JP2017127136A - Photovoltaic power generation system and control method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve suppression of degradation in equipment utilization factor of a photovoltaic power generation system as well as power selling loss.SOLUTION: A photovoltaic power generation system 1 includes a plurality of power conditioner devices 10 and a controller 20. Each of the power conditioner devices 10 includes: a schedule information acquisition part 111 which acquires at least a part of output control schedule information from the controller 20; a storage part 13 which stores the acquired output control schedule information; and an output control part 112 which performs output control of an own device on the basis of the output command value received from the controller 20 when a communication state between the controller 20 and the own device is normal, and performs output control of the own device on the basis of output control schedule information read out from the storage part 13 when the communication state is abnormal.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a photovoltaic power generation system and a control method thereof.

  When a photovoltaic system (photovoltaic system: PV system) is connected to a power system in large quantities, the power supplied to the system may exceed the connectable amount of an electric power company. In order to avoid such a situation, it is required to suppress the output of the photovoltaic power generation system when the power demand is low. In order to suppress the output, it is necessary to operate the power conditioner device in accordance with the output control schedule acquired from the power company server or the like. Note that Patent Document 1 describes an example of a power conditioner device.

  As shown in FIG. 10, a conventional photovoltaic power generation system 1000 includes a power conditioner device 600 that converts DC power output from a solar cell into AC power, and a control device that is communicably connected to the power conditioner device 600. 700. The control device 700 acquires an output control schedule (for example, a fixed schedule for about one year) from the information processing device 500 such as a notebook computer. Specifically, the maintenance person manually downloads schedule information from the information processing apparatus 500 to the control apparatus 700. And the control apparatus 700 transmits the output command value based on an output control schedule to each power conditioner apparatus 600. FIG. Thereby, the power conditioner apparatus 600 will drive | operate with an output lower than a rated output, for example in the time zone of the daytime of summer when there is much electric power generation, and the output of a solar power generation system is suppressed.

JP 2002-315194 A

  In the conventional solar power generation system 1000, there is a possibility that a communication abnormality may occur between the control device 700 and the power conditioner device 600 due to a failure of the control device 700, a disconnection of the communication line, or the like. In such a case, all the power conditioner apparatuses 600 under control of the control apparatus 700 are stopped from the viewpoint of fail-safe so that the supply power of the photovoltaic power generation system 1000 does not exceed the connectable amount. For this reason, the supply power of the photovoltaic power generation system 1000 becomes zero, there is a problem that the equipment utilization rate is lowered and the power selling loss is increased.

  The present invention has been made on the basis of the above technical recognition, and an object of the present invention is to provide a photovoltaic power generation system and a control method thereof that can suppress a decrease in facility utilization rate and reduce power sales loss. Is to provide.

The photovoltaic power generation system according to the present invention is
A plurality of inverter devices;
A control device communicably connected to the plurality of power conditioner devices,
When the control device acquires output control schedule information including output control values of the plurality of power conditioner devices from an external information processing device, the control device outputs an output command based on the output control schedule information to the plurality of power conditioner devices. Send value,
The inverter device is
A schedule information acquisition unit for acquiring at least part of the output control schedule information from the control device;
A storage unit for storing the acquired output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit An output control unit that reads the output control schedule information from the output control unit, and performs output control of the device based on the read output control schedule information;
It is characterized by having.

In the solar power generation system,
The output control unit may read the output control schedule information from the storage unit when the communication abnormality continues for a predetermined time.

In the solar power generation system,
The output control unit may perform control to stop the output of the own device when the communication state is abnormal and the output control schedule information cannot be read from the storage unit.

The photovoltaic power generation system according to the present invention is
A plurality of inverter devices;
A control device communicably connected to the plurality of power conditioner devices and an external server,
The control device receives, from the external server, first output control schedule information including an output control value of the power conditioner device for a first period, and the second period longer than the first period. When acquiring the second output control schedule information including the output control value of the power conditioner device, the output command value based on the first output control schedule information is transmitted to the plurality of power conditioner devices,
The inverter device is
A schedule information acquisition unit for acquiring at least a part of the second output control schedule information from the control device;
A storage unit for storing the acquired second output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit An output control unit that reads out the second output control schedule information from the output control unit and performs output control of the device based on the read out second output control schedule information;
It is characterized by having.

In the solar power generation system,
The output control unit may read the second output control schedule information from the storage unit when the communication abnormality continues for a predetermined time.

In the solar power generation system,
The output control unit may perform control to stop the output of the own device when the communication state is abnormal and the second output control schedule information cannot be read from the storage unit.

The photovoltaic power generation system according to the present invention is
A first power conditioner device, and a second power conditioner device communicably connected to the first power conditioner device,
The first power conditioner device acquires output control schedule information including output control values of the first power conditioner device and the second power conditioner device from an external information processing device,
The second inverter device is
A schedule information acquisition unit for acquiring at least a part of the output control schedule information from the first power conditioner device;
A storage unit for storing the acquired output control schedule information;
An output control unit that reads out the output control schedule information from the storage unit and performs output control of the own device based on the read out output control schedule information;
It is characterized by having.

The solar power generation system is
The output control unit performs control to stop the output of the own device when the output control schedule information cannot be read from the storage unit.

The control method of the photovoltaic power generation system according to the present invention is as follows:
A control method of a photovoltaic power generation system comprising: a plurality of power conditioner devices; and a control device communicatively connected to the plurality of power conditioner devices,
When the control device acquires output control schedule information including output control values of the plurality of power conditioner devices from an external information processing device, the control device outputs an output command based on the output control schedule information to the plurality of power conditioner devices. Send value,
The inverter device is
Obtaining at least part of the output control schedule information from the control device;
Storing the acquired output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit The output control schedule information is read from, and the output control of the own device is performed based on the read output control schedule information.
It is characterized by that.

The control method of the photovoltaic power generation system according to the present invention is as follows:
A control method of a photovoltaic power generation system comprising a plurality of power conditioner devices, and a control device communicably connected to the plurality of power conditioner devices and an external server,
The control device receives, from the external server, first output control schedule information including an output control value of the power conditioner device for a first period, and the second period longer than the first period. When acquiring the second output control schedule information including the output control value of the power conditioner device, the output command value based on the first output control schedule information is transmitted to the plurality of power conditioner devices,
The inverter device is
Obtaining at least part of the second output control schedule information from the control device;
Storing the acquired second output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit The second output control schedule information is read from, and the output control of the own device is performed based on the read second output control schedule information.
It is characterized by that.

The control method of the photovoltaic power generation system according to the present invention is as follows:
A control method for a photovoltaic power generation system comprising: a first power conditioner device; and a second power conditioner device communicatively connected to the first power conditioner device,
The first power conditioner device acquires output control schedule information including output control values of the first power conditioner device and the second power conditioner device from an external information processing device,
The second inverter device is
Obtaining at least part of the output control schedule information from the first power conditioner device;
Storing the acquired output control schedule information;
Read the output control schedule information from the storage unit, and perform output control of the own device based on the read output control schedule information,
It is characterized by that.

  In the photovoltaic power generation system of the present invention, the power conditioner device has a storage unit that stores the output control schedule information, and autonomously suppresses the output of the own device based on the output control schedule information stored in the storage unit. It is configured to be able to be performed. For this reason, while suppressing the fall of the utilization factor of a solar power generation system, it is possible to reduce a power selling loss.

It is a figure showing a schematic structure of photovoltaic power generation system 1 concerning a 1st embodiment. 3 is a functional block diagram of the power conditioner device 10. FIG. It is a figure which shows an example of a fixed schedule. It is a flowchart for demonstrating the control method of the solar power generation system 1 which concerns on 1st Embodiment. It is a flowchart for demonstrating the control method of the solar power generation system 1 following FIG. It is a figure which shows schematic structure of 1 A of photovoltaic power generation systems which concern on 2nd Embodiment. It is a flowchart for demonstrating the control method of 1 A of photovoltaic power generation systems which concern on 2nd Embodiment. It is a figure which shows schematic structure of the solar power generation system 1B which concerns on 3rd Embodiment. It is a flowchart for demonstrating the control method of the solar power generation system 1B which concerns on 3rd Embodiment. It is a figure which shows the schematic structure of the conventional solar power generation system 1000. FIG.

  Hereinafter, three embodiments according to the present invention will be described with reference to the drawings.

(First embodiment)
The solar power generation system 1 according to the first embodiment includes a plurality of power conditioner devices (PCS) 10 and a control device 20 as shown in FIG.

  First, the control device 20 will be described. The control device 20 is a device that controls the plurality of power conditioner devices 10 and is connected to the plurality of power conditioner devices 10 so as to be communicable. The communication connection between the control device 20 and the power conditioner device 10 may be wired or wireless. Further, the connection topology is the daisy chain system in FIG. 1, but is not limited to this, and may be another connection system such as a star type or a bus type.

  The control device 20 acquires output control schedule information from an external information processing device 300 (for example, a notebook computer). This output control schedule information includes the output control value of the power conditioner device 10 and is, for example, fixed schedule information set annually such as 400 days. FIG. 3 shows an example of a fixed schedule for a certain day.

  For obtaining the output control schedule information, specifically, first, the maintenance person connects the information processing apparatus 300 to the control apparatus 20 with a USB cable or the like. Then, the maintenance person manually downloads the output control schedule information from the information processing device 300 to the control device 20.

  When acquiring the output control schedule information, the control device 20 transmits output command values based on the output control schedule information to the plurality of power conditioner devices 10. More specifically, the control device 20 reads an output control value corresponding to the current date and time from the output control schedule information, and transmits an output command value based on the read output control value to the power conditioner device 10. For example, in the case of the fixed schedule shown in FIG. 3, since the output control value is 45% when the current time is 10:00, the control device 20 sets the output upper limit to 45% of the rated output for the power conditioner device 10. Command.

  Next, the power conditioner device 10 will be described.

  As shown in FIG. 2, the power conditioner device 10 includes a control unit 11, a communication unit 12, a storage unit 13, and a power conversion unit 14.

  The control unit 11 controls the entire operation of the power conditioner device 10. The control unit 11 may be configured by hardware, or may be configured by software (an operation control program for the power conditioner device).

  The communication unit 12 is configured to transmit and receive information to and from the control device 20 and other power conditioner devices 10.

  The storage unit 13 stores output control schedule information and the like acquired from the control device 20 by a schedule information acquisition unit 111 described later. The storage unit 13 may store information such as a program for operating the power conditioner device 10 and various states (output power, presence / absence of abnormality) of the power conditioner device 10. The storage unit 13 is configured by a hard disk, a semiconductor memory, or the like.

  The power conversion unit 14 includes an inverter circuit, and converts the DC power supplied from the solar cell into predetermined AC power.

  Next, details of the control unit 11 will be described.

  As illustrated in FIG. 2, the control unit 11 includes a schedule information acquisition unit 111 and an output control unit 112.

  The schedule information acquisition unit 111 acquires at least a part of the output control schedule information from the control device 20. For example, the schedule information acquisition unit 111 acquires the fixed schedule information for three days from today among the fixed schedule information for 400 days. Note that the schedule information acquisition unit 111 may store all of the output control schedule information acquired by the control device 20.

  When the communication state between the control device 20 and the own power conditioner device (own device) is normal, the output control unit 112 performs output control of the own device based on the output command value received from the control device 20. On the other hand, when the communication state is abnormal, the output control unit 112 reads the output control schedule information from the storage unit 13, and performs output control of the own device based on the read output control schedule information. Here, the normal communication state means that the output command value can be received from the control device 20, and the abnormal communication state means that the output command value cannot be received from the control device 20. It means that.

  Note that the output control unit 112 may read the output control schedule information from the storage unit 13 when the communication abnormality continues for a predetermined time (for example, 5 minutes). Thereby, when communication abnormality recovers within a relatively short time, the power conditioner device 10 can perform output control based on the output command value of the control device 20.

  Further, the output control unit 112 may perform control to stop the output of the own device when the communication state is abnormal and the output control schedule information cannot be read from the storage unit 13. Thereby, the situation where the supply power of the photovoltaic power generation system 1 exceeds the connectable amount can be prevented.

  As described above, in the photovoltaic power generation system 1 according to the first embodiment, each power conditioner device 10 stores at least a part of the output control schedule information acquired by the control device 20 from the external information processing device 300. In the case of communication abnormality, the output control of the own apparatus is performed based on the output control schedule information. As described above, according to the first embodiment, even when a communication abnormality occurs between the control device 20 and the power conditioner device 10, each power conditioner device 10 is autonomous based on the output control schedule information. Therefore, it is possible to suppress the output of the equipment, and to reduce the power selling loss.

  Next, the control method of the photovoltaic power generation system 1 will be described with reference to the flowcharts of FIGS. 4 and 5.

  First, it is determined whether the control device 20 has acquired the output control schedule information from the external information processing device 300 (step S11). When the output control schedule information is acquired (S11: Yes), the control device 20 transmits an output command value based on the output control schedule information to the plurality of power conditioner devices 10 (step S12). On the other hand, if the output control schedule information cannot be acquired (S11: No), has the control device 20 acquired the output control schedule information from the external information processing device 300 until the output control schedule information is acquired (S11: Yes)? The determination of whether (Step S11) is repeated.

  Next, the schedule information acquisition unit 111 of the power conditioner device 10 acquires at least part of the output control schedule information from the control device 20 (step S13).

  Next, the memory | storage part 13 of the power conditioner apparatus 10 memorize | stores the output control schedule information acquired by step S13 (step S14).

  Next, the communication unit 12 of the power conditioner device 10 determines whether or not the communication state between the own device and the control device 20 is normal (step S15). When the communication state is normal (S15: Yes), the output control unit 112 of the power conditioner device 10 performs output control of the own device based on the output command value received from the control device 20 (step S16). On the other hand, when the communication state is abnormal (S15: No), it is determined whether the communication abnormality has continued for a predetermined time (for example, 5 minutes) (step S17).

  When the communication abnormality continues for a predetermined time (S17: Yes), the output control unit 112 determines whether the output control schedule information can be read from the storage unit 13 (step S18). Then, when the output can be read (S18: Yes), the output control unit 112 reads the output control schedule information from the storage unit 13, and performs output control of the own apparatus based on the read output control schedule information (step S19). .

  On the other hand, when the communication abnormality does not continue for a predetermined time (S17: No), the process returns to step S16, and the power conditioner device 10 is based on the output command value received from the control device 20 through the recovered communication. Perform output control.

  When the output control schedule information cannot be read from the storage unit 13 (S18: No), the power conditioner device 10 performs output stop control (step S20). Thereby, AC power is not output from the power conditioner device 10.

  In the above flow, step S17 and step S18 are not essential and can be omitted as appropriate.

(Second Embodiment)
Next, a solar power generation system 1A according to the second embodiment of the present invention will be described. One of the differences from the first embodiment is that the control device is connected to an external server via a communication network, and output control schedule information (update schedule and fixed schedule) is automatically downloaded regardless of the maintenance personnel. It is a point to do. Hereinafter, the second embodiment will be described focusing on the differences.

  As illustrated in FIG. 6, the photovoltaic power generation system 1A according to the second embodiment includes a plurality of power conditioner devices (PCS) 10A and a control device 20A. The control device 20A is communicably connected to the plurality of power conditioner devices 10A and the external server 400. The external server 400 is, for example, a power company server where the power company uploads the output control schedule information, or a distribution company server that downloads the output control schedule information from the power company server.

  The control device 20A acquires update schedule information (first output control schedule information) and fixed schedule information (second output control schedule information) from the external server 400. Here, the update schedule information is output control schedule information including the output control value of the power conditioner device 10A for the first period (for example, daily unit or hour unit). The fixed schedule information is output control schedule information including an output control value of the power conditioner device 10A for a second period (for example, yearly) that is longer than the first period.

  The update schedule information and the fixed schedule information are automatically downloaded from the external server 400 to the control device 20A via a communication network such as the Internet and acquired by the control device 20. 20 A of control apparatuses will transmit the output command value based on update schedule information to several power conditioner apparatus 10A, if update schedule information and fixed schedule information are acquired.

  The power conditioner device 10A is substantially the same as the power conditioner device 10 described with reference to FIG. 2 in the first embodiment as a schematic configuration, but the differences will be described below.

  The schedule information acquisition unit 111 of the control unit 11 acquires at least a part of the fixed schedule information from the control device 20A. For example, the schedule information acquisition unit 111 acquires the fixed schedule information for three days from today among the fixed schedule information for 400 days.

  The storage unit 13 stores the fixed schedule information acquired by the schedule information acquisition unit 111.

  When the communication state between the control device 20A and the own power conditioner device (own device) is normal, the output control unit 112 performs output control of the own device based on the output command value received from the control device 20A. On the other hand, when the communication state is abnormal, the output control unit 112 reads the fixed schedule information from the storage unit 13 and performs output control of the own apparatus based on the read fixed schedule information. Here, the normal communication state means that the output command value can be received from the control device 20A, and the abnormal communication state means that the output command value cannot be received from the control device 20A. It means that.

  As in the first embodiment, the output control unit 112 may read the fixed schedule information from the storage unit 13 when the communication abnormality continues for a predetermined time. Further, the output control unit 112 may perform control to stop the output of the own device when the communication state is abnormal and the fixed schedule information cannot be read from the storage unit 13.

  As described above, in the solar power generation system 1A according to the second embodiment, the control device 20A acquires the update schedule information and the fixed schedule information from the external server 400, and each power conditioner device 10A includes the control device 20A. Stores at least a part of the fixed schedule information acquired from the external server 400 via the communication network, and performs output control of the own apparatus based on the fixed schedule information in the case of communication abnormality. Thus, according to the second embodiment, even when a communication abnormality occurs between the control device 20A and the power conditioner device 10A, each power conditioner device 10A is autonomous based on the output control schedule information. Therefore, it is possible to suppress the output of the equipment, and to reduce the power selling loss.

  Next, a control method of the photovoltaic power generation system 1A will be described with reference to the flowchart of FIG.

  First, it is determined whether the control device 20A has acquired the first output control schedule information (update schedule information) and the second output control schedule information (fixed schedule information) from the external server 400 (step S21). When the update schedule information and the fixed schedule information are acquired (S21: Yes), the control device 20A transmits an output command value based on the first output control schedule information (update schedule information) to the plurality of power conditioner devices 10A. (Step S22).

  Next, the schedule information acquisition unit 111 of the power conditioner device 10A acquires at least a part of the second output control schedule information (fixed schedule information) from the control device 20A (step S23).

  Next, the memory | storage part 13 of 10 A of power conditioner apparatuses memorize | stores the 2nd output control schedule information (fixed schedule information) acquired by step S23 (step S24).

  Since the subsequent control flow is the same as that described with reference to the flowchart of FIG. 5 in the first embodiment, a detailed description thereof will be omitted.

(Third embodiment)
Next, a solar power generation system 1B according to the third embodiment of the present invention will be described. One of the differences from the first embodiment is that a control device is not provided, and one power conditioner device among a plurality of power conditioner devices becomes a master device and outputs control schedule information from an external information processing device. The other power conditioner device receives the output control schedule information from the master device and operates independently. Hereinafter, the third embodiment will be described focusing on the differences.

  As shown in FIG. 8, the photovoltaic power generation system 1B according to the third embodiment is connected to a master power conditioner device (first power conditioner device) 10BM and the master power conditioner device 10BM so as to be communicable. And one or more slave power conditioner devices (second power conditioner devices) 10BS.

  The master power conditioner device 10BM and the slave power conditioner device 10BS are substantially the same as the power conditioner device 10 described in the first embodiment with reference to FIG. This will be described below.

  First, the master power conditioner device 10BM will be described.

  In the master power conditioner device 10BM, the communication unit 12 has a communication port such as a USB connection port, and can communicate with the external information processing device 300. Then, the master power conditioner device 10BM acquires output control schedule information (for example, fixed schedule information) from the external information processing device 300. The output control schedule information includes output control values of the master power conditioner device 10BM and the slave power conditioner device 10BS. For example, the output control schedule information is fixed schedule information of the master power conditioner device 10BM and the slave power conditioner device 10BS. is there. The schedule information of the master power conditioner device 10BM and the schedule information of the slave power conditioner device 10BS are the same, but may be different schedules.

  The master power conditioner device 10BM suppresses the output of its own device based on the output control schedule information acquired from the external information processing device 300. The master power conditioner device 10BM transmits at least part of the acquired output control schedule information to the slave power conditioner device 10BS.

  Next, the slave power conditioner device 10BS will be described.

  The schedule information acquisition unit 111 of the slave power conditioner device 10BS acquires at least a part of the output control schedule information from the master power conditioner device 10BM. For example, the schedule information acquisition unit 111 acquires the fixed schedule information for three days from today among the fixed schedule information for 400 days.

  The storage unit 13 of the slave power conditioner device 10BS stores the output control schedule information acquired by the schedule information acquisition unit 111.

  The output control unit 112 of the slave power conditioner device 10BS reads the output control schedule information from the storage unit 13, and performs output control of the own power conditioner device (own device) based on the read output control schedule information.

  In addition, the output control part 112 may perform control which stops the output of an own apparatus, when output control schedule information cannot be read from the memory | storage part 13. FIG.

  As described above, in the photovoltaic power generation system 1B according to the third embodiment, the master power conditioner device 10BM acquires the output control schedule information from the information processing device 300, and the slave power conditioner device 10BS is the master power conditioner. The device 10BM stores at least a part of the output control schedule information acquired, and performs output control of the own device based on the output control schedule information. Thus, the power conditioner device 10A can always autonomously suppress output based on the output control schedule information.

  In the third embodiment, the power conditioner device autonomously suppresses output based on the output control schedule information regardless of the state of communication with the outside, and thus further suppresses a decrease in the facility utilization rate of the photovoltaic power generation system. At the same time, the power selling loss can be further reduced.

  In the third embodiment, since no control device is provided, the configuration of the photovoltaic power generation system can be simplified and the introduction cost can be reduced.

  Next, the control method of the solar power generation system 1B will be described with reference to the flowchart of FIG.

  First, it is determined whether or not the master power conditioner device 10BM has acquired output control schedule information including output suppression values of the master power conditioner device 10BM and the slave power conditioner device 10BS from the external information processing device 300 (step) S31). When the output control schedule information is acquired (S31: Yes), the master power conditioner device 10BM transmits at least a part of the output control schedule information to the slave power conditioner device 10BS. Thereby, slave power conditioner apparatus 10BS acquires at least one part of output control schedule information (step S32).

  Next, the storage unit 13 of the slave power conditioner device 10BS stores the output control schedule information acquired in step S32 (step S33).

  Next, the output control unit 112 of the slave power conditioner device 10BS determines whether or not the output control schedule information can be read from the storage unit 13 (step S34). Then, when the output can be read (S34: Yes), the output control unit 112 reads the output control schedule information from the storage unit 13, and performs output control of the own apparatus based on the read output control schedule information (step S35). .

  On the other hand, when the output control schedule information cannot be read from the storage unit 13 (S34: No), the slave power conditioner device 10BS performs output stop control (step S33).

  Based on the above description, those skilled in the art may be able to conceive additional effects and various modifications of the present invention, but the aspects of the present invention are not limited to the individual embodiments described above. . You may combine suitably the component covering different embodiment. Various additions, modifications, and partial deletions can be made without departing from the concept and spirit of the present invention derived from the contents defined in the claims and equivalents thereof.

1, 1A, 1B Photovoltaic power generation system 10, 10A Power conditioner device 10BM Master power conditioner device 11BS Slave power conditioner device 20, 20A, 20B Control device 11, 11A, 11B Control unit 111 Schedule information acquisition unit 112 Output control Unit 12 Communication unit 13 Storage unit 14 Power conversion unit 300, 500 Information processing device 400 External server 600 Power conditioner device 700 Control device 1000 Solar power generation system

Claims (11)

A plurality of inverter devices;
A control device communicably connected to the plurality of power conditioner devices,
When the control device acquires output control schedule information including output control values of the plurality of power conditioner devices from an external information processing device, the control device outputs an output command based on the output control schedule information to the plurality of power conditioner devices. Send value,
The inverter device is
A schedule information acquisition unit for acquiring at least part of the output control schedule information from the control device;
A storage unit for storing the acquired output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit An output control unit that reads the output control schedule information from the output control unit, and performs output control of the device based on the read output control schedule information;
A photovoltaic power generation system characterized by comprising:   The photovoltaic power generation system according to claim 1, wherein the output control unit reads the output control schedule information from the storage unit when the communication abnormality continues for a predetermined time.   The said output control part performs control which stops the output of an own apparatus, when the said communication state is abnormal and the said output control schedule information cannot be read from the said memory | storage part. The photovoltaic power generation system described in 1. A plurality of inverter devices;
A control device communicably connected to the plurality of power conditioner devices and an external server,
The control device receives, from the external server, first output control schedule information including an output control value of the power conditioner device for a first period, and the second period longer than the first period. When acquiring the second output control schedule information including the output control value of the power conditioner device, the output command value based on the first output control schedule information is transmitted to the plurality of power conditioner devices,
The inverter device is
A schedule information acquisition unit for acquiring at least a part of the second output control schedule information from the control device;
A storage unit for storing the acquired second output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit An output control unit that reads out the second output control schedule information from the output control unit and performs output control of the device based on the read out second output control schedule information;
A photovoltaic power generation system characterized by comprising:   The photovoltaic power generation system according to claim 4, wherein the output control unit reads the second output control schedule information from the storage unit when the communication abnormality continues for a predetermined time.   The output control unit performs control to stop the output of the own device when the communication state is abnormal and the second output control schedule information cannot be read from the storage unit. Item 6. The photovoltaic power generation system according to Item 4 or 5. A first power conditioner device, and a second power conditioner device communicably connected to the first power conditioner device,
The first power conditioner device acquires output control schedule information including output control values of the first power conditioner device and the second power conditioner device from an external information processing device,
The second inverter device is
A schedule information acquisition unit for acquiring at least a part of the output control schedule information from the first power conditioner device;
A storage unit for storing the acquired output control schedule information;
An output control unit that reads out the output control schedule information from the storage unit and performs output control of the own device based on the read out output control schedule information;
A photovoltaic power generation system characterized by comprising:   The said output control part performs control which stops the output of an own apparatus, when the said output control schedule information cannot be read from the said memory | storage part, The solar power generation system of Claim 7 characterized by the above-mentioned. A control method of a photovoltaic power generation system comprising: a plurality of power conditioner devices; and a control device communicatively connected to the plurality of power conditioner devices,
When the control device acquires output control schedule information including output control values of the plurality of power conditioner devices from an external information processing device, the control device outputs an output command based on the output control schedule information to the plurality of power conditioner devices. Send value,
The inverter device is
Obtaining at least part of the output control schedule information from the control device;
Storing the acquired output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit The output control schedule information is read from, and the output control of the own device is performed based on the read output control schedule information.
A control method for a photovoltaic power generation system. A control method of a photovoltaic power generation system comprising a plurality of power conditioner devices, and a control device communicably connected to the plurality of power conditioner devices and an external server,
The control device receives, from the external server, first output control schedule information including an output control value of the power conditioner device for a first period, and the second period longer than the first period. When acquiring the second output control schedule information including the output control value of the power conditioner device, the output command value based on the first output control schedule information is transmitted to the plurality of power conditioner devices,
The inverter device is
Obtaining at least part of the second output control schedule information from the control device;
Storing the acquired second output control schedule information;
When the communication state between the control device and the own device is normal, the output of the own device is controlled based on the output command value received from the control device, and when the communication state is abnormal, the storage unit The second output control schedule information is read from, and the output control of the own device is performed based on the read second output control schedule information.
A control method for a photovoltaic power generation system. A control method for a photovoltaic power generation system comprising: a first power conditioner device; and a second power conditioner device communicatively connected to the first power conditioner device,
The first power conditioner device acquires output control schedule information including output control values of the first power conditioner device and the second power conditioner device from an external information processing device,
The second inverter device is
Obtaining at least part of the output control schedule information from the first power conditioner device;
Storing the acquired output control schedule information;
Read the output control schedule information from the storage unit, and perform output control of the own device based on the read output control schedule information,
A control method for a photovoltaic power generation system.

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