JP5596806B2 - Power conditioner checker - Google Patents

Description

  The present invention relates to a power conditioner checker for inspecting a power conditioner that converts DC power generated by a photovoltaic power generation panel into AC power synchronized with a commercial power source.

  Conventionally, in a power generation system using sunlight, a power conditioner is connected to the photovoltaic power generation panel, and the DC power generated from the DC current and DC voltage generated by the photovoltaic power generation panel is synchronized with the commercial power supply using the power conditioner. The AC power is converted into AC power composed of AC current and AC voltage, and the AC power is used as a power source for factories, houses, etc., or sold to power companies.

  In this solar power generation system, each solar power generation panel is inspected, and the entire system is inspected based on the total power generation amount after being converted into AC power by a power conditioner (see, for example, Patent Document 1). .)

JP 2012-182923 A

  However, in a photovoltaic power generation system, the conversion efficiency of a power conditioner that converts DC power to AC power is also an important factor that determines the quality of the operating state.

  Therefore, in the photovoltaic power generation system, it is important to inspect each photovoltaic power generation panel and the entire system based on the total amount of power generated by the power conditioner, and also to inspect the power conditioner, and a power conditioner checker is required for this purpose. It becomes.

Therefore, in the present invention, in a power conditioner checker for inspecting a power conditioner that converts DC power generated by a photovoltaic power generation panel into AC power synchronized with a commercial power supply, in order to measure the input current and input voltage of the power conditioner Input side measurement unit, an output side measurement unit for measuring the output current and output voltage of the power conditioner, and a control unit for controlling the input side measurement unit and the output side measurement unit, the control unit, The current and voltage were simultaneously measured from the input side measurement unit and the output side measurement unit, so that the conversion efficiency of the power conditioner at the time of measurement could be calculated.

In the present invention, the control unit can communicate with a general-purpose computer, measure current and voltage from the input-side measurement unit and output-side measurement unit according to an instruction from the general-purpose computer, and then transmit the current and voltage to the general-purpose computer. It was decided to calculate the conversion efficiency of the power conditioner with a general-purpose computer.

Further, in the present invention, the input side measurement unit is provided with an input side measurement unit for each group of photovoltaic power generation panels (solar power generation panel group) connected in parallel to the power conditioner, and according to the number of photovoltaic power generation panel groups. Therefore, the input side measurement unit has been expanded to enable simultaneous measurement of the input current and input voltage of all photovoltaic power generation panel groups connected in parallel to the power conditioner.

  And in this invention, there exists an effect described below.

  That is, in the present invention, in a power conditioner checker for inspecting a power conditioner that converts DC power generated by a photovoltaic power generation panel into AC power synchronized with a commercial power source, in order to measure the input current and input voltage of the power conditioner Input side measurement unit, an output side measurement unit for measuring the output current and output voltage of the power conditioner, and a control unit for controlling the input side measurement unit and the output side measurement unit, the control unit, Since the current and voltage are measured simultaneously from the input-side measurement unit and the output-side measurement unit, and the conversion efficiency of the power conditioner at the time of measurement can be calculated, the conversion efficiency of the power conditioner can be accurately calculated, and the power The conditioner can be checked well.

  In particular, the control unit can communicate with a general-purpose computer, measure the current and voltage from the input-side measurement unit and output-side measurement unit according to instructions from the general-purpose computer, and then send them to the general-purpose computer to convert the power conditioner at the time of measurement. When the efficiency is determined by a general-purpose computer, the burden on the control unit can be reduced and high-speed processing can be performed.

  In addition, the input side measurement unit is provided with an input side measurement unit for each group of photovoltaic power generation panels (solar power generation panel group) connected in parallel to the power conditioner, and the input side measurement unit according to the number of photovoltaic power generation panel groups If it is possible to measure the input current and input voltage of all photovoltaic power generation panel groups connected in parallel to the power conditioner at the same time, from a small-scale photovoltaic power generation system for home use to industrial use, etc. Even a large-scale photovoltaic power generation system can be flexibly supported by a single power conditioner checker.

Explanatory drawing which shows the power conditioner checker which concerns on this invention. Explanatory drawing which shows the power conditioner checker which concerns on this invention.

  The specific configuration of the power conditioner checker according to the present invention will be described below with reference to the drawings.

[Example 1]
As shown in FIG. 1, the power conditioner checker 1 according to the first embodiment is used in a relatively small photovoltaic power generation system 2 for home use or the like.

  In a relatively small-scale photovoltaic power generation system 2, a power conditioner 5 is connected to one photovoltaic power generation panel group 4 in which a plurality of photovoltaic power generation panels 3 are connected in series via an input side wiring 6, and power A power distribution device 7 is connected to the conditioner 5 via an output-side wiring 8. In this solar power generation system 2, it consists of a direct current and a direct voltage generated by one solar power generation panel group 4 (all of the plurality of solar power generation panels 3 included in one solar power generation panel group 4). The DC power is converted into AC power composed of AC current and AC voltage (with the same frequency and phase as the commercial power supply) synchronized with the commercial power source by the power conditioner 5 and supplied to the power distribution device 7. Supply to electrical equipment and transmission lines.

  In this relatively small-scale photovoltaic power generation system 2, one photovoltaic power generation panel group 4 is connected to a power conditioner 5, and the power conditioner 5 has a group of input side wirings 6 and a group of output side wirings. 8 is connected.

  The power conditioner checker 1 used for performing the inspection of the power conditioner 5 in such a relatively small-scale photovoltaic power generation system 2 communicates with the input side measuring unit 9 and the output side measuring unit 10 as shown in FIG. The unit 11 and the control unit 12 are included.

  The input side measuring unit 9 is connected to a group of input side wirings 6 of the power conditioner 5 via a connector 13 such as a probe, and the input current and input voltage of the power conditioner 5 (DC generated by the photovoltaic power generation panel group 4). Current and DC voltage) are measured according to instructions from the control unit 12.

  The output side measuring unit 10 is connected to a group of output side wirings 8 of the power conditioner 5 via a connector 14 such as a probe, and the output current and output voltage of the power conditioner 5 (AC current and AC voltage synchronized with a commercial power source). ) In response to an instruction from the control unit 12.

  The communication unit 11 is connected to the general-purpose computer 15 in a wired or wireless manner so as to be communicable with each other, and performs communication between the control unit 12 and the general-purpose computer 15 according to an instruction from the control unit 12 or the general-purpose computer 15.

  The control unit 12 appropriately controls the input side measurement unit 9, the output side measurement unit 10, and the communication unit 11.

  The power conditioner checker 1 receives an instruction from the general-purpose computer 15 and the control unit 12 simultaneously measures the input current / input voltage / output current / output voltage using the input side measurement unit 9 and the output side measurement unit 10. .

  Thereafter, the power conditioner checker 1 transmits the input current / input voltage / output current / output voltage measured by the control unit 12 using the input side measurement unit 9 and the output side measurement unit 10 from the communication unit 11 to the general-purpose computer 15. .

  Thereafter, the general-purpose computer 15 calculates the conversion efficiency of the power conditioner 5 at the time of measurement based on the input current / input voltage / output current / output voltage transmitted from the power conditioner checker 1 and displays it on the monitor.

  Here, the power conditioner checker 1 measures the input current, input voltage, output current, and output voltage, and the general-purpose computer 15 calculates the conversion efficiency of the power conditioner 5 at the time of measurement, but the power conditioner checker 1 An arithmetic function and a display function may be integrated in the unit.

  As described above, the power conditioner checker 1 includes the input side measuring unit 9 for measuring the input current and the input voltage of the power conditioner 5 and the output side for measuring the output current and the output voltage of the power conditioner 5. The control unit 12 controls the measurement unit 10, the input-side measurement unit 9, and the output-side measurement unit 10, and the control unit 12 simultaneously receives current and voltage from the input-side measurement unit 9 and the output-side measurement unit 10. Measurement is made so that the conversion efficiency of the power conditioner 5 at the time of measurement can be calculated.

  Therefore, the power conditioner checker 1 having the above configuration can accurately obtain the conversion efficiency of the power conditioner 5 even if the amount of power generated by the photovoltaic power generation panel 3 changes, and the power conditioner 5 can be checked well. it can.

  The power conditioner checker 1 enables the control unit 12 to communicate with the general-purpose computer 15 and measures the current and voltage from the input-side measurement unit 9 and the output-side measurement unit 10 according to instructions from the general-purpose computer 15, and then the general-purpose computer 15 And the general-purpose computer 15 calculates the conversion efficiency of the power conditioner 5 at the time of measurement.

  Therefore, the power conditioner checker 1 having the above-described configuration can reduce the burden on the control unit 12 and perform high-speed processing, and can achieve a reduction in size and weight that is convenient for carrying.

[Example 2]
As shown in FIG. 2, the power conditioner checker 1 according to the second embodiment is used in a relatively large-scale solar power generation system 2 for industrial use. In addition, the same name and the code | symbol are attached | subjected to the site | part which has the function similar to description in Example 1, and the overlapping description is abbreviate | omitted.

  In a relatively large-scale photovoltaic power generation system 2, a power conditioner 5 is connected in parallel via a plurality of input-side wirings 6 to a plurality of photovoltaic power generation panel groups 4 in which a plurality of photovoltaic power generation panels 3 are connected in series. At the same time, the power distribution device 7 is connected to the power conditioner 5 via the output-side wiring 8. In this solar power generation system 2, a direct current consisting of a direct current and a direct voltage generated by a plurality of solar power generation panel groups 4 (all of the plurality of solar power generation panels 3 included in the plurality of solar power generation panel groups 4). The electric power is converted into AC power composed of AC current and AC voltage (with the same frequency and phase as the commercial power source) synchronized with the commercial power source by the power conditioner 5 and supplied to the power distribution device 7. Supply to equipment and power lines.

  In this relatively large-scale photovoltaic power generation system 2, a plurality of photovoltaic power generation panel groups 4 are connected to a power conditioner 5, and the power conditioner 5 includes a plurality of groups of input side wirings 6 and a group of output sides. The wiring 8 is connected.

  The power conditioner checker 1 used to inspect the power conditioner 5 in such a relatively large-scale photovoltaic power generation system 2 communicates with the input side measuring unit 9 and the output side measuring unit 10 as shown in FIG. The unit 11 and the control unit 12 are included.

  Here, the input-side measuring unit 9 is provided with an input-side measuring unit 16 for each group of solar power generation panels 3 (solar power generation panel group 4) connected in parallel to the power conditioner 5. The input side measurement unit 16 can be added according to the number.

  The input side measuring unit 9 includes all the input side wirings 6 of each group of the power conditioners 5 and each input side measuring unit 16 connected via a connector 13 such as a probe, and all of the power conditioners 5 connected in parallel to the power conditioner 5. The input current and the input voltage of the photovoltaic power generation panel group 4 (DC current and DC voltage generated by the photovoltaic power generation panel group 4) are simultaneously measured according to an instruction from the control unit 12.

  In the power conditioner checker 1, in response to an instruction from the general-purpose computer 15, the control unit 12 uses all the input side measurement units 16 and the output side measurement unit 10 of the input side measurement unit 9 to input current, input voltage, Measure output current and output voltage at the same time.

  As described above, in the power conditioner checker 1, the input side measurement unit 9 is provided with the input side measurement unit 16 for each group of photovoltaic power generation panels 3 (solar power generation panel group 4) connected in parallel to the power conditioner 5. The input side measurement unit 16 is added according to the number of the photovoltaic power generation panel groups 4 so that the input current and input voltage of all the photovoltaic power generation panel groups 4 connected in parallel to the power conditioner 5 can be measured simultaneously. ing.

  Therefore, the power conditioner checker 1 having the above configuration can flexibly cope with a small-scale solar power generation system 2 for home use or the like and a large-scale solar power generation system 2 for industrial use or the like, thereby enhancing versatility. be able to.

DESCRIPTION OF SYMBOLS 1 Power conditioner checker 2 Solar power generation system 3 Solar power generation panel 4 Solar power generation panel group 5 Power conditioner 6 Input side wiring 7 Power distribution device 8 Output side wiring 9 Input side measurement part 10 Output side measurement part
11 Communication unit 12 Control unit
13,14 Connector 15 General-purpose computer
16 Input side measurement unit

Claims (2)

In a power conditioner checker for inspecting a power conditioner that converts DC power generated by a photovoltaic power generation panel into AC power synchronized with a commercial power supply,
An input side measurement unit for measuring the input current and input voltage of the power conditioner;
An output side measurement unit for measuring the output current and output voltage of the power conditioner;
A control unit that controls the input side measurement unit and the output side measurement unit;
Have
The control unit can simultaneously measure the current and voltage from the input side measurement unit and the output side measurement unit, and can calculate the conversion efficiency of the power conditioner at the time of measurement ,
The control unit can communicate with a general-purpose computer, measure the current and voltage from the input-side measurement unit and output-side measurement unit according to instructions from the general-purpose computer, and then send them to the general-purpose computer to convert the power conditioner conversion efficiency at the time of measurement. A power conditioner checker that calculates the power using a general-purpose computer . In a power conditioner checker for inspecting a power conditioner that converts DC power generated by a photovoltaic power generation panel into AC power synchronized with a commercial power supply,
An input side measurement unit for measuring the input current and input voltage of the power conditioner;
An output side measurement unit for measuring the output current and output voltage of the power conditioner;
A control unit that controls the input side measurement unit and the output side measurement unit;
Have
The control unit can simultaneously measure the current and voltage from the input side measurement unit and the output side measurement unit, and can calculate the conversion efficiency of the power conditioner at the time of measurement ,
The input side measurement unit is provided with an input side measurement unit for each group of photovoltaic power generation panels (solar power generation panel groups) connected in parallel to the power conditioner, and the input side measurement units are arranged according to the number of photovoltaic power generation panel groups. A power conditioner checker characterized in that the input current and input voltage of all the photovoltaic power generation panel groups that are connected in parallel to the power conditioner can be measured simultaneously .

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