JP3530519B2 - Voltage equalizing device for power storage device and power storage system provided with the device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power storage device in which secondary batteries such as a lithium-ion battery are connected in series, and more particularly to a voltage equalization device for a power storage device for equalizing variations in the voltage of the secondary batteries. And an electric power storage system including the device.

[0002]

2. Description of the Related Art In recent years, the difference in power demand between night and day has been increasing, and the power demand in the daytime especially in summer is approaching the upper limit of the total power generation capacity. The power generation capacity is configured according to the maximum power demand, but during periods when the power demand declines, the operating rate of the power generation facilities has declined and it is extremely inefficient. Has been. On the other hand, in a distributed generator that does not have interconnection with an electric power system, it is required that the fluctuation of the output is small, which is more efficient and does not cause surplus or shortage of electric power. To meet these demands, electric power storage systems have been developed in recent years. This power storage system stores surplus power from the generator and nighttime power with a low electricity charge in a large power storage device, and uses this stored power when the power demand is high. Can be used.

A secondary battery (cell) such as a lithium-ion battery or a nickel-cadmium battery is used as a power storage device used in a power storage system and supplies a relatively large amount of power such as 50 kW or 100 kW required at the time of power supply. In order to do so, it has a configuration in which a plurality of modules in which secondary batteries are connected in series are connected in parallel.

Conventionally, in order to efficiently charge and discharge the above-described power storage device, various methods for equalizing the variations in cell voltage have been proposed.

[0005]

However, the above-mentioned conventional equalization methods are all intended for a low-voltage power storage device, and a high-voltage system formed by connecting a large number of secondary batteries in series. The method applied to the large-scale power storage device has not been proposed.

The present invention has been made in view of the above circumstances, and eliminates the variation in the voltage of the secondary battery with a simple circuit configuration, and at the same time, provides a high voltage composed of a large number of secondary batteries connected in series. An object of the present invention is to provide a voltage equalizing device applicable to a power storage device of a system.

[0007]

In order to achieve the above object, the present invention divides a plurality of rechargeable batteries connected in series into blocks composed of one or more rechargeable batteries, and divides the blocks into one block.
A voltage equalizing device for a power storage device that manages the state of charge of a secondary battery as a unit, and a bypass circuit provided corresponding to each of the secondary batteries and a block provided corresponding to each of the blocks to configure a corresponding block. A battery circuit that detects the battery voltage of all secondary batteries and outputs the detection result, and obtains the detection result from the battery circuit, and based on the detection result, a secondary battery that operates the bypass circuit. ; and a unit monitoring circuit for determining the said unit monitoring circuit
Indicates that the difference between the reference voltage and the battery voltage is greater than or equal to a predetermined voltage value.
Operate the bypass circuit of the secondary battery and
The number of secondary batteries that activate the bypass circuit is set in advance.
If the number exceeds the specified number, the
Provided is a voltage equalizing device for a power storage device, characterized in that a bypass circuit is operated with priority .

As described above, a large number of secondary batteries constituting the power storage device are divided into blocks each including one or more secondary batteries,
Since the battery circuit is provided with the block as one unit, the control voltage for each battery circuit can be suppressed low.
Accordingly, it is possible to realize a voltage equalizing device applicable to a high-voltage power storage device with a general circuit configuration without using a special circuit or element for high-voltage system specifications as a battery circuit. The number of secondary batteries forming the block is limited so that the battery voltage of the block when all the secondary batteries forming the block are fully charged is within the allowable voltage of the battery circuit. It is assumed that it has been done. In addition, the difference from the reference voltage is more than the specified voltage value.
For secondary batteries, operate the bypass circuit
Stops charging for a certain period of time, while the bypass circuit
Recharge the secondary battery that was not activated.
To do. In this way, rechargeable batteries with low battery voltage
Battery voltage gradually increases by continuing to charge.
Rechargeable battery that rises and gradually activates the bypass circuit
Since it approaches the voltage, the secondary
It is possible to reduce variations in the battery voltage of the battery.
Moreover, according to such a configuration, the variation of the voltage is equalized.
Can be charged while charging
It is possible to efficiently charge the power storage device. Na
Even if the minimum battery voltage is used as the above reference voltage,
Use a battery with a relatively low battery voltage other than that
You may do it. Also, for example, the voltage with the reference voltage
All secondary batteries with a difference of more than the specified value are
If the pass circuit is activated, this predetermined value must be small.
Once set, the secondary that activates the bypass circuit
The number of batteries may be very large. This place
Battery is not charged efficiently, and
It takes a long time, which is not preferable. Such a place
In preparation for this, set the number of secondary batteries that operate the bypass circuit.
Set the number of secondary batteries that are set in advance and operate the bypass circuit.
Do not equalize the rechargeable battery voltage by limiting the voltage.
Chara can also be charged efficiently.

Further, according to the present invention, a plurality of secondary batteries connected in series is divided into blocks each including one or more secondary batteries,
A voltage equalizing device for a power storage device, which manages the state of charge of a secondary battery using the block as one unit, wherein a bypass circuit is provided corresponding to each of the secondary batteries and a bypass circuit provided for each block. A battery circuit that detects the battery voltage of all the secondary batteries that form the block and outputs the detection result, and one battery circuit is the other battery circuits.
The above-mentioned detection result is acquired from the
Based on the detection result, the difference between the reference voltage and the battery voltage is
The bypass circuit is activated when the voltage exceeds the constant voltage value.
Determine the secondary battery to be used and set the bypass circuit
The number of rechargeable batteries to operate exceeds the preset number.
The secondary battery bypass circuit with a high battery voltage
There is provided a voltage equalization device for a power storage device, which is characterized by operating with priority .

As described above, a large number of secondary batteries constituting the power storage device are divided into blocks each including one or more secondary batteries,
Since the battery circuit is provided with the block as one unit, the control voltage for each battery circuit can be suppressed low.
Accordingly, it is possible to realize a voltage equalizing device applicable to a high-voltage power storage device with a general circuit configuration without using a special circuit or element for high-voltage system specifications as a battery circuit. In addition, the difference from the reference voltage is less than the specified voltage value.
For the secondary battery above, activate the bypass circuit.
Will stop charging for a certain period of time, while
Continue charging for rechargeable batteries that were not activated
Do it In this way, a secondary battery with a low battery voltage can be
The battery voltage gradually increases by continuing charging.
Rises, and the bypass circuit is activated gradually.
Since it approaches the battery voltage, the
The variation in the battery voltage of the secondary battery can be reduced.
It Moreover, according to such a configuration, variations in voltage are prevented.
Since it can be charged while equalizing, it is extremely
It is possible to efficiently charge the power storage device.
It The minimum battery voltage is used as the reference voltage.
Or you can use a battery with a relatively low battery voltage
It may be adopted. Also, for example, the reference voltage and
For rechargeable batteries whose voltage difference exceeds a specified value,
If the bypass circuit is activated by
If you set a small value, the bypass circuit will operate.
There is a risk that the number of secondary batteries used will be very large. This
In the case of charging, charging is not performed efficiently and the battery is not fully charged.
It is not preferable because it takes a long time. like this
In case of a secondary battery of the secondary battery that operates the bypass circuit
The number of the secondary battery that presets the number and operates the bypass circuit.
By limiting the number, the voltage of the secondary batteries is equalized.
However, charging can be performed efficiently.

[0011]

[0012]

[0013]

[0014]

[0015]

[0016]

Further, according to the present invention, a plurality of secondary batteries are divided into blocks composed of at least one secondary battery, and the voltage equalizing device for a power storage device for managing the state of charge of the secondary batteries with the block as one unit. In the power storage system, the voltage equalization device includes a bypass circuit provided corresponding to each of the secondary batteries, and all secondary batteries provided in each of the blocks and configuring a corresponding block. detecting a voltage, a battery circuit for outputting the detection result, the electrostatic
Obtain the detection result from the pond circuit, and based on the detection result
Determine the secondary battery that operates the bypass circuit.
And a unit monitoring circuit, the unit monitoring circuit,
Secondary with the difference between the reference voltage and the battery voltage being equal to or greater than a specified voltage value
Activate the bypass circuit of the battery and
The number of secondary batteries that operate the
If the number exceeds the limit, the secondary battery with high battery voltage is
Provided is a power storage system characterized by operating a pass circuit with priority .

Further, the present invention divides a plurality of secondary batteries into blocks composed of at least one secondary battery and manages the state of charge of the secondary battery with each block as a unit. In the power storage system, the voltage equalization device includes a bypass circuit provided corresponding to each of the secondary batteries, and all secondary batteries provided in each of the blocks and configuring a corresponding block. And a battery circuit that outputs the detection result, wherein one battery circuit detects the battery voltage from all other battery circuits.
The result is acquired, and the acquired detection result and the self detection result
The difference between the reference voltage and the battery voltage is less than the specified voltage value.
A secondary power source that activates the bypass circuit when
Determine the pond and activate the bypass circuit
If the number of secondary batteries exceeds the preset number
Gives priority to the bypass circuit of the secondary battery with a high battery voltage.
An electric power storage system characterized by being operated by

[0019]

DETAILED DESCRIPTION OF THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. Here, a case where the voltage equalization device for a power storage device of the present invention is applied to a power storage system will be described as an embodiment of the present invention.

FIG. 1 is a diagram showing a schematic configuration of a power storage system 150 according to an embodiment of the present invention. In the power storage system 150 shown in FIG. 1, the power storage device 1 is configured by connecting a plurality of module batteries 6 in which a plurality of cells B are connected in series, in series. In this embodiment,
It is assumed that one module battery 6 is composed of four cells B. Further, as the cell B, a lithium ion battery, a nickel cadmium battery, or a nickel hydrogen battery is used.

A battery circuit 11 is included in each of the above module batteries.
Are provided respectively. The battery circuit 11 detects the battery voltage of all cells B constituting the corresponding module battery 6 and notifies the unit monitoring circuit 13 of the detection result.
Further, each battery circuit 11 and the unit monitoring circuit 13 are connected to each other by a signal line 12 and can send and receive information. The signal line 12 may be any means as long as it can transmit information, whether wired or wireless.

Further, in addition to the battery circuit 11, the series battery unit 5 has a cell overcharge protection, an overdischarge protection, an overcurrent protection, an overheat protection in order to enhance the reliability and safety of the power storage device 1. Each protection circuit (not shown) for performing the above is provided. In the series battery unit 5, a voltage sensor that detects the voltage of each cell that forms the module battery 6, a voltage sensor that detects the terminal voltage of the power storage device 1, that is, the battery voltage of the entire power storage device 1, and the power storage device 1 A current sensor that measures the current flowing through the battery, a temperature sensor that detects the temperature of the power storage device, and the like are provided. These various sensors detect the battery voltage and the like at a predetermined timing, and the detection result is sent to the charge / discharge control device 3. Be notified.

The power conversion device 2 generates DC power from AC power supplied from the power system and outputs it to the power storage device 1, and also generates AC power from DC power supplied from the power storage device 1 to load system. Alternatively, it is a so-called bidirectional inverter having a function of supplying the power system. The power conversion device 2 is composed of a plurality of switching elements (for example, thyristors, IGBTs, power MOS FETs, etc.).
Performs a switching drive at a predetermined timing to function as a rectifier that rectifies AC power from the power system and supplies the rectified AC power to the power storage device 1 when the power storage device 1 is charged.
At the time of discharging, it functions as an inverter that converts the electric power from power storage device 1 into an alternating current and outputs it to a load system or the like. Also, by changing the duty ratio of this switching on / off, it is possible to increase or decrease the amount of output power in a certain period.

In addition to the general commercial power source, the power system includes wind power generation 50 and fuel cell 5 as shown in FIG.
1, MGT (μ gas turbine) 52, solar power generation 53,
It also includes distributed power sources such as power plant 54. These distributed power sources and the power storage system 150 are connected to the signal line 100, respectively.
The power storage system 150 is notified of information such as the storage state and consumption state of power of each distributed power source via the signal line 100. Note that the signal line 100 may be any means as long as it can transmit information, whether wired or wireless, and is not particularly limited.

Next, a voltage equalizing device for a power storage device according to an embodiment of the present invention will be described. FIG. 3 is a diagram showing an internal configuration of a voltage equalization device for a power storage device according to an embodiment of the present invention. Here, one of the module batteries 6 shown in FIG. 1 will be described as an example.

As shown in the figure, the voltage equalizing device includes a bypass circuit 14 provided corresponding to each of the cells Ba to Bd.
a to 14d and a battery circuit 11a that is provided in the module battery 6 and detects the battery voltages of all the cells Ba to Bd that form the module battery 6 and outputs the detection results to the unit monitoring circuit 13. There is. The battery circuit 11a
Is provided corresponding to each cell, acquires the measurement result from each of the voltage measuring instruments 15a to 15d for measuring the battery voltage of each cell and each of the battery measuring instruments 15a to 15d, and A / D-converts the measurement result. CPU for outputting to the unit monitoring circuit 6
16a.

Next, the operation of the voltage equalizer having the above structure will be described. First, the voltage measuring devices 15a to 15
d measures the battery voltage of the corresponding cells Ba to Bd at a predetermined timing, and outputs the measurement result to the CPU 16a.
When the CPU 16a receives the battery voltage of each cell, the CPU 16a A / D-converts the battery voltage information, and the signal line 12 shown in FIG.
To the unit monitoring circuit 13 via. By performing the above-described processing by each battery circuit 11 provided corresponding to each module battery that configures the power storage device 1 illustrated in FIG. 1, the unit monitoring circuit 13 configures the power storage device 1 The battery voltage information of all the cells that operate is collected.

The unit monitoring circuit 13 extracts the lowest battery voltage (minimum battery voltage) from all the acquired battery voltage information, and indicates a battery voltage higher than this minimum battery voltage by a predetermined voltage value or more. Extract cells. For example,
If the minimum battery voltage is 3.8 V and the predetermined voltage value is 0.3 mV, the unit monitoring circuit 1
3 extracts the cell which shows the battery voltage of 3.83V or more. Then, a command to operate the bypass circuit of the cell is output to the battery circuit 11 corresponding to the module battery 6 to which the extracted cell belongs. This allows
CPU 1 of the corresponding battery circuit 11 via the signal line 12
The information of the cell which operates the bypass circuit is transmitted to 6.

The CPU 1 of the battery circuit 11 which has received the instruction
6 turns on the transistor of the bypass circuit 14 of the cell that has received the command, thereby operating the bypass circuit and bypassing the charging current flowing in the cell. As a result, the charging of the cell in which the battery voltage higher than the reference voltage (here, the minimum battery voltage is set as the reference voltage) by the predetermined voltage value or more is stopped. On the other hand, the bypass circuit 14
Cells that are not activated will continue to be charged. As a result, for cells with low battery voltage,
Since the battery voltage gradually rises, it is possible to reduce the difference in battery voltage between the cell in which the bypass circuit is operated and the battery voltage is high and the cell in which the bypass circuit is not operated and the battery voltage is low. As a result, the voltages of all cells forming the power storage device are equalized.

The reference voltage is not limited to the minimum battery voltage, but another battery voltage, for example, an average battery voltage may be adopted, and can be appropriately set by design change.

Further, in the above-described embodiment, when the number of secondary batteries for operating the bypass circuit becomes very large, charging is not performed efficiently and it takes a long time to reach a fully charged state. Become. In preparation for such a case, the number of secondary batteries that operate the bypass circuit is set in advance, and the number of secondary batteries that operate the bypass circuit is limited. For example, when 10 cells are set as the number of cells that operate the bypass circuit, the top 10 cells having a high battery voltage are determined as the cells that operate the bypass circuit. As a result, charging can be efficiently performed while equalizing the voltages of the secondary batteries.

In place of the above embodiment, the unit monitoring circuit 13 may determine the secondary battery that has reached the full charge voltage as the secondary battery for operating the bypass circuit.

Further, in the above-described embodiment, the unit monitoring circuit 13 for centrally managing the battery voltage output from each battery circuit is provided.
The function of 3 may be added to any of the battery circuits.
That is, one of the battery circuits 11 acquires the battery voltage information from all the other battery circuits 11, and operates the bypass circuit under a predetermined condition based on the acquired battery voltage information and its own battery voltage information. The cell may be determined. With such a configuration, the unit monitoring circuit 13 can be omitted, and the overall size of the system and the cost can be reduced.

Although the embodiment of the present invention has been described in detail above with reference to the drawings, the specific structure is not limited to this embodiment, and includes a design etc. within the scope not departing from the gist of the present invention. Be done. For example, the bypass circuit is not limited to the circuit configuration shown in FIG. 3, and may have any circuit configuration as long as it is a means for bypassing the charging current flowing in the cell.

[0035]

As described above, according to the voltage equalizing device for a power storage device of the present invention, a large number of secondary batteries constituting the power storage device are divided into blocks each including one or more secondary batteries, Since the battery circuit is provided with one block as a unit, the control voltage for each battery circuit can be suppressed low. Accordingly, it is possible to realize a voltage equalizing device applicable to a high-voltage power storage device with a general circuit configuration without using a special circuit or element for high-voltage system specifications as a battery circuit.

Further, according to the voltage equalizing device for a power storage device of the present invention, for a secondary battery whose difference from the reference voltage is a predetermined voltage value or more, charging is stopped for a certain period by operating the bypass circuit. On the other hand, the cells for which the bypass circuit is not operated are continuously charged. As a result, the battery voltage of the cell that continues to be charged gradually rises and gradually approaches the battery voltage of the cell in which the bypass circuit was not activated. Can be suppressed within a predetermined range. Furthermore, charging can be performed while equalizing the variations in voltage.

Further, according to the voltage equalizing device for a power storage device of the present invention, by presetting the number of secondary batteries for operating the bypass circuit and limiting the number of secondary batteries for operating the bypass circuit, It is possible to efficiently charge the secondary battery, which is the original purpose, while the voltage equalization processing is performed moderately without focusing on the voltage equalization processing.

[0038]

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration example of a power storage system to which a voltage equalizing device for a power storage device of the present invention is applied.

FIG. 2 is a system diagram for explaining an example of a distributed power source that constitutes the power system in the same embodiment.

FIG. 3 is a diagram showing a circuit configuration of a voltage equalization device for a power storage device according to an embodiment of the present invention.

[Explanation of symbols]

6 module battery 11, 11a Battery circuit 12 signal lines 13 unit monitoring circuit 14a, 14b, 14c, 14d Bypass circuit 15a, 15b, 15c, 15d Voltage measuring device 16a CPU 150 power storage system B, Ba, Bb, Bc, Bd ... Cell (secondary battery)

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP 2000-352688 (JP, A) JP 2001-25173 (JP, A) JP 2000-14027 (JP, A) JP 11-196537 (JP , A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H02J ^7/ 00-7/12 H02J ⁷ /34-7/36

Claims (4)

(57) [Claims] 1. A voltage equalizing device for a power storage device, which divides a plurality of rechargeable batteries connected in series into blocks made up of one or more rechargeable batteries and manages the state of charge of the rechargeable batteries with each block as one unit. In the above, a bypass circuit provided corresponding to each of the secondary batteries and the battery voltage of all the secondary batteries provided in each of the blocks and configuring the corresponding block are detected, and the detection result is output. a battery circuit that acquires the detection result from the battery circuit, based on the detection result, and a unit monitoring circuit for determining a secondary battery for operating the bypass circuit, said unit monitoring circuit, a reference The difference between the voltage and the battery voltage
Operate the bypass circuit of the secondary battery that is above the specified voltage value.
It causes the number of the secondary battery for operating the bypass circuit, pre-set
If the specified number is exceeded, the secondary battery with high battery voltage
A voltage equalization device for a power storage device, characterized in that a battery bypass circuit is operated with priority . 2. A voltage equalizing device for a power storage device, which divides a plurality of rechargeable batteries connected in series into blocks composed of one or more rechargeable batteries, and manages the state of charge of the rechargeable batteries with each block as a unit. In the above, a bypass circuit provided corresponding to each of the secondary batteries and the battery voltage of all the secondary batteries provided in each of the blocks and configuring the corresponding block are detected, and the detection result is output. And a battery circuit that performs one of the detection results from all other battery circuits.
Based on the acquired detection result and the self detection result.
If the difference between the reference voltage and the battery voltage is more than the specified voltage value,
At some point, a secondary battery that activates the bypass circuit
The number of secondary batteries that operate the bypass circuit is determined in advance.
If the specified number is exceeded, the secondary battery with high battery voltage
A voltage equalization device for a power storage device, characterized in that a battery bypass circuit is operated with priority . 3. A plurality of secondary batteries are used for at least one secondary battery.
Divide into blocks consisting of ponds, and make these blocks one unit
Voltage equalization of power storage device that manages the charging status of secondary batteries
A power storage system including a device, wherein the voltage equalizing device corresponds to each of the secondary batteries.
A bypass circuit provided and a block provided corresponding to each of the blocks to configure a corresponding block.
Detects the voltage of all secondary batteries and outputs the detection result.
Battery circuit and the detection result obtained from the battery circuit,
Based on this, the secondary battery that operates the bypass circuit is determined.
And a unit monitoring circuit that determines the difference between the reference voltage and the battery voltage.
Operate the bypass circuit of the secondary battery that is above the specified voltage value.
It causes the number of the secondary battery for operating the bypass circuit, pre-set
If the specified number is exceeded, the secondary battery with high battery voltage
Characterized by prioritizing the battery bypass circuit
Electricity storage system. 4. A plurality of secondary batteries are used for at least one secondary battery.
Divide into blocks consisting of batteries, and divide these blocks into one unit.
Equalize the voltage of the power storage device to manage the state of charge of the secondary battery by
A power storage system including a voltage equalizer , wherein the voltage equalizer corresponds to each of the secondary batteries.
A bypass circuit provided and a block provided corresponding to each of the blocks to configure a corresponding block.
Battery voltage of all secondary batteries that are
And a battery circuit that operates the output of one battery circuit from all other battery circuits.
And a reference voltage and a battery voltage based on the acquired detection result and its own detection result.
When the difference between the two is a predetermined voltage value or more, the bypass circuit
The number of secondary batteries that operate the bypass circuit is determined in advance while determining the secondary batteries that operate.
If the specified number is exceeded, the secondary battery with high battery voltage
Characterized by prioritizing the battery bypass circuit
Electricity storage system.