JP6913871B2 - Control command system and power converter - Google Patents

Description

The present invention relates to a control command system for operating a power conversion device that converts the power of a distributed power source, and a power conversion device.

In recent years, a system in which a photovoltaic power generation system and a power storage system are linked (hereinafter referred to as a creation and storage cooperation system in the present specification) has become widespread. In the creation and storage cooperation system, a form using a power conversion device called a power station (registered trademark) that integrates a power conditioner for a photovoltaic power generation system and a power conditioner for a power storage system has been put into practical use. .. Since the power conversion device is often installed outside the house, a control command device for operating the power conversion device is separately provided, and the control command device is connected to the power conversion device by wire / wireless. ..

When installing the creation and storage cooperation system, the worker of the contractor connects the solar power generation device and the power storage device to the power conversion device, and connects the power conversion device to the commercial power system (hereinafter, as appropriate, simply referred to as a system). At the same time, it is necessary to set up the power conversion device. Specifically, it is necessary to perform initial settings such as date and time settings and communication addresses, settings and operation checks related to independent operation, and settings and operation checks related to grid interconnection operation.

Japanese Patent No. 6024929

Conventionally, it has been common for workers of a contractor to set up a power conversion device while looking at an instruction manual. In the case of an unfamiliar worker, omissions or omissions occurred in the setting work and confirmation work even while looking at the instruction manual. In addition, the construction time was long.

The present invention has been made in view of such a situation, and an object of the present invention is to provide a control command system and a power conversion device that can simplify the setup work of the power conversion device by an operator.

In order to solve the above problems, in the control command system of an embodiment of the present invention, the communication unit that communicates with the power conversion device that converts the power of the distributed power supply device and the distributed power supply device are connected to the power conversion device. After that, when a display unit that displays a plurality of construction confirmation items corresponding to the distributed power supply device and the completion of the nth (n is a natural number) construction confirmation item among the plurality of construction confirmation items are detected. When the operation of the power conversion device corresponding to the nth construction confirmation item is permitted and the completion of the nth construction confirmation item is not detected, the power conversion corresponding to the nth construction confirmation item is performed. It is provided with a control unit that controls so as to prohibit the operation of the device.

According to the present invention, it is possible to simplify the setup work of the power conversion device by the worker.

It is a figure for demonstrating the creation and storage cooperation system which concerns on embodiment of this invention. It is a figure which shows an example of the screen and the operation part which are displayed on the display part of a control command device at the time of setting up a power conversion device. 3 (a) and 3 (b) are diagrams showing an example of a construction confirmation menu screen (No. 1) and an initial setting menu screen. 4 (a) and 4 (b) are diagrams showing an example of a date / time setting screen and a regional setting screen. 5 (a) and 5 (b) are diagrams showing an example of a construction confirmation menu screen (No. 2) and an independent operation confirmation menu screen. 6 (a) and 6 (b) are diagrams showing an example of the construction confirmation menu screen (No. 3) and the interconnection operation confirmation menu screen. 7 (a) and 7 (b) are diagrams showing an example of a construction confirmation menu screen (No. 4) and an error screen (No. 1). 8 (a) and 8 (b) are diagrams showing an example of a construction confirmation menu screen (No. 5) and an error screen (No. 2). It is a flowchart which shows the operation of a power conversion device and a control command device at the time of setting up a power conversion device (the 1). It is a flowchart which shows the operation of a power conversion device and a control command device at the time of setting up a power conversion device (the 2). It is a figure for demonstrating the creation and storage cooperation system which concerns on modification 1 of this invention. It is a figure for demonstrating the creation and storage cooperation system which concerns on modification 2 of this invention.

FIG. 1 is a diagram for explaining a creation-saving cooperation system according to an embodiment of the present invention. The creation and storage cooperation system includes a solar power generation device 1, a power storage device 2, a power conversion device 10, and a control command device 20. The power conversion device 10 is an integrated power conversion device that integrates the power conditioner function for the solar power generation device 1 and the power conditioner function for the power storage device 2, and is the first DC / DC converter 11 and the first. It includes a 2DC / DC converter 12, an inverter 13, and a control circuit 14.

The photovoltaic power generation device 1 is a power generation device that directly converts light energy into electric power by utilizing the photovoltaic effect. The photovoltaic power generation device 1 includes a solar cell such as a silicon solar cell, a solar cell made of a compound semiconductor or the like, a dye-sensitized solar cell, or an organic thin film solar cell. The photovoltaic power generation device 1 is connected to the first DC / DC converter 11 of the power conversion device 10, and outputs the generated power to the first DC / DC converter 11. The first DC / DC converter 11 is a converter that is connected between the photovoltaic power generation device 1 and the DC bus B1 and can adjust the voltage of the DC power output from the photovoltaic power generation device 1. The first DC / DC converter 11 can be configured by, for example, a step-up chopper.

The power storage device 2 is capable of charging and discharging electric power, and includes storage batteries such as a lithium ion storage battery, a nickel hydrogen storage battery, and a lead storage battery. Instead of the storage battery, a capacitor such as an electric double layer capacitor or a lithium ion capacitor may be provided. The power storage device 2 is basically assumed to be a stationary type, but it may be an in-vehicle power storage device mounted on an EV. The power storage device 2 is connected to the second DC / DC converter 12 of the power conversion device 10, and is charged / discharged controlled by the second DC / DC converter 12. The second DC / DC converter 12 is a bidirectional DC / DC converter connected between the power storage device 2 and the DC bus B1 to charge and discharge the power storage device 2.

The inverter 13 is a bidirectional inverter connected between the DC bus B1 and the distribution board 4, converts the DC power input from the DC bus B1 into AC power, and connects the converted AC power to the system 3. Output to the distributed distribution board 4. The system 3, the power conversion device 10, and the load 5 are connected to the distribution board 4. Load 5 is a general term for loads in the house. Further, the inverter 13 converts the AC power supplied from the system 3 via the distribution board 4 into DC power, and outputs the converted DC power to the DC bus B1.

The control circuit 14 controls the entire power conversion device 10. The control circuit 14 can be realized by the cooperation of hardware resources and software resources, or only by hardware resources. Analog devices, microcomputers, DSPs, ROMs, RAMs, FPGAs, and other LSIs can be used as hardware resources. Programs such as firmware can be used as software resources.

The control circuit 14 executes MPPT (Maximum Power Point Tracking) control of the photovoltaic power generation device 1 by controlling the first DC / DC converter 11. Specifically, the control circuit 14 measures the input voltage and input current of the first DC / DC converter 11, which are the output voltage and output current of the photovoltaic power generation device 1, and estimates the generated power of the photovoltaic power generation device 1. .. The control circuit 14 is a voltage command value for setting the generated power of the photovoltaic power generation device 1 to the maximum power point (optimal operating point) based on the measured output voltage of the photovoltaic power generation device 1 and the estimated generated power. To generate. For example, the operating point voltage is changed by a predetermined step width according to the hill climbing method to search for the maximum power point, and a voltage command value is generated so as to maintain the maximum power point. The first DC / DC converter 11 performs a switching operation in response to a drive signal based on the generated voltage command value.

The control circuit 14 executes stabilization control of the DC bus B1 by controlling the inverter 13. Specifically, the control circuit 14 detects the voltage of the DC bus B1 and generates a current command value for matching the detected bus voltage with the threshold voltage. The control circuit 14 generates a current command value for increasing the duty ratio of the inverter 13 when the voltage of the DC bus B1 is higher than the threshold voltage, and the duty ratio of the inverter 13 when the voltage of the DC bus B1 is lower than the threshold voltage. Generates a current command value to reduce. The inverter 13 performs a switching operation so as to match the output current with the generated current command value.

The control circuit 14 executes charge / discharge control of the power storage device 2 by controlling the second DC / DC converter 12. The second DC / DC converter 12 charges and discharges the power storage device 2 with a constant current (CC) / constant voltage (CV) based on the current command value / voltage command value set from the control circuit 14. For example, when the power storage device 2 is operated by following the photovoltaic power generation device 1 and / or the load 5, the control circuit 14 generates a current command value of the second DC / DC converter 12 according to the voltage of the DC bus B1. ..

The control command device 20 is a terminal device for operating the power conversion device 10. The power conversion device 10 and the power conversion device 10 may be connected by wire or wirelessly. In this embodiment, it is assumed that the two are connected by a cable conforming to the RS-485 standard.

The control command device 20 includes a control unit 21, a storage unit 22, a first communication unit 23, a second communication unit 24, a display unit 25, and an operation unit 26. The first communication unit 23 executes communication with the power conversion device 10. In the present embodiment, serial communication conforming to the RS-485 standard is executed with the power conversion device 10. The second communication unit 24 executes communication with an external system other than the creation and storage cooperation system. The second communication unit 24 is connected to the router device 6. The second communication unit 24 and the router device 6 may be connected by wire or wirelessly. For example, communication conforming to the Ethernet (registered trademark) standard and the WiFi (registered trademark) standard is executed between the two.

In this embodiment, the external system can be connected to the HEMS (Home Energy Management System) controller 7 and the power transmission and distribution business operator server 9. In this specification, a system other than the creation and storage cooperation system is defined as an external system in a broad sense, and a system other than a system belonging to a customer including the creation and storage cooperation system and HEMS is defined as an external system in a narrow sense. The HEMS controller 7 corresponds to an external system in a broad sense, but does not correspond to an external system in a narrow sense. The power transmission and distribution business operator server 9 corresponds to both an external system in a broad sense and an external system in a narrow sense.

The HEMS controller 7 is a controller installed in a customer's house, monitors the power supply status and the consumption status in the house, and centrally manages the energy in the house. For example, the HEMS controller 7 is wired or wired to a load 5 (for example, a lighting, an air conditioner, an air purifier, a heat pump water heater, an IH cooking heater, etc.), a smart meter, a temperature sensor, a humidity sensor, etc., which have a function of linking with the HEMS controller 7. Connected wirelessly.

In FIG. 1, the HEMS controller 7 is connected to the control command device 20 via the router device 6. The HEMS controller 7 and the control command device 20 may be connected by a dedicated cable. In that case, for example, serial communication conforming to the RS-485 standard is executed between the two.

The second communication unit 24 of the control command device 20 can communicate with the power transmission and distribution business server 9 connected to the Internet 8 via the router device 6. The power transmission and distribution business operator server 9 is a server of a business operator that manages and operates the transmission and distribution network. As of 2017, the transmission and distribution network is monopolized by 10 electric power companies in Japan. From April 2020, it is planned to implement the power transmission and distribution separation that separates the power generation business and the power transmission and distribution business of the electric power company.

Due to the revision of the Act on Special Measures for Renewable Energy in January 2015, it is necessary to respond to requests for output control from electric power companies without limitation and without compensation for renewable energy power generation facilities that are systematized beyond a certain standard. Was stipulated. With the expansion of the feed-in tariff system for renewable energy, the number of renewable energy power generation facilities that are interconnected to the grid is increasing, and the supply-demand balance of the grid is more likely to be disrupted than before. When the power supply to the grid exceeds the power demand, the voltage / frequency of the grid rises, and when the power supply to the grid falls below the power demand, the voltage / frequency of the grid falls.

The power transmission and distribution business operator can use output control in order to keep the voltage and frequency of the system within a predetermined range. Output control is control that commands the controller of the power generation equipment to suppress the output from the power generation equipment to the grid. In the present embodiment, the photovoltaic power generation device 1 is the target of output control. In Japan, reverse power flow from the storage battery to the grid is prohibited, so the power storage device 2 is not subject to output control.

A power company that has a transmission and distribution network first reduces the amount of power generated by its power generation equipment when the power supply is in excess. Even with this, if the excess power supply cannot be resolved, output control is performed. When the capacity of the grid is small or in areas where there are few consumers, the frequency of activation of output control is high.

The power transmission and distribution business server 9 predicts the power supply and demand of the system 3 based on the weather forecast, load prediction, and the like, and determines whether or not output control is necessary. When output control is required, the power transmission and distribution business operator server 9 determines the output control schedule and the upper limit of the output power. The schedule is specified, for example, in units of 30 minutes. The upper limit of the output power is defined by, for example, a ratio [%] to the rated output power of the power generation equipment, and is specified in units of 1%.

The control command device 20 acquires an output control command from the power transmission and distribution business operator server 9 via the Internet 8. The output control command includes an upper limit of the output power for each time zone. In principle, the content of output control is determined the day before. The content of output control will be changed as appropriate according to changes in weather conditions and load fluctuations on the day.

The display unit 25 of the control command device 20 includes a liquid crystal display or an organic EL display, and displays information supplied from the control unit 21 on the screen. The operation unit 26 includes a touch panel and / or a physical button, converts a physical operation by the operator into an electrical operation signal, and outputs the physical operation to the control unit 21.

The control unit 21 can be realized by the collaboration of hardware resources and software resources, or only by hardware resources. Microcomputers, ROMs, RAMs, and other LSIs can be used as hardware resources. Programs such as firmware can be used as software resources. The storage unit 22 is composed of a non-volatile memory.

Hereinafter, the operations of the power conversion device 10 and the control command device 20 when the power conversion device 10 is set up by the workers of the contractor will be described.

FIG. 2 is a diagram showing an example of a screen displayed on the display unit 25 of the control command device 20 and an operation unit 26 when the power conversion device 10 is set up. The display area of the screen 25a shown in FIG. 2 is formed by a first display area 251, a second display area 252, a third display area 253, a fourth display area 254, and a fifth display area 255.

In the first display area 251, the operating state, mode, device connection state icon, and time of the power conversion device 10 are displayed. The operating state of the power conversion device 10 includes "interconnection operation", "interconnection stop", and "interconnection standby". "During interconnection operation" is a state in which the system is connected to the system 3 and is being operated. “The interconnection is stopped” is a state in which the photovoltaic power generation device 1, the power storage device 2, and the system power supply are all stopped. The stop includes a manual stop and a stop due to anomaly detection. The stop due to abnormality detection also includes a communication abnormality between the power conversion device 10 and the control command device 20. “During interconnection standby” is a state in which the photovoltaic power generation device 1, the power storage device 2, and the system power supply are all on standby.

The modes include "economic priority", "environment priority", "storage priority", "external control", and "output control". "Economic priority" is a mode in which the operation is performed according to the set charge / discharge time. This mode is selected during peak shift operation, and can be charged at night when electricity charges are low and discharged during times when electricity charges are high. The charging time zone and the discharging time zone can be set by the user. It should be noted that the storage battery cannot be discharged during the period when the generated power of the photovoltaic power generation device 1 is sold. "Environmental priority" is a mode in which the surplus electric power generated by the photovoltaic power generation device 1 is charged in the daytime and the charged electricity is used in the evening or at night. This mode can reduce the amount of electricity purchased from electric power companies. The "storage priority" is a mode in which charging is prioritized so that the power storage device 2 is always fully charged. After charging is complete, wait for a power outage.

"External control" is a mode in which the vehicle is operated based on an instruction from the HEMS controller 7. "Output control" is a mode when the main body is in output control based on an output control command from the power transmission and distribution business operator server 9. When the connection of the power storage device 2 is invalid, the mode is basically not displayed in the first display area 251 but when the main body is in output control, "output control" is displayed.

In the second display area 252, the operating state of the photovoltaic power generation device 1, the icon of the solar panel, and the amount of power generation [kW] are displayed. The operating state of the photovoltaic power generation device 1 includes "power generation", "stopped", and "standby". "Power generation" is a state in which the photovoltaic power generation device 1 is generating power. "Stopped" is a state in which power generation is stopped regardless of the presence or absence of solar radiation. The “stopped” also includes the time when data has not been acquired or the time when the communication between the power conversion device 10 and the control command device 20 is abnormal. "Standby" is a state in which there is no solar radiation and no power is generated, but if there is solar radiation, power can be generated at any time.

In the third display area 253, the operating state of the power storage device 2, the icon of the storage battery, the charge / discharge amount [kW], and the remaining capacity [%] are displayed. The operating state of the power storage device 2 includes "charging", "discharging", "stopping", "standby", and "not connected". “Charging” is a state in which power is stored from the photovoltaic power generation device 1 and / or the system 3. "Discharging" is a state in which the stored power is being output. "Stopping" is a state in which charging / discharging is stopped. When the connection of the power storage device 2 is invalid, "stopped" is always displayed. The “stopped” also includes the time when data has not been acquired or the time when the communication between the power conversion device 10 and the control command device 20 is abnormal. "Standby" is a state in which charging / discharging is not performed, but charging / discharging is possible at any time as needed. "Not connected" is a state in which the power storage device 2 is not connected.

The input / output status of the system power supply is displayed in the fourth display area 254. The input / output states of the grid power supply include "input", "output", "stopped", and "standby". "Inputting" is a state in which the electric power from the system 3 is being charged to the power storage device 2. “During output” outputs the generated power of the photovoltaic power generation device 1 and / or the discharge power from the power storage device 2 to the distribution board 4 to supply power to the system 3 (selling power) and / or the load 5. It is in a state of being. "Stopped" is a state in which input / output is stopped. The “stopped” includes the time when data is not acquired or the time when the communication between the power conversion device 10 and the control command device 20 is abnormal. "Standby" is a state in which input / output is not generated, but can be input / output at any time according to the power generation status of the photovoltaic power generation device 1, the charge / discharge set time, and the usage status of the load 5.

A construction confirmation implementation request message is displayed in the fifth display area 255. This message is displayed when the control circuit 14 of the power conversion device 10 detects the connection of at least one of the photovoltaic power generation device 1 and the power storage device 2.

The operation unit 26a shown in FIG. 2 includes a decision key 261, a menu / return key 262, and a cross key 263. These keys may be physical keys or touch panel keys. If the enter key 261 is pressed while the construction confirmation implementation request message is displayed, the screen transitions to the construction confirmation menu screen.

3A and 3B are diagrams showing an example of the construction confirmation menu screen 25b (No. 1) and the initial setting menu screen 25c. When the photovoltaic power generation device 1 and the power storage device 2 are connected to the power conversion device 10, the construction confirmation menus include "initial setting", "self-sustaining operation confirmation", and "interconnected operation" as shown in FIG. 3 (a). Three confirmation items of "confirmation" are displayed. For each confirmation item, either "Incomplete" / "Completed" status is displayed. When the enter key 261 is pressed while "initial setting" is selected on the construction confirmation menu screen 25b shown in FIG. 3A, the screen transitions to the initial setting menu screen 25c shown in FIG. 3B.

In the initial setting menu screen 25c shown in FIG. 3B, the initial setting menus are "date and time setting", "regional setting", "self-sustaining output frequency setting", "reverse power flow target value setting", and "battery connection setting". , "Communication address setting" is displayed. Since the frequency of the system 3 cannot be detected at the time of self-sustaining output, the power conversion device 10 needs to specify the frequency of the AC power. In Japan, there are areas of 50Hz and 60Hz, and the workers of the contractor set the frequency according to the installation area of the creation and storage cooperation system as "self-sustaining output frequency setting".

In Japan, the grid interconnection regulations prohibit the reverse power flow from the storage battery to the grid 3 for more than 500 ms of the power of 5% or more of the rated capacity of the storage battery. The worker sets a value of 5% of the rated capacity of the storage battery as the “reverse power flow target value setting”. The worker sets the presence / absence of the storage battery connection, the capacity of the storage battery, etc. as the "storage battery connection setting", and sets the IP address of the control command device 20 as the "communication address setting".

4 (a) and 4 (b) are diagrams showing an example of the date and time setting screen 25d and the area setting screen 25e. When the enter key 261 is pressed while "date and time setting" is selected on the initial setting menu screen 25c shown in FIG. 3B, the screen transitions to the date and time setting screen 25d shown in FIG. 4A. The worker sets the current date and time from this screen.

When the enter key 261 is pressed while "regional setting" is selected on the initial setting menu screen 25c shown in FIG. 3B, the screen transitions to the regional setting screen 25e shown in FIG. 4B. Japan's power transmission and distribution network is locally monopolized by 10 electric power companies: Hokkaido Electric Power, Tohoku Electric Power, Tokyo Electric Power, Chubu Electric Power, Hokuriku Electric Power, Kansai Electric Power, Chugoku Electric Power, Shikoku Electric Power, Kyushu Electric Power, and Okinawa Electric Power. The above-mentioned output control command needs to be acquired from the power transmission and distribution business server 9 operated and managed by any of the 10 electric power companies. The worker selects which of the 10 electric power companies has jurisdiction over the area where the creation and storage cooperation system is installed. In addition, a specification for inputting / selecting attribute information related to a region such as a local division, a prefecture, or a municipality may be used. In that case, the control unit 21 identifies the electric power company having jurisdiction based on the attribute information regarding the input / selected area. The setting information set from the initial setting menu described above is stored in the storage unit 22.

5 (a) and 5 (b) are views showing an example of the construction confirmation menu screen 25f (No. 2) and the independent operation confirmation menu screen 25g. The construction confirmation menu screen 25f shown in FIG. 5A is a screen displayed after the completion of the “initial setting”. On the construction confirmation menu screen 25f shown in FIG. 5 (a), when the enter key 261 is pressed while "independent operation confirmation" is selected, the screen transitions to the independent operation confirmation menu screen 25g shown in FIG. 5 (b). ..

In the self-sustaining operation confirmation menu screen 25g shown in FIG. 5B, "connection state confirmation" and "independent operation test" are displayed as items for self-sustaining operation confirmation. When the enter key 261 is pressed while "independent operation confirmation" is selected by the worker, the control unit 21 of the control command device 20 sends an execution command of "connection state confirmation" of the independent operation to the power conversion device 10. Send.

When the control circuit 14 of the power conversion device 10 receives an execution command for "confirmation of connection status" of the self-sustaining operation, a sensor (not shown) indicates whether or not the hardware equipment required for the self-sustaining operation is connected to the power conversion device 10. Check based on the detected value of. In order to perform self-sustaining operation, at least one of the photovoltaic power generation device 1 and the power storage device 2 needs to be connected to the power conversion device 10. The control circuit 14 of the power conversion device 10 transmits the result (success / failure information) of the “connection state confirmation” of the self-sustaining operation to the control command device 20.

The control circuit 14 of the power conversion device 10 receives the result of the "connection state confirmation" of the independent operation from the control command device 20. If the result of the "connection state confirmation" of the self-sustaining operation is successful, the control circuit 14 transmits an execution command of the "self-sustaining operation test" to the power conversion device 10. When the result of the "connection state confirmation" of the independent operation is unsuccessful, the control circuit 14 ends the "independent operation confirmation" while maintaining the status of the "independent operation confirmation" as "incomplete".

When the control circuit 14 of the power conversion device 10 receives the execution command of the "independent operation test" from the control command device 20, it executes the "independent operation test" and confirms whether or not the normal independent operation has been executed. Specifically, the self-sustaining output voltage in the power converter 10 is measured, and it is confirmed whether or not an AC voltage having a voltage value and frequency in a normal range is output. The control circuit 14 of the power conversion device 10 stores the result (pass / fail information) of the "self-sustaining operation test" in its own non-volatile memory and transmits it to the control command device 20.

The control unit 21 of the control command device 20 measures the voltage of the self-sustaining output path outside the power conversion device 10 with a voltage sensor (not shown). The self-sustaining output path is directly connected to the path connected to the load 5 in the distribution board 4 without merging with the path connected to the system 3. The self-supporting output path may be configured to be connected only to a specific preset load. The control unit 21 of the control command device 20 confirms whether or not the voltage of the self-sustaining output path is an AC voltage having a voltage value and frequency in a normal range based on the detected value of the voltage sensor. The control unit 21 of the control command device 20 stores the voltage measurement result of the independent output path in the storage unit 22.

The control unit 21 of the control command device 20 passes the "self-sustaining operation test" when both the measurement result of the voltage of the self-sustaining output path and the result of the "self-sustaining operation test" transmitted from the power conversion device 10 pass. judge. If either one of the results fails, the "self-sustaining operation test" is judged to be unsuccessful. If the "independent operation test" is passed, the control circuit 14 changes the status of the "independent operation confirmation" to "completed" and ends the "independent operation confirmation". If the "independent operation test" fails, the "independent operation confirmation" is terminated while maintaining the status of the "independent operation confirmation" as "incomplete".

6 (a) and 6 (b) are diagrams showing an example of the construction confirmation menu screen 25h (No. 3) and the interconnection operation confirmation menu screen 25i. The construction confirmation menu screen 25h shown in FIG. 6A is a screen displayed after the completion of the “self-sustaining operation confirmation”. When the enter key 261 is pressed while "interconnection operation confirmation" is selected on the construction confirmation menu screen 25h shown in FIG. 6A, the interconnection operation confirmation menu screen 25i shown in FIG. 6B is displayed. Transition.

On the interconnection operation confirmation menu screen 25i shown in FIG. 6B, the items for interconnection operation confirmation are "set value setting", "connection status confirmation", "reverse tide CT test", and "integrated value initialization". Is displayed. The worker sets a set value specified by the electric power company or the power transmission and distribution business operator as a "set value setting" for suppressing an increase in the output voltage to the system 3. When the set value is set, the control unit 21 of the control command device 20 transmits an execution command of "connection state confirmation" of the interconnection operation to the power conversion device 10.

When the control circuit 14 of the power conversion device 10 receives the execution command of "connection status confirmation" of the interconnection operation, it shows whether or not the hardware equipment required for the interconnection operation is connected to the power conversion device 10. Check based on the detected value of the sensor. In order to perform the interconnection operation, at least one of the photovoltaic power generation device 1 and the power storage device 2 needs to be connected to the power conversion device 10. The control circuit 14 of the power conversion device 10 transmits the result (success / failure information) of the "connection state confirmation" of the interconnection operation to the control command device 20.

The control circuit 14 of the power conversion device 10 receives the result of the "connection state confirmation" of the interconnection operation from the control command device 20. If the result of the "connection state confirmation" of the interconnection operation is successful, the control circuit 14 transmits an execution command of the "reverse tide CT test" to the power conversion device 10. If the result of the "connection status confirmation" of the interconnection operation is unsuccessful, the control circuit 14 ends the "interconnection operation confirmation" while maintaining the status of the "interconnection operation confirmation" as "incomplete".

As mentioned above, in Japan, reverse power flow from the storage battery to the grid 3 is prohibited by the grid interconnection regulations. When the power storage device 2 is connected to the power conversion device 10 in order to prevent reverse power flow from the storage battery to the system 3, a CT sensor (current sensor) should be installed in the current path between the distribution board 4 and the system 3. Is obligatory. The control circuit 14 of the power conversion device 10 is connected to the CT sensor (not shown) by wiring, and acquires the value of the current flowing between the distribution board 4 and the system 3 from the CT sensor. The control circuit 14 of the power conversion device 10 stops the discharge from the power storage device 2 when reverse power flow is detected during the discharge from the power storage device 2.

When the control circuit 14 of the power conversion device 10 receives the execution command of the "reverse tide CT test" from the control command device 20, the control circuit 14 executes the "reverse tide CT test" and performs CT based on the detected value of the CT sensor. Check if the sensor works properly. The control circuit 14 of the power conversion device 10 stores the result (pass / fail information) of the "reverse tide CT test" in its own non-volatile memory and transmits it to the control command device 20.

If the result of the "reverse tide CT test" transmitted from the power conversion device 10 is passed, the control unit 21 of the control command device 20 initializes the integrated value of the charge / discharge amount of the power storage device 2, and after the initialization. , Change the status of "Connected operation confirmation" to "Complete" and end "Connected operation confirmation". If the result of the "reverse tide CT test" transmitted from the power converter 10 fails, the control circuit 14 maintains the status of "interconnection operation confirmation" as "incomplete" and "interconnection operation". End "Confirmation".

With the above, the whole construction confirmation is completed. It is necessary to carry out this construction confirmation in the order of "initial setting"-> "independent operation confirmation"-> "interconnection operation confirmation". It is forbidden to skip the turn and confirm. The confirmation of "self-sustaining operation confirmation" and "interconnection operation confirmation" may be reversed, but when the power storage device 2 is connected, it is used only as a backup power source in the event of a power failure without grid connection. Therefore, it is preferable to carry out "self-sustaining operation confirmation" first.

In particular, the "date and time setting" and "regional setting" included in the "initial setting" need to be performed before the "interconnection operation confirmation". As described above, the transmission and distribution network is divided into regions, and the output control command needs to be acquired from the transmission and distribution operator server 9 that has jurisdiction over the transmission and distribution network in the region where the creation and storage cooperation system is installed. Therefore, it is necessary that the "regional setting" is completed before the photovoltaic power generation device 1 operates in connection with the system 3.

Further, as described above, the output control command is defined by the schedule and the upper limit value of the output power. Therefore, if the date and time are not set accurately in the power conversion device 10, there is a possibility of violating the law to output the power exceeding the upper limit value included in the command from the power transmission and distribution business operator server 9 to the system 3. Therefore, when the photovoltaic power generation device 1 is operated in connection with the system 3, it is necessary that the accurate "date and time setting" is completed.

In addition, the "independent output frequency setting" included in the "initial setting" needs to be performed before the "independent operation confirmation". Since the frequency of the system 3 cannot be detected during the self-sustaining operation, it is necessary to set an appropriate self-sustaining output frequency according to the installation area in advance.

7 (a) and 7 (b) are diagrams showing an example of the construction confirmation menu screen 25j (No. 4) and the error screen 25k (No. 1). The construction confirmation menu screen 25j shown in FIG. 7A shows a state in which "self-sustaining operation confirmation" is selected even though "initial setting" is "incomplete". When the enter key 261 is pressed in this state, the error screen 25k shown in FIG. 7B is displayed. On the error screen 25k, an error message "Initial setting is not completed. Please perform initial setting." Is displayed.

8 (a) and 8 (b) are diagrams showing an example of a construction confirmation menu screen 25l (No. 5) and an error screen 25m (No. 2). The construction confirmation menu screen 25l shown in FIG. 8A shows a state in which "interconnection operation confirmation" is selected even though "independent operation confirmation" is "incomplete". When the enter key 261 is pressed in this state, the error screen 25 m shown in FIG. 8B is displayed. On the error screen 25m, an error message "Independent operation confirmation is not completed. Please confirm independent operation." Is displayed.

FIG. 9 is a flowchart showing the operation of the power conversion device 10 and the control command device 20 at the time of setting up the power conversion device 10 (No. 1). FIG. 10 is a flowchart showing the operation of the power conversion device 10 and the control command device 20 at the time of setting up the power conversion device 10 (No. 2). When the control circuit 14 of the power conversion device 10 detects that a distributed power source such as a photovoltaic power generation device 1 or a power storage device 2 is connected to the power conversion device 10 (Y in S10), the connection detection of the distributed power source The notification is transmitted to the control command device 20 (S11).

When the control unit 21 of the control command device 20 receives the connection detection notification of the distributed power source from the power conversion device 10 via the first communication unit 23, the control unit 21 causes the display unit 25 to display a construction confirmation implementation request message (S20). .. When the operation confirmation start operation is performed on the operation unit 26 (Y in S21), the control unit 21 sets the construction confirmation item according to the type of the connected distributed power source (S22).

In the above example, a creation and storage cooperation system in which both the photovoltaic power generation device 1 and the power storage device 2 are connected is assumed. In this regard, when only the photovoltaic power generation device 1 is connected, the power conversion device 10 functions as a power conditioner for a solar cell, and the photovoltaic power generation device 1 and the power conversion device 10 function as a photovoltaic power generation system. On the other hand, when only the power storage device 2 is connected, the power conversion device 10 functions as a power conditioner for the storage battery, and the power storage device 2 and the power conversion device 10 function as a power storage system.

In the case of a photovoltaic power generation system, it is not necessary to install a CT sensor because reverse power flow to the system 3 is not prohibited. Therefore, the confirmation items related to the storage battery and the CT sensor are not required in the above construction confirmation menu. For example, the items of "reverse power flow target value setting", "reverse power CT test", and "integrated value initialization" are unnecessary. In the case of a power storage system, it is not subject to output control requested by the power transmission and distribution business operator. Therefore, the confirmation items related to output control are not required in the above construction confirmation menu. For example, "regional setting" is no longer required.

The control unit 21 of the control command device 20 sets the parameter n to 1 as the initial value setting of the parameter n (S23). When any of the plurality of construction confirmation items is executed on the operation unit 26 (Y in S24), the control unit 21 confirms that the construction confirmation item for which the execution operation has been performed is the (n + 1) th or subsequent construction confirmation item. It is determined whether or not it is an item (S25). If it is the (n + 1) th or subsequent construction confirmation item (Y in S25), the control unit 21 refuses to implement the requested construction confirmation item (S26). The transition to step S24.

If it is not the (n + 1) th or subsequent construction confirmation item (N in S25), the control unit 21 determines whether or not the construction confirmation item for which the execution operation has been performed is a confirmation item that requires confirmation of the power conversion device 10. (S27). When it is a confirmation item that requires confirmation of the power conversion device 10 (Y in S27), the control unit 21 transmits a state / operation confirmation request related to the construction confirmation item to the power conversion device 10 (S28).

The control circuit 14 of the power conversion device 10 performs a state / operation check received from the control command device 20 (S12), saves the state / operation check result in its own non-volatile memory, and performs the state / operation. The confirmation result is transmitted to the control command device 20 (S13). The control unit 21 of the control command device 20 receives the status / operation confirmation result from the power conversion device 10 and changes the nth construction confirmation item from incomplete to completed (S210).

In step S27, if it is not a confirmation item that requires confirmation of the power conversion device 10 (N in S27), the control unit 21 saves the setting information input to the operation unit 26 in the storage unit 22 (S29). The transition to step S210.

Proceed to FIG. The control unit 21 of the control command device 20 transmits a completion notification of the nth construction confirmation item to the power conversion device 10 (S211). Upon receiving the completion notification of the nth construction confirmation item, the control circuit 14 of the power conversion device 10 changes the operation corresponding to the nth construction confirmation item from the prohibited state to the permitted state (S14). For example, when the "self-sustaining operation confirmation" is completed, the self-sustaining operation of the photovoltaic power generation device 1 and / or the power storage device 2 by the power conversion device 10 is permitted. Since the "interconnection operation confirmation" has not been completed at this stage, the grid interconnection operation of the photovoltaic power generation device 1 and / or the power storage device 2 by the power conversion device 10 cannot be performed.

The control unit 21 of the control command device 20 increments the parameter n (S212). The control unit 21 determines whether or not all of the plurality of construction items have been completed (S213), and when all of the construction items have been completed (S213Y), the control unit 21 ends the construction confirmation work. If all of them have not been completed (S213N), the process proceeds to step S24, and the implementation of the construction confirmation items is continued.

As described above, the test results in the items of "self-sustaining operation confirmation" and "interconnected operation confirmation" are basically saved on the power conversion device 10 side, and the settings in the "initial setting" and "interconnected operation confirmation" items are set. The information is stored on the control command device 20 side. Therefore, when replacing the power converter 10, it is not necessary to re-enter the setting information, but the "connection status check", "self-sustaining operation test", "connection status check", and "connection status check" of the independent operation and " It is necessary to re-execute the "CT test for reverse tide".

On the other hand, when replacing the control command device 20, it is necessary to re-execute the "connection status confirmation", "independent operation test", interconnection operation "connection status confirmation", and "reverse tide CT test" for independent operation. Instead, the test result stored in the power converter 10 may be obtained. The control unit 21 of the control command device 20 indicates that the "connection status confirmation", "independent operation test", "connection status confirmation", and "reverse tide CT test" of the autonomous operation have been completed. The message is displayed on the display unit 25. It is necessary to reset the setting information in the items of "initial setting" and "interconnection operation confirmation".

As described above, according to the present embodiment, a power conversion device by a worker of a contractor is adopted by adopting a user interface in which a plurality of construction confirmation items are set or executed while being guided in a predetermined order. The setup work of 10 can be simplified. As a result, the work time required for setup can be shortened, and omission of construction settings can be reduced. In addition, since it is possible to prevent the function from being executed when the setting of the specific function is insufficient, it is possible to ensure safety during construction. For example, it is possible to prevent a large current from flowing through the storage battery during construction and deteriorating the storage battery.

The present invention has been described above based on the embodiments. Embodiments are examples, and it will be understood by those skilled in the art that various modifications are possible for each of these components and combinations of each processing process, and that such modifications are also within the scope of the present invention. ..

FIG. 11 is a diagram for explaining the creation and storage cooperation system according to the first modification of the present invention. The creation / storage cooperation system according to the first modification has a configuration in which a position information detection unit 27 is added to the control command device 20 of the creation / storage cooperation system shown in FIG. The position information detection unit 27 includes a GPS sensor and detects the position information of the control command device 20. Specifically, the transmission time is received from each of a plurality of GPS satellites, and the latitude and longitude of the reception point is calculated based on the received plurality of transmission times.

Based on the position information (latitude / longitude) detected by the position information detection unit 27, the control unit 21 specifies which electric power company the jurisdiction area of the electric power company the position where the control command device 20 is installed belongs to. As a result, the item of "Regional setting" in the initial setting menu can be automatically set without depending on the input or selection of the worker. Further, the control unit 21 can automatically set the item of "date and time setting" in the initial setting menu based on the transmission time received from the GPS satellite.

As described above, according to the first modification, by providing the position information detection unit 27 in the control command device 20, the position and the current date and time of the creation and storage cooperation system can be accurately specified. As a result, accurate information can be set in the items of "regional setting" and "date and time setting". In addition, the setup work of the worker can be reduced.

FIG. 12 is a diagram for explaining the creation and storage cooperation system according to the second modification of the present invention. The creation and storage cooperation system according to the second modification has a configuration in which the functions of the control command device 20 are integrated with the power conversion device 10 without providing the control command device 20. The power conversion device 10 includes a first DC / DC converter 11, a second DC / DC converter 12, an inverter 13, a control unit 15, a storage unit 16, a communication unit 17, a display unit 18, and an operation unit 19.

The control unit 15 according to the second modification integrates the control circuit 14 of the power conversion device 10 of FIG. 1 and the control unit 21 of the control command device 20. The storage unit 16, the communication unit 17, the display unit 18, and the operation unit 19 according to the modified example 2 are connected to the storage unit 22, the second communication unit 24, the display unit 25, and the operation unit 26 of the control command device 20 of FIG. Corresponds to each. When the power conversion device 10 is installed in a house, it is possible to incorporate an operation function and a network communication function with an external system in a broad sense into the main body of the power conversion device 10 as in the second modification.

In the above-described embodiment, a dedicated terminal device is assumed as the control command device 20, but it is also possible to use a smartphone terminal device in which a dedicated application program is installed.

The embodiment may be specified by the following items.

[Item 1]
A communication unit (23) that communicates with the power conversion device (10) that converts the power of the distributed power supply devices (1, 2), and
After the distributed power supply devices (1, 2) are connected to the power conversion device (10), a display unit (25) that displays a plurality of construction confirmation items corresponding to the distributed power supply devices (1, 2). When,
When the completion of the nth (n is a natural number) construction confirmation item is detected among the plurality of construction confirmation items, the operation of the power conversion device (10) corresponding to the nth construction confirmation item is permitted. , A control unit (21) that controls so as to prohibit the operation of the power conversion device (10) corresponding to the nth construction confirmation item when the completion of the nth construction confirmation item is not detected. Prepare, prepare
Control command system (20).
According to this, it is possible to simplify the setup work of the power conversion device (10) by the workers of the contractor. In addition, safety during construction can be ensured.
[Item 2]
If the control unit (21) does not detect the completion of the nth construction confirmation item, the confirmation of the construction confirmation items after the (n + 1) th is prohibited.
The control command system (20) according to item 1.
According to this, it is possible to encourage the workers of the contractor to perform the setup work in order.
[Item 3]
The distributed power supply device (1, 2) is a photovoltaic power generation device (1).
The plurality of construction confirmation items include output control settings related to the output from the photovoltaic power generation device (1) to the system (3).
The control command system (20) according to item 1.
According to this, it is possible to comply with the regulations concerning the output control of the photovoltaic power generation device (1).
[Item 4]
The output control is carried out for each transmission and distribution network installed in different areas.
The output control setting includes identification of the area where the photovoltaic power generation device (1) is installed.
The control command system (20) according to item 3.
According to this, it is possible to receive the output control command of the transmission and distribution network in the area where the photovoltaic power generation device (1) is installed.
[Item 5]
Further equipped with a position information detection unit (27),
The control unit (21) identifies the area based on the detection signal of the position information detection unit (27).
The control command system (20) according to item 4.
According to this, the area where the photovoltaic power generation device (1) is installed can be automatically detected.
[Item 6]
The plurality of construction confirmation items include confirmation of grid interconnection operation.
The output control setting is an item that should be completed prior to the confirmation of the grid interconnection operation.
The control command system (20) according to item 3.
According to this, it is possible to prevent the violation of the law concerning the output control of the photovoltaic power generation device (1).
[Item 7]
When it is detected that the distributed power supply devices (1, 2) are connected to the power conversion device (10), the control command system (20) is notified of the connection detection of the distributed power supply devices (1, 2). When the completion notification of the nth (n is a natural number) construction confirmation item among the plurality of construction confirmation items corresponding to the distributed power supply devices (1, 2) is received from the control command system (20), When the power conversion device (10) corresponding to the nth construction confirmation item can be operated and the completion notification of the nth construction confirmation item is not received from the control command system (20), the first operation is performed. A control circuit (14) for disabling the operation of the power conversion device (10) corresponding to the construction confirmation item of n is provided.
Power converter (10).
According to this, it is possible to simplify the setup work of the power conversion device (10) by the workers of the contractor. In addition, safety during construction can be ensured.
[Item 8]
After the distributed power supply devices (1, 2) are connected to the power conversion device (10), a display unit (18) that displays a plurality of construction confirmation items corresponding to the distributed power supply devices (1, 2). ,
When the completion of the nth (n is a natural number) construction confirmation item is detected among the plurality of construction confirmation items, the operation of the power conversion device (10) corresponding to the nth construction confirmation item is permitted. , A control unit (15) that controls so as to prohibit the operation of the power conversion device (10) corresponding to the nth construction confirmation item when the completion of the nth construction confirmation item is not detected. Prepare, prepare
Power converter (10).
According to this, it is possible to simplify the setup work of the power conversion device (10) by the workers of the contractor. In addition, safety during construction can be ensured.

The subject of the device, system, or method in the present disclosure comprises a computer. By executing the program by this computer, the function of the subject of the device, system, or method in the present disclosure is realized. A computer has a processor that operates according to a program as a main hardware configuration. The type of processor does not matter as long as the function can be realized by executing the program. The processor is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or an LSI (Large Scale Integration). The plurality of electronic circuits may be integrated on one chip or may be provided on a plurality of chips. A plurality of chips may be integrated in one device, or may be provided in a plurality of devices. The program is recorded on a non-temporary recording medium such as a computer-readable ROM, optical disc, or hard disk drive. The program may be stored in a recording medium in advance, or may be supplied to the recording medium via a wide area communication network including the Internet or the like.

1 Photovoltaic power generation device, 2 Power storage device, 3 systems, 4 Distribution board, 5 Load, 6 Router device, 7 HEMS controller, 8 Internet, 9 Transmission and distribution company server, 10 Power converter, 11 1st DC / DC converter , 12 2nd DC / DC converter, 13 Inverter, 14 Control circuit, 15 Control unit, 16 Storage unit, 17 Communication unit, 18 Display unit, 19 Operation unit, 20 Control command device, 21 Control unit, 22 Storage unit, 23rd 1 Communication unit, 24 2nd communication unit, 25 Display unit, 26 Operation unit, 27 Position information detection unit, B1 DC bus.

Claims (8)

A communication unit that communicates with the power converter that converts the power of the distributed power supply,
After the distributed power supply device is connected to the power conversion device, a display unit that displays a plurality of construction confirmation items corresponding to the distributed power supply device, and a display unit.
When the completion of the nth (n is a natural number) construction confirmation item among the plurality of construction confirmation items is detected, the operation of the power conversion device corresponding to the nth construction confirmation item is permitted, and the operation of the power conversion device is permitted. It is provided with a control unit that controls so as to prohibit the operation of the power conversion device corresponding to the nth construction confirmation item when the completion of the construction confirmation item of n is not detected.
Control command system. If the control unit does not detect the completion of the nth construction confirmation item, the confirmation of the construction confirmation items after the (n + 1) th (n + 1) is prohibited.
The control command system according to claim 1. The distributed power supply device is a photovoltaic power generation device.
The plurality of construction confirmation items include output control settings related to the output from the photovoltaic power generation device to the grid.
The control command system according to claim 1. The output control is carried out for each transmission and distribution network installed in different areas.
The output control setting includes identification of the area where the photovoltaic power generation device is installed.
The control command system according to claim 3. Equipped with a position information detector
The control unit identifies the area based on the detection signal of the position information detection unit.
The control command system according to claim 4. The plurality of construction confirmation items include confirmation of grid interconnection operation.
The output control setting is an item that should be completed first by confirming the grid interconnection operation.
The control command system according to claim 3. When it is detected that the distributed power supply device is connected to the power conversion device, the control command system is notified of the connection detection of the distributed power supply device, and among a plurality of construction confirmation items corresponding to the distributed power supply device. When the completion notification of the construction confirmation item of the nth (n is a natural number) is received from the control command system, the operation of the power conversion device corresponding to the nth construction confirmation item can be executed, and the nth When the completion notification of the construction confirmation item is not received from the control command system, the control circuit for disabling the operation of the power conversion device corresponding to the nth construction confirmation item is provided.
Power converter. After the distributed power supply device is connected to the power conversion device, a display unit that displays a plurality of construction confirmation items corresponding to the distributed power supply device, and a display unit.
When the completion of the nth (n is a natural number) construction confirmation item among the plurality of construction confirmation items is detected, the operation of the power conversion device corresponding to the nth construction confirmation item is permitted, and the operation of the power conversion device is permitted. It is provided with a control unit that controls so as to prohibit the operation of the power conversion device corresponding to the nth construction confirmation item when the completion of the construction confirmation item of n is not detected.
Power converter.

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