KR101283649B1 - String Error Detection method for the String Box in PV Generation System - Google Patents

Abstract

In the string error detection method of the solar panel connection panel of the present invention, the error rate and duration are set in the controller of the junction panel, and the maximum value is obtained from the current value of each string of the solar cells acquired by the controller every second through the current sensor. A first step of setting a reference value, a second step of comparing and analyzing a current value of each string with a value obtained by multiplying the reference value and the error rate to determine a string error when the reference value is set in the controller, and the reference value A third step of comparing and analyzing whether the time to be kept smaller than the set time when there is a string that is kept smaller than the product of the error rate, and when the time to be kept smaller than the set time, the string is Detecting the error as a fourth step of transmitting information to the collection server;

Description

String Error Detection Method for Photovoltaic Connection Panels {String Error Detection method for the String Box in PV Generation System}

The present invention relates to a photovoltaic power generation system, and in particular, among the functions of a connection panel installed in a photovoltaic power plant, an embodiment of detecting an error in a string by a combination of a current value and a set duration of each channel detected through a current sensor. A string error detection method for a photovoltaic connection panel.

In general, a grid-connected photovoltaic power generation system includes a solar cell, a connection panel, and a power conditioning system (PCS).

In such a photovoltaic device, holes and electrons generated in a solar cell are induced into a P-type semiconductor and an N-type semiconductor by energy of solar light to generate current through a potential difference. .

As shown in FIG. 1, in the solar cell apparatus, each solar cell 10 receives direct sunlight to generate direct current electricity, and the generated direct current electricity is collected in the connection panel 20 for each string. At this time, all the direct current electricity collected in the connection panel 20 is converted into alternating current electricity in the power converter 30.

Here, the solar cell 10 is connected in series to a certain capacity class to form a string, usually based on 3kW class. The access panel 20 allocates one channel for current monitoring of the 3kW class string, 4 channels in the 12.5kW class, and 16 channels in the 50kW class.

In the photovoltaic device, when the power converter 30 starts the power generation operation, current flows in each string, and at the same time, the controller of the connection panel 20 monitors the current for each string to the collection server as the host device. send. And the user can check the current, the total current and the string generated the error string for each string of the connection panel 20 transmitted through the collection server through the web monitoring.

However, when the solar cell 10 is connected by a string group, a wiring error may occur due to an operator's mistake or a defective connection terminal, and a current value of a string due to a defective solar cell 10 which is not extracted in a production process. This may be less than other strings, and if the aging of the solar cell 10 occurs, the current value of that string may also be lowered.

In addition, in the case of the connection panel 20 does not have a communication channel, there is a disadvantage that the user does not easily recognize the deterioration factor of the generated power of the power converter 30 due to the above problem.

Accordingly, the present invention is to solve the above conventional problems, by monitoring the current of each string connected to the connection panel, by applying a string error detection algorithm to the monitored current value to provide the user with the information, An object of the present invention is to provide a string error detection method of a solar panel connection panel that can efficiently operate a solar power plant.

The present invention for achieving the above object, the first to set the error rate and the duration in the controller of the connection panel, the maximum value in the current value of the string of each solar cell obtained by the controller every second through the current sensor as a reference value And setting a reference value in the controller, and comparing the current value of each string with a value multiplied by the reference value and the error rate to determine a string error, and a value obtained by multiplying the reference value and the error rate. A third step of comparatively analyzing whether the time to be kept smaller than the set time when there is a string that is kept smaller, and detecting and collecting the string as an error when the time to be kept smaller is longer than the set time And a fourth step of transmitting information to the server.

In the first step, the error rate is variable from 1% to 95% in 1% units, the duration is preferably variable up to 120 minutes in 10-minute units.

In the first step, the error rate is set to 50% of the maximum value, and the duration is set to 1 hour or 2 hours.

In the second step, when the maximum value is less than or equal to 1A, it is preferable to determine that the solar radiation is in a low time period and to stop the error detection of the string.

In the fifth step, it is preferable to transmit the state information of each string including the error state and the acquired current value to the higher collecting server through a serial communication channel.

As described above, when the string error detection is performed, the user operating the solar power plant has the effect of reducing the cost of maintenance by checking the connection between the solar cells of the string in which the error is detected. It can be obtained, and the solar cell manufacturer's point of view can be very helpful in measuring the efficiency of the solar cell.

1 is a view schematically showing a string configuration of a conventional photovoltaic power generation system.
Figure 2 is a flow chart showing the steps of the string error detection method of the solar panel connection panel according to the present invention.
3 is a flow chart sequentially showing an error detection method of the string error detection method of the solar panel connection panel according to the present invention.
Figure 4 is an image showing a 50kW class connection panel of the string error detection method of the solar panel connection panel according to the present invention.
5 is an image showing a current sensor board for monitoring the current of the string error detection method of the solar panel connection panel according to the present invention.
Figure 6 is an image showing that one string composed of 3kW class of the string error detection method for a photovoltaic connection panel according to the present invention forms 16 channels.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, the terms defined are defined in consideration of functions in the present invention, and should not be understood as a meaning of limiting the technical components of the present invention.

2 is a flow chart showing the steps of the string error detection method of the solar panel connection panel according to the present invention, Figure 3 is a sequence of error detection method of the string error detection method of the solar panel connection panel according to the present invention. 4 is an image showing a 50 kW class connection panel of the string error detection method of the solar panel connection panel according to the present invention, Figure 5 is the current monitoring of the string error detection method of the solar panel connection panel according to the present invention Figure 6 is an image showing a current sensor board, Figure 6 is an image showing that one string composed of 3kW class of the string error detection method of the solar panel connection panel according to the present invention forms 16 channels.

According to the present invention, a string error detection method of a solar panel access panel secures a communication channel when designing a junction panel, and transmits information about a monitored current value and an error string to a web monitoring system through a collection server, thereby providing power to a user. In addition to the information on the power generation performance of the converter, we want to provide detailed information about the solar cell.

As shown in Figs. 1 and 2, the first step (S100) of the string error detection method of the solar panel connection panel according to the present invention sets the error rate and the duration in the controller of the connection panel. That is, when the connection board is initially installed, the error rate and duration can be set in advance.

Then, the controller sets the maximum value as the reference value in the current value of each string of the solar cells acquired every second through the current sensor.

Here, the error rate set in advance in the first step is set in 1% units, it is possible to vary from 1% to 95%, the set duration is preferably variable to 120 minutes in 10-minute units. Of course, it is noted that the range and duration of the error rate may vary as needed.

In addition, in the first step (S100), the error rate may be set to 50% of the maximum value, and the duration may be set to 1 hour or 2 hours.

On the other hand, solar cells are connected in series at a certain capacity to form a string, which can be based on 3kW. In addition, the access panel allocates one channel for current monitoring of the 3kW class string, and 4 channels in the 12.5kW class and 16 channels in the 50kW class.

In addition, the first step S100 includes a function of determining that the solar radiation is low when the set maximum value is 1A or less, and stopping the error detection of the string.

Next, when a reference value is set in the controller, the second step S200 compares the current value of each string with a value multiplied by the reference value and the error rate set in the controller to determine the string error.

The second step S200 is to find a string in which a current value smaller than a value multiplied by the reference value set in the controller is multiplied.

Next, when there is a string that is kept smaller than the product of the reference value set in the controller and the error rate, the third step S300 compares and analyzes whether the time kept small exceeds the set time.

Next, the fourth step (S400) detects that the string is an error when the time that the current value of the string is less than the value multiplied by the reference value and the error rate exceeds the time set in the controller to detect the information to the collection server. send. Here, in the fourth step, it is preferable to transmit the state information of each string including the error state and the acquired current value to the higher collecting server through the serial communication channel.

Finally, the user can check the string in which the error occurred through the transmitted information.

As a result, when the string error detection is performed, the user operating the solar power plant can check the connection between the solar cells of the string in which the error is detected, thereby reducing the cost of maintenance. For solar cell manufacturers, there is an advantage that can be very helpful in measuring the efficiency of solar cells.

The technical idea of the string error detection method of the solar panel connection panel according to the present invention has been described above with the accompanying drawings, but this is by way of example and not by way of limitation of the present invention.

Accordingly, it is a matter of course that various modifications and variations of the present invention are possible without departing from the scope of the present invention. And are included in the technical scope of the present invention.

Claims (5)

A first step (S100) of setting an error rate and a duration in the controller of the access panel and setting the maximum value as a reference value in the current value of each string of solar cells acquired by the controller every second through the current sensor;
A second step (S200) of comparing and analyzing a current value of each string with a value obtained by multiplying the reference value by the error rate when a reference value is set in the controller;
A third step (S300) of comparing and analyzing whether a time at which the string is kept smaller than a predetermined time when there is a string that is kept smaller than the product of the reference value and the error rate; And
A fourth step (S400) of detecting that the string is an error and transmitting information to a collection server when the time for which the string is kept small exceeds a set time; String error detection method of the connection panel for photovoltaic power generation comprising a. The method of claim 1,
In the first step (S100), the error rate is variable from 1% to 95% in units of 1%, the duration can be varied up to 120 minutes in units of 10 minutes Half string error detection method. The method of claim 1,
In the first step (S100), the error rate is set to 50% of the maximum value, the duration of the string error detection method for a solar panel connection panel, characterized in that set to 1 hour or 2 hours. The method of claim 1,
In the first step (S100), when the maximum value is 1A or less, it is determined that the solar radiation is a low time period, and the execution of error detection of the string is stopped. The method of claim 1,
The fourth step is a string error detection method for a photovoltaic connection panel, characterized in that for transmitting the status information of each string including the error state and the acquired current value to the above-mentioned collection server through the serial communication channel.

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