KR20200038005A - System and method for managing state of battery cell - Google Patents

Abstract

The present invention relates to a system for managing a state of a battery cell and to a method thereof. The system for managing a state of a battery cell can accurately determine and respond to a battery cell in which an abnormal state has occurred and a battery cell having a poor health state, by comparing data produced by measuring an impedance value in accordance with various environments of a battery cell with an impedance measurement value of a battery cell which is actually used.

Description

System and method for managing the state of a battery cell {SYSTEM AND METHOD FOR MANAGING STATE OF BATTERY CELL}

The present invention relates to a system and method for managing a state of a battery cell, and compares data generated by measuring an impedance value according to various environments of a battery cell with an impedance measurement value of a battery cell actually used, and The present invention relates to a system and method for managing a state of a battery cell that can accurately determine and respond to a battery cell having poor health.

A secondary battery having high applicability according to the product family and having electrical characteristics such as high energy density is not only a portable device, but also an electric vehicle (EV, Electric Vehicle), a hybrid vehicle (HV) driven by an electric driving source, or a household or It is widely used in energy storage systems (ESSs) or uninterruptible power supply (UPS) systems using mid-to-large batteries used for industrial purposes.

This secondary battery is drawing attention as a new energy source for eco-friendliness and energy efficiency improvement, in that not only does not generate any by-products due to the use of energy, as well as a primary advantage that can dramatically reduce the use of fossil fuels.

The secondary battery may not necessarily be implemented when a battery such as a mobile terminal is used, but a battery applied to an electric vehicle or an energy storage source as described above is generally used in a form in which a plurality of unit secondary battery cells are aggregated. This increases the suitability for high-capacity environments.

In the case where such batteries, especially a plurality of secondary batteries, are alternately charged and discharged, there is a need to efficiently control their charging and discharging to manage the batteries to maintain proper operating conditions and performance.

To this end, a battery management system (BMS) for managing the state and performance of the battery is provided. BMS measures the current, voltage, and temperature of the battery and infers the battery's condition based on this.

As a method for inferring the state of a battery cell, it may be said that the current method of measuring the voltage and temperature of the battery cell is common. In such a measurement method, even when the battery cell is not in a normal state, the voltage and temperature are expressed as normal for various reasons. If it does, it may be difficult to accurately judge, and there is also a problem that it is difficult to accurately infer the health state of the battery.

Japanese Patent Publication No. 1999-133123

The present invention has been derived in order to solve the above-described problem, by measuring the impedance of each battery cell by attaching an impedance measuring device to each battery cell, and information about the measured value and the impedance value of the battery cell depending on various environments. The present invention is to provide a system and method for managing a battery cell that can accurately determine a battery cell in which an abnormal condition has occurred by comparing the data containing the battery cell, and also determine a health state of the battery cell.

The state management system of a battery cell according to an embodiment of the present invention is installed in each of a plurality of battery cells included in a battery pack, an impedance value measuring unit measuring an impedance value of each battery cell, and a temperature value of each battery cell. Based on the temperature sensor to be measured, the amount of change in the impedance value measured through the impedance value measuring unit, and the amount of change in the temperature value measured through the temperature sensor, it is determined whether each battery cell has an abnormality and a health state value (SOH). It may include a judgment unit.

In one embodiment, it is included in the determination unit, the reference temperature value that is the reference to determine whether the determination unit is the abnormality of each battery cell and the determination unit is a reference to determine the deterioration of the health state of each battery cell A reference health state value is stored, and an impedance table corresponding to a changed temperature value and an impedance value corresponding to the changed health state value for one battery cell among the plurality of battery cells are previously measured and input the inputted table. It may further include a storage unit for storing and a current measurement unit for measuring a current value conducted to one or more battery cells among the plurality of battery cells.

In one embodiment, the impedance value measuring unit includes an integrated circuit for measuring the impedance value of each battery cell through a voltage frequency response characteristic with respect to the frequency of the current conducting to each battery cell, wherein the integrated circuit is the It can be installed inside or outside each battery cell.

In one embodiment, the temperature sensor may be located inside the battery pack and adjacent to one or more battery cells among the plurality of battery cells.

In one embodiment, the temperature sensor is composed of a plurality or a single, and receives the heat transfer directly in contact with each battery cell to measure the temperature value of each battery cell or to measure the convection of the ambient atmosphere of each battery cell Through this, the temperature value of each battery cell can be measured.

In one embodiment, the determination unit, when the main relay (Main Relay) of the battery circuit is on (on), the impedance value and the temperature value of each battery cell, the changed temperature value and the changed input to the table It may be determined whether or not each battery cell is abnormal by comparing with an impedance value corresponding to a health state value, and an alarm signal may be generated when the temperature value reaches or exceeds the reference temperature value.

In one embodiment, when the main relay of the battery circuit is in an OFF state, the determination unit is configured to set the impedance value of each battery cell to the changed temperature value and the changed health state value input to the table. The health state value of each battery cell may be compared with a value, and the alarm signal may be generated when the health state value of each battery cell is equal to or less than the reference health state value.

In one embodiment, the alarm signal may be a signal that is provided by the determination unit to a separate control device so that the separate control device controls a separate output device.

In one embodiment, the determination unit, if the current value of the plurality of battery cells conducting at least one of the battery cells while the main relay of the battery circuit is turned on, is greater than or equal to a reference current value, whether each battery cell is abnormal or not I can judge.

In one embodiment, the reference current value is one of the current values measured by the current measurement unit, and becomes a reference for determining whether each battery cell is abnormal as the determination unit determines that the one or more battery cells are operated. It can be a current value.

Method for managing the state of a battery cell according to another embodiment of the present invention is installed on each of a plurality of battery cells included in a battery pack through an impedance value measuring unit, and measures an impedance value of each battery cell, through a temperature sensor, The step of measuring the temperature value of each battery cell and the determination unit, based on the amount of change in the impedance value measured by the impedance value measurement unit and the temperature value measured by the temperature sensor of each of the battery cells It may include determining whether the abnormality and the health status value.

In one embodiment, through the storage unit, the determination unit is a reference temperature value that serves as a criterion for determining whether or not each battery cell is abnormal, and a reference health state value that is used as a criterion for determining the deterioration of the health status of each battery cell by the determination unit. And storing the input table by previously measuring the impedance value corresponding to the changed temperature value and the impedance value corresponding to the changed health state value for one of the plurality of battery cells and the current measurement unit. Through this, it may further include the step of measuring the current value to be conducted to one or more of the plurality of battery cells.

In an embodiment, whether or not each battery cell has an abnormality and a health state value based on a change amount of the impedance value measured through the impedance value measuring unit and a change amount of the temperature value measured through the temperature sensor through the determination unit In the determining, when the main relay of the battery circuit is in an on state, the impedance value and the temperature value of each battery cell are compared with the impedance value corresponding to the changed temperature value and the changed health state value input to the table. The method may include determining whether each battery cell is abnormal and generating an alarm signal when the temperature value reaches or exceeds the reference temperature value.

In an embodiment, whether or not each battery cell has an abnormality and a health state value based on a change amount of the impedance value measured through the impedance value measuring unit and a change amount of the temperature value measured through the temperature sensor through the determination unit In the determining, when the main relay of the battery circuit is in an off state, the impedance value of each battery cell is compared with the impedance value corresponding to the changed temperature value and the changed health state value input to the table, and And determining a health state value of the battery cell and generating the alarm signal when the health state value of each battery cell is equal to or less than the reference health state value.

In an embodiment, whether or not each battery cell has an abnormality and a health state value based on a change amount of the impedance value measured through the impedance value measuring unit and a change amount of the temperature value measured through the temperature sensor through the determination unit The determining may include determining whether each of the battery cells is abnormal when the current value of the plurality of battery cells being conducted is greater than or equal to a reference current value while the main relay of the battery circuit is turned on. It may include.

Battery pack according to another embodiment of the present invention is a plurality of battery cells, installed in each of the plurality of battery cells, an impedance value measuring unit for measuring the impedance value of each battery cell, the temperature for measuring the temperature value of each battery cell A determination unit for determining whether or not each battery cell is abnormal and a health state value (SOH) based on a change amount of the impedance value measured by the sensor and the impedance value measurement unit and a change amount of the temperature value measured by the temperature sensor It can contain.

In a battery cell state management system and method according to an embodiment of the present invention, an impedance measuring device is attached to each battery cell to measure the impedance of each battery cell, and the measured value and the impedance value of the battery cell depending on various environments By comparing the data containing the information on, it is possible to accurately determine the battery cell in which an abnormal condition has occurred, and it has the advantage of identifying the health state of the battery cell and responding in advance.

1 is a diagram showing the configuration of a state management system 100 of a battery cell according to an embodiment of the present invention.
FIG. 2 is a view more specifically showing the state management system 100 of the battery cell shown in FIG. 1.
3 is a flowchart illustrating a process of managing a state of a battery cell through the state management system 100 of a battery cell according to an embodiment of the present invention.

If described in detail with reference to the accompanying drawings the present invention. Here, repeated descriptions, well-known functions that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for a more clear description.

Throughout the specification, when a part “includes” a certain component, it means that the component may further include other components, not to exclude other components, unless otherwise stated.

In addition, the term "... part" described in the specification means a unit that processes one or more functions or operations, which may be implemented by hardware or software or a combination of hardware and software.

1 is a diagram showing the configuration of a state management system 100 of a battery cell according to an embodiment of the present invention, and FIG. 2 shows the state management system 100 of a battery cell shown in FIG. 1 in more detail. It is one drawing.

1 and 2, the battery cell state management system 100 according to an embodiment of the present invention includes an impedance value measuring unit 101, a temperature sensor 102, a storage unit 103, a current measuring unit ( 104) and the determination unit 105. The state management system 100 of the battery cell shown in FIGS. 1 and 2 is according to an embodiment, and its components are not limited to the embodiment shown in FIGS. 1 and 2, and some configurations are necessary Elements can be added, changed or deleted.

First, the impedance value measurement unit 101 is installed in each of the plurality of battery cells 11 included in the battery pack to measure the impedance value of each battery cell.

In addition, the impedance value measurement unit 101 includes an integrated circuit for measuring the impedance value of each battery cell 11 through the voltage frequency response characteristic to the frequency of the current that is conducted to each battery cell 11, the integrated circuit Each battery cell 11 may be installed inside or as shown in FIG. 2.

Here, the integrated circuit may be replaced with a device capable of measuring the impedance of the battery cell 11 equivalent thereto.

In addition, it is possible to determine the health and charging state of the battery cell 11 based on the impedance measurement according to the frequency applied to the battery cell 11. For example, characteristics of alternating current and voltage measured at a frequency of about 1 khz. As a result, the health state of the battery cell 11 may be determined, and the charging state of the battery cell 11 may be determined by characteristics of DC current and voltage measured at about 1 Hz.

In addition, the impedance value measurement unit 101 may measure the impedance value of the battery cell 11 in a manner using impedance spectroscopy (EIS).

Next, the temperature sensor 102 can measure the temperature value of each battery cell 11.

In addition, the temperature sensor 102 may be located inside the battery pack 10 and adjacent to one or more battery cells 11 of the plurality of battery cells.

In addition, as shown in the embodiment shown in FIG. 2, the temperature sensor 102 is composed of a plurality or single, and measures the temperature value of each battery cell 11 through convection of the surrounding atmosphere of each battery cell 11 Alternatively, the temperature value of each battery cell 11 may be measured by directly receiving heat transfer in contact with each battery cell 11.

Next, the storage unit 103 may be included inside the determination unit 105, as shown in FIG. 2, and the determination unit 105 is a criterion for determining whether each battery cell 11 is abnormal. The temperature value and the determination unit 105 stores a reference health state value, which is a criterion for determining the deterioration of the health state of each battery cell 11, and a changed temperature value for one battery cell 11 of the plurality of battery cells The impedance value corresponding to and the impedance value corresponding to the changed health state value may be previously measured and the inputted table may be stored.

Here, the reference temperature value is determined to be a situation in which the battery cell 11 is no longer capable of performing the function completely when comparing the table with the temperature value of the battery cell 11 measured by the temperature sensor 102. It may mean a temperature value, and may also mean a temperature value set in order to prevent an accident such as a fire due to heat generation of the battery cell 11.

Subsequently, the reference health state value compares the health state value of the battery cell 11 determined based on the impedance measurement value and the impedance value of the battery cell 11 measured by the impedance value measurement unit 101 with a table, When predicting the remaining life of the battery cell 11, it may mean a health value set so that the battery cell 11 or the battery pack 10 can be safely replaced before the life of the battery cell 11 reaches its end. .

Next, the current measuring unit 104 may measure a current value that is conducted to one or more battery cells 11 among the plurality of battery cells.

Here, the current measuring unit 104 can measure the current that is conducted for each battery cell 11, the battery pack 10 includes a plurality of battery cells 11, as in the embodiment of Figure 2 Alternatively, the current conducting to the battery circuit may be measured, and information on the measured current value may be provided to the determination unit 105.

Next, the determination unit 105 determines whether each battery cell 11 is abnormal based on the change amount of the impedance value measured through the impedance value measurement unit 101 and the change amount of the temperature value measured through the temperature sensor 102. And a health condition value.

In addition, when the main relay 12 of the battery circuit is in an on state, the determination unit 105 changes the impedance value and the temperature value of each battery cell 11 into the table and the changed temperature value and the changed health state value. It may be determined whether or not each battery cell 11 is abnormal by comparing with an impedance value corresponding to, and an alarm signal may be generated when the temperature value reaches or exceeds the reference temperature value.

In addition, when the main relay 12 of the battery circuit is in an OFF state, the determination unit 105 corresponds to the changed temperature value and the changed health state value of the impedance value of each battery cell 11 in the table. The health state value of each battery cell 11 may be determined by comparing with the impedance value, and an alarm signal may be generated when the health state value of each battery cell 11 is less than or equal to a reference health state value.

Here, the alarm signal may mean a signal provided by the determination unit 105 as a separate control device so that a separate control device controls a separate output device.

In addition, a separate control device may mean a control unit of a battery management system (BMS), and a separate control device may output a warning sound, warning light, and warning text that can be controlled by the BMS, or connect the battery in an emergency. It may mean a relay element of a battery circuit that can be released.

In addition, the determination unit 105, the main relay 12 of the battery circuit when the current value that is conducted to one or more battery cells 11 of the plurality of battery cells is more than the reference current value, each battery cell 11 ).

Here, the reference current value is one of the current values that the current measurement unit 104 can measure, and each battery cell 11 is determined by the determination unit 105 as determining that one or more battery cells 11 are operated. It may mean a current value that is a reference to determine whether or not.

Next, a process of managing the state of the battery cell through the state management system of the battery cell will be described with reference to FIG. 3.

3 is a flowchart illustrating a process of managing a state of a battery cell through the battery cell state management system shown in FIG. 1.

Referring to FIG. 3, first, it is determined whether the battery cell is abnormal or the health state of the battery cell according to the state of the main relay of the battery circuit (S201).

When the main relay of the battery circuit is in the on state, the current value for checking whether the battery cell is actually operated is measured. If the current measurement unit measures the current value above the reference current value (S202), the determination unit The operation of the battery cell is checked and the determination of whether the battery cell is abnormal is started based on the table stored in the storage unit and the impedance value of the battery cell measured by the impedance value measurement unit and the temperature value measured by the temperature sensor (S203).

Next, when the determination unit determines that the battery cell is abnormal due to a situation in which the measured temperature value exceeds the reference temperature value, the determination unit generates an alarm signal containing information on the abnormal state and transmits it to a separate control device. (S204).

On the other hand, when the main relay of the battery circuit is off (S202 '), the determination unit determines the health state of the battery cell based on the impedance value of the battery cell measured by the impedance value measurement unit and the table stored in the storage unit (S205). ), When the health state value of the battery cell reaches or falls below the reference health state value, the determination unit generates an alarm signal for the health state of the battery cell and transmits it to a separate control device (S204).

The above-described method for managing the state of a battery cell has been described with reference to a flowchart presented in the drawings. For simplicity, the method is shown and described in a series of blocks, but the present invention is not limited to the order of the blocks, and some blocks may occur in different orders or concurrently with other blocks than those shown and described herein. It may be, and various other branches, flow paths, and sequences of blocks that achieve the same or similar results may be implemented. In addition, not all blocks shown may be required for the implementation of the method described herein.

Although described above with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You can understand that you can.

10: battery pack
11: battery cell
12: main relay
100: battery cell status management system
101: impedance value measuring unit
102: temperature sensor
103: storage unit
104: current measuring unit
105: judgment unit

Claims (16)

An impedance value measuring unit installed in each of the plurality of battery cells included in the battery pack to measure the impedance value of each battery cell;
A temperature sensor for measuring the temperature value of each battery cell;
A determination unit configured to determine whether each battery cell is abnormal or not and a health state value (SOH) based on a change amount of the impedance value measured through the impedance value measurement unit and a change amount of the temperature value measured through the temperature sensor; Characterized in that, the battery cell status management system.
According to claim 1,
A reference temperature value that is included in the determination unit and serves as a criterion for determining whether or not each battery cell is abnormal and a reference health condition for which the determination unit determines a health condition deterioration of each battery cell. A storage unit for storing and storing a table input by measuring the impedance value corresponding to the changed temperature value and the impedance value corresponding to the changed health state value for one of the plurality of battery cells; And
And a current measuring unit configured to measure a current value conducted to one or more battery cells among the plurality of battery cells.
According to claim 1,
The impedance value measuring unit,
And an integrated circuit that measures the impedance value of each battery cell through a voltage frequency response characteristic to a frequency of a current that is conducted to each battery cell, wherein the integrated circuit is installed inside or outside the battery cell. Characterized by, the battery cell status management system.
According to claim 1,
The temperature sensor,
A battery cell state management system, characterized in that located inside the battery pack and adjacent to one or more of the plurality of battery cells.
According to claim 4,
The temperature sensor,
Consisting of a plurality or a single, the temperature value of each battery cell is measured by directly receiving heat transfer in contact with each battery cell, or the temperature value of each battery cell is measured through convection of the surrounding atmosphere of each battery cell Characterized in that, the battery cell status management system.
According to claim 2,
The determination unit,
When the main relay of the battery circuit is in an on state, the impedance value and the temperature value of each battery cell are set to the impedance value corresponding to the changed temperature value and the changed health condition value input to the table. Comparing and determining whether each battery cell is abnormal, and generating an alarm signal when the temperature value reaches or exceeds the reference temperature value, the battery cell status management system.
The method of claim 6,
The determination unit,
When the main relay of the battery circuit is in an OFF state, an impedance value of each battery cell is compared with an impedance value corresponding to the changed temperature value and the changed health state value input to the table, so that each battery cell And determining the health state value and generating the alarm signal when the health state value of each battery cell is equal to or less than the reference health state value.
The method according to any one of claims 6 to 7,
The alarm signal,
The determination unit is provided as a separate control device, characterized in that the signal that allows the separate control device to control a separate output device, the battery cell status management system.
The method of claim 6,
The determination unit,
When the main relay of the battery circuit is turned on, when the current values of one or more of the plurality of battery cells that are conducted to the battery cells are greater than or equal to a reference current value, it is determined whether each of the battery cells is abnormal or not. State management system.
The method of claim 9,
The reference current value,
One of the current values measured by the current measurement unit, characterized in that the determination unit determines that the one or more battery cells are operated, the current value that is a reference to determine whether or not each battery cell is abnormal, State management system.
A step of measuring an impedance value of each battery cell installed in each of the plurality of battery cells included in the battery pack through the impedance value measuring unit;
Measuring a temperature value of each battery cell through a temperature sensor; And
Determining whether an abnormality and a health state value of each battery cell are based on a change amount of the impedance value measured by the impedance value measurement unit and a change amount of the temperature value measured by the temperature sensor; It characterized in that it comprises, a method for managing the state of the battery cell.
The method of claim 11,
Through the storage unit, the determination unit stores a reference temperature value, which is a reference for determining whether or not each battery cell is abnormal, and a reference health status value, which is a reference for the determination unit to determine the deterioration of the health status of each battery cell, and Storing an input table by previously measuring an impedance value corresponding to a changed temperature value and an impedance value corresponding to the changed health state value of one of the plurality of battery cells; And
And measuring a current value conducted to one or more battery cells among the plurality of battery cells through a current measurement unit.
The method of claim 12,
Through the determination unit, determining the abnormality and health status of each battery cell based on the amount of change in the impedance value measured through the impedance value measuring unit and the amount of change in the temperature value measured through the temperature sensor is ,
When the main relay of the battery circuit is turned on, the impedance value and the temperature value of each battery cell are compared with the impedance value corresponding to the changed temperature value and the changed health state value inputted to the table, and And determining whether an abnormality occurs and generating an alarm signal when the temperature value reaches or exceeds the reference temperature value.
The method of claim 13,
Through the determination unit, determining the abnormality and health status of each battery cell based on the amount of change in the impedance value measured through the impedance value measuring unit and the amount of change in the temperature value measured through the temperature sensor is ,
When the main relay of the battery circuit is turned off, the impedance value of each battery cell is compared with the impedance value corresponding to the changed temperature value and the changed health condition value input to the table, and the health condition value of each battery cell is compared. Determining, and generating the alarm signal when the health state value of each battery cell is equal to or less than the reference health state value.
The method of claim 13,
Through the determination unit, determining the abnormality and health status of each battery cell based on the amount of change in the impedance value measured through the impedance value measuring unit and the amount of change in the temperature value measured through the temperature sensor is ,
And determining whether each of the battery cells is abnormal when the current values of the plurality of battery cells conducting at least one of the battery cells while the main relay of the battery circuit is turned on are greater than or equal to a reference current value. The method for managing the state of a battery cell.
A plurality of battery cells;
An impedance value measuring unit installed in each of the plurality of battery cells and measuring an impedance value of each battery cell;
A temperature sensor for measuring the temperature value of each battery cell;
And a determination unit configured to determine whether each battery cell is abnormal or not and a health state value based on a change amount of the impedance value measured through the impedance value measurement unit and a change amount of the temperature value measured through the temperature sensor. Characterized by, battery pack.

Images