switching device 211 and the three-phase motor 30 charges to the battery pack of minimum electricity.With balancing procedure, electric current It is gradually reduced the equilibrium realized to battery.Charging process meets equation:

Wherein, E_max E_m11Respectively highest Electronic power batteries group initial open circuit voltage, minimum Electronic power batteries group initial open circuit electricity Pressure.e_max1t1、e_m111t1 is respectively the real-time open-circuit voltage of highest Electronic power batteries group, the minimum real-time open-circuit voltage of Electronic power batteries group. 11t1 is real-time current.R_totalFor highest Electronic power batteries group resistance, minimum Electronic power batteries group resistance, wire resistance, motor lines resistance The sum of.L is loop inductance.It is open-circuit voltage with the rate of change of electric quantity change.

In a kind of situation of the present embodiment, the electric car has the enough parking time, and under the parking Weigh electric current I₀Less than the current threshold I allowed in the driving circuit 100_max.The inductance is shorted equalization methods and needs equilibrium The electricity difference of first battery pack 11 and second battery pack 12.First bridge can be directly closed in balancing procedure The upper bridge arm of the upper bridge arm of arm 21 and second bridge arm 22.At this point, first battery pack 11 electric discharge that voltage is high, electric current stream The upper bridge arm and the three-phase motor 30 of upper bridge arm and second bridge arm 22 through first bridge arm 21, the institute low to voltage State the charging of the second battery pack 12.The curent change of charging process is as shown in Fig. 10.

Electricity transfer is balanced include be closed the bridge arm that the battery pack high with electricity is connect upper bridge arm and with electricity Measure the lower bridge arm of the bridge arm of low battery pack connection.At this point, the high battery pack of electricity is the three-phase motor 30 charging.Work as electricity Before inducing current reaches maximum allowed current, the upper bridge arm of the bridge arm of the high battery pack connection of shutdown electricity, closure electricity height Battery pack connection the bridge arm lower bridge arm.Turn off the lower bridge arm of the bridge arm of the low battery pack connection of electricity, closure The upper bridge arm of the bridge arm of the low battery pack connection of electricity.The three-phase motor 30 is that the low battery pack of the electricity is filled at this time Electricity.After inductive discharge, bridge arm on the three-phase motor 30 of the low battery pack connection of shutdown electricity, the low electricity of closure electricity 30 lower bridge arm of the three-phase motor of pond group connection.Above-mentioned steps constantly recycle, until the high battery pack of electricity battery low with electricity The electricity difference of group is less than or equal to the electric quantity balancing threshold value.

Battery pack equilibrium method in the case of the driving/braking includes, by the method for vector controlled by 3 institute of attached drawing The fundamental voltage Space vector modulation target drives voltage vector shown.When synthesizing electric car target drives voltage vector, improve The action time of the biggish basic voltage vectors of amplitude allows the higher sub- battery pack of current electric quantity to export more energy.Synthesis When electric car target brake voltage vector, the action time of the lesser basic voltage vectors of amplitude is improved, that is, allows current electric quantity Lower sub- battery pack absorbs more energy.The above driving process constantly repeats, until the high battery pack of electricity battery low with electricity The electricity difference of group is less than or equal to the electric quantity balancing threshold value.Later, electric car enters normal driving/braking mode.

After when the electric car, without the parking, the balanced or described parking is balanced, the electric car is waited Starting.After electric car starting, need whether to be needed according to the electricity diversity judgement between each battery pack into Every trade vehicle is balanced.It is balanced that the driving is carried out if the electricity difference is greater than electric quantity balancing threshold value.The driving it is balanced into One step includes that the equilibrium of driving process and discharge process are balanced.Until judging that the electricity difference is less than or equal to the electric quantity balancing threshold When value, the electric car enters normal driving mode.

The application one embodiment provides a kind of electric car charging method.Used in the electric car charging process Charging circuit topology is as shown in Fig. 11.

The circuit topological structure includes power supply unit 10, distributor 60 and charging interface 70.

Said supply unit 10 includes the first battery pack 11, the second battery pack 12 and third battery pack 13.The distributor 60 open including the first charge switch 61, the second charge switch 62, third charge switch 63, the charging of the 4th charge switch the 64, the 5th Pass 65 and the 6th charge switch 66.The anode of first battery pack 11 connects with one end bus of first charge switch 61 It connects.The anode of second battery pack 12 is connect with one end bus of second charge switch 62.The third battery pack 13 Anode connect with one end bus of the third charge switch 63.The cathode of first battery pack 11, second battery The cathode of group 12 and the cathode of the third battery pack 13 are conllinear, to form first end 101.The first end 101 respectively with institute State one end, one end of the 5th charge switch 65 and one end bus of the 6th charge switch 66 of the 4th charge switch 64 Connection.The charging interface 70 includes the first charging muzzle 71, second charging muzzle 72 and third charging muzzle 73.Described first The other end of charge switch 61 is connected to the anode of the first charging muzzle 71.The other end of second charge switch 62 connects It is connected to the anode of the second charging muzzle 72.The other end of the third charge switch 63 is connected to the third charging muzzle 73 anode.The other end of 4th charge switch 64 is connected to the cathode of the first charging muzzle 71.Described 5th fills The other end of electric switch 65 is connected to the cathode of the second charging muzzle 72.The other end of 6th charge switch 66 connects To the cathode of third charging muzzle 73.

The electric car charging method include will the first charging muzzle 71, described second charge muzzle 72 and described Third charging muzzle 73 is connected to three charging guns.The charging gun can be three charging guns that single charging pile provides.Institute Stating charging gun can also be three charging piles that multiple charging piles provide.After three charging muzzle connections, first controller 50 control first charge switch 61 and the 4th charge switch 64 closure.The battery management circuit 40 and described first The control system for the charging unit that charging muzzle 71 connects establishes communication.After completing information exchange, the first battery pack 11 of closure is right The first by-pass switch 120, the second by-pass switch 130 answered, to realize the charging to first battery pack 11.First control Device 50 processed controls second charge switch 62 and the 5th charge switch 65 closure.The battery management circuit 40 with it is described The control system for the charging unit that second charging muzzle 72 connects establishes communication.After completing information exchange, it is closed the second battery pack 12 corresponding first by-pass switches 120, the second by-pass switch 130, to realize the charging to second battery pack 12.Described One controller 50 controls the third charge switch 63 and the 6th charge switch 66 closure.The battery management circuit 40 with The control system for the charging unit that the third charging muzzle 73 connects establishes communication.After completing information exchange, closure third electricity Corresponding first by-pass switch 120 of pond group 13, the second by-pass switch 130, to realize the charging to the third battery pack 13.

The application realizes three charging guns by above-mentioned topological structure and control method while being what battery pack charged Function.The limitation of current-carrying capability, improves the total charging current of battery pack when the charging method avoids the high-power charging of single rifle, real Show compatible with existing electrically-charging equipment and vehicle-mounted component voltage class.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The several embodiments of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously The limitation to claim therefore cannot be interpreted as.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the concept of this application, various modifications and improvements can be made, these belong to the protection of the application Range.Therefore, the scope of protection shall be subject to the appended claims for the application patent.

Claims (15)

1. a kind of driving circuit (100) characterized by comprising

Power supply unit (10), including the first battery pack (11), the second battery pack (12) and third battery pack (13)；And

Inverter circuit (20), including the first bridge arm (21), the second bridge arm (22) and third bridge arm (23)；

The first electrode of first battery pack (11) is connect with the upper bridge arm bus of first bridge arm (21), second electricity The first electrode of pond group (12) is connect with the upper bridge arm bus of second bridge arm (22), and the first of the third battery pack (13) Electrode is connect with the upper bridge arm bus of the third bridge arm (23)；

The second electrode of first battery pack (11), the second electrode of second battery pack (12) and the third battery pack (13) second electrode is collinearly to form first end (101)；

The lower bridge of the lower bridge arm of first bridge arm (21), the lower bridge arm of second bridge arm (22) and the third bridge arm (23) Arm is collinearly to form second end (201)；

The first end (101) connect with the second end (201) bus.

2. driving circuit (100) according to claim 1, which is characterized in that each electricity in said supply unit (10) Pond group includes a battery unit (110) and first by-pass switch (120), a battery unit (110) and one First by-pass switch (120) is connected in series.

3. driving circuit (100) according to claim 2, which is characterized in that each battery unit (110) includes:

Multiple battery cores (111), electricity described in the quantity and another two of the battery core (111) in a battery unit (110) The battery core (111) quantity in pool unit (110) is identical；

Battery unit (110) described in the connection type and another two of the battery core (111) in one battery unit (110) In the battery core (111) connection type it is identical.

4. driving circuit (100) according to claim 3, which is characterized in that the institute in one battery unit The connection type for stating battery core is that multiple battery cores (111) are connected, connect after multiple battery core (111) parallel connections, is multiple described One of parallel connection after battery core (111) parallel connection or the series connection of multiple battery cores (111).

5. driving circuit (100) according to claim 1, which is characterized in that further include:

Second by-pass switch (130) is electrically connected between the first end (101) and the second end (201).

6. driving circuit (100) according to claim 5, which is characterized in that second by-pass switch (130) is electromagnetism One of relay, insulated gate bipolar transistor or Metal-Oxide Semiconductor field effect transistor.

7. driving circuit (100) according to claim 1, which is characterized in that each bridge in the inverter circuit (20) Arm includes:

Two concatenated device for power switching (211), a power in described two concatenated device for power switching (211) are opened The collector terminal for closing device (211) is connect with the positive electrode bus of a battery pack；

The emitter terminal and one of another device for power switching (211) in described two concatenated device for power switching (211) The negative electrode bus of a battery pack connects.

8. a kind of drive system of electric automobile (200) characterized by comprising

Driving circuit (100) of any of claims 1-7；

Battery management circuit (40) is electrically connected with the driving circuit (100)；And

First controller (50) is electrically connected with the driving circuit (100).

9. drive system of electric automobile (200) according to claim 8, which is characterized in that the battery management circuit (40) include:

Detection circuit (41) is electrically connected with said supply unit (10)；And

Second controller (42) is electrically connected with said supply unit (10).

10. drive system of electric automobile (200) according to claim 9, which is characterized in that detection circuit (41) packet Include voltage detection unit (411), current detecting unit (412) and temperature detecting unit (413), the voltage detection unit (411), the current detecting unit (412) and the temperature detecting unit (413) are electrically connected with said supply unit (10) respectively It connects.

11. a kind of electric car driving method, which is characterized in that using the electronic vapour as described in any one of claim 8-10 Motor vehicle drive system (200) realizes that electric car driving method, the driving method include:

Whether S10 is in normal power supply state by the battery management circuit (40) detection said supply unit (10)；

S20, if first battery pack (11), second battery pack (12) and the third battery pack (13) are in normally When power supply state, first battery pack (11), second battery pack are successively detected by the battery management circuit (40) (12) and the state of charge of the third battery pack (13) highest Electronic power batteries group and minimum Electronic power batteries group, are determined；

S30 passes through first controller (50) control and institute when electric car is in starting state or is in driving status The time for stating the upper bridge arm conducting of the bridge arm of highest Electronic power batteries group connection is greater than the bridge connecting with the minimum Electronic power batteries group The time of the upper bridge arm conducting of arm is greater than the minimum electricity electricity to control the time of the highest Electronic power batteries group output electricity Pond group exports the time of electricity, and then synthesizes driving voltage, it is ensured that the electric car carries out balanced drive.

12. driving method according to claim 11, which is characterized in that the S10, it is described to pass through battery management circuit (40) detect that the step of whether said supply unit (10) are in normal power supply state includes:

The battery management circuit (40) is detected and judges whether the output voltage of said supply unit (10) is more than or equal to failure Threshold voltage；

If the output voltage is more than or equal to the fault threshold voltage, said supply unit (10) is in normal power supply shape State.

13. driving method according to claim 11, which is characterized in that the S10, it is described to pass through battery management circuit (40) detection said supply unit (10) whether be in normal power supply state, the step of include:

The battery management circuit (40) is detected and judges whether the battery core temperature of said supply unit (10) is less than fault threshold Temperature；

If the battery core temperature is less than the fault threshold temperature, said supply unit (10) is in normal power supply state.

14. driving method described in any one of 2 or 13 according to claim 1, which is characterized in that the driving method also wraps It includes:

If the output voltage is less than the fault threshold voltage or the battery core temperature is greater than or equal to the fault threshold temperature Degree, then said supply unit (10) is in abnormal electrical power state；

When said supply unit (10) is in abnormal electrical power state, the battery management circuit (40) is by detecting each electricity Whether the temperature of the output voltage of pond group or each battery pack is in normal power supply state with determination each battery pack；

When a battery pack is in abnormal electrical power state, the battery combination of normal power supply is controlled at driving voltage, to ensure The electric car has the function of limp-home.

15. driving method according to claim 11, which is characterized in that further include:

It is described when determining highest Electronic power batteries group and minimum Electronic power batteries group, and when the electric car is in on-position The time that the upper bridge arm for the bridge arm that first controller (50) control is connected with the highest Electronic power batteries group is connected less than or equal to It the time of the upper bridge arm conducting of the bridge arm of the minimum Electronic power batteries group connection, is absorbed with controlling the battery pack of the minimum electricity The battery pack that the electricity time is greater than the highest electricity absorbs the electricity time, and then ensures that the electric car carries out gradual braking.