KR101653700B1 - Battery Management System united with I/O module - Google Patents

Abstract

The present invention relates to an input / output unit battery management system in which an input / output unit is integrated and an administrator can communicate with a management server on a web and a local communication using a smart phone, thereby quickly and easily monitoring and controlling the state of the battery pack.
The input / output unit integral battery management system according to the present invention is connected to a battery pack, wherein the total battery pack voltage, the total battery pack current, the battery pack temperature, the respective battery cell voltages constituting the battery pack, Battery-pack-related information including a state of charge (SOC) of the battery pack and a state of health (SOH) of the battery pack is periodically measured and calculated and stored in the storage unit, And stores the value in the storage unit; An input / output board for performing a direct input / output interface between the battery controller and the manager; A local communication unit for performing an interface between the battery control unit and the mobile terminal of the manager; And a web communication unit for performing an interface between the battery control unit and a remote management server.

Description

[0001] The present invention relates to an I / O module,

The present invention relates to a battery management system, and more particularly, to an integrated I / O unit so that an administrator can communicate with a management server on the web and a local communication using a smart phone, so that battery pack status monitoring and control can be quickly and easily performed. And more particularly, to an input / output unit integrated battery management system.

The secondary battery industry is constantly growing due to environmental problems such as the depletion of energy and the convention on climate change, and it is also important in terms of strategic investment in future energy for alternative energy. Generally, a large-capacity battery is composed of a plurality of battery packs connected in series, and each battery pack has a large number of battery cells connected in series or in parallel.

Generally, a large-capacity lithium ion battery used for industrial purposes is increasing in demand because of its excellent characteristics such as light weight, large electromotive force, no memory effect, and very little power loss due to self-discharge. However, such a lithium ion battery is temperature-sensitive, and there is a risk of explosion at a high temperature or an overcharge / overdischarge condition.

Therefore, when a large-capacity battery used in an existing train or a UPS is replaced with a lithium-ion battery in a lead-acid battery, a nickel-cadmium battery, or a nickel-metal hydride battery, the status of the lithium-ion battery is monitored, A battery management technique is required to allow the manager to take appropriate measures. The battery management system for lithium-ion batteries monitors the status of lithium-ion batteries and controls charging and discharging.

Conventionally, in order to monitor the operation and control state of a lithium ion battery, an administrator must connect an external monitoring device such as a PC to a battery management system to execute a graphical user interface (GUI) There is a problem that accessibility is poor.

Korean Patent No. 1156342

Korean Patent No. 1121095

Korean Patent No. 1270798

It is an object of the present invention to solve the above-mentioned problems of the related art by providing an I / O board built in a battery management system, a smart phone owned by a manager, a web access management server at a remote place, The present invention provides an I / O unit integrated battery management system for accessing a battery management system to enable status monitoring and control of a large-capacity lithium ion battery.

According to an aspect of the present invention, there is provided an input / output unit integrated battery management system including: an input / output unit integrated battery management system connected to a battery pack, the integrated battery management system comprising: (SOC), a state of charge (SOC) of the battery pack, and a state of health (SOH) of the battery pack, and periodically measures and calculates the battery pack related information, A battery controller for storing and storing the cell balance value set by the manager in the storage unit;

An input / output board for performing a direct input / output interface between the battery controller and the manager;

A local communication unit for performing an interface between the battery control unit and the mobile terminal of the manager;

And a web communication unit for performing an interface between the battery control unit and a remote management server.

As described above, according to the present invention, since a separate interface PC is not required, and the battery management system can be accessed by various interface means such as an input / output board built in the battery management system, a smart phone possessed by the manager, The battery management system of the present invention improves the accessibility to the battery management system, thereby improving the promptness, convenience, and economy.

1 is a block diagram showing an input / output unit integrated battery management system according to the present invention.
2 is an exemplary view showing a management server connection screen.
FIG. 3 is an exemplary view showing a detailed inquiry screen for one battery pack in the connection screen of FIG. 2. FIG.

Hereinafter, the present invention will be described in detail with reference to the drawings. The following embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. Like reference numerals designate like elements throughout the specification. Abbreviations denoted throughout this specification are to be construed to mean levels that are known to those of ordinary skill in the art, unless otherwise indicated herein.

1 is a block diagram showing an input / output unit integrated battery management system according to the present invention.

The input / output unit integrated battery management system 110 according to the present invention includes a battery control unit 111, a storage unit 112, an input / output board 113, a short range communication unit 114, a web communication unit 115, And a position sensing unit 116.

The battery control unit 111 is connected to the battery pack 120 to calculate the total battery pack voltage, the total battery pack current, the battery pack temperature, the battery cell voltage constituting the battery pack, the number of charge / A state of charge (SOC) of the battery pack 120, and a state of health (SOH) of the battery pack 120 are periodically measured and calculated and stored in the storage unit 112. The storage unit 112 further stores the cell balance value set by the administrator. Here, the cell balance value means a reference voltage at which cell balancing is performed when the battery pack 120 is charged. The cell balance value may be an overcharge prevention reference voltage or a reference error voltage with respect to the battery cell average voltage.

When the cell balance value is the overcharge-prevention reference voltage, the battery control unit 111 performs cell balancing operation on the corresponding battery cell when the battery cell voltage of some of the battery cells constituting the battery pack 120 reaches the overcharge- So that the battery cell voltage is discharged through the discharging resistor matched to the corresponding battery cell. Thereby, cell balancing is performed on the entire battery pack to prevent overcharging of the battery cell, so that the entire battery pack is fully charged.

Alternatively, when the cell balance value is the reference error voltage, the battery controller calculates an average voltage with respect to the voltages of all the battery cells when the battery pack is charged. The battery control unit causes cell balancing to be performed on the battery cells whose difference between the voltage of the battery cell and the average voltage is less than the reference error voltage as normal and the difference between the average voltage and the average voltage is equal to or greater than the reference error voltage, So that the battery cell voltage is discharged through the discharged discharge resistance. Thereby, cell balancing is performed on the entire battery pack to prevent overcharging of the battery cell, so that the entire battery pack is fully charged.

In the case of a new battery pack, since all the battery cells constituting the battery pack are healthy and have similar characteristics, all the battery cells are charged and discharged almost simultaneously, thereby requiring little cell balancing. However, the deterioration rate of each battery cell varies depending on the characteristics of each battery cell and the position in the pack. In this case, a time difference occurs in charging and discharging the battery cell, and cell balancing is required due to voltage dispersion between battery cells .

As the battery pack is used, the number of cells to be balanced increases, and the time required for cell balancing (the time required for full charging of all battery cells) increases as the number of cells to be balanced increases. Typically, the number of cells to be balanced or the cell balancing time is not large until the deterioration of the battery pack progresses to some extent. However, when the specific deterioration time passes, the number of cells to be balanced and the cell balancing time are rapidly increased.

Therefore, in the present invention, the health state (SOH) of the battery pack is preferably calculated based on the number of cells to be balanced and the cell balancing time. The battery control unit 111 cumulatively stores the history of the number of cells to be balanced and the cell balancing time at each set cycle and derives information on the number of cells to be balanced and the cell balancing time based on the stored history, Estimate health status (SOH). For example, the battery controller 111 estimates the SOH based on the number of cells to be balanced or the rate of change of the cell balancing time in the current cycle to the rate of change of the cell balancing time in the previous cycle.

Output board 113 is connected to the local communication unit 114 and the web communication unit 115 is connected to the battery control unit 111. The input and output board 113 performs a direct input / output interface with the manager, The web communication unit 115 performs an interface between the administrator mobile terminal 130 and the battery control unit 111 and the web communication unit 115 performs an interface between the management server 140 and the battery control unit 111 via a communication network.

The input / output board 113 includes a key input unit and a display output unit. The input / output board 113 sends an administrator control signal to the battery control unit 111 through the key input unit, and outputs battery pack status information input from the battery control unit 111 to the display output unit Display. The key input unit may include a push switch, and the display output unit may include a flexible numeric display (FND) and a light emitting diode (LED).

The battery control unit 111 periodically measures and calculates information on the battery pack stored in the storage unit 112 (for example, the total battery pack voltage, the total battery pack current, the battery pack temperature, the position information, Battery cell voltage, battery pack charge / discharge count, battery pack charge state (SOC), battery pack health state (SOH), etc.) (140). The management server 140 registers the unique identification number of the battery pack, the vehicle information, the product photograph, and the close-range communication access information in which the relevant battery pack is installed, and obtains the battery pack unique identification number, , And receives and stores the cell balance value.

The management server 140 collects and stores the information on the battery pack together with the battery pack unique identification information from the battery control unit mounted on each of the plurality of different vehicles.

The administrator can access the management server 140 at a remote location via the communication network using the mobile terminal 130 or the PC terminal. When the manager accesses the management server 140, as shown in FIG. 2, a list of the entire battery pack unique identification numbers managed by the management server 140, an icon indicating the currently selected battery pack, a total battery pack voltage, The current date, the battery pack temperature, and the updated date of information on the battery pack are displayed, and the position information and the product photograph of the selected battery pack are displayed on the terminal screen.

When the administrator selects and connects a specific battery pack unique identification number on the terminal screen, the battery cell voltages constituting the battery pack are displayed as shown in FIG. Although not shown, the cell balance value, the number of charge / discharge cycles of the battery pack, the state of charge (SOC) of the battery pack, and the health state (SOH) of the battery pack may be further displayed.

Upon request of the mobile terminal 130, the management server 140 informs the mobile terminal 130 of the local communication access information of the input / output unit integrated battery management system 110. Then, the mobile terminal 130 establishes a local communication channel to the local communication unit 114, and communication is established between the mobile terminal 130 and the battery control unit 111. The short-range communication unit 114 is preferably a Bluetooth communication unit.

The mobile terminal 130 may access the management server 140 and receive information on the battery pack stored in the management server 140. The mobile terminal 130 may communicate with the battery controller 111 through the short- Information on the battery pack is collected and monitored in real time while controlling the battery pack 111, and the cell balance value is also modified. In this case, the cell balance value is a reference voltage at which the cell balancing is performed when the battery pack 120 is charged. If the cell balance value is set incorrectly, the cell balancing may not be normally performed and an abnormality may occur in the battery pack. Therefore, when the mobile terminal 130 is used to monitor the information about the battery pack and reset the cell balance value, the administrator authentication is performed.

The management server 140 stores an administrator authentication number and a UUID (Uinique User Identifier) of a mobile terminal for each manager. When an administrator authentication is requested from an arbitrary mobile terminal, the UUID of the mobile terminal and the authentication number for authentication request The UUID of the administrator mobile terminal and the administrator authentication number of the stored administrator mobile terminal are compared with each other. Once the administrator authentication is granted, the cell balance value can be reset. When the cell balance value is reset after the administrator authentication, the time information of resetting the cell balance value and the reset manager information are stored.

110: I / O unit integrated battery management system 111: Battery control unit
112: storage unit 113: input / output board
114: Local area communication unit 115: Web communication unit
116: position sensing unit 120: battery pack
130: mobile terminal 140: management server

Claims (4)

The total battery pack current, the battery pack temperature, the respective battery cell voltages constituting the battery pack, the number of charge / discharge cycles of the battery pack, the state of charge (SOC) of the battery pack, A battery control unit for periodically measuring and calculating battery pack related information including a state of health (SOH) of the battery pack, storing the calculated information in a storage unit, receiving a cell balance value set by an administrator, Wow; An input / output board for performing a direct input / output interface between the battery controller and the manager; A local communication unit for performing an interface between the battery control unit and the mobile terminal of the manager; And a web communication unit for performing an interface between the battery control unit and a remote management server,
The battery control unit accumulates and accumulates the history of the number of cells to be balanced and the cell balancing time for each set period, and estimates the health state (SOH) of the battery pack from the rate of change of the cell balancing time and the number of cells to be balanced, based on the stored history Output unit battery management system. delete The battery control apparatus according to claim 1, wherein the battery control unit enables the cell balance value to be reset after approval of the manager authentication,
The manager authentication approval stores an administrator authentication number and a UUID (Uinique User Identifier) of an administrator mobile terminal. When an administrator authentication is requested from an arbitrary mobile terminal, a UUID of the manager authentication request mobile terminal and an authentication request authentication request number The UUID of the manager mobile terminal and the manager authentication number of the manager mobile terminal received and stored, and approves the manager authentication when all of them match. The system of claim 1, wherein the local communication unit is a Bluetooth communication unit.

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