JP2015080375A - Power conversion device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To automatically stop power feeding from a control power-supply unit to a control unit to prevent overdischarge of a storage battery even when a test operation is performed using power from the storage battery and then the storage battery is not disconnected after the test operation.SOLUTION: A power conversion device 10 includes a converter 11, a system terminal 21, a self-supporting terminal 22, a control unit 12, a control power-supply unit 13, and a power-supply management unit 14. The converter 11 converts power outputted from a power supply source 30 including a storage battery 31 into power equivalent to a system power supply 41. The control power-supply unit 13 supplies power to the control unit 12 by using one of power of the power supply source 30 and the system power supply 41. The power-supply management unit 14 supplies power from the control power-supply unit 13 to the control unit 12 when a test operation starts. Further, in a period when the system terminal 21 is not connected to a power system 40, the power-supply management unit 14 automatically stops the power supply from the control power-supply unit 13 to the control unit 12 when a predetermined condition is met after the completion of the test operation.

Description

  The present invention relates to a power conversion device that converts power from a power supply source including a storage battery into power corresponding to a system power supply.

  In recent years, distributed power sources that can supply electric power generated by a solar battery and electric power stored in a storage battery to an electric load of a consumer are becoming widespread. This type of distributed power supply is connected to a path for supplying electric power received from the system power supply to the electric load in order to handle it equivalently to the system power supply (see, for example, Patent Document 1 and Patent Document 2).

JP 2010-107101 A JP 2012-75216 A

  Patent Document 1 and Patent Document 2 describe performing a trial operation of a distributed power source. Regarding a test operation in a state where the distributed power source is not connected to the system power source after the distributed power source is installed. There is no particular mention. In a trial operation in which the distributed power source is not connected to the system power source, the only available power source is the distributed power source. In particular, when the distributed power source (power supply source) is a storage battery, after performing a trial run using the power of the storage battery, forgetting to shut off the power of the storage battery, the storage battery becomes overdischarged during actual use, etc. It may cause deterioration of the storage battery.

  An object of this invention is to provide the power converter device which prevents the discharge of a storage battery by the forgetting to cut after a test run, when a test run is performed using a storage battery.

  The power conversion device according to the present invention includes a converter that converts power output from a power supply source including a storage battery into power corresponding to a system power supply, and a period that is connected to the power system and can receive power from the system power supply. A connection terminal to which a converter is connected, a self-supporting terminal to which the converter is connected during a period when the system power supply is cut off, and the converter is selectively used as one of the connection terminal and the self-supporting terminal. And supplying power to the control unit using the power of the power supply source during a period when the interconnection terminal is not connected to the power system. When a test operation is started, power is supplied from the control power supply unit to the control unit, and a predetermined condition is satisfied after the test operation is completed in a period in which the interconnection terminal is not connected to the power system. Is established, the control power supply unit Characterized in that it comprises a power management unit to stop the supply of power to the control section automatically.

  In this power conversion apparatus, it is preferable that the power management unit sets the condition that a predetermined time limit elapses after the end of the trial operation is instructed.

  In this power conversion device, the power management unit is configured so that a predetermined time limit elapses when the output voltage value of the control power supply unit is equal to or greater than a predetermined threshold after the end of the trial operation is instructed. It is preferable that

  In this power conversion device, it is preferable that the power management unit determines that the remaining capacity of the storage battery has decreased by a first threshold after the end of the trial operation is instructed.

  In this power conversion apparatus, it is preferable that the power management unit determines that the battery voltage of the storage battery has decreased by a second threshold after the end of the trial operation is instructed.

  In this power conversion device, it is preferable that a switch that is manually operated to instruct the start of power supply from the control power supply unit to the control unit is preferably provided before the trial operation.

  In this power conversion device, the switch is a momentary pushbutton switch that is turned on only while the pushbutton is being pressed, and the power management unit is not supplying power from the control power supply unit to the control unit. When it is detected that the switch is turned off after being turned on, it is preferable that power is continuously supplied from the control power supply unit to the control unit.

  The power converter further includes a voltage monitoring unit that monitors a voltage value output from the control power supply unit, and the switch is a momentary type push button switch that is turned on only while the push button is being pressed, and the power management unit The power supply unit supplies power to the control unit while the switch is on, and the voltage value monitored by the voltage monitoring unit decreases to a predetermined value due to the switch being turned off. It is preferable that power is continuously supplied from the control power supply unit to the control unit.

  According to the configuration of the present invention, during a period in which the power conversion apparatus is not connected to the power system, the supply of power from the control power supply unit to the control unit is automatically stopped when a predetermined condition is satisfied after the trial operation is completed. A power management unit is provided. Therefore, when a test operation is performed using a storage battery, even if the storage battery is forgotten to be turned off after the test operation, the power supply from the control power supply unit to the control unit is automatically stopped. It becomes possible to prevent discharge.

It is a block diagram which shows embodiment. It is operation | movement explanatory drawing of embodiment.

  As shown in FIG. 1, the power conversion device 10 includes a converter 11, a connection terminal 21, a self-supporting terminal 22, a control unit 12, a control power supply unit 13, and a power management unit 14. The converter 11 converts the power output from the power supply source 30 including the storage battery 31 into power corresponding to the system power supply 41. The connection terminal 21 is connected to the power system 40 and the converter 11 is connected during a period in which power can be received from the system power supply 41. The converter 11 is connected to the self-supporting terminal 22 while the system power supply 41 is cut off. The control unit 12 selectively connects the converter 11 to one of the interconnection terminal 21 and the freestanding terminal 22 and controls the operation of the converter 11. The control power supply unit 13 supplies power to the control unit 12 using the power of the power supply source 30 during a period in which the interconnection terminal 21 is not connected to the power system 40. The power supply management unit 14 supplies power from the control power supply unit 13 to the control unit 12 when the trial operation is started. In addition, the power supply management unit 14 automatically supplies power from the control power supply unit 13 to the control unit 12 when a predetermined condition is satisfied after the trial operation is completed during a period in which the interconnection terminal 21 is not connected to the power system 40. Stop.

  It is desirable that the power management unit 14 determines that the predetermined time limit elapses after the end of the trial operation is instructed. Moreover, the power supply management part 14 is good also as the state where the output voltage value of the control power supply part 13 is more than a predetermined threshold after the instruction | indication of completion | finish of a test run having passed the said conditions for predetermined | prescribed time limit.

  Furthermore, the power management unit 14 may set the condition that the remaining capacity of the storage battery 31 has decreased by the first threshold after the end of the trial operation is instructed. Alternatively, the power management unit 14 may determine that the condition is that the battery voltage of the storage battery 31 has decreased by the second threshold after the end of the trial operation is instructed.

  The power conversion device 10 preferably includes a switch 15 that is manually operated to instruct the start of power supply from the control power supply unit 13 to the control unit 12 before the trial operation.

  The switch 15 is preferably a momentary pushbutton switch that is turned on only while the pushbutton is being pressed. In this case, when the power supply management unit 14 detects that the switch 15 is turned off after being turned on in a state where power is not supplied from the control power supply unit 13 to the control unit 12, the control power supply unit 13 controls the control unit 12. Continue to supply power.

  The power conversion device 10 preferably further includes a voltage monitoring unit 16 that monitors a voltage value output from the control power supply unit 13. The switch 15 is preferably a momentary pushbutton switch that is turned on only while the pushbutton is being pressed. In this case, the power management unit 14 supplies the voltage value monitored by the voltage monitoring unit 16 when the switch 15 is turned off after power is supplied from the control power supply unit 13 to the control unit 12 while the switch 15 is on. Is detected from the control power supply unit 13 to the control unit 12 continuously.

  Hereinafter, the configuration of the present embodiment will be described in more detail. The power conversion device 10 shown in FIG. 1 includes an interconnection terminal 21 and a self-supporting terminal 22, and further, a first connection terminal 23 to which a storage battery 31 is connected and a second connection terminal 24 to which a solar battery 32 is connected. With. In the present embodiment, it is only necessary that at least the storage battery 31 is connected between the storage battery 31 and the solar battery 32. However, below, the case where both the storage battery 31 and the solar cell 32 are connected to the power converter device 10 will be described as an example. In addition, the storage battery 31 means the apparatus provided with the structure etc. which monitor the cell of a storage battery, the breaker mentioned later, the remaining capacity of a cell, and a battery voltage, and the solar cell 32 means the apparatus provided with a solar cell panel.

  The converter 11 is connected between the first connection terminal 23 and the second connection terminal 24, and the interconnection terminal 21 and the self-supporting terminal 22. The converter 11 includes a first conversion unit 111 that is connected to the storage battery 31 through the first connection terminal 23, and a second conversion unit 112 that is connected to the solar cell 32 through the second connection terminal 24. The first conversion unit 111 and the second conversion unit 112 have a function of performing DC-DC conversion. The first conversion unit 111 bi-directionally adjusts the DC power voltage in order to charge and discharge the storage battery 31. The second conversion unit 112 adjusts the voltage or current of DC power output from the solar cell 32.

  In addition to the 1st conversion part 111 and the 2nd conversion part 112, the converter 11 is provided with the 3rd conversion part 113 which converts bidirectionally between direct-current power and alternating current power. The third conversion unit 113 converts the DC power output from the first conversion unit 111 and the second conversion unit 112 into AC power corresponding to the system power supply 41, and AC power of the system power supply 41. Is converted into DC power for input to the first converter 111. That is, the third conversion unit 113 includes a direct current side terminal and an alternating current side terminal. The direct current side terminal is connected to the first conversion unit 111 and the second conversion unit 112, and the alternating current side terminal is connected. The terminals are connected to the interconnection terminal 21 and the self-supporting terminal 22.

  A switcher (not shown) for selecting the interconnection terminal 21 and the independent terminal 22 is inserted between the third conversion unit 113 and the interconnection terminal 21 and the independent terminal 22. In FIG. 1, the interconnection unit 18 and the self-supporting unit 19 include relays, breakers, and the like that respectively constitute a switch. Other configurations may be employed between the third conversion unit 113, the interconnection terminal 21, and the self-supporting terminal 22, but the description is omitted because it is not a gist.

  The control unit 12 controls the operations of the converter 11, the interconnecting unit 18, and the self-supporting unit 19. The control unit 12 includes a device including a processor that operates according to a program as a main hardware element. This type of processor may be a microcomputer (microcontroller) in which the processor is integrated with the memory, in addition to a configuration that requires a separate memory. The program may be written in ROM (Read Only Memory), but is provided through an electric communication line such as the Internet or a computer-readable recording medium so that the program can be updated. It is desirable that

  The operation of the converter 11 and the operation of the interconnection unit 18 and the self-supporting unit 19 are selected by the control unit 12 depending on whether power can be received from the system power supply 41 or the system power supply 41 is in a power failure state. Whether the power can be received from the system power supply 41 or whether the system power supply 41 has failed is determined by monitoring the voltage measured by a voltage sensor (not shown). This voltage sensor is on the upstream side (system power supply 41 side) of the main breaker (not shown) of the distribution board in the electric circuit for supplying the electric power received from the system power supply 41 to the electric load (not shown) of the consumer. Is provided. The power conversion device 10 determines whether power can be received from the system power supply 41 or whether the system power supply 41 has a power failure by using the output of the voltage sensor.

  During a period in which power can be received from the system power supply 41, the control unit 12 connects the AC-side terminal of the third conversion unit 113 to the interconnection terminal 21. The interconnection terminal 21 is connected to the upstream side (primary side) of the distribution board, and the power derived from at least one of the storage battery 31 and the solar battery 32 is combined with the power received from the system power supply 41 to the distribution board. give. Therefore, during a period in which power can be received from the system power supply 41, power from any one of the system power supply 41, the storage battery 31, and the solar battery 32 is supplied to the electrical load connected to the distribution board.

  At this time, if the electric power derived from the solar cell 32 is larger than the electric power consumed by the electric load, the electric power generated by the solar cell 32 can be reversely flowed to the electric power system 40. The power received from the system power supply 41 and the power generated by the solar battery 32 can be used for charging the storage battery 31. However, the power derived from the storage battery 31 is prohibited from flowing backward to the power system 40.

  In this way, the interconnection terminal 21 uses the power received from the system power supply 41 to charge the storage battery 31 and the power output from the storage battery 31 and the solar battery 32 as power equivalent to the system power supply 41. It is used for the path to be supplied to the primary side. Of the electric power supplied to the primary side of the main breaker through the interconnection terminal 21, the electric power generated by the solar cell 32 is consumed by the electric load or is reversely flowed to the electric power system 40. Of the power supplied to the primary side of the main breaker through the interconnection terminal 21, the power output from the storage battery 31 is not reversely flowed to the power system 40, but is consumed by the electric load, so that the first conversion unit The output of 111 is adjusted. Moreover, the electric power generated by the solar battery 32 is not only supplied to the interconnection terminal 21 but also used for charging the storage battery 31 as necessary.

  On the other hand, the control unit 12 connects the AC-side terminal of the third conversion unit 113 to the self-supporting terminal 22 during a period when the system power supply 41 is out of power. The self-supporting terminal 22 is provided to supply electric power from the storage battery 31 and the solar battery 32 to an electric load (hereinafter referred to as “specific load”) that needs to be operated during a power failure of the system power supply 41. The self-supporting terminal 22 is connected to the secondary side of the main breaker in the distribution board. In order to supply power to the specific load from the self-supporting terminal 22, a self-supporting distribution board connected only to the specific load is provided, or the specific load is connected to some branch breakers provided in the distribution board. And at the time of the power failure of the system power supply 41, the electric power supply path | route is controlled so that only the path | route from the independent terminal 22 to a specific load is conducted.

  A process for connecting one of the interconnection terminal 21 and the independent terminal 22 to the third converter 113 depending on whether the system power supply 41 can receive power or whether the system power supply 41 has a power failure, and a process for controlling the operation of the converter 11 These are performed by the control unit 12 but are not the gist, and thus will not be described in detail.

  By the way, in the state in which the power converter device 10 is installed, at least one of the storage battery 31 and the solar battery 32 can be connected to the power converter device 10. Terminal 21 cannot be connected to the primary side of the main breaker. In addition, the independent terminal 22 cannot be connected to the specific load unless the specific load is disconnected from the power system 40.

  On the other hand, it is required to perform a trial operation between the power supply source 30 and the power conversion device 10 before starting actual operation with the power conversion device 10 installed. In such a situation, power for trial operation is supplied from either the storage battery 31 or the solar battery 32. Since the present embodiment assumes that both the storage battery 31 and the solar battery 32 are connected to the power conversion device 10, either power of the storage battery 31 or the solar battery 32 can be used.

  Since the output of the solar cell 32 is unstable and does not generate power in rainy weather, cloudy weather, nighttime or the like, or the generated power decreases, there is a case where the test operation cannot be performed with the output of the solar cell 32. In such a case, the electric power output from the storage battery 31 is used for the trial operation. In addition, in the case of performing a trial operation that supplies power to the specific load from the self-supporting terminal 22 even in fine weather, the storage battery 31 is also operated in addition to the solar battery 32. Thus, when performing a trial run using the electric power of the storage battery 31, in order to take out the electric power of the storage battery 31, it is necessary to turn on the breaker built in the storage battery 31.

  On the other hand, since the electric power stored in the storage battery 31 is limited, if the supply of electric power to the control power supply unit 13 is continued after the trial operation, the discharge of the storage battery 31 is continued. Therefore, when the interconnection terminal 21 is connected to the system power supply 41 after a considerable period of time after the trial operation, the remaining capacity of the storage battery 31 may be reduced below the reference value at the time of connection with the system power supply 41. It may take time to recover the remaining capacity of the storage battery 31. Moreover, depending on the case, the storage battery 31 may be overdischarged, and the storage battery 31 may deteriorate.

  Therefore, in the procedure in the trial operation, after the trial operation of the power converter 10, an operation of turning off the breaker built in the storage battery 31 is recommended. However, the power conversion device 10 and the storage battery 31 are not necessarily provided adjacent to each other, and even if the power conversion device 10 and the storage battery 31 are disposed adjacent to each other, two devices are installed. Operation mistakes are likely to occur when the operator operates.

  In the present embodiment, a power management unit 14 that manages the supply of power from the control power supply unit 13 to the control unit 12 is provided so that the power of the storage battery 31 is not consumed as much as possible after the end of the trial run. The power supply management unit 14 automatically supplies power from the control power supply unit 13 to the control unit 12 when a predetermined condition is satisfied after the trial operation is completed during a period in which the interconnection terminal 21 is not connected to the power system 40. Stop.

  As described above, the power supply management unit 14 is controlled from the control power supply unit 13 after the trial operation in a period during which power cannot be received from the system power supply 41 and the power generated by the solar battery 32 cannot satisfy the power to the control unit 12. The supply of power to the unit 12 is automatically stopped. That is, the power management unit 14 operates in the same manner as the period in which the system power supply 41 is not connected to the power system 40 even during the period when the system power supply 41 is out of power. In other words, after the trial run is completed, when the power for operating the control unit 12 can be satisfied by the power generated by the solar battery 32, the power management unit 14 continues to supply power from the control power supply unit 13 to the control unit 12. May be. Even in this case, when the power generated by the solar battery 32 decreases and the power of the storage battery 31 is used for the control unit 12, the power management unit 14 starts from the control power supply unit 13 when the following conditions are satisfied. The supply of power to the control unit 12 is automatically stopped.

  The power conversion device 10 is provided with a manually operated switch 15 in order to instruct the supply of power to the control unit 12 before the start of the trial operation. The configuration for instructing the supply of power to the control unit 12 is not limited to the switch 15, and may be a support device connected to the power conversion device 10. The switch 15 is preferably a momentary type push button switch that is turned on only while the push button is being pressed. The switch 15 is not limited to a push button switch, and a switch having another configuration such as a tumbler switch may be used. Note that the switch 15 is preferably arranged in the casing of the power conversion device 10 so as not to be operated by mistake. Alternatively, a cover that covers the push button of the switch 15 may be provided.

  In a state where the storage battery 31 and the solar battery 32 are connected to the power conversion device 10, in order to perform a trial operation of the power conversion device 10, the breaker incorporated in the storage battery 31 is turned on, and the storage battery 31 can be charged and discharged. To do. During the test operation, the breaker of the storage battery 31 is operated to turn on regardless of whether the solar battery 32 generates power. Thereafter, when the power management unit 14 detects that the switch 15 is turned off after being turned on in a state in which power is not being supplied from the control power supply unit 13 to the control unit 12, power is supplied from the control power supply unit 13 to the control unit 12. Supply.

  The power conversion device 10 is provided with a communication interface unit 17 for attaching a remote control device 50 including a display device and an operation device. The remote control device 50 has a function of displaying the operation state of the power conversion device 10 on a display. Therefore, before the switch 15 is operated, whether or not electric power is supplied from the control power supply unit 13 to the control unit 12 can be known from the display content of the display provided in the remote control device 50.

  When the switch 15 is turned on, the power management unit 14 supplies power from the storage battery 31 to the control power supply unit 13 through the first conversion unit 111. At least one of the first conversion unit 111 and the control power supply unit 13 includes a capacitor (not shown) for stabilizing the voltage. Further, the power conversion device 10 includes a voltage monitoring unit 16 that monitors a voltage value output from the control power supply unit 13.

  The voltage monitoring unit 16 notifies the power supply management unit 14 that the voltage value of the power supplied from the control power supply unit 13 to the control unit 12 is reduced to a predetermined value due to the switch 15 being turned from on to off and discharging the capacitor. . Upon receiving this notification from the voltage monitoring unit 16, the power management unit 14 continues to supply power from the control power supply unit 13 to the control unit 12. In other words, when the power is not supplied from the control power supply unit 13 to the control unit 12, if the switch 15 is turned on and then turned off, the supply of power from the control power supply unit 13 to the control unit 12 is continued and the control is performed. The operation of the unit 12 becomes possible.

  When the control unit 12 operates, power is also supplied to the remote control device 50, and the remote control device 50 can be operated. The start of the trial run is started by operating the remote control device 50.

  In the test run, the operation of a predetermined item is confirmed automatically or manually. The content of the test run is not a summary and will not be described. The end of the trial operation is instructed to the power management unit 14 by operating the remote control device 50. When the trial operation is completed, it is desirable to turn off the breaker provided in the storage battery 31 in order to stop the output of the storage battery 31. Although it is a formal work procedure to turn off the breaker of the storage battery 31 after the end of the trial run, as described above, the work procedure after the end of the trial run may be forgotten.

Therefore, the present embodiment is configured such that the power management unit 14 prevents the power supply from the control power supply unit 13 to the control unit 12 only by an operation for instructing the power management unit 14 to end the trial run. . Specifically, when the end of the trial operation is instructed, the power supply management unit 14 uses one of the following four types of conditions (1) to (4) to transfer from the control power supply unit 13 to the control unit 12. Stop supplying power.
Condition (1): A predetermined time limit elapses after the end of the trial run is instructed.
Condition (2): The state where the output voltage value of the control power supply unit 13 is equal to or greater than a predetermined threshold after the end of the trial operation is instructed passes a predetermined time limit.
Condition (3): The remaining capacity of the storage battery 31 has decreased by the first threshold after the end of the trial operation is instructed.
Condition (4): The battery voltage of the storage battery 31 has decreased by the second threshold value after the end of the trial operation is instructed.

  Conditions (1) to (4) may be used alone. However, two or more conditions may be combined. The condition can be combined when either one of the conditions is satisfied (logical sum), when two or more conditions are satisfied (logical product), and the two or more conditions are in a predetermined order. The case where it is supposed to be established may be considered. The time limits in the conditions (1) and (2) are measured by (Real Time Clock) provided in the control unit 12. The threshold value in the condition (2) is determined as a voltage value at which the control unit 12 can operate, and the output voltage value of the control power supply unit 13 is monitored by the voltage monitoring unit 16. The remaining capacity of the condition (3) and the battery voltage of the condition (4) are detected by the configuration included in the storage battery 31 and notified to the power management unit 14.

  FIG. 2 briefly shows the operation of the power conversion apparatus 10 described above. In FIG. 2, the condition (1) is used to stop the power supply from the control power supply unit 13 to the control unit 12 after the trial operation. FIG. 3A shows the output of the freestanding terminal 22. 2B shows the voltage value output from the storage battery 31, and FIG. 2C shows the power value used by the power converter 10.

  In order to perform a trial operation of the power conversion device 10, the breaker provided in the storage battery 31 is turned on at time t1. At time t1, the voltage value output by the storage battery 31 rises, but the power management unit 14 does not supply power to the control unit 12. Therefore, even if the breaker is turned on at time t1, the control unit 12 does not consume power.

  Next, when the switch 15 is turned on at time t2 and the switch 15 is turned off at time t3 as shown in FIG. 2 (d), the control power supply unit 13 outputs at time t2 as shown in FIG. 2 (e). The voltage value rises, and the power management unit 14 raises the voltage value input to the control unit 12 as shown in FIG. At time t3, when the switch 15 is turned off as shown in FIG. 2D, the voltage value output by the control power supply unit 13 gradually decreases with time as shown in FIG. 2E. Further, the power management unit 14 lowers the voltage value input to the control unit 12 as shown in FIG.

  The voltage monitoring unit 16 monitors the voltage output from the control power supply unit 13, and when the voltage value output from the control power supply unit 13 decreases to a predetermined value at time t <b> 4, the voltage monitoring unit 16 notifies the control unit 12. In response to the signal from the control unit 12, the power management unit 14 raises the respective voltage values at time t4 as shown in FIGS. A configuration may be employed in which the voltage monitoring unit 16 directly instructs the power management unit 14 instead of the control unit 12 when the voltage value output from the control power supply unit 13 drops to a predetermined value at time t4.

  After the time t4, the voltage input from the control power supply unit 13 to the control unit 12 is maintained at a predetermined value, so that power is supplied from the control power supply unit 13 to the control unit 12 and a trial operation is possible. In the illustrated example, the trial run is performed during the subsequent period from time t5 to time t6. During the test operation period (from time t5 to time t6), the output voltage of the storage battery 31 fluctuates as shown in FIG. 2 (b), and the power used for the test operation varies as shown in FIG. 2 (c). To increase.

  In the illustrated example, the end of the trial operation is notified to the power supply management unit 14 at time t6. At this point, the control power supply unit 13 maintains the voltage value output by the control power supply unit 13 as shown in FIG. 2E, and the power management unit 14 controls the control unit 12 as shown in FIG. The voltage value supplied to is maintained. Thereafter, when a predetermined time elapses from time t6 and time t7 is reached, the power supply management unit 14 stops the supply of power to the control unit 12 as shown in FIG. Stop power consumption.

  As described above, when the end of the trial operation of the power conversion device 10 is instructed by the remote control device 50, the power supply from the storage battery 31 to the control unit 12 is stopped after a predetermined time has elapsed from the instruction, and as a result The conversion device 10 does not consume the power of the storage battery 31. That is, even if the breaker provided in the storage battery 31 is forgotten to be turned off after the trial operation, the power of the storage battery 31 is not consumed by the power conversion device 10 after the trial operation, and the storage battery 31 may be overdischarged. Can be reduced.

  In the operation example described above, an instruction for supplying power from the control power supply unit 13 to the control unit 12 is performed by operating the switch 15, and thereafter, the start and end of the test run are instructed using the remote control device 50. However, a configuration may be employed in which not only the remote control device 50 but also the start of power supply to the control unit 12 is instructed by the operation of the switch 15 and the start of the trial operation is instructed.

  In the configuration example described above, the power supply source 30 has shown the configuration example using the solar battery 32 in addition to the storage battery 31, but only the storage battery 31 may be used. In addition, as long as it is a power generation device that generates power using natural energy, a configuration may be used in which power is generated using energy such as wind power, hydraulic power, and geothermal heat instead of the solar battery 32.

DESCRIPTION OF SYMBOLS 10 Power converter 11 Converter 12 Control part 13 Control power supply part 14 Power supply management part 15 Switch 16 Voltage monitoring part 21 Interconnection terminal 22 Self-supporting terminal 30 Power supply source 31 Storage battery 32 Solar cell (power generation device)
40 Power system 41 System power supply

Claims (8)

A converter that converts power output from a power supply source including a storage battery into power corresponding to a system power supply;
An interconnection terminal to which the converter is connected during a period in which the converter is connected to an electric power system and can receive power from the system power supply;
A self-supporting terminal to which the converter is connected during a period when the system power supply is shut off;
A controller that selectively connects the converter to one of the interconnection terminal and the self-supporting terminal, and controls the operation of the converter;
A control power supply unit that supplies power to the control unit using the power of the power supply source during a period in which the interconnection terminal is not connected to the power system;
When a trial operation is started, power is supplied from the control power supply unit to the control unit, and when a predetermined condition is satisfied after the trial operation is completed in a period in which the interconnection terminal is not connected to the power system, the control is performed. A power management unit that automatically stops power supply from the power source unit to the control unit. The power management unit
The power conversion apparatus according to claim 1, wherein a predetermined time limit elapses after the condition is instructed to end the trial run. The power management unit
The power converter according to claim 1, wherein a predetermined time limit elapses when the output voltage value of the control power supply unit is equal to or greater than a predetermined threshold after the end of the trial operation is instructed. The power management unit
The power conversion device according to claim 1, wherein the condition is that the remaining capacity of the storage battery has decreased by a first threshold value after the end of the trial operation is instructed. The power management unit
The power converter according to claim 1, wherein the condition is that the battery voltage of the storage battery has decreased by a second threshold value after the end of the trial operation is instructed. The power conversion device according to claim 1, further comprising a switch that is manually operated to instruct the control unit to start power supply from the control power supply unit before the trial operation. The switch is a momentary type push button switch that is turned on only while the push button is being pressed,
The power management unit
When power is not supplied from the control power supply unit to the control unit, when it is detected that the switch is turned off after being turned on, power is continuously supplied from the control power supply unit to the control unit. Item 7. The power conversion device according to Item 6. A voltage monitoring unit that monitors a voltage value output from the control power supply unit;
The switch is a momentary type push button switch that is turned on only while the push button is being pressed,
The power management unit
When power is supplied from the control power supply unit to the control unit during a period in which the switch is on, it is detected that the voltage value monitored by the voltage monitoring unit has decreased to a predetermined value due to the switch being turned off. The power converter according to claim 6, wherein power is continuously supplied from the control power supply unit to the control unit.

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