JP2020014324A - Power storage system - Google Patents

Abstract

To provide a power storage system capable of using an existing power conditioner device as it is.SOLUTION: A power storage system comprises: a first photovoltaic power generation device 1; a second photovoltaic power generation device 2; a first power conditioner device 10; and a second power conditioner device 20. The first power conditioner device 10 comprises: a first DC/DC converter 11; a second DC/DC converter 12; a control unit 13; and power storage means 14. The first DC/DC converter 11 performs MPPT operation on a second DC power of the second photovoltaic power generation device 2. The second DC/DC converter 12 is characterized in that when a first DC power is not being input to the second power conditioner device, it outputs electric power with a PV characteristic on which the MPPT operation can be performed by the second power conditioner device to the second power conditioner device 20.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a power storage system including a solar power generation device.

  When a storage battery is not provided in a photovoltaic power generation facility including a photovoltaic power generation device and a power conditioner device, a power conditioner device generally includes an integrated chopper circuit and an inverter. It is a target.

  When a power storage system is configured by adding a storage battery to the photovoltaic power generation facility, a chopper circuit on the photovoltaic power generation device side, a chopper circuit on the storage battery side, and an inverter are integrated instead of the power conditioner device. It is necessary to use a power conditioner device (for example, see Patent Document 1). That is, when a storage battery is retrofitted to a photovoltaic power generation facility, there is a problem that an existing power conditioner device cannot be used as it is.

  In recent years, as the price of photovoltaic power generators has fallen, there has been a demand for installing additional photovoltaic power generators in addition to retrofitting storage batteries, storing surplus power of photovoltaic power generators in storage batteries, and selling electricity at night. is increasing. Also in this case, it is necessary to use a power conditioner device in which the chopper circuit on the solar power generation device side, the chopper circuit on the storage battery side, and the inverter are integrated, so that the existing power conditioner device is used as it is. There is a problem that you can not.

JP-A-2002-171674

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a power storage system that can use an existing power conditioner device as it is.

In order to solve the above-described problems, a power storage system according to an embodiment of the present invention includes:
A first solar power generation device that receives sunlight and outputs first DC power;
A second solar power generation device that receives the sunlight and outputs a second DC power;
A first power conditioner device connected to the second solar power generation device and outputting third DC power;
A second power conditioner device that is connected to the first solar power generation device and the first power conditioner device and receives the first DC power and the third DC power and outputs AC power,
The first power conditioner device includes:
A first DC / DC converter connected to the second solar power generation device;
A second DC / DC converter connected to the first DC / DC converter;
A control unit that controls the first DC / DC converter and the second DC / DC converter;
Power storage means connected to the first DC / DC converter and the second DC / DC converter,
The first DC / DC converter performs an MPPT operation on the second DC power,
The second DC / DC converter may allow the second power conditioner device to perform an MPPT operation as the third DC power when the first DC power is not input to the second power conditioner device. It is characterized by outputting electric power having various PV characteristics.

  In this configuration, a first power conditioner device including a power storage unit is provided between a second photovoltaic power generation device (an additional photovoltaic power generation device) and a second power conditioner device. Then, when the first DC power is not input to the second power conditioner device, the first power conditioner device performs a PV that allows the second power conditioner device to perform the MPPT operation as the third DC power. Outputs electric power having characteristics. Therefore, the second power conditioner device also performs an MPPT operation on the output (third DC power) of the first power conditioner device so as to perform the MPPT operation on the output of the first solar power generation device. It can be carried out. Therefore, according to this configuration, an existing power conditioner device can be used as it is as the second power conditioner device.

In the above power storage system,
The first power conditioner device includes, as an operation mode,
A first operation mode in which when the total value of the first DC power and the second DC power is smaller than a predetermined upper limit, all of the second DC power is used as the third DC power;
When the first DC power is smaller than the upper limit, and when the total value is larger than the upper limit, a part of the second DC power is set so that the total value is smaller than the upper limit. A second operation mode used as charging power for the power storage means,
A third operation mode in which, when the first DC power reaches the upper limit, all of the second DC power is used as the charging power;
A fourth operation mode in which the DC discharge power is used as the third DC power when the total value is smaller than a predetermined lower limit.

In the above power storage system,
The second DC / DC converter is a bidirectional DC / DC converter;
The first power conditioner device, as the operation mode, when the first DC power is larger than the upper limit, the first DC power supplied to the second power conditioner device is equal to or less than the upper limit. And a fifth operation mode in which a part of the first DC power is used as the charging power.

In the above power storage system,
A first measuring unit that measures the first DC power;
A second measurement unit that measures the second DC power,
The control unit may be configured to switch the operation mode according to the measurement results of the first measurement unit and the second measurement unit.

In the above power storage system,
The first DC / DC converter includes at least one boost chopper circuit,
The second DC / DC converter may include at least one step-down chopper circuit.

In addition, in order to solve the above-described problems, a power storage system according to another embodiment of the present invention includes:
A photovoltaic power generator in which a first photovoltaic power generator that receives sunlight and outputs first DC power and a second photovoltaic power generator that receives the sunlight and outputs second DC power are connected in parallel,
A first power conditioner device that outputs a third DC power,
A second power conditioner device connected to the solar power generation device and the first power conditioner device, receiving the first DC power, the second DC power, and the third DC power, and outputting AC power; With
The first power conditioner device includes:
A bidirectional DC / DC converter;
A control unit for controlling the bidirectional DC / DC converter;
Power storage means connected to the bidirectional DC / DC converter,
The bidirectional DC / DC converter is configured such that when the first DC power and the second DC power are not input to the second power conditioner device, the second power conditioner device outputs the third DC power. It is characterized by outputting power having PV characteristics capable of performing the MPPT operation.

  According to the present invention, it is possible to provide a power storage system that can use an existing power conditioner device as it is.

1 is a diagram illustrating a power storage system according to a first embodiment of the present invention. FIG. 9 is a PV characteristic diagram of an output of the first power conditioner device when the first DC power is not input to the second power conditioner device. FIG. 3 is a diagram illustrating a first operation mode of the first power conditioner device. It is a figure showing the 2nd operation mode of the 1st power conditioner device. It is a figure showing the 3rd operation mode of the 1st power conditioner device. It is a figure showing the 4th operation mode of the 1st power conditioner device. It is a figure showing the 5th operation mode of the 1st power conditioner device. It is a figure showing the electric storage system concerning a 2nd embodiment of the present invention.

  Hereinafter, an embodiment of a power storage system according to the present invention will be described with reference to the accompanying drawings.

[First Embodiment]
FIG. 1 shows a power storage system 100 according to the first embodiment of the present invention. The power storage system 100 includes a first solar power generation device 1, a second solar power generation device 2, a first measurement unit 3, a second measurement unit 4, a first power conditioner device 10, and a second power conditioner. Device 20.

  The first power conditioner device 10 includes a first DC / DC converter 11, a second DC / DC converter 12, a control unit 13, and a power storage unit 14.

  The power storage system 100 includes a first power conditioner including a power storage unit 14 while adding a second solar power generation device 2 to a solar power generation facility including the first solar power generation device 1 and the second power conditioner device 20. The device 10 is retrofitted. The power storage system 100 uses the second power conditioner device 20, which is an existing power conditioner device, without modification.

  The first photovoltaic power generation device 1 is an existing photovoltaic power generation device included in photovoltaic power generation equipment, and receives the sunlight and outputs first DC power. The first solar power generation device 1 is, for example, one in which a plurality of solar panels, which are aggregates of solar cells, are connected in series to form a solar cell string, and a plurality of solar cell strings are connected in parallel. The first photovoltaic power generation device 1 has a capacity (maximum output) of an overload upper limit of the second power conditioner device 20 (the power conditioner device capable of connecting to a power generation device exceeding the capacity of the power conditioner device). It is set to a value smaller than the allowable upper limit capacity.

  The second photovoltaic power generation device 2 is an additional photovoltaic power generation device not included in the initial photovoltaic power generation equipment, and receives the sunlight and outputs the second DC power. The second solar power generation device 2 is, for example, one in which a plurality of solar panels, which are aggregates of solar cells, are connected in series to form a solar cell string, and a plurality of solar cell strings are connected in parallel. The solar panel of the second solar power generation device 2 may not be the same as the solar panel of the first solar power generation device 1. The number of solar panels forming the solar cell strings of the second solar power generation device 2 in series may not be the same as the number of solar panels forming the solar cell strings of the first solar power generation device 1 in series.

  The first measuring unit 3 includes a first current sensor and a first voltage sensor for measuring the first DC power. The first current sensor detects a direct current output from the first solar power generation device 1 at a predetermined cycle, and transmits a detection result to the control unit 13 of the first power conditioner device 10. The first voltage sensor detects a DC voltage output from the first solar power generation device 1 at a predetermined cycle, and transmits a detection result to the control unit 13 of the first power conditioner device 10. The control unit 13 calculates the first DC power based on these detection results.

  The second measuring unit 4 includes a second current sensor and a second voltage sensor for measuring the second DC power. The second current sensor detects a direct current output from the second solar power generation device 2 at a predetermined cycle, and transmits a detection result to the control unit 13 of the first power conditioner device 10. The second voltage sensor detects a DC voltage output from the second solar power generation device 2 at a predetermined cycle, and transmits a detection result to the control unit 13 of the first power conditioner device 10. The control unit 13 calculates the second DC power based on these detection results.

  The second power conditioner device 20 is a power conditioner device included in existing solar power generation equipment, and includes a chopper circuit, an inverter, and a control unit that controls these. The second power conditioner device 20 is connected to the first solar power generation device 1 and the first power conditioner device 10, and outputs the first DC power of the first solar power generation device 1 and the first DC power of the first power conditioner device 10. 3. Receives DC power and outputs AC power. The second power conditioner device 20 performs an MPPT operation (maximum power point tracking operation) on the first DC power, and outputs from the first power conditioner device 10 when the first DC power is not input. The MPPT operation can be performed on the third DC power.

  The first DC / DC converter 11 of the first power conditioner device 10 is connected to the second solar power generation device 2. The first DC / DC converter 11 is configured by a boost chopper circuit, and outputs DC power obtained by boosting the second DC power of the second solar power generation device 2. The first DC / DC converter 11 performs an MPPT operation on the second DC power under the control of the control unit 13.

  The second DC / DC converter 12 has one side connected to the first DC / DC converter 11 and the other side connected to the second power conditioner device 20. At a connection point between the first DC / DC converter 11 and the second DC / DC converter 12, a power storage means 14 composed of, for example, a lithium ion storage battery is connected. The second DC / DC converter 12 is configured by a step-down chopper circuit, and uses the DC power obtained by stepping down the output of the first DC / DC converter 11 or the DC power obtained by stepping down the discharge power of the power storage means 14 as a third DC power, as a second DC power. It outputs to the conditioner device 20.

  When the first DC power from the first solar power generation device 1 is input to the second power conditioner device 20 (for example, during the daytime), the second DC / DC converter 12 outputs the MPPT of the second power conditioner device 20. It operates under the control of the control unit 13 so as not to hinder the operation. Specifically, if the second power conditioner device 20 is performing the MPPT operation by the voltage control, the second DC / DC converter 12 performs the third DC control by the current control in order to avoid the mutual interference of the voltage control. Output power. Further, the control unit 13 controls the current of the second DC / DC converter 12 so that the input power input to the second power conditioner device 20 becomes a predetermined target value while monitoring the first DC power.

  On the other hand, when the first DC power from the first solar power generation device 1 is not input to the second power conditioner device 20 (for example, at night), the second DC / DC converter 12 is controlled by the control unit 13. In addition, power that simulates PV characteristics (power / voltage characteristics) of an arbitrary solar power generation device, in other words, power having PV characteristics that allows the second power conditioner device 20 to perform an MPPT operation is output. FIG. 2 shows an example of the PV characteristics of the power (third DC power).

  The control unit 13 stores data relating to the PV characteristics of the third DC power when the first DC power is not input to the second power conditioner device 20, or the IV characteristics (current / voltage characteristics) of the third DC power. Is stored in advance. The data relating to the PV characteristics is, for example, a numerical value table indicating a PV curve of the output power value and the output voltage value of the second DC / DC converter 12. The data relating to the IV characteristic is, for example, a numerical table showing an IV curve of the output current value and the output voltage value of the second DC / DC converter 12.

  The control unit 13 determines a current value of the third DC power to be output by the second DC / DC converter 12 based on the input voltage input to the second DC / DC converter 12 and the data regarding the PV characteristics or the IV characteristics. I do. Thereby, when the first DC power is not input to the second power conditioner device 20, the second DC / DC converter 12 can output the third DC power having the PV characteristics shown in FIG. The second power conditioner device 20 can perform the MPPT operation on the third DC power.

  The control unit 13 includes a microcomputer and / or a dedicated IC. The control unit 13 controls the first DC / DC converter 11 and the second DC / DC converter 12 while switching operation modes described later. The first power conditioner device 10 includes first to fourth operation modes as operation modes.

  When the total value of the first DC power of the first photovoltaic power generator 1 and the second DC power of the second photovoltaic power generator 2 is smaller than a predetermined upper limit, the operation mode sets the entirety of the second DC power. The first operation mode for using as the output (third DC power) of the second DC / DC converter 12 is set. The above-mentioned predetermined upper limit value is preferably equal to or less than the upper limit electric power value that can be input to the second power conditioner device 20. For example, when the upper limit power value that can be input to the second power conditioner device 20 is 250 kW, the predetermined upper limit value may be set to 240 kW.

  As shown in FIG. 3, in the first operation mode, all of the first DC power is supplied to the second power conditioner device 20 and all of the output of the first DC / DC converter 11 is supplied to the second DC / DC converter 12. And the output (third DC power) of the second DC / DC converter 12 is supplied to the second power conditioner device 20.

  When the first DC power is smaller than the predetermined upper limit and the sum of the first DC power and the second DC power is larger than the predetermined upper limit, the operation mode stores a part of the second DC power. The second operation mode for using the charging power of the means 14 is set.

  As shown in FIG. 4, in the second operation mode, all of the first DC power is supplied to the second power conditioner device 20. The output of the first DC / DC converter 11 is supplied to the power storage means 14 and the second DC / DC converter 12 such that the total value of the first DC power and the second DC power is smaller than a predetermined upper limit. Thus, the power storage means 14 is charged and the output (third DC power) of the second DC / DC converter 12 is supplied to the second power conditioner device 20.

  When the first DC power has reached the predetermined upper limit, the operation mode is a third operation mode in which all of the second DC power is used as charging power.

  As shown in FIG. 5, in the third operation mode, the first DC power is supplied to the second power conditioner device 20 so as not to exceed a predetermined upper limit. Further, the second DC / DC converter 12 is stopped, the entire output of the first DC / DC converter 11 is supplied to the power storage means 14, and the power storage means 14 is charged. The control unit 13 monitors the amount of power stored in the power storage means 14, and when the power storage means 14 is fully charged, stops the first DC / DC converter 11 to stop charging the power storage means 14.

  When the total value of the first DC power and the second DC power is smaller than a predetermined lower limit (for example, 1 kW), the operation mode is the fourth operation in which the DC discharge power of the power storage unit 14 is used as the third DC power. Mode. More preferably, when the state where the total value becomes smaller than the predetermined lower limit value continues for a predetermined time (for example, one hour), the fourth operation mode is set. The third DC power in the fourth operation mode is power having a PV characteristic that allows the second power conditioner device 20 to perform the MPPT operation.

  As shown in FIG. 6, in the fourth operation mode, the DC discharge power of power storage means 14 is supplied to second DC / DC converter 12, and the output (third DC power) of second DC / DC converter 12 is supplied to second power conditioner. To the power supply device 20. The control unit 13 monitors the amount of power stored in the power storage unit 14, and when the amount of power stored in the power storage unit 14 becomes equal to or smaller than a specified value, stops the second DC / DC converter 12 to stop discharging the power storage unit 14.

  According to the power storage system 100 according to the present embodiment, when the first DC power from the first solar power generation device 1 is not input to the second power conditioner device 20, as described above, the second power conditioner device 20 Can perform the MPPT operation also on the third DC power of the first power conditioner device 10, so that the existing power conditioner device can be used as the second power conditioner device 20 as it is.

  In the power storage system 100 according to the present embodiment, since only one DC / DC converter (first DC / DC converter 11) exists between the second solar power generation device 2 and the power storage unit 14, the power loss during charging is reduced. Can be minimized.

  In the power storage system 100 according to the present embodiment, the first DC / DC converter 11 is configured by a step-up chopper circuit, and the input of the first DC / DC converter 11 is smaller than the output of the first DC / DC converter 11, so that the first DC / DC converter The DC converter 11 can relatively easily perform the MPPT operation.

  In the power storage system 100 according to the present embodiment, since the second DC / DC converter 12 is configured by a step-down chopper circuit, even when the second DC / DC converter 12 fails, the power storage unit is discharged when the power storage unit 14 is discharged. A voltage higher than the discharge voltage of the power conditioner 14 is not applied to the second power conditioner device 20. Therefore, the power storage system 100 according to the present embodiment is superior in safety as compared with the case where the second DC / DC converter 12 is configured by a step-up chopper circuit.

  Note that the second DC / DC converter 12 can be a bidirectional DC / DC converter configured with a bidirectional chopper circuit. Thereby, the first power conditioner device 10 can include a fifth operation mode in which a part of the first DC power is used as charging power when the first DC power is larger than the predetermined upper limit.

  As shown in FIG. 7, in the fifth operation mode, a part of the first DC power is supplied to the second DC / DC converter so that the first DC power supplied to the second power conditioner device 20 is equal to or less than a predetermined upper limit. It is supplied to the DC converter 12. The first DC power supplied to the second DC / DC converter 12 is boosted and supplied to the power storage means 14, and the power storage means 14 is charged. In addition, the entire output of the first DC / DC converter 11 is supplied to the power storage means 14, and the power storage means 14 is charged.

[Second embodiment]
FIG. 8 shows a power storage system 100 ′ according to the second embodiment of the present invention. The power storage system 100 ′ is provided with a first power conditioner device 10 ′ without the first DC / DC converter 11, and the first solar power generation device 1 and the second solar power generation device 2 are connected in parallel, and the second power It is common to the first embodiment except that it is connected to the conditioner device 20 and that a first measuring unit 3 ′ is provided instead of the first measuring unit 3 and the second measuring unit 4.

  The first photovoltaic power generation device 1 is an existing photovoltaic power generation device, and outputs first DC power in response to sunlight. The second photovoltaic power generation device 2 is an additional photovoltaic power generation device, and receives the sunlight to output a second DC power. The first photovoltaic power generation device 1 and the second photovoltaic power generation device 2 (hereinafter collectively referred to as “photovoltaic power generation devices”) include, for example, a plurality of photovoltaic panels that are aggregates of photovoltaic cells in series. The solar cell strings are connected to form a solar cell string, and a plurality of solar cell strings are connected in parallel.

  However, the solar panel of the second solar power generation device 2 is the same as the solar panel of the first solar power generation device 1, and the solar panel constituting the solar cell string of the second solar power generation device 2 Is the same as the number of solar panels constituting the solar cell string of the first photovoltaic power generator 1 in series. Furthermore, the total value of the capacities of the first solar power generation device 1 and the second photovoltaic power generation device 2 (total capacity of the photovoltaic power generation devices) is set to a value smaller than the overload upper limit of the second power conditioner device 20. Is done.

  The first measuring unit 3 'includes a first current sensor and a first voltage sensor for measuring DC power (first DC power and second DC power) of the photovoltaic power generator. The first current sensor detects a direct current output from the photovoltaic power generator at a predetermined cycle, and transmits a detection result to the control unit 13 of the first power conditioner device 10 '. The first voltage sensor detects a DC voltage output from the photovoltaic power generator at a predetermined cycle, and transmits a detection result to the control unit 13 of the first power conditioner device 10 '. The control unit 13 calculates the DC power of the photovoltaic power generator based on these detection results.

  One side of the second DC / DC converter 12 of the first power conditioner device 10 ′ is connected to the power storage unit 14, and the other side is connected to the second power conditioner device 20. The second DC / DC converter 12 is configured by a bidirectional chopper circuit (corresponding to a “bidirectional DC / DC converter” of the present invention), and uses the discharge power of the power storage unit 14 as the third DC power to generate a second power conditioner device. 20 or charge the power storage means 14 using the DC power of the photovoltaic power generator.

  When DC power from the photovoltaic power generator is input to the second power conditioner device 20, the second DC / DC converter 12 controls the control unit 13 so as not to hinder the MPPT operation of the second power conditioner device 20. Output the third DC power and charge the power storage means 14 under the control of. For example, if the second power conditioner device 20 is performing an MPPT operation by voltage control, the second DC / DC converter 12 is current-controlled to avoid mutual interference of voltage control. Further, the control unit 13 monitors the DC power from the photovoltaic power generation device and controls the current of the second DC / DC converter 12 so that the input power input to the second power conditioner device 20 becomes a predetermined target value. Perform control.

  On the other hand, when the DC power from the photovoltaic power generation device is not input to the second power conditioner device 20, the second DC / DC converter 12 controls the PV characteristics of any photovoltaic power generation device under the control of the control unit 13. The power simulating the (power / voltage characteristics), that is, the power having the PV characteristics that allows the second power conditioner device 20 to perform the MPPT operation is output.

  According to the power storage system 100 ′ according to the present embodiment, the second power conditioner device 20 can perform the MPPT operation even when the DC power from the solar power generation device is not input. An existing power conditioner device can be used as the power conditioner device 20 as it is.

  Furthermore, since the power storage system 100 'according to the present embodiment includes the first power conditioner device 10' without the first DC / DC converter 11, it is more advantageous than the first embodiment in terms of cost and conversion efficiency.

  The embodiments of the power storage system according to the present invention have been described above, but the present invention is not limited to the above embodiments.

  The first DC / DC converter 11 may be configured by one boost chopper circuit, may be configured by a plurality of boost chopper circuits connected in parallel, or may be configured by at least one step-down chopper circuit.

  The second DC / DC converter 12 may be constituted by one step-down chopper circuit, may be constituted by a plurality of step-down chopper circuits connected in parallel, or may be constituted by at least one step-up chopper circuit.

  The configuration of the second power conditioner device 20 is not limited to the configuration of the existing power conditioner device, and the configuration can be appropriately changed.

100, 100 'Power storage system 1 First solar power generator 2 Second solar power generator 3, 3' First measuring unit 4 Second measuring unit 10, 10 'First power conditioner device 11 First DC / DC converter 12 Second DC / DC converter 13 Control unit 14 Power storage means 20 Second power conditioner device

Claims (6)

A first solar power generation device that receives sunlight and outputs first DC power;
A second solar power generation device that receives the sunlight and outputs a second DC power;
A first power conditioner device connected to the second solar power generation device and outputting third DC power;
A second power conditioner device that is connected to the first solar power generation device and the first power conditioner device and receives the first DC power and the third DC power and outputs AC power,
The first power conditioner device includes:
A first DC / DC converter connected to the second solar power generation device;
A second DC / DC converter connected to the first DC / DC converter;
A control unit that controls the first DC / DC converter and the second DC / DC converter;
Power storage means connected to the first DC / DC converter and the second DC / DC converter,
The first DC / DC converter performs an MPPT operation on the second DC power,
The second DC / DC converter may allow the second power conditioner device to perform an MPPT operation as the third DC power when the first DC power is not input to the second power conditioner device. A power storage system that outputs power having various PV characteristics. The first power conditioner device includes, as an operation mode,
A first operation mode in which when the total value of the first DC power and the second DC power is smaller than a predetermined upper limit, all of the second DC power is used as the third DC power;
When the first DC power is smaller than the upper limit, and when the total value is larger than the upper limit, a part of the second DC power is set so that the total value is smaller than the upper limit. A second operation mode used as charging power for the power storage means,
A third operation mode in which, when the first DC power reaches the upper limit, all of the second DC power is used as the charging power;
The power storage system according to claim 1, further comprising: a fourth operation mode in which the DC discharge power is used as the third DC power when the total value is smaller than a predetermined lower limit. The second DC / DC converter is a bidirectional DC / DC converter;
The first power conditioner device, as the operation mode, when the first DC power is larger than the upper limit, the first DC power supplied to the second power conditioner device is equal to or less than the upper limit. The power storage system according to claim 2, further comprising a fifth operation mode in which a part of the first DC power is used as the charging power. A first measuring unit that measures the first DC power;
A second measurement unit that measures the second DC power,
4. The power storage system according to claim 2, wherein the control unit switches the operation mode according to a measurement result of the first measurement unit and the second measurement unit. 5. The first DC / DC converter includes at least one boost chopper circuit,
The power storage system according to any one of claims 1 to 4, wherein the second DC / DC converter includes at least one step-down chopper circuit. A photovoltaic power generator in which a first photovoltaic power generator that receives sunlight and outputs first DC power and a second photovoltaic power generator that receives the sunlight and outputs second DC power are connected in parallel,
A first power conditioner device that outputs a third DC power,
A second power conditioner device connected to the solar power generation device and the first power conditioner device, receiving the first DC power, the second DC power, and the third DC power, and outputting AC power; With
The first power conditioner device includes:
A bidirectional DC / DC converter;
A control unit for controlling the bidirectional DC / DC converter;
Power storage means connected to the bidirectional DC / DC converter,
The bidirectional DC / DC converter is configured such that when the first DC power and the second DC power are not input to the second power conditioner device, the second power conditioner device outputs the third DC power. A power storage system that outputs power having PV characteristics capable of performing an MPPT operation.

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