KR101574548B1 - Apparatus and method for charging battery pack - Google Patents

Abstract

The battery pack charging apparatus of the present invention comprises a battery pack comprising a plurality of secondary battery cells; A power line for supplying power of the battery pack to a load; A charging line electrically connected to the power line; A switching unit including a relay interposed between the charging line and each of the secondary battery cells; A measurement unit for measuring a voltage of each of the secondary battery cells; And a control unit for controlling the relay of the switching unit so that the charging power of the power line, which is branched through the charging line, flows into the secondary battery cell corresponding to a relatively low voltage of the measured voltage.
According to the present invention, it is possible to provide an effect of additionally charging a secondary battery cell in which a voltage deviation is generated by an optimized method while maintaining a load driving.

Description

[0001] Apparatus and method for charging a battery pack [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for charging a battery pack, in which a part of supply power supplied to a load or the like is branched and utilized for additional charging, To an apparatus and a method for effectively overcoming a degradation phenomenon.

Secondary batteries having high electrical properties such as high energy density and high ease of application according to the product group are widely used not only in portable devices but also in electric vehicles (EVs) or hybrid vehicles (HVs) driven by electric driving sources Has been applied.

Such a secondary battery is not only a primary advantage that the use of fossil fuel can be drastically reduced, but also produces no by-products resulting from the use of energy, and thus is attracting attention as a new energy source for enhancing environmental friendliness and energy efficiency.

The battery pack applied to the electric vehicle or the like typically has an assembly in which a plurality of unit cells are formed and a plurality of the assemblies, and the cell includes a positive electrode collector, a separator, an active material, an electrolyte, an aluminum thin film layer And the charge / discharge is possible by the electrochemical reaction between the components.

In addition to this basic structure, the battery pack can be used as a power supply control for a driving load of a motor or the like, an electric characteristic value measurement such as a current or a voltage, a charging / discharging control, a voltage equalization control, a state of charge A battery management system (BMS) for monitoring and controlling the state of the secondary battery is further included.

In recent years, the issue of depletion of energy resources by fossil fuels, issues of environmental pollution, and economical efficiency of energy use have been highlighted. Thus, it is necessary to effectively overcome the inconsistency between power consumption and power production, A smart grid system that flexibly adjusts the power supply amount in connection with various information communication infrastructures in order to solve overload caused by waste and power supply shortage is actively researched and the secondary battery is effective in such a smart grid system Energy storage and utilization.

Generally, the battery pack is constituted by a plurality of secondary batteries connected in series and / or parallel structure. The power supplied to the load of the motor pack, the generator, the electric system facility, etc. of the battery pack is transmitted to the electric connection of the plurality of secondary batteries In the system.

A plurality of secondary batteries constituting the battery pack are different in capacity performance from each other due to intrinsic characteristics or manufacturing environment differences due to the lapse of use time, A difference in terminal voltage of the corresponding secondary battery cell or a state of charge (SOC) difference is generated.

It is known that such a difference is caused by differences in the dynamic states of individual batteries due to the Coulomb efficiency and the like. When the plurality of secondary batteries having the relative difference in electrical characteristics are driven as one battery pack, There is a problem that the charging or discharging ability of the entire battery pack is limited by the specific secondary battery.

In order to solve such a problem, conventionally, a secondary battery cell having an extremely high electrical characteristic value (such as SOC or voltage) consumes a charged amount, and a bucking technique is used to equalize the electrical characteristic values of the secondary batteries, Boosting, which is performed separately for the rechargeable battery having a low electrical characteristic value, is carried out.

Therefore, the above-described method requires additional electric elements such as discharge resistance, so that the process is complicated. In addition, it takes a considerable time to smooth the actual voltages and the like. Ineffective Which is a problem in that the mechanism is applied.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a discharge device and method capable of solving the voltage deviation between a plurality of secondary battery cells by a simple and economical method, have.

Other objects and advantages of the present invention will be described hereinafter and will be understood by the embodiments of the present invention. Further, the objects and advantages of the present invention can be realized by a combination of the constitution and the constitution shown in the claims.

According to an aspect of the present invention, there is provided a battery pack charging apparatus comprising: a battery pack including a plurality of secondary battery cells; A power line for supplying power of the battery pack to a load; A charging line electrically connected to the power line; A switching unit including a relay interposed between the charging line and each of the secondary battery cells; A measurement unit for measuring a voltage of each of the secondary battery cells; And a control unit for controlling the relay of the switching unit so that the charging power of the power line, which is branched through the charging line, flows into the secondary battery cell corresponding to a relatively low voltage of the measured voltage.

Here, it is preferable that the controller controls the relay of the switching unit so that the charging power flows into the secondary battery cell corresponding to the lowest voltage among the measured voltages. And to control the relay of the switching unit so that supply of the charging power is interrupted when the voltage of the cell becomes equal within an error range.

Further, the present invention may further include an adjustment unit that adjusts a power magnitude of the battery pack supplied to the load, wherein the control unit controls the power supplied to the load to be supplied to the load, And controls the adjustment unit.

Here, the adjustment unit is configured to include a variable device that varies the magnitude of the voltage supplied by the battery pack or the magnitude of the resistance between the load and the battery pack.

Preferably, the present invention further includes an operation unit for calculating an average value of the voltage of each of the secondary battery cells measured by the measuring unit, wherein the control unit is operable to supply the charging power to the secondary battery cell having a voltage lower than the average value, So that the relay of the switching unit can be controlled.

The control unit may control the relay of the switching unit so that the differential charging power is supplied according to the difference value, and further, the control unit may control the relay of the switching unit so that the differential charging power is supplied in accordance with the difference value. Off time of the relay so that differential charging power is supplied according to the difference value.

According to another aspect of the present invention, there is provided a method of charging a battery pack, the method including charging a battery pack including a plurality of secondary battery cells, a power line supplying power to the battery pack, A method for charging a battery pack in a battery pack device including a charging line connected to the secondary battery cell and a relay including a relay interposed between the charging line and each secondary battery cell, ; And a control step of controlling the relay of the switching unit so that the charging power that is branched through the charging line among the power of the power line flows into the secondary battery cell corresponding to a relatively low voltage of the measured voltage .

According to the present invention, when a voltage nonuniformity phenomenon occurs between a plurality of secondary cells (cells) constituting a battery pack, a part of a supplied power source supplied to a driving load of a motor or the like is branched, The battery can be charged, which can more effectively overcome the performance degradation due to the voltage deviation.

In addition, the present invention can be applied to a conventional battery pack system by a simple structural change, so that device expandability can be more easily implemented. Further, power can be supplied to a motor and an additional charging operation can be performed.

That is, by branching a part of the power supplied to the load or the like, it is possible to maintain the continuity of the load drive without interrupting the load drive of the motor or the like, and to effectively improve the performance degradation due to the voltage deviation.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given below, serve to further the understanding of the technical idea of the invention. And should not be construed as limiting.
1 is a block diagram showing the configuration of a charging apparatus according to a preferred embodiment of the present invention;
FIG. 2 is a view showing the configuration of the charging apparatus of FIG. 1 in more detail;
3 is a view for explaining a charging method according to a preferred embodiment of the present invention,
4 is a view for explaining a charging method according to another preferred embodiment of the present invention,
5 is a view for explaining a charging method according to another preferred embodiment of the present invention,
6 is a flowchart illustrating a charging method according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 1 is a block diagram showing a configuration of a charging device (hereinafter referred to as a charging device) 1000 of a battery pack according to a preferred embodiment of the present invention, and FIG. 6 is a block diagram showing the configuration of a battery pack according to a preferred embodiment of the present invention. Fig. 3 is a flowchart showing a process of charging a pack. Fig.

1, the charging apparatus 1000 of the present invention includes a battery pack 100, a power line 200, a charging line 300, a switching unit 400, a measuring unit 500, a controller 600, An adjusting unit 700, and an arithmetic unit 800.

The battery pack 100 includes a plurality of secondary battery cells, and the plurality of secondary battery cells may be connected to the battery pack 100 in a variety of ways such as serial, parallel, And is electrically connected by a method.

The battery pack 100 includes a plurality of secondary battery cells electrically connected by various methods. The battery pack 100 functions to supply power to a load 50 such as a driving motor. And a power line (200) electrically connecting the load (50).

The present invention does not charge a secondary battery in which a voltage deviation is generated by a complicated method such as boosting or bucking as described above, but rather branches a part of the power supplied to the load 50 through the power line 200 And supplying the branched power to the secondary battery cell to be subjected to additional charging.

To this end, the charging apparatus 1000 of the present invention forms a charging line 300 electrically connected to the power line and electrically connected to a switching unit 400 described later.

A portion of the power supplied to the load 50 through the power line 200 is branched or fed back and the feedback charging power is formed through a mechanism as described below to form a relatively low voltage Is supplied to the secondary battery cell.

2, a switching unit 400 is interposed between the charging line 300 and the secondary battery cell 110. The switching unit 400 is connected to the charging line 300 and the secondary battery cell 110, The number of relays 410 for switching on / off the electrical connection to each of the battery cells 110 is provided in the number corresponding to the number of the secondary battery cells 110.

The relay 410 is controlled by the control unit 600 of the present invention on and off and the relay 410 is not limited as long as it is an electrical and electronic device whose ON / Of course.

The measuring unit 500 of the present invention performs a function of measuring a voltage value of each secondary battery cell 110 constituting the battery pack 100 (S600). As described above, according to the present invention, when a voltage deviation occurs in each of the plurality of secondary battery cells 110, a performance deterioration of the battery pack 100 may occur. Therefore, in order to effectively overcome this problem, The voltage value of the battery cell 110 is measured to monitor whether a voltage deviation is occurring.

The voltage deviation may be caused by various causes including variations in the internal resistance of the secondary battery cell 110, the efficiency of the Coulomb, the charging and discharging efficiency of the secondary battery, the structural problem of the electric connection terminal, The electrical characteristics including the voltages observed from the outside depending on the environment of the applied electric equipment, internal electrolytes, pouch insulation, active material changes, etc., They can be placed in the same state.

When the voltage of each secondary battery cell 110 is measured by the measuring unit 500, the measured voltage value is input to the controller 600 of the present invention. The controller 600 determines whether a voltage deviation has occurred with respect to the input voltage value based on the error range (S610).

When it is determined that a voltage deviation has occurred on a battery-by-battery basis, the control unit 600 of the present invention determines that a charging power that is branched through the charging line 300 among the powers of the power line 200 is a relatively low voltage Off state of the relay 410 to be supplied to the secondary battery cell 110 corresponding to the secondary battery.

For example, when it is assumed that the battery pack 100 is composed of five secondary battery cells 110, and that the respective measured voltages are as shown in FIG. 3, the control unit 600 of the present invention includes the five secondary The secondary battery cell 110, which is the relatively low secondary battery cell 110 among the battery cells 110, is further charged.

That is, a relay corresponding to the # 2 secondary battery cell 110 among the relays 410 constituting the switching unit 400 is turned on, and the charging power that is branched or fed back from the power line is supplied to the # 2 And controls the secondary cell 110 to flow into the secondary battery cell 110.

It is considered that the electrical characteristic value from the viewpoint of the battery pack 100 is most likely to be limited by the lowest electrical characteristic value of the internal secondary battery cell 110 constituting the battery pack 100. Therefore, The charging power is supplied to the secondary battery cell 110 exhibiting the low voltage characteristic, and the charging power is supplied to the secondary battery cell exhibiting the lowest voltage characteristic.

That is, in the embodiment of FIG. 3, it is possible to process two or three secondary battery cells forming a relatively low voltage internally in the system so as to perform additional charging, The additional charging may be performed on only a single number of secondary cells corresponding to the lowest voltage as described above.

When the voltage of each of the secondary battery cells measured by the measuring unit 500 is equalized within an error range, (S640) The control unit 600 of the present invention controls the relay of the switching unit to stop the supply of the charging power (S650).

In order to further improve the processing for the additional charging as described above, the present invention may further include an operation unit 800. In order to more selectively determine the secondary battery cell 110 to be subjected to the additional charging, The calculating unit 800 is configured to calculate an average value of voltages of the respective secondary battery cells measured by the measuring unit 500 (S621).

When the average value, which is a statistical value of the voltage of each secondary battery cell, is calculated, the controller 600 of the present invention performs additional charge processing on the secondary battery cell, and the secondary battery cell has a voltage lower than the calculated average value. And controls the relay of the switching unit so that the charging power is supplied.

That is, when the average value (4.08 V) for each measured voltage is calculated as shown in FIG. 4, the controller 600 of the present invention selects the target secondary battery cell 110 having a voltage lower than the average value. In the example of FIG. 4, the secondary battery cell 110 having a voltage smaller than 4.08 V becomes the # 1 and # 2 secondary battery cells.

When the secondary battery cell 110 to be subjected to the additional charging is determined as described above, the controller 600 of the present invention determines that the charging power is supplied to the secondary battery cell 110 having a voltage lower than the average voltage value, The relay 410 is turned on and the other relay 410 is turned off to control the additional charging to proceed only to the selected secondary battery cells.

5, the operation unit 800 calculates a difference value between the voltage and the average value smaller than the average value (S623). When the result data for the difference value is input, the controller 600 ) Controls the relay of the switching unit so that the differential charging power is supplied in accordance with the difference value (S625), and it is most preferable that the time of turning on and off the control of the relay of the switching unit is controlled differentially.

In this way, it is possible to maintain the electrical characteristics most effectively according to the embodiment of the charging power, so that the additional charging processing optimized when the voltage deviation occurs can be performed.

In the embodiment of the present invention described above, since the voltage measurement is continuously performed for each measurement period, the secondary battery cell 110, which has been subjected to additional charging in one cycle, can not be regarded as an object of additional charging in the next cycle, It should be understood that the processing of voltage monitoring, object sorting, and additional charging in the embodiment of the present invention described above is applied cyclically since the object may be continuously monitored and changed by the above-described additional charging or the like.

On the other hand, when the method of branching a part of the electric power supplied to the load as described above, a part of the electric power supplied to the actual load is reduced. However, since the reduced power is used to maintain and improve the performance of the battery pack 100 itself, it is not considered that the efficiency is lowered. In view of long-term use, The more efficient it can be.

If it is assumed that the actual power to be supplied is 30 W and 2 W of the additional charge is used as the charging power, the control unit 600 of the present invention may include an adjustment unit for adjusting the power size of the battery pack supplied to the load 700) so that 32W, which is the sum of the electric power to be supplied to the load and the charging electric power, is supplied to the load, so that the electric power of 30W is continuously supplied to the actual load .

Of course, when the circulation period for the additional charge is short or when it is applied in real time, an error range may occur. However, through such a configuration, a user operating an electric vehicle or the like drives the motor with an output of about 30 W , 32 W can be output from the battery pack as a whole considering the power to be used for additional charging through the above-described mechanism, so that the load driving by the power of the user at the user level can be maintained.

The controller 600 may be configured as a variable element that varies the magnitude of the voltage supplied by the battery pack or the magnitude of the resistance between the load and the battery pack. Thereby controlling the total output power to be supplied as described above.

If the key of the vehicle is turned off or other termination conditions set in the system are met, the processing is terminated (S660).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

In addition, in the description of the present invention, the first and second expressions are terms of the instrumental concept used to relatively distinguish each constitution of each other, and the specific order, priority, importance, , Or it is obvious that it is not a term used to distinguish physical configurations from physical standards in absolute standards.

 In the meantime, in describing the present invention, each configuration of the charging apparatus 1000 of the present invention shown in FIG. 1 or the like should be understood as a component that is logically divided rather than as a physically separated component.

That is, since each constitution corresponds to a logical constituent element for realizing the technical idea of the present invention, even if each constituent element is integrally or separately performed, if the function performed by the logical constitution of the present invention can be realized, It is to be understood that any component that performs the same or similar function should be interpreted as falling within the scope of the present invention regardless of the consistency of the name.

100: Battery pack 110: Secondary battery cell
200: power line 300: charging line
400: switching part 410: relay
500: Measuring section 600: Control section
700: Adjustment unit 800: Operation unit
50: Load

Claims (16)

A battery pack comprising a plurality of secondary battery cells;
A power line for supplying power of the battery pack to a load;
A charging line for branching a part of electric power supplied to the load through the electric power line and using the electric power as charging electric power;
A switching unit including a relay interposed between the charging line and each of the secondary battery cells;
A measurement unit for measuring a voltage of each of the secondary battery cells;
A calculator for calculating an average value of the voltage of each of the secondary battery cells measured by the measuring unit and further calculating a difference between the voltage smaller than the average value and the average value; And
And a controller for controlling the relay of the switching unit so that a differential charging power is supplied to the secondary battery cell having a voltage lower than the average value according to the difference value. delete The apparatus of claim 1,
Wherein the control unit controls the relay of the switching unit so that the supply of the charging power is stopped when the voltage of each secondary battery cell measured by the measuring unit becomes equal within an error range. The method according to claim 1,
Further comprising an adjustment unit for adjusting a power level of the battery pack supplied to the load,
Wherein,
Wherein the control unit controls the adjustment unit so that the power supplied to the load and the sum of the charging power are supplied to the load. 5. The apparatus according to claim 4,
And a variable element that varies the magnitude of the voltage supplied by the battery pack or the magnitude of the resistance between the load and the battery pack. delete delete The apparatus of claim 1,
Off time of the relay so that a differential charging power is supplied according to the difference value. A charging line for branching a part of electric power supplied to the load through the electric power line and using the electric power as charging electric power, A method of charging a battery pack in a battery pack apparatus including a switching unit including a relay interposed between each secondary battery cell,
Measuring a voltage of each of the secondary battery cells;
Calculating an average value of voltages of each of the measured secondary battery cells, and further calculating a difference between a voltage smaller than the average value and the average value; And
And controlling the relay of the switching unit so that a differential charging power is supplied to the secondary battery cell having a voltage lower than the average value according to the difference value. delete 10. The method according to claim 9,
Wherein the relay of the switching unit is controlled so that the supply of the charging power is interrupted when the voltage of each secondary battery cell measured in the measuring step becomes equal within an error range. 10. The method of claim 9,
Further comprising an adjusting step of adjusting a power level of the battery pack such that power to be supplied to the load and the sum of the charging power are supplied to the load. 13. The method according to claim 12,
And varying the magnitude of the voltage supplied by the battery pack or the magnitude of the resistance between the load and the battery pack. delete delete 10. The method according to claim 9,
Off time of the relay is controlled so that a differential charging power is supplied according to the difference value.

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