KR101171580B1 - Photovoltaic Solar Module Connection Apparatus and Current Sensor Offset Commpensation Method Thereof - Google Patents

Abstract

The present invention relates to a solar cell connection panel device for photovoltaic power generation and a current sensor offset correction method thereof.
The present invention is a time point when the average current value calculated on the basis of the current value of the entire string consisting of the connection of the solar cell module detected by the current sensor by the photovoltaic solar panel connection panel reaches the maximum value of the average current If the average current value calculated based on the current value of the entire string detected by the current sensor is less than or equal to the set reference current value when the set time has elapsed from the current time, the current value detected at that time is measured for each string. It recognizes the offset value of and performs the process of correcting the offset of the current sensor.
The present invention accurately reports the power generation state of the solar cell by correcting the offset of the current sensor detecting the power generation current when the power generation current generated by the plurality of solar cells is detected by the current sensor to report the power generation state. Information on the development status of the photovoltaic power generation system can be accurately provided to the user.

Description

Photovoltaic Solar Module Connection Apparatus and Current Sensor Offset Commpensation Method Thereof}

The present invention relates to solar cell connection for photovoltaic power generation, and more particularly, to detect the generated current generated by a current sensor by generating a current generated by a plurality of solar cells. The present invention relates to a photovoltaic solar panel connection device and a current sensor offset correction method for accurately reporting a power generation state of a solar cell by correcting an offset).

In general, when solar cells generate electricity by solar cells, the solar cells generate direct current electricity using the incident sunlight.

In such a photovoltaic power generation system, a plurality of solar cells form a string and are connected to the solar cell connection panel. The direct current generated by the solar cell is applied to the solar cell connection panel for each string. The applied total direct current electricity is converted into alternating current electricity by a power converter and supplied to the power demand destination.

As described above, a plurality of solar cells are connected in series to form a single string and connected to the solar cell connection panel. For example, in the case of connecting 15 pieces of 200W class solar cells in series, the solar cells are formed in a 3kW class string. It can be connected to one channel of the access panel, and the 3kW string can be connected to multiple channels individually according to the capacity of the solar cell access panel.

In the photovoltaic power generation system as described above, the current flows in each string, and the controller of the solar cell connection panel monitors the current for each string, but monitors the current through the current sensor, and collects the server as an upper device. Through the collection server, the user can check the current, total current, and faulty strings of each string in the solar panel by web monitoring.

In such a case, when the solar cells are connected in a string group, an offset error of the current sensor occurs as the operation time of the solar cell continues, thereby causing a current detection error of the current sensor.

The controller of the solar cell connection panel reads the current detected by the current sensor through analog-to-digital conversion (ADC) and reports it to the collection server, which is a higher-level device. When an offset error of the current sensor occurs, the analog- This will directly affect the accuracy of the digital conversion.

The controller of the solar cell connection panel recognizes non-linearly by adding the corresponding offset to the analog-to-digital conversion value input to the controller when the input current is linearly changed when there is an offset error of the current sensor. Due to the inability to recognize a zero input in which there is no current input to the sensor, there is a problem in that the power generation state of the solar cell cannot be accurately reported to a higher collection server.

The present invention has been proposed in order to solve the problems of the prior art as described above, the object of which is to generate the current generated by the current sensor to detect the generated current generated by a plurality of solar cells to report the generated current The present invention provides a photovoltaic solar panel connection device and a current sensor offset correction method for accurately reporting a power generation state of a solar cell by correcting an offset of a current sensor to be detected.

The solar cell connection panel device for solar power generation according to the present invention for achieving the above object, the current sensor for detecting a current input through a plurality of strings made by connecting the solar cell module to output a current detection signal Wow; An analog-to-digital converter configured to convert the current detection signal input from the current sensor into a digital current detection signal and output the converted current detection signal; Communication unit for transmitting the data for the report of the solar power generation state to the collection server; The digital current detection signal input from the analog-digital conversion unit is read and the current input through each string is monitored to report the solar power generation status to the collection server through the communication unit, but detected by the current sensor. The average current value calculated on the basis of the current value of the entire string is calculated based on the current value of the entire string detected by the current sensor when the set time has elapsed from the time when the average current value reaches the maximum value of the average current on the set day. If the average current value is less than or equal to the set reference current value, and comprises a control unit for recognizing the current value detected at the time point as the offset value of the current sensor for each string to correct the offset (offset) of the current sensor.

The solar cell connection panel apparatus for solar power generation according to the present invention further includes a memory for storing programs and data for driving the controller and data for driving the controller.

delete

On the other hand, the current sensor offset correction method of the solar cell connection panel device for photovoltaic power generation according to the present invention for achieving the above object, the current value of the entire plurality of strings made by the control unit connected to the solar cell module through the current sensor Determining whether the average current value detected and calculated has reached a set maximum average current value on the day; When the control unit reaches the maximum value of the average current of the string on the day, the average current value calculated by detecting the current value of the entire string through the current sensor when the set time has elapsed from the point in time. Determining whether or not the set first reference current value is equal to or less than; When the control unit detects the current value of the entire string through the current sensor when the set time has elapsed, and the average current value is less than or equal to the first reference current value, the current value detected at that point in time for each string. Recognizing the offset value of the current sensor comprises the step of correcting the offset of the current sensor.

Further, according to the current sensor offset correction method of the solar cell connection panel device for solar power generation according to the present invention, the step of determining whether the calculated average current value has reached the set maximum average current value on the day, the control unit Determining whether or not the average current value calculated by detecting current values of the entire plurality of strings formed by connecting the solar cell modules has passed the set second reference current value; And when the average current value has passed the second reference current value, determining whether the average current value of the entire string has reached the maximum average current value on the day.

According to the present invention, in the case where the generated current generated by the plurality of solar cells is detected by the current sensor and the generated state is reported, the generated state of the solar cell is corrected by correcting the offset of the current sensor that detects the generated current. Because it accurately reports, it is possible to accurately provide the user with information on the development status of the photovoltaic power generation system.

1 is a view showing a solar power generation system according to the present invention.
2 is a view showing a solar cell connection panel device for solar power generation according to the present invention.
Figure 3 is a view showing a current sensor offset correction process of the solar cell connection panel device according to the present invention.

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

In the photovoltaic power generation system according to the present invention, as shown in FIG. 1, the plurality of solar cell modules 10 are connected to the solar cell connection panel 20 by forming a string, and the solar cell module 10 is provided. The direct current generated by the solar cell is applied to the solar cell connection panel 20 for each string, and the entire direct current electricity applied to the solar cell connection panel 20 is converted into alternating current by the power converter 30 to the power demand destination. Supply.

The solar cell connection panel 20 collects the current applied through each string when the direct current electricity is generated by the solar cell module 10 and transmits the current to the power converter 30, but the current through the current sensor for each string. Monitoring and reporting to the higher-level collection server, the user through the collection server can check the current, total current and error generated string for each string of the solar cell connection panel 20 by web monitoring.

The solar cell connection panel 20 accurately reports the power generation status to the collection server by performing a process of correcting an offset of a current sensor that detects a current when monitoring a current applied through a string.

Thus, the solar cell connection panel 20 according to the present invention for correcting the offset of the current sensor, as shown in Figure 2, the current sensor 21, Analog to Digital Conversion (ADC) ( 22), the control unit 23, the memory 24, and the communication unit 25.

The current sensor 21 detects the current when the DC current generated by the solar cell module 10 is input through each string, and outputs the current detection signal to the analog-digital converter 22.

The analog-to-digital converter 22 converts an analog type current detection signal input from the current sensor 21 into a digital type current detection signal and outputs it to the controller 23.

The control unit 23 reads a digital type current detection signal input from the analog-digital conversion unit 22 and monitors the current input through each string to collect the photovoltaic power generation state as an upper device through the communication unit 25. While reporting to the server, the process of correcting the offset (offset) of the current sensor 21 for detecting the current is performed.

The communication unit 25 transmits information input from the control unit 23 to the collection server, but transmits the photovoltaic power generation state to the collection server under the control of the control unit 23.

In addition, the memory 24 stores programs and data for driving the controller 23 and also stores data generated when the controller 23 is driven.

The controller 23 may be implemented by a microprocessor or the like that operates by a program. The controller 23 reads the current value of each string based on the current detection signal input from the current sensor 21 through the analog-digital converter 22, calculates the average current value of the entire strings, and calculates the corresponding average current. If the value has passed the preset reference current value 4A, it is determined whether the average current value of the entire string reaches the maximum average current value on the day.

In addition, when it is determined that the average current value of the entire string reaches the preset maximum value of the average current on the day, the controller 23 performs the current sensor 21 in a state where a preset time (12 hours) has elapsed from the corresponding time point. If the average current value of all the strings calculated on the basis of the current value of each string detected through is less than or equal to the preset reference current value (0.2A), the current value detected at that time is measured by the current sensor 21 for each string. By recognizing the offset value of), the offset of the current sensor 21 is corrected.

In addition, the controller 23 compares the average current value of the entire string using the reference current value and the average current maximum value data stored in the memory 24 during the offset correction process of the current sensor as described above. In addition, using the set time data stored in the memory 24 to determine whether or not 12 hours after reaching the maximum value of the average current on the day, and stores the recognized offset value in the memory 24, the higher collecting server In case of reporting the state of photovoltaic power generation, report the state of photovoltaic power generation to the collection server by reflecting the corresponding option value.

When the solar cell connection panel 20 according to the present invention having the function as described above performs the process of correcting the offset of the current sensor, the process is performed as shown in FIG. 3.

First, when the driving power is input, the control unit 23 of the solar cell connection panel 20 receives the corresponding power and starts operation (step S11).

At the start of the operation, the controller 23 sets the maximum average current value Ipeak to 0 and sets the flag for identifying whether the average current maximum value is reached on the day to 0 ( Step S12), when an interrupt of 1 second period is generated, the average current value Iavg of the entire string is calculated by reading the current value of each string input through the analog-digital converter 22 from the current sensor 21. (Step S14).

Then, the control section 23 determines whether or not the average current value Iavg of the calculated entire strings has passed the reference current value 4A preset in the memory 24 (step S15). If it is determined in step S15 that the average current value Iavg of the entire string has passed the reference current value 4A set in advance in the memory 24, the control unit 23 determines whether the average current maximum value is reached on the day. The flag Flag for identification is set to 1 (step S16), and it is judged whether or not the corresponding flag (flag) is set to 1 (step S17). In addition, if it is determined in step S15 that the average current value Iavg of the entire string has not passed the reference current value 4A preset in the memory 24, the control unit 23 proceeds to step S17 to perform processing. do.

If it is determined in step S17 that the flag for identifying the average current maximum value comparison process is not set to 1 in step S17, the control unit 23 returns to step S13 described above and performs the repetitive processing. Then, in step S17, if it is determined in step S17 that the flag Flag for identifying the average current maximum value comparison process is set to 1, the average current value Iavg of the entire string is set in advance. It is determined whether the average power maximum value Ipeak has been reached (step S18).

In addition, if it is determined in step S18 that the average current value Iavg of the entire string has reached the maximum average power value Ipeak on the day, the control unit 23 displays a flag for identifying whether the average current maximum value has been reached on that day ( Flag) is set to 0, and the time count value I_Cnt is set to 0 (step S19), and it is determined whether the time count value I_Cnt has reached 12 hours (43200 seconds) (step S20). If it is determined in step S18 that the average current value Iavg of the entire string does not reach the maximum average power value Ipeak on the day, the controller 23 proceeds to step S20 described above to perform the corresponding process.

In addition, if it is determined in step S20 that the time count value I_Cnt has not reached 12 hours (43200 seconds), the controller 23 increases the time count value I_Cnt by 1 (step S21), and the above-described step Returning to S13, iterative processing is performed.

On the other hand, if it is determined in step S20 that the time count value I_Cnt has reached 12 hours (43200 seconds), the controller 23 sets the time count value I_Cnt to 0 (step S22), and the current at that time. Whether the average current value Iavg of the entire string calculated by reading from the sensor 21 through the analog-to-digital converter 22 is equal to or less than the reference current value 0.2A preset in the memory 24 or not. It judges (step S23).

If the average current value Iavg of the entire strings calculated in step S23 is equal to or less than the reference current value 0.2A preset in the memory 24, the control unit 23 performs the current sensor 21 at that time. The detected current value is recognized as an offset value for each string and stored in the memory 24 (step S24), and the process returns to the above-described step S12 to perform an iterative process.

If the average current value Iavg of the entire strings calculated in step S23 is not equal to or less than the reference current value 0.2A preset in the memory 24, the control unit 23 returns to the above-described step S12 and repeats. Perform the process.

The control unit 23 of the solar cell connection panel 20 reads the current value of each string input from the current sensor 21 through the analog-to-digital converter 22 in step S14 when an interrupt occurs in step S13. The average current value Iavg of the entire strings is calculated, and whether or not the average current value Iavg of the calculated entire strings has passed the reference current value 4A preset in the memory 24 in step S15. Judge.

Therefore, when the average current value Iavg of the entire string has passed the reference current value 4A, the controller 23 sets the flag Flag for identification of the comparison of the average current maximum value on the day to 1 at step S16. After setting, as a result of comparing whether the average current value Iavg of the entire string has reached the average power maximum value Ipeak on the day at step S18, if it is reached, at step S19, the flag Flag is set to 0 and time The count value I_Cnt is set to 0 and the time count value I_Cnt is 12 hours (43200) while repeating the above-described processes from step S13 to step S20 while increasing the time count value I_Cnt by 1 in step S21. A process of counting time until second) is reached.

In the case where the time counting process is performed in this way, the control section 23 proceeds to steps S16 and S17 because the entire average current value Iavg of the entire string has passed the reference current value 4A in the determination processing of step S15. After the processing is performed, the process of step S18 is performed, and in the determination process of step S18, since the average current value Iavg of the entire string has reached the average power maximum value Ipeak on the day, the process proceeds to steps S19, S20, and S21. The process of counting the time from the time when the average current value Iavg of the entire string reaches the maximum average power value Ipeak on the day to reach 12 hours (43200 seconds) by repeating the process of performing the process. Perform

Then, the control unit 23 steps in the case of counting the time from when the average current value Iavg of the entire string reaches the maximum average power value Ipeak on the day to reach 12 hours (43200 seconds). In step S22, the time count value I_Cnt is set to 0, and the process proceeds to step S23 where the average current value of the entire string calculated by reading from the current sensor 21 through the analog-to-digital converter 22 at that time is stored in memory. If it is equal to or less than the reference current value (0.2A) preset in step 24, the flow advances to step S24 to recognize the current value detected by the current sensor 21 at that point in time as an offset value for each string, thereby recognizing the memory 24. ), A process of correcting the offset of the current sensor 21 is performed.

As described above, the photovoltaic solar cell connection panel 20 according to the present invention collects the upper device by monitoring the current through the current sensor for each string when the direct current electricity is generated by the solar cell module 10 Report to the server, but by performing the process of correcting the offset (offset) of the current sensor to accurately report the power generation status to the collection server, it is possible to accurately provide the user with the development status of the photovoltaic power generation system.

The present invention is not limited to the above description, and those skilled in the art will be able to implement the present invention in various forms without departing from the technical spirit of the present invention. Such modifications will fall within the technical scope of the present invention.

The present invention may be usefully applied to a photovoltaic power generation system. According to the present invention, in the case where the generated current generated by the plurality of solar cells is detected by the current sensor and the generated state is reported, the generated state of the solar cell is corrected by correcting the offset of the current sensor that detects the generated current. Because it accurately reports the information on the development status of the photovoltaic power generation system, the user can be accurately provided.

10; Solar cell module 20; Solar panel
21; Current sensor 22; Analog-to-digital converter
23; A controller 24; Memory
25; A communication unit 30; Power converter

Claims (5)

A current sensor detecting a current input through a plurality of strings connected to the solar cell module and outputting a current detection signal;
An analog-to-digital converter configured to convert the current detection signal input from the current sensor into a digital current detection signal and output the converted current detection signal;
Communication unit for transmitting the data for the report of the solar power generation state to the collection server;
The digital current detection signal input from the analog-digital conversion unit is read and the current input through each string is monitored to report the solar power generation status to the collection server through the communication unit, but detected by the current sensor. The average current value calculated on the basis of the current value of the entire string is calculated based on the current value of the entire string detected by the current sensor when the set time has elapsed from the time when the average current value reaches the maximum value of the average current on the set day. And a control unit for correcting the offset of the current sensor by recognizing the current value detected at the corresponding time when the average current value is less than or equal to the set reference current value as the offset value of the current sensor for each string. The solar cell connection board apparatus for photovoltaic power generation.
The method of claim 1,
A photovoltaic solar panel connection device, characterized in that it further comprises a memory for storing the data and the data generated when the control unit driving the program and data for driving the control unit.
delete Determining, by the controller, whether or not the average current value calculated by detecting the current value of the entire plurality of strings by connecting the solar cell module reaches the maximum value of the average current value on the set day;
When the control unit reaches the maximum value of the average current of the string on the day, the average current value calculated by detecting the current value of the entire string through the current sensor when the set time has elapsed from the point in time. Determining whether or not the set first reference current value is equal to or less than;
When the control unit detects the current value of the entire string through the current sensor when the set time has elapsed, and the average current value is less than or equal to the first reference current value, the current value detected at that point in time for each string. Recognizing the offset value of the current sensor and correcting the offset of the current sensor comprising the current sensor offset correction method of the solar cell connection panel device for solar power characterized in that it comprises.
The method of claim 4, wherein
Determining whether or not the calculated average current value has reached the set maximum average current value on the day,
Determining, by the control unit, whether the average current value calculated by detecting the current value of the entire plurality of strings formed by connecting the solar cell module has passed the set second reference current value;
And when the average current value has passed the second reference current value, determining whether the average current value of the entire string has reached the maximum value of the average current value on the day. Current sensor offset correction method of solar cell connection panel device for solar power generation.

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