KR102656161B1 - solar power generation system - Google Patents

Abstract

The present invention relates to a solar power generation system, and more specifically, when a decrease in output occurs in a solar cell panel due to foreign substances or shading, etc., the output of the solar cell module in which the output decrease occurs is individually shut down and the solar cell module string or solar cell is connected to the solar cell module. This relates to a solar power generation system that can prevent a decrease in output of the solar cell module string or the entire solar cell module array by separating it from the module array.
The solar power generation system according to the present invention quickly identifies and identifies the solar cell module or solar cell string with reduced output when a decrease in output or voltage imbalance occurs in the solar cell module or solar cell string due to foreign substances, shading, or other damage. By quickly separating the solar cell module or solar cell string from the solar cell string or array, continuous and stable power generation is possible through the solar cell modules that make up the remaining solar cell string or array.

Description

solar power generation system

The present invention relates to a solar power generation system, and more specifically, when a decrease in output occurs in a solar cell panel due to foreign substances or shading, etc., the output of the solar cell module in which the output decrease occurs is individually shut down and the solar cell module string or solar cell is connected to the solar cell module. This relates to a solar power generation system that can prevent a decrease in output of the solar cell module string or the entire solar cell module array by separating it from the module array.

Power plants that generate electrical energy include thermal power plants, nuclear power plants, and hydroelectric power plants. However, these power plants consume fuel to generate electrical energy, which creates pollution.

In addition, there are many restrictions in installing a power plant, such as location and cost. Therefore, the use of solar power generation is increasing because it is pollution-free, can be installed in necessary locations, and is easy to maintain.

A solar power generation system is a power generation system that directly converts sunlight into electrical energy using solar cells. It consists of a solar cell module composed of multiple solar cells, a solar cell string in which multiple solar cell modules are connected in series, and multiple solar cells. It includes a solar cell array in which strings are connected in parallel, and an inverter that receives direct current power output from the solar cell string or solar cell array and converts it into alternating current power.

However, in a conventional solar power generation system, when a leaf is attached to one solar cell module among a plurality of solar cell modules or the solar cell module cannot partially contribute to power generation due to partial damage, the solar cell module, solar cell string, or solar cell module is damaged. Voltage imbalance occurs in which the battery array is lower than other solar cell modules, solar cell strings, or solar cell arrays, and a problem occurs that reduces the overall power generation efficiency of the solar power generation system.

In addition, in the conventional solar power generation system, abnormalities are detected only in the solar cell string or solar cell array, so when a voltage imbalance occurs, there is a problem of not knowing which solar cell module has failed.

Republic of Korea registered patent 10-1245827 Republic of Korea registered patent 10-1669853 Republic of Korea registered patent 10-2079364

The present invention is intended to solve the above-described conventional problems. When the output of solar cell modules and solar cell arrays decreases and voltage imbalance occurs due to foreign matter, shading, or other damage, the solar cell module or solar cell whose output decreases. The purpose is to provide a solar power generation system that can quickly identify and identify the array and quickly shut down the solar cell module or solar cell array to enable continuous power generation from the remaining solar cell modules or solar cell array. there is.

A solar power generation system according to the present invention for achieving the above object includes a solar cell string composed of a plurality of solar cell modules connected in series; an inverter that receives direct current power output from the solar cell string, converts it into alternating current power, and outputs it; One end of each is connected to the junction box provided in the solar cell module, and the other side is connected in series with each other, a sensor unit that measures the voltage or current of the solar cell module, and the voltage or current information measured by the sensor unit. A local communication unit that transmits wirelessly and receives individual control signals transmitted wirelessly from the outside, and operates in a connection mode that connects the solar cell module to the solar cell string or a separation mode that separates the solar cell module from the solar cell string. a power conversion circuit unit and a switching unit that switches the power conversion circuit unit to operate in either a connected mode or a separated mode according to a mode control signal provided and input to the power conversion circuit unit, and an individual converter including a local control unit that outputs a connection mode signal or a separation mode signal to the switching unit according to a control signal; A main communication unit installed between the solar cell string and the inverter to receive voltage or current information transmitted from the local communication unit and transmitting a control signal to each of the local communication units, and the voltage or current information received from the main communication unit Accordingly, the gateway is provided with a control unit that outputs a control signal for controlling the operation of each of the individual converters.

The solar power generation system according to the present invention quickly identifies and identifies the solar cell module or solar cell string with reduced output when a decrease in output or voltage imbalance occurs in the solar cell module or solar cell string due to foreign substances, shading, or other damage. By quickly separating the solar cell module or solar cell string from the solar cell string or array, continuous and stable power generation is possible through the solar cell modules that make up the remaining solar cell string or array.

1 is a conceptual diagram showing a solar power generation system according to the present invention.
Figures 2 and 3 are circuit diagrams showing the connected mode and separated mode of the individual converter of the solar power generation system according to the present invention, respectively.

Hereinafter, a solar power generation system according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

1 to 4 show a solar power generation system according to the present invention. Referring to Figures 1 to 4, the solar power generation system according to the present invention includes a solar cell string 100, an inverter 200, an individual converter 300, and a gateway 400.

The solar cell string 100 is composed of a plurality of solar cell modules 10 connected in series, and the plurality of solar cell strings 100 can be connected in series or parallel as needed to form a solar cell array.

The inverter 200 receives direct current power output from the solar cell string 100 or solar cell array, converts it into alternating current power, and outputs it, and the converted power can be supplied to consumers or the power system.

The individual converter 300 is connected to the junction box 11 provided in the solar cell module 10 so that the output of the plurality of solar cell modules 10 provided in the solar cell string 100 can be controlled individually. One end is connected and the other ends are connected in series with each other.

The individual converter 300 may be configured to include a sensor unit 310, a local communication unit 320, a power conversion circuit unit 330, a switching unit 340, and a local control unit 350.

The sensor unit 310 is installed to measure the output voltage or current of the solar cell module 10.

The local communication unit 320 wirelessly transmits the voltage or current information measured by the sensor unit 310 to the gateway 400, which will be described later, and receives an individual control signal wirelessly transmitted from the outside, that is, the solar cell from the gateway 400. An individual control signal is received to control the output of each module 10 individually. The individual control signal received by the local communication unit 320 is transmitted to the local control unit 350, and the local control unit 350 controls the switching unit 340 according to the individual control signal.

The power conversion circuit unit 330 can operate in a connection mode that connects the solar cell module 10 to the solar cell string 100 or in a separation mode that separates the solar cell module 10 from the solar cell string 100. It is well-equipped.

The switching unit 340 is provided in the power circuit unit and switches the power conversion circuit unit 330 to operate in either the connected mode or the separated mode according to the input mode control signal.

The local control unit 350 outputs a connected mode signal or a disconnected mode signal to the switching unit 340 to control the operation of the switching unit 340 according to the individual control signal received by the local communication unit 320.

For example, when the connection mode signal is output from the local control unit 350, the switching unit 340 is turned on and the output of the solar cell module 10 is transmitted to the solar cell string 100, as shown in FIG. 3. On the other hand, when the separation mode signal is output from the local control unit 350, the switching unit 340 is turned off and the output of the solar cell module 10 is blocked from being transmitted to the solar cell string 100.

The gateway 400 individually controls the output of the plurality of solar cell modules 10 according to the current or voltage information transmitted from the plurality of individual converters 300, and the solar cell string 100 and the inverter ( 200).

The gateway 400 includes a main communication unit 410 and a main control unit 420.

The main communication unit 410 receives voltage or current information transmitted from the local communication unit 320 of the individual converter 300, and transmits individual control signals transmitted from the control unit to each of the local communication units 320.

The main control unit 420 outputs individual control signals to control the operation of each individual converter according to the voltage or current information received from the main communication unit 410.

As described above, in the solar power generation system according to the present invention, the output of each solar cell module 10 constituting the solar cell string 100 decreases and voltage imbalance occurs due to foreign matter, shading, or other damage. The solar cell module 10 can be quickly identified and identified, and the solar cell module 10 is quickly separated from the solar cell string 100, thereby forming the remaining solar cell string 100. ) to enable continuous and stable development.

The solar power generation system according to the present invention described above has been explained with reference to the attached drawings, but these are merely illustrative, and various modifications and other equivalent embodiments can be made by those skilled in the art. You will understand the point.

Therefore, the true scope of technical protection of the present invention should be determined only by the technical spirit of the attached claims.

10: solar cell module
11: Junction box
100: solar cell string
200: inverter
300: Individual converter
400: gateway

Claims (1)

A solar cell string consisting of a plurality of solar cell modules connected in series;
an inverter that receives direct current power output from the solar cell string, converts it into alternating current power, and outputs it;
One end of each is connected to the junction box provided in the solar cell module, and the other side is connected in series with each other, a sensor unit that measures the voltage or current of the solar cell module, and the voltage or current information measured by the sensor unit. A local communication unit that transmits wirelessly and receives individual control signals transmitted wirelessly from the outside, and operates in a connection mode that connects the solar cell module to the solar cell string or a separation mode that separates the solar cell module from the solar cell string. a power conversion circuit unit and a switching unit that switches the power conversion circuit unit to operate in either a connected mode or a separated mode according to a mode control signal provided and input to the power conversion circuit unit, and an individual converter including a local control unit that outputs a connection mode signal or a separation mode signal to the switching unit according to a control signal;
A main communication unit installed between the solar cell string and the inverter to receive voltage or current information transmitted from the local communication unit and transmitting a control signal to each of the local communication units, and the voltage or current information received from the main communication unit A gateway provided with a control unit that outputs a control signal to control the operation of each of the individual converters,
The individual converter individually controls the output of a plurality of solar cell modules provided in the solar cell string,
When the connection mode signal is output from the local control unit, the switching unit is turned on and the output of the solar cell module is transmitted to the solar cell string. When the disconnect mode signal is output from the local control unit, the switching unit is turned off and the solar cell module is transmitted. A solar power generation system, characterized in that the output is blocked from being transmitted to the solar cell string.

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