KR20130013108A - Balancing apparatus of secondary battery - Google Patents

Abstract

PURPOSE: A balancing apparatus of a secondary battery is provided to simplify a mechanism for equalization of a battery cell by utilizing an energy source equipped in a vehicle. CONSTITUTION: A battery module(120) includes multiple battery cells. A transformer(130) equips a primary side coils and a secondary side coils. Primary side coils charges and discharges battery cells respectively. The secondary side coils are connected to an auxiliary battery(110) in order to be switchable. A controller(140) equips a high voltage search module, a first switching module, and an auxiliary battery charge module. A high voltage search module searches for a high voltage battery cell. [Reference numerals] (110,210) Auxiliary battery; (140,240) Controller

Description

Balancing apparatus of secondary battery

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an equalization device for a secondary battery battery, and more particularly, to an equalization device for a secondary battery battery that implements balancing of battery cells using a transformer.

In the case of eco-friendly vehicles represented by hybrids and electric vehicles, secondary battery batteries are used as energy sources of driving motors driving vehicles. The secondary battery battery is composed of a battery module consisting of a plurality of unit battery cells.

Meanwhile, in the conventional vehicle secondary battery battery, when a change in current occurs due to a slight difference in internal resistance between the battery cells constituting the battery module, there is a voltage variation between cells due to the difference in cell internal resistance. In this case, if the battery is continuously charged and discharged without equalizing the voltage variation between cells, the cell having a large internal resistance of the cell may be overcharged or overdischarged, which greatly affects the life of the battery.

In order to solve this problem, a conventional vehicle secondary battery battery uses a voltage equalization technique between battery cells. For example, there is a top equalization and bottom equalization apparatus using a transformer in a conventional voltage equalization technique. Top equalizer transfers the energy of the primary coil corresponding to the cell with high voltage to the secondary coil and performs the equalization. Bottom equalizer transfers the energy of the primary coil of the remaining cells except the low voltage cell to 2 It is a device that performs the equalization by using the transfer to the secondary coil.

But. Such a conventional equalization device of a secondary battery battery has a disadvantage in that the control such as switching operation is complicated, and takes a lot of time required for equalization of the battery cell.

KR 20-2011-0001205 A, 2011. 02. 08, Drawing 1

An object of the present invention is to provide an equalization device for a secondary battery battery that can simplify the equalization control and shorten the time required for equalization by simplifying a mechanism for equalization of battery cells by utilizing an energy source already installed in a vehicle. .

The present invention for achieving the above object relates to an apparatus for equalizing a secondary battery battery, the apparatus for equalizing the secondary battery battery, the secondary battery of the vehicle; A battery module consisting of a plurality of battery cells; A secondary coil connected to the battery cells so as to be switchable, respectively, and configured to correspond to the primary coils and the primary coils for charging and discharging each of the corresponding battery cells, and the secondary coil connected to the secondary battery so as to be switchable. Equipped trans; And a high voltage search module for searching for a high voltage battery cell having a higher voltage than other battery cells among the battery cells in conjunction with the battery module; and when the voltage of the found high voltage battery cell matches an average value of voltages of other battery cells. A first switching module for switching so that the high voltage battery cell and the corresponding primary side coil are connected to each other, and switching the connection of the other battery cells except the high voltage battery cell and the corresponding primary side coils to be disconnected; And a secondary battery charging module configured to switch the secondary coil and the secondary battery to be connected such that power discharged through the primary coil corresponding to the high voltage battery cell is charged through the secondary coil to charge the secondary battery. The controller; characterized in that it comprises a.

On the other hand, the present invention for achieving the above object relates to an equalization device of a secondary battery battery, a secondary battery of a vehicle; A battery module consisting of a plurality of battery cells; A secondary coil connected to the battery cells so as to be switchable, respectively, and configured to correspond to the primary coils and the primary coils for charging and discharging each of the corresponding battery cells, and the secondary coil connected to the secondary battery so as to be switchable. Equipped trans; And a low voltage search module for searching for a low voltage battery cell having a lower voltage than other battery cells among the battery cells in conjunction with the battery module, and an auxiliary battery discharge module for switching the power of the auxiliary battery to be discharged to the secondary coil. The low voltage battery cell is switched so that the low voltage battery cell and the corresponding primary side coil are connected until the voltage of the found low voltage battery cell matches the average value of voltages of the other battery cells by the power of the secondary coil. And a controller having a second switching module for switching so that the connection between the other battery cells except the primary coils corresponding to them is cut off.

As described above, the present invention provides a mechanism for equalizing the battery cells by connecting the secondary battery mounted on the vehicle to the secondary coil of the transformer to charge the high voltage battery cell to lower the voltage or to discharge the low voltage battery cell to increase the voltage. The control procedure can be simplified and the time required for equalization can be shortened.

1 is a block diagram of an equalization apparatus of a secondary battery battery according to one embodiment of the present invention.
2 is a functional block diagram of a controller according to an embodiment of the present invention.
3 is a control procedure of the equalization device of a secondary battery battery according to an embodiment of the present invention.
4 is a functional block diagram of a controller according to another embodiment of the present invention.
5 is a control procedure of the equalization device of a secondary battery battery according to another embodiment of the present invention.

Hereinafter, an equalization apparatus of a secondary battery battery according to one embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a conceptual block diagram of an equalization apparatus of a secondary battery battery according to an embodiment of the present invention. As shown in FIG. 1, an equalization apparatus 100 of a secondary battery battery includes an auxiliary battery 110, a battery module 120, a transformer 130, and a controller 140.

The auxiliary battery 110 assists the main battery of the vehicle and is connected to the secondary coil 136 of the transformer 130 through the second switching element 138. In general, the secondary battery 110 may be continuously charged and discharged by a low voltage DC-DC converter (LDC). The charge and discharge control of the auxiliary battery 110 according to the present embodiment is performed by the well-known technology of the LDC and a detailed description thereof will be omitted.

The battery module 120 may be composed of a plurality of battery cells 122. In FIG. 1, six battery cells 122 are illustrated. For convenience of explanation, the battery cells 122 are identified by numbers. Status such as the voltage of the battery cell 122 is monitored by the controller 140.

The transformer 130 is disposed in correspondence with the primary coils 132 connected in series with each of the battery cells 122, and the secondary coils disposed in correspondence with the primary coils 132 and connected in series with the auxiliary battery 110. 136, between the primary coil 132 and the first switching element 134 disposed between the corresponding battery cells 122, and between the secondary coil 136 and the auxiliary battery 110. It may be made of a second switching element 138 shown in. Connection between the first switching element 134 and the second switching element 138 of the transformer 130 is controlled by the controller 140.

As shown in FIG. 2, the controller 140 may include the high voltage search module 142, the first switching module 144, and the auxiliary battery charging module 146, and may detect the detected voltage of the battery cell 122. By using the same, the equalization of the battery cells 122 may be performed by controlling the switching elements 134 and 138 of the transformer 130.

The high voltage search module 142 searches for a high voltage battery cell having a higher voltage than other battery cells 122 among the battery cells 122 in cooperation with the battery module 120. That is, the high voltage search module 142 compares the voltages of the monitored battery cells 122 to determine the high voltage battery cell 122 as the high voltage battery cell 122.

For example, the high voltage search module 142 compares the voltages of the first to sixth battery cells 122 shown in FIG. 1, when the voltage of the fifth battery cell 122 is high, the fifth battery. The cell 122 is designated as a high voltage battery cell.

The first switching module 144 and the high voltage battery cell 122 until the voltage of the high voltage battery cell 122 retrieved by the high voltage search module 142 matches the average value of the voltage of the other battery cell 122 The first switching element 134 is switched so that the corresponding primary side coil 132 is connected, and other battery cells 122 except for the high voltage battery cell 122 and the primary side coils 132 respectively corresponding thereto are switched. The first switching elements 134 are switched to disconnect the connections.

For example, when the fifth battery cell 122 illustrated in FIG. 1 is set as a high voltage battery cell, the first switching module 144 may have a voltage value of the fifth battery cell 122 in the first to fourth times. The first switching element 134 connected to the fifth battery cell 122 is connected to match the average value of the voltages of the battery cells 122 and the sixth battery cell 122, and to the remaining battery cells 122. The connection of the connected first switching elements 134 is blocked. As a result, the discharge voltage of the fifth battery cell 122 transferred to the primary coil 132 is changed until the voltage of the fifth battery cell 122 matches the average value of the other battery cells 122. 136).

The secondary battery charging module 146 is configured such that the power discharged through the primary coil 132 corresponding to the high voltage battery cell 122 charges the secondary battery 110 through the secondary coil 136. The secondary battery 136 is connected to the secondary battery 136 by switching 138.

As described above, the equalization device 100 of the secondary battery battery according to the present embodiment uses the power of the primary coil 132 of the battery cell 122 that is higher than that of the other battery cells 122 to supply the secondary coil 136. By equalizing the voltage of the battery cell 122 by charging the auxiliary battery 110, the control procedure for equalization can be simplified as compared with the related art, and the time required for equalization can be shortened.

Hereinafter, with reference to FIG. 3, the operation of the equalization device 100 of the secondary battery battery according to an embodiment of the present invention. Here, the controller 140 will be described.

The controller 140 measures the voltage of each of the battery cells 122 (S310). Next, the controller 140 compares the measured voltage values, and calculates a difference between a voltage value of a high voltage battery cell having a higher voltage among the battery cells 122 and an average value of voltages of other battery cells 122 in advance. It is determined whether it is larger than the first predetermined deviation (S320).

As a result of the determination in step S320, when it is determined that the difference in the calculated voltage is greater than the first reference deviation, the controller 140 may supply the high voltage battery cell 122 until the voltage value of the high voltage battery cell matches the voltage value of another battery cell. The first switching device 134 is switched so that the first coil 132 is connected thereto.

That is, the control signal for driving the first switching device 134 is applied to the battery module 120, and the control signal input to the battery module 120 is driven by driving the first switching device 134. ) State. The controller 140 maintains this ON state until the voltage value of the high voltage battery cell 122 matches the average voltage value of the other battery cells 122.

 Next, the controller 140 outputs a control signal to the transformer 130 so that the second switching element 138 is turned on, thereby outputting the power of the primary coil 132 of the high voltage battery cell 122 to the secondary coil. Transfer to 136 (S340). The power delivered to the secondary coil 136 charges the auxiliary battery 110 through the second switching element 138.

Hereinafter, referring to FIGS. 1, 4, and 5, an equalization apparatus 200 of a secondary battery battery according to another exemplary embodiment of the present invention will be described. Since the hardware configuration of the equalization apparatus 200 of the secondary battery battery according to the present exemplary embodiment is the same as that of FIG. 1 described above, referring to FIG. 1 for explanation, the equalization apparatus 200 of the secondary battery battery according to the present embodiment Reference numerals for the components refer to the reference numerals of FIG. 1 enclosed horizontally.

As shown in FIG. 1, the equalization apparatus 200 of the secondary battery battery according to another exemplary embodiment of the present invention is the same as the above-described embodiment, the auxiliary battery 210, the battery module 220, and the transformer ( 230 and controller 240. However, the function of the controller 240 is different from the embodiment described above.

As illustrated in FIG. 4, the controller 240 may include a low voltage search module 242, a secondary battery discharge module 244, and a second switching module 246.

The low voltage search module 242 and the battery module 220 interwork with each other to search for a low voltage battery cell having a lower voltage than other battery cells 222. That is, the low voltage search module 242 compares the voltages of the monitored battery cells 222 to determine the battery cell 222 having a low voltage as the low voltage battery cell.

For example, the low voltage search module 242 compares the voltages of the first to sixth battery cells 222 shown in FIG. 1, when the voltage of the fifth battery cell 222 is high, the fifth battery. The cell 222 is defined as a low voltage battery cell.

The auxiliary battery discharge module 244 outputs a switching control signal to the transformer 230 so that the second switching device 238 is turned on. When the second switching device 238 is turned on, the power of the auxiliary battery 210 is discharged to the secondary coil 236 by a low voltage DC-DC converter (LDC).

The second switching module 246 switches the low voltage battery cell and its corresponding primary side coil 232 until the voltage of the found low voltage battery cell matches the average value of the voltages of the other battery cells, and switches the low voltage battery cell. Switching so that the connection of the other battery cells 222 and the primary coils 232 corresponding to them are cut off. As a result, the power of the secondary coil 236 is transferred to the primary coil 232 of the low voltage battery cell 222 until the voltage of the low voltage battery cell matches the average value of the voltages of the other battery cells. Power delivered to the primary coil 232 is charged to the low voltage battery cell 222, the equalization of the battery cell 222 is performed.

Hereinafter, referring to FIG. 5, an operation of the equalization apparatus 200 of a secondary battery battery according to another exemplary embodiment of the present disclosure will be described. 5 is a control flowchart according to another embodiment of the present invention.

The controller 240 measures the voltage of each of the battery cells 222 (S510). Next, the controller 240 compares the measured voltage values, and calculates a difference between a voltage value of a low voltage battery cell having a lower voltage among the battery cells 222 and an average value of voltages of other battery cells 222 in advance. It is determined whether it is smaller than the determined second reference deviation (S520).

As a result of the determination in step S520, when it is determined that the difference in the calculated voltage is smaller than the second reference deviation, the controller 240 outputs the switching control signal to the transformer 230 so that the second switching element 238 is turned on. (S530). When the second switching device 238 is turned on, the power of the auxiliary battery 210 is discharged to the secondary coil 236 by a low voltage DC-DC converter (LDC).

Next, the controller 140 connects the low voltage battery cell 222 and the corresponding primary side coil 232 until the voltage of the low voltage battery cell 222 matches the average value of the voltages of the other battery cells 222. The switching is performed such that the connection between the other battery cells 222 except the low voltage battery cell and the primary coils 132 corresponding thereto are cut off (S540).

As a result, the power of the secondary coil 236 is transferred to the primary coil 232 of the low voltage battery cell 222 until the voltage of the low voltage battery cell matches the average value of the voltages of the other battery cells 222. .

As described above, in the equalization apparatus 200 of the secondary battery battery, the power of the secondary battery 210 discharged to the secondary coil 236 has a lower voltage among the battery cells 222. The equalization of the battery cells 222 may be realized by being transferred to the primary coil 232 of the.

Meanwhile, a modified embodiment in which the functions of the equalization apparatuses 100 and 200 of the rechargeable battery battery according to the two embodiments described above are combined may be implemented. Specifically, the control procedure shown in FIGS. 3 and 5 may be selectively performed.

That is, the apparatus for equalizing the secondary battery according to the modified embodiment may include a first mode performed by the high voltage search module 142, the first switching module 144, and the auxiliary battery charging module 146 shown in FIG. 2. The second mode performed by the low voltage search module 242, the auxiliary battery discharge module 244, and the second switching module 246 shown in FIG. 4 may be selectively performed.

Accordingly, the equalization device of the secondary battery battery of the modified form, when described through the above embodiments, by transferring the power of the high voltage battery cell 122 to the auxiliary battery 110 through the transformer 130 to the battery cell ( Equalization of 122 may be implemented or equalization may be achieved by transferring power of the auxiliary battery 210 to the low voltage battery cell 222 through the transformer 230.

100, 200: equalization device of a secondary battery battery
110, 210: Spare battery
120, 220: battery module
122, 222: battery cell
130, 230: trance
132, 232: primary coil
134 and 234: first switching element
136, 236: secondary coil
138 and 238: second switching element
140, 240: controller
142: high voltage search module
144: first switching module
146: secondary battery charging module
242: low voltage search module
244: secondary battery discharge module
246: second switching module

Claims (5)

Secondary battery of the vehicle;
A battery module consisting of a plurality of battery cells;
A secondary coil connected to the battery cells so as to be switchable, respectively, and configured to correspond to the primary coils and the primary coils for charging and discharging each of the corresponding battery cells, and the secondary coil connected to the secondary battery so as to be switchable. Equipped trans; And
A high voltage search module that searches for a high voltage battery cell having a higher voltage than other battery cells among the battery cells in association with the battery module, and until the voltage of the found high voltage battery cell matches an average value of voltages of the other battery cells; A first switching module for switching the high voltage battery cell and the corresponding primary side coil to be connected, and switching the connection of other battery cells except the high voltage battery cell and the corresponding primary side coils to be disconnected; And a secondary battery charging module configured to switch the secondary coil and the secondary battery to be connected so that the power discharged through the primary coil corresponding to the high voltage battery cell is charged through the secondary coil. Controller;
Equalizing device of a secondary battery battery, characterized in that it comprises a. The method of claim 1,
The controller may be configured to, when the deviation between the voltage value of the high voltage battery cell searched by the search module and the average value of voltages of other battery cells is greater than a first predetermined reference deviation, the first switching module and the auxiliary battery charging module. Equalization device of a secondary battery battery, characterized in that to carry out. The method of claim 1, wherein the controller,
A low voltage search module for searching for a low voltage battery cell having a lower voltage than other battery cells among the battery cells in conjunction with the battery module, and an auxiliary battery discharge module for switching the power of the auxiliary battery to be discharged to the secondary coil; The low voltage battery cell is switched so that the low voltage battery cell and the corresponding primary side coil are connected until the voltage of the found low voltage battery cell matches the average value of the voltages of the other battery cells by the power of the secondary coil. Further comprising a second switching module for switching so that the connection of the other battery cells and the primary coils corresponding to each other except them,
One of the first mode performed by the high voltage searching module, the first switching module, and the auxiliary battery charging module, and the second mode performed by the low voltage searching module, the auxiliary battery discharge module and the second switching module are selectively Equalization device of a secondary battery battery, characterized in that performed. Secondary battery of the vehicle;
A battery module consisting of a plurality of battery cells;
A secondary coil connected to the battery cells so as to be switchable, respectively, and configured to correspond to the primary coils and the primary coils for charging and discharging each of the corresponding battery cells, and the secondary coil connected to the secondary battery so as to be switchable. Equipped trans; And
A low voltage search module for searching for a low voltage battery cell having a lower voltage than other battery cells among the battery cells in conjunction with the battery module, and an auxiliary battery discharge module for switching the power of the auxiliary battery to be discharged to the secondary coil; The low voltage battery cell is switched so that the low voltage battery cell and the corresponding primary side coil are connected until the voltage of the found low voltage battery cell matches the average value of the voltages of the other battery cells by the power of the secondary coil. A controller having a second switching module for switching the connection of the other battery cells except the primary coils corresponding to the other battery cells to be disconnected;
Equalizing device of a secondary battery battery, characterized in that it comprises a. 5. The method of claim 4,
When the deviation between the voltage of the low voltage battery cell searched by the search module and the average value of voltages of the other battery cells is smaller than a second predetermined reference deviation, the controller disconnects the auxiliary battery discharge module and the second switching module. Equalization device of a secondary battery battery, characterized in that performed.

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