KR101418182B1 - Energy storage system of controlling method for charge/discharge - Google Patents

Abstract

The present invention can determine a battery capacity (battery capacity) in a BMS (Battery Management System: "BMS") built in an ESS and maintain a proper level as desired by a user, Discharging automatic conversion control method of an energy storage system for managing the operation of an energy storage system, and when the battery capacity satisfies a level desired by a user, the charger is turned off to eliminate energy waste due to current consumption of the charger. (S1) of applying an AC voltage to a transfer switch (18) after turning on an inverter (16) for converting a DC voltage to an AC voltage; If it is determined in step S1 that the capacity of the battery is not set, the process goes to step S3. If it is determined that the capacity of the battery is not set, Wow; If the capacity of the battery is set in step S3, turning on the charger 12 and charging the battery; If it is determined in step S4 that the battery is charged to the set capacity, step S6 is performed to turn off the charger 12 if the battery is charged up to the preset capacity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an energy storage system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an energy storage system (ESS), and more particularly, to a battery management system (BMS) built in an ESS, It can maintain the proper level as desired by the user. If BMS manages the operation of the charger and the battery capacity satisfies the user's desired level, it can turn off the charger to eliminate energy waste due to the current consumption of the charger. And more particularly, to a method for controlling automatic charge / discharge of an energy storage system.

Generally, an energy storage system refers to a storage device that stores excess power generated at a power plant and temporarily transmits power when the power is insufficient.

The energy storage system is connected to a power generation system, a system, and controls charging or discharging of a load (e.g., a battery, etc.).

Here, the system is collectively referred to as a power plant, a substation, a transmission line, etc. When the system is in a normal state, power is supplied to the energy storage system to supply power to the storage battery, and the system receives power from the energy storage system.

The energy storage system performs an uninterruptible power supply (UPS) operation to control charging or discharging of the battery when the system is in an abnormal state, for example, when a power failure occurs.

However, the above-described conventional energy storage system is equipped with automatic conversion control of an uninterruptible power supply (UPS) type to charge or discharge a battery,

Since the energy storage system must always operate the charger in order to charge the battery, there is a problem that the energy loss due to the consumed current of the charger occurs basically.

In addition, the conventional energy storage system can not maintain the battery capacity as desired by the user, and the battery capacity needs to be controlled only by the set value of the charger.
[Prior Art Literature]
(Document 1) Application No. 10-2010-0064089 (filed on July 02, 2010)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an apparatus and method for determining a battery capacity in a BMS built in an ESS, Provides automatic charging / discharging control method of energy storage system that manages the operation of the charger in BMS and eliminates waste of energy due to charging current by turning off the charger when battery capacity satisfies the user's desired level There is.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method for controlling automatic charge /
A microprocessor control unit (MCU) 10 electrically connected to the power unit 5 for controlling the energy storage system according to a preset program; A charger 12 electrically connected to the MCM 10 to charge the battery pack with power supplied from the power source unit 5 according to a control signal of the MCM 10; A battery management system (14) electrically connected to the battery pack to manage the battery pack; An inverter (16) electrically connected to the battery management system (14) to convert a DC voltage applied from the battery management system (14) to an AC voltage; A transfer switch 18 electrically connected to the power source unit 5 and the inverter 16 to switch the power source; And a loader (20) electrically connected to the transfer switch (18) for discharging, the energy storage system comprising:
The MC oil 10 includes an S1 step of turning on an inverter 16 for converting a DC voltage into an AC voltage and then applying an AC voltage to the transfer switch 18;
The MCU 10 may include a step S2 of determining whether the power supply unit 5 is turned off;
If it is determined in step S2 that the power source unit 5 is not turned off, the MCU 10 determines whether the capacity of the battery is set.
If it is determined in step S3 that the capacity of the battery is set, the MC oil 10 turns on the charger 12 and charges the battery.
The MCU 10 determines whether the battery is charged up to a preset capacity.
If it is determined in step S5 that the battery has been charged up to the preset capacity, step S6 may be performed in which the MCY 10 turns off the charger 12,
If it is determined in S2 that the power source unit 5 is turned off, the MCY 10 assumes that a power failure has occurred, and then, the output of the inverter 16, which is connected to the transfer switch 18, (S7) of supplying power to the loader (20);
The MCU 10 determines whether the output current of the inverter 16 is higher than a preset output current at step S8.
If it is determined in S8 that the output current of the inverter 16 is lower than the preset output current, the MCY 10 determines whether the capacity of the battery is set. If it is determined in S8 that the MCY 10 is an inverter And determining that the power source unit 5 is off if the output current of the power source unit 16 is higher than a predetermined output current.

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As described above, the charge / discharge automatic conversion control method of the energy storage system according to the present invention can manage the on / off and run / stop of the battery charger unlike the conventional UPS system in which the charger is always turned on , It is possible to reduce unnecessary current consumption by reducing unnecessary charge on time.

In addition, since the present invention controls the run of the charger by inputting the desired battery capacity, the user can maintain the desired capacity, thereby reducing energy consumption caused by the user's desired more than required charge run .

1 is a schematic view showing the configuration of an energy storage system applied to the present invention,
2 is a flowchart of a charge / discharge automatic conversion control method of an energy storage system according to the present invention.

Hereinafter, a preferred embodiment of the charge / discharge automatic conversion control method of the energy storage system according to the present invention will be described. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a schematic view showing the configuration of an energy storage system applied to the present invention.

As shown in FIG. 1, an energy storage system 100 according to the present invention includes:

A microprocessor control unit (MCU) 10 electrically connected to the power unit 5 for controlling the energy storage system according to a preset program;

A charger 12 electrically connected to the MCM 10 to charge a battery pack (not shown) to a power source applied from a power source unit 5 according to a control signal of the MCM 10, ;

A battery management system (14) electrically connected to the battery pack to manage the battery pack;

An inverter (16) electrically connected to the battery management system (14) to convert a DC voltage applied from the battery management system (14) to an AC voltage;

A transfer switch 18 electrically connected to the power source unit 5 and the inverter 16 to switch the power source;

And a load (20) electrically connected to the transfer switch (18) for discharging.

The operation of the energy storage system constructed as above will now be described with reference to FIG.

2 is a flowchart of a charge / discharge automatic conversion control method of an energy storage system according to the present invention.

First, the MC oil 10 turns on an inverter 16 that converts a DC voltage to an AC voltage, and then applies an AC voltage to the transfer switch 18 (S1).

The MCU 10 determines whether the power source unit 5 is turned off (S2).

If it is determined in step S2 that the power source unit 5 is not turned off, the MCYT 10 determines whether the capacity of the battery is set (S3).

If it is determined in S3 that the capacity of the battery is set, the MC oil 10 turns on the charger 12 and charges the battery (S4).

As the battery is charged, it is possible to prepare for a power failure.

Then, the MCU 10 determines whether the battery is charged up to the preset capacity (S5).

If it is determined in step S5 that the battery is charged up to the preset capacity, the MCY 10 turns off the charger 12 (S6).

On the other hand, if it is determined in S2 that the power source unit 5 is off, the MCY 10 is regarded as having generated a power failure, and then, through the output of the inverter 16 connected to the transfer switch 18 Power is supplied to the loader 20 (S7).

Then, the MCU 10 determines whether the output current of the inverter 16 is higher than a preset output current (S8).

If it is determined in S8 that the output current of the inverter 16 is lower than the preset output current, the MCY 10 determines whether the capacity of the battery is set. If it is determined in S8 that the MCY 10 is an inverter If the output current of the power source unit 16 is higher than the preset output current, it is determined that the power source unit 5 is off.

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As a result, the present invention can be understood as a power failure when the output current of the inverter increases rapidly. Then, if the output does not exist, it recognizes that the power failure has been canceled, determines the battery capacity again, and determines the run of the charger to maintain the capacity desired by the user.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Energy storage system
5: Power supply (City Power)
10: MCU (Microprocessor Control Unit)
12: Charger
14: Battery management system
16: Inverter
18: Transfer switch
20: Loader

Claims (2)

A microprocessor control unit (MCU) 10 electrically connected to the power unit 5 for controlling the energy storage system according to a preset program; A charger 12 electrically connected to the MCM 10 to charge the battery pack with power supplied from the power source unit 5 according to a control signal of the MCM 10; A battery management system (14) electrically connected to the battery pack to manage the battery pack; An inverter (16) electrically connected to the battery management system (14) to convert a DC voltage applied from the battery management system (14) to an AC voltage; A transfer switch 18 electrically connected to the power source unit 5 and the inverter 16 to switch the power source; And a loader (20) electrically connected to the transfer switch (18) for discharging, the energy storage system comprising:
The MC oil 10 includes an S1 step of turning on an inverter 16 for converting a DC voltage into an AC voltage and then applying an AC voltage to the transfer switch 18;
The MCU 10 may include a step S2 of determining whether the power supply unit 5 is turned off;
If it is determined in step S2 that the power source unit 5 is not turned off, the MCU 10 determines whether the capacity of the battery is set.
If it is determined in step S3 that the capacity of the battery is set, the MC oil 10 turns on the charger 12 and charges the battery.
The MCU 10 determines whether the battery is charged up to a preset capacity.
If it is determined in step S5 that the battery has been charged up to the preset capacity, step S6 may be performed in which the MCY 10 turns off the charger 12,
If it is determined in S2 that the power source unit 5 is turned off, the MCY 10 assumes that a power failure has occurred, and then, the output of the inverter 16, which is connected to the transfer switch 18, (S7) of supplying power to the loader (20);
The MCU 10 determines whether the output current of the inverter 16 is higher than a preset output current at step S8.
If it is determined in S8 that the output current of the inverter 16 is lower than the preset output current, the MCY 10 determines whether the capacity of the battery is set. If it is determined in S8 that the MCY 10 is an inverter And determining that the power source unit (5) is off, if the output current of the power source unit (16) is higher than a preset output current.



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