JP2018078740A - Electric power conversion system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electric power conversion system capable of connecting (adding) a power storage device in such a manner as to have no adverse influence on the operation of an inverter.SOLUTION: An electric power conversion system 10 includes a control unit 20 which acquires the capacity of a composite capacitor formed by combining a capacitor 15 with a capacitor in each power storage device connected with a terminal 18 and changes at least one of a plurality of control parameters used for control of an inverter 12 to a value corresponding to the acquired capacity.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a power conversion device.

  As a power conditioner for a solar cell, a hybrid power conditioner (for example, see Patent Document 1) that can connect a solar cell (solar cell array) and a storage battery is known. According to the hybrid power conditioner, it is possible to store the generated power of the solar battery in the storage battery, etc., so that the generated power of the solar battery can be used more effectively.

  However, the hybrid power conditioner has to be more expensive than a power conditioner that cannot be connected to a storage battery. Therefore, it is desired that a power storage device (a device combining a DC / DC converter and a storage battery) can be added (retrofit) to the power conditioner.

Japanese Patent Laid-Open No. 2006-165218

  In order to be able to add a power storage device to the power conditioner, the input terminal of the added power storage device may be connected in parallel to the DC terminal of the inverter (DC / AC inverter) in the power conditioner. Conceivable. However, if the input terminal of the added power storage device is simply connected in parallel to the DC terminal of the inverter in the inverter, the capacity of the capacitor in the power storage device adversely affects the operation of the inverter (details). Will be given later). And the problem that the capacity | capacitance of the capacitor | condenser in an electrical storage apparatus has a bad influence on the operation | movement of an inverter arises also in the power converter device provided with the inverter other than the power conditioner for solar cells.

  Therefore, an object of the present invention is to provide a power conversion device that can connect (add) a power storage device without adversely affecting the operation of an inverter.

  In order to solve the above problems, a power converter according to the present invention includes a DC / AC inverter, an in-device capacitor connected in parallel between DC terminals of the DC / AC inverter, and the DC using a plurality of control parameters. A control unit for controlling the AC inverter. And the control part of the power converter device of the 1st aspect of this invention is the synthetic | combination capacitor | condenser which synthesize | combined the capacitor | condenser in each electrical storage apparatus connected in parallel between the said capacitor | condenser and the DC terminal of the said DC / AC inverter. And the value of at least one control parameter among the plurality of control parameters is changed to a value corresponding to the specified capacity.

That is, some of the control parameters used for controlling the DC / AC inverter have their values determined according to the capacitance of the in-device capacitor (hereinafter referred to as a capacitance dependent parameter). And since there is also a capacitor in the power storage device, when one or a plurality of power storage devices are connected in parallel to the capacitor in the device, the capacitor in the device and the power storage device are connected between the DC terminals of the DC / AC inverter. A synthetic capacitor obtained by synthesizing these capacitors is connected in parallel. Even in this state, if the capacity-dependent parameter whose value is determined from the capacity of the capacitor in the apparatus is continuously used, the inverter is not properly controlled, and the operation of the inverter is adversely affected.

  On the other hand, the control unit of the power conversion device of the present invention specifies “the capacity of the composite capacitor that combines the capacitor in the device and the capacitor in each power storage device connected in parallel between the DC terminals of the DC / AC inverter. Then, the value of at least one control parameter (capacity dependent parameter) among the plurality of control parameters can be changed to a value according to the specified capacity ”. Therefore, the power conversion device according to the first aspect of the present invention functions as a device that can connect the power storage device without adversely affecting the operation of the inverter.

  As the control unit of the power conversion device of the present invention, various units having different specific configurations can be adopted. For example, a power converter is provided with a receiving unit that receives input of power storage device information that is information related to one or a plurality of power storage devices connected in parallel between the DC terminals of the DC / AC inverter. In addition, it is possible to employ a device that specifies the capacity of the composite capacitor based on the power storage device information received by the receiving unit. The power storage device information only needs to be information that can be used to calculate the capacitance of the composite capacitor by combining with the known information (capacitance of the capacitor in the device, etc.). Therefore, the power storage device information may be a capacity of a capacitor in each power storage device or information indicating a model of each power storage device. In addition, when the power storage devices connected to the power conversion device are limited to those of the same specification (equipped with capacitors of the same capacity), the number of power storage devices connected to the power conversion device is used as the power storage device information. You can also

  Further, in the power conversion device of the present invention, the composite capacitance is specified by calculating the capacitance of the composite capacitor from the voltage value between terminals of the internal capacitor and the input current value to the DC / AC inverter. You may employ | adopt the control part to perform.

  If such a control unit is employed in the power conversion device of the present invention, the capacity-dependent parameter (at least one control parameter) is automatically changed to a value suitable for the current situation (capacitance of the composite capacitor). Can be obtained.

  The power conversion device according to the present invention is provided with a receiving unit that receives input of power storage device information that is information related to one or a plurality of power storage devices connected in parallel between the DC terminals of the DC / AC inverter, and the control unit Based on the power storage device information received by the receiving means, from the first process for specifying the capacity of the composite capacitor, the voltage value between the terminals of the internal capacitor and the input current value to the DC / AC inverter The second process of calculating the capacity of the composite capacitor is performed before the start of operation control of the DC / AC inverter, and the ratio of the capacity calculated in the second process to the capacity specified in the first process is When the value is within a predetermined range, the value of at least one control parameter among the plurality of control parameters is changed to the capacity calculated in the second process. From, to start the operation control of the DC / AC inverter, the case was not the case, it may be employed which do not start the operation control of the DC / AC inverter.

In the power conversion device employing this configuration, at the start of operation control of the DC / AC inverter, in principle, the capacity-dependent parameter (at least one control parameter) is applied to the voltage value between the terminals of the capacitor in the device and the DC / AC inverter. It is changed to a value corresponding to the capacity calculated from the input current value. However, when the capacity of the composite capacitor specified from the power storage device information input by the user and the capacity of the composite capacitor calculated from the inter-terminal voltage value of the internal capacitor and the input current value to the DC / AC inverter are significantly different However, the operation control of the DC / AC inverter is not started. Therefore, the power conversion device adopting the above configuration is a device that can connect the power storage device without adversely affecting the operation of the inverter, and is erroneously input when the power storage device information is erroneously input by the user or by the second process. In addition, when the capacitance of the composite capacitor (with a large error) is calculated, it functions as a device that can prevent the capacitance-dependent parameter from being corrected to an inappropriate value.

  When the difference between the capacity specified in the first process and the capacity calculated in the second process is not a value within the predetermined range, the control unit that performs the first process and the second process. May be provided with a function of outputting information to that effect.

  ADVANTAGE OF THE INVENTION According to this invention, the power converter device which can connect (addition) a power storage device in the form which does not have a bad influence on the operation | movement of an inverter can be provided.

FIG. 1 is an explanatory diagram of the configuration and usage of the power conversion device according to the first embodiment of the present invention. FIG. 2 is an explanatory diagram of a usage example of the power conversion device according to the first embodiment. FIG. 3 is a flowchart of processing executed by the control unit in the power conversion device according to the first embodiment. FIG. 4 is a flowchart of processing executed by the control unit in the power conversion device according to the second embodiment of the present invention. FIG. 5 is a flowchart showing the contents of the main parts of the processing executed by the control unit in the power conversion apparatus according to the third embodiment of the present invention.

  Embodiments of the present invention will be described below with reference to the drawings.

<< First Embodiment >>
In FIG. 1, the structure and usage pattern of the power converter device 10 which concerns on 1st Embodiment of this invention are shown.
First, the configuration and usage pattern of the power conversion device 10 according to the present embodiment will be described with reference to FIG.

  The power conversion device 10 according to the present embodiment is a power conditioner that is used by being connected to the solar cell 30 and the system 40. As illustrated, the power conversion device 10 includes a DC / DC converter (DC / DC) 11, a DC / AC inverter (INV) 12, a pair of power storage device connection terminals 18, a control unit 20, It has.

  The DC / DC converter 11 is a circuit for converting the voltage from the solar cell 30 into a desired voltage. As the DC / DC converter 11, a converter (a step-up converter, a step-down converter, or a step-up / step-down converter) corresponding to the output voltage of the solar battery 30 is used.

  The DC / AC inverter 12 (hereinafter also referred to as the inverter 12) is a circuit for converting the DC power output from the DC / DC converter 11 into AC power having the same frequency (50 Hz or 60 Hz) as that of the system 40. . As illustrated, a capacitor 15 is connected in parallel between the DC terminals of the inverter 12 (between the terminals of the inverter 12 connected to the DC / DC converter 11). In the power conversion device 10, a current sensor 22 for measuring an input power value to the inverter 12 and a voltage sensor 23 for measuring a voltage between terminals of the capacitor 15 are provided. Although not shown, a current sensor and a voltage sensor other than the current sensor 22 and the voltage sensor 23 are also provided at various locations of the power conversion device 10.

  The pair of power storage device connection terminals 18 are terminals for connecting the power storage devices. As illustrated, each power storage device connection terminal 18 is connected to a different DC terminal of the inverter 12.

  The control unit 20 is a unit that controls the DC / DC converter 11 and the inverter 12 so that AC power is output from the inverter 12. The control unit 20 includes a processor (CPU, microcontroller, etc.), a gate driver, and the like. As shown in the figure, the control unit 20 receives outputs from various sensors including a current sensor 22 and a voltage sensor 23. Have been entered. The control unit 20 is electrically connected to an operation unit 25 that is operated by a user to make various settings.

  Hereinafter, the power conversion device 10 will be described more specifically.

  In the power conversion device 10 according to the present embodiment, when it is desired to use the power storage function, as shown in FIG. 2, several (two in the figure) power storage devices 35 of a predetermined specification are added. This is a device developed on the assumption that Here, the power storage device 35 having a predetermined specification is a power storage device in which the capacitance C2 of the capacitor in the device is known.

  The addition of the power storage device 35 is performed after the operation of the power conversion device 10 is stopped by turning off the operation switch, turning off the solar power generation breaker, or the like. Here, the operation switch is a switch that is provided on the casing of the power conversion device 10 and is operated (turned on) by the user when the power conversion device 10 starts an operation as a power conditioner. is there.

  After the addition of the power storage device 35, the photovoltaic power generation breaker is turned on and the like, and a state in which the control unit 20 of the power conversion device 10 operates (a state in which power is supplied to the control unit 20) is formed. After forming this state, the user operates the operation unit 25 to set the number of added power storage devices 35 in the control unit 20 and then turns on the operation switch.

  The control unit 20 is configured to start the processing of the procedure shown in FIG. 3 when the operation switch is turned on.

  That is, when the operation switch is turned on, the control unit 20 first specifies the current capacitor capacity based on the set number of power storage devices (step S101). Here, the current capacitor capacity is a capacity of a composite capacitor obtained by combining the capacitor 15 and the capacitor in each power storage device 35. That is, when the number of set power storage devices is N, the control unit 20 calculates the capacitance C1 + N × C2 of the capacitor 15 and sets it as the current capacitor capacity in step S101.

  Next, the control unit 20 changes the value of the predetermined control parameter to a value corresponding to the current capacitor capacity (step S102). The control parameter whose value is changed in step S <b> 102 may be a control parameter whose value should be changed according to the capacity of the capacitor 15. Therefore, the predetermined control parameter may be, for example, a P-term gain used for feedback control (PI control) of the inductor current in the inverter 12.

  And the control part 20 which finished the process of step S102 starts the process which controls the inverter 12 and the DC / DC converter 11 using the several control parameter containing the control parameter which changed the value.

Next, the reason why the control unit 20 performs the above control will be described.
Some control parameters used for controlling the inverter 12 have their values determined in accordance with the capacitance of the capacitor 15 (hereinafter referred to as capacitance-dependent parameters). Since there is also a capacitor in the power storage device 35, when one or a plurality of power storage devices 35 are connected in parallel to the capacitor 15 (between the DC terminals of the inverter 12), the capacitor 15 and each of the capacitors 15 are connected between the DC terminals of the inverter 12. A combined capacitor obtained by combining the capacitors in the power storage device 35 is connected in parallel. Even in this state, if the capacity-dependent parameter whose value is determined from the capacity of the capacitor 15 is continuously used, the inverter 12 is appropriately controlled, and the operation of the inverter 12 is adversely affected.

  If the number of connected power storage devices 35 is known, the capacity of the composite capacitor can be calculated from the number, the capacity of the capacitor in the power storage device 35, and the capacity of the capacitor 15. Further, by changing the value of the capacity-dependent parameter from the calculated capacity to a more appropriate value, even if the power storage device 35 is added, the operation of the inverter 12 can be prevented from being adversely affected. Therefore, the control unit 20 performs the above control.

<< Second Embodiment >>
The power conversion device according to the second embodiment of the present invention is obtained by modifying the control unit 20 of the power conversion device 10 according to the first embodiment so as to perform different processing when the operation switch is turned on. Therefore, hereinafter, only the function of the control unit 20 in the power conversion device 10 according to the second embodiment will be described using the same reference numerals as those used in the description of the power conversion device 10 of the first embodiment. To do.

  The control unit 20 of the power conversion apparatus 10 according to the present embodiment is configured to start the processing of the procedure shown in FIG. 4 when the operation switch is turned on.

  That is, when the operation switch is turned on, the control unit 20 first performs a current capacitor capacity calculation process (step S201). In this current capacitor capacity calculation process, the terminal voltage of the capacitor 15 is changed by changing the voltage value between the terminals of the capacitor 15 over time so that the capacity of the composite capacitor can be easily calculated by the control of the DC / DC converter 11 and the inverter 12. This is a process for calculating the capacitance of the composite capacitor from the time variation pattern of the inter-voltage value. As this process, for example, a process for measuring the charging speed of the capacitor 15 when the constant current is supplied (the changing speed of the voltage value between the terminals of the capacitor 15) or the discharging speed of the capacitor 15 charged to a predetermined voltage is measured. Processing can be employed.

  Next, in step S202, the control unit 20 performs the same process as in step S102 described above. And the control part 20 which finished the process of step S202 starts the process which controls the inverter 12 and the DC / DC converter 11 using the several control parameter containing the control parameter which changed the value.

  That is, the power conversion device 10 according to the present embodiment is a device that actually measures the capacitance of the composite capacitor and changes the value of the capacitance dependent parameter to a more appropriate value from the measured capacitance. Therefore, similarly to the power conversion device 10 according to the first embodiment, the power conversion device 10 according to the present embodiment also functions as a device that does not adversely affect the operation of the inverter 12 even if the power storage device 35 is added.

<< Third Embodiment >>
The power conversion device according to the third embodiment of the present invention is obtained by modifying the control unit 20 of the power conversion device 10 according to the first embodiment so as to perform different processing when the operation switch is turned on. Therefore, hereinafter, only the function of the control unit 20 in the power conversion device 10 according to the second embodiment will be described using the same reference numerals as those used in the description of the power conversion device 10 of the first embodiment. To do.

  The control unit 20 of the power conversion apparatus 10 according to the present embodiment is configured to start the processing of the procedure shown in FIG. 5 when the operation switch is turned on.

  That is, when the operation switch is turned on, the control unit 20 performs a current capacitor capacity calculation process (step S301). This current capacitor capacity calculation process is the same as the above-described current capacitor capacity calculation process in step S201. Next, the control unit 20 performs a process of specifying the current capacitor capacity based on the set number of power storage devices (step S302). This process is the same as the process in step S101 described above.

  Thereafter, the control unit 20 determines whether or not the ratio of the capacity calculated in the current capacitor capacity calculation process to the capacity specified in the process in step S302 is a value within a predetermined range (step S302). Here, the predetermined range is a range in the vicinity of 1 (for example, 0.9 to 1.1 or 0.8 to 1.2).

  When the ratio of the two capacities is a value within a predetermined range (step S303; YES), the control unit 20 sets the value of the predetermined control parameter to a value according to the current capacitor capacity calculated in the current capacitor capacity calculation process. (Step S304). And the control part 20 starts the process which controls the inverter 12 and the DC / DC converter 11 using the several control parameter containing the control parameter which changed the value.

  On the other hand, when the ratio of the two capacities is not within the predetermined range (step S303; YES), the control unit 20 calculates the capacitor capacity estimated from the number of power storage devices 35 and the current capacitor capacity calculation process. Error information indicating that the capacitance of the capacitor is greatly different is output (step S305). The output destination / output method of the error information in this step is not particularly limited. In step S305, for example, a process of displaying an error message on the display included in the operation unit 25 is performed. And control part 20 which finished processing of Step S305 shifts to the state where it waits for the number of power storage devices 35 to be inputted again.

  As is clear from the above description, the power conversion device 10 according to the present embodiment confirms the validity of the current capacitor capacity calculated in the current capacitor capacity calculation process by the number of power storage devices 35 set by the user. Thus, it is the apparatus which deform | transformed the power converter device 10 which concerns on 2nd Embodiment.

  Therefore, the power conversion device 10 according to the present embodiment is a device that can connect the power storage device 35 in a manner that does not adversely affect the operation of the inverter, and when the number of power storage devices 35 is erroneously input by the user or It can be said that the device can prevent the capacitance-dependent parameter from being corrected to an inappropriate value when an incorrect (large error) capacitance is calculated by the capacitor capacitance calculation process.

<Deformation>
The power conversion device 10 according to each of the above-described embodiments can perform various modifications. For example, the power conversion device 10 according to each embodiment can be transformed into a device in which control of the DC / DC converter 11 and the inverter 12 is started before the processes of steps S101, S201, and S301 are executed. The power conversion device 10 according to each embodiment can be modified into a device that always specifies or calculates the capacitance of the composite capacitor and changes the capacitance-dependent parameter to a value corresponding to the specified or calculated capacitance. Moreover, you may deform | transform the power converter device 10 which concerns on each embodiment into the apparatus which does not have the DC / DC converter 11. FIG. When the power conversion device 10 is transformed into a power conditioner that does not have the DC / DC converter 11, the power storage device connection terminal 18 is omitted and the power storage device 35 is connected to the connection terminal of the solar cell 30. You may make it do.

  The power conversion device 10 according to the first and second embodiments is not the number of connected power storage devices 35, but the capacity of capacitors in each connected power storage device 35, and each connected power storage device 35. You may deform | transform into the apparatus which sets this type. Even if the device for inputting such information is a device other than the operation unit 25 (for example, a device capable of wireless communication with the control unit 20 or an operation panel provided in the casing of the power conversion device 10). The good thing is natural.

DESCRIPTION OF SYMBOLS 10 Power converter 11 DC / DC converter 12 AC / DC converter 15 Capacitor 18 Power storage device connection terminal 20 Control unit 25 Operation unit

Claims (7)

A power conversion device to which a power storage device can be connected,
A DC / AC inverter;
An in-device capacitor connected in parallel between the DC terminals of the DC / AC inverter;
A controller for controlling the DC / AC inverter using a plurality of control parameters;
With
The controller is
A capacity of a composite capacitor obtained by synthesizing the capacitor in the device and the capacitor in each power storage device connected in parallel between the DC terminals of the DC / AC inverter, and controlling at least one of the plurality of control parameters A power conversion device, wherein the parameter value is changed to a value corresponding to the specified capacity. And further comprising a receiving means for receiving input of power storage device information which is information relating to one or a plurality of power storage devices connected in parallel between the DC terminals of the DC / AC inverter,
The controller is
Based on the storage device information received by the receiving means, the capacity of the combined capacitor obtained by combining the in-device capacitor and the capacitor in each storage device connected in parallel between the DC terminals of the DC / AC inverter is specified. The power conversion apparatus according to claim 1. The controller is
The capacity of the composite capacitor is specified by calculating the capacity of the composite capacitor from a voltage value between terminals of the internal capacitor and an input current value to the DC / AC inverter. The power converter device described in 1. And further comprising a receiving means for receiving input of power storage device information which is information relating to one or a plurality of power storage devices connected in parallel between the DC terminals of the DC / AC inverter,
The controller is
Based on the storage device information received by the receiving means, from the first process for specifying the capacity of the composite capacitor, the voltage value between the terminals of the capacitor in the device and the input current value to the DC / AC inverter, Performing a second process of calculating the capacity of the composite capacitor before starting the operation control of the DC / AC inverter;
When the ratio of the capacity calculated in the second process to the capacity specified in the first process is a value within a predetermined range, a value of at least one control parameter among the plurality of control parameters is set. The operation control of the DC / AC inverter is started after changing to the capacity calculated in the second processing, and if not, the operation control of the DC / AC inverter is not started. The power conversion device according to claim 1. 5. The power conversion device according to claim 2, wherein the power storage device information is the number of power storage devices connected in parallel between DC terminals of the DC / AC inverter. Before starting the operation control of the DC / AC inverter, the capacitance of the composite capacitor is calculated from the voltage value between terminals of the capacitor in the apparatus and the input current value to the DC / AC inverter, and the control parameters The power conversion device according to claim 3, wherein operation control of the DC / AC inverter is started after changing a value of at least one of the control parameters to a value corresponding to the calculated capacity. The controller is
The power converter according to claim 4, wherein when the ratio is not a value within the predetermined range, information indicating the fact is output.

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