KR100984678B1 - Error detectable solar cell generating system - Google Patents

Abstract

PURPOSE: A solar cell power generating system is provided to confirm the operation state of a solar panel by sensing the output voltage and the output current of the solar panel through a power detection module. CONSTITUTION: A plurality of solar panels(110) includes a plurality of solar cells. A plurality of connection terminal containers(120) include a power detection module and a first modem. The power detection module generates a power detection signal corresponding to the voltage and the current which are generated from the solar panel. The first modem transmits the power detection signal of the power detection module. An illumination measuring module(130) comprises an illuminance sensor and a second modem. The illuminance sensor measures the intensity of sunlight and generates a light detection signal. The second modem transmits the light detection signal of the illuminance sensor. A host computer(140) determines the abnormality of the solar panel based on the power detection signal and the light detection signal.

Description

Solar power generation system that can detect abnormalities {Error detectable solar cell generating system}

The present invention relates to an abnormality detection technology of a power generation system employing a solar panel, and more particularly, a voltage output from a solar panel and a junction box connected to a solar panel configured by a plurality of solar cells connected in series / parallel. The present invention relates to a photovoltaic power generation system capable of detecting an abnormality capable of detecting an abnormality of a corresponding solar panel by sensing an amount of current and an amount of sunlight irradiated on a solar panel.

Photovoltaic power generation is a power generation method that converts sunlight directly into electrical energy using solar cells without the help of a generator. Such photovoltaic power generation has been spotlighted as a new energy source due to the depletion of fossil fuels and the pollutants generated when burning fossil fuels.

A solar panel that generates electricity by receiving sunlight is composed of a plurality of unit cells that convert sunlight into electricity, and a plurality of unit cells are connected in series or in parallel to obtain a required power source. However, since a plurality of unit cells are connected in series or in parallel, when one unit cell constituting the solar panel is abnormal, the entire solar panel including the unit cell may malfunction.

Accordingly, the solar panels used for photovoltaic power generation are not composed of a single unit, but the solar panels of the same voltage and current standards of a suitable size are assembled into a parallel circuit via a plurality of external connection terminal boxes, so that the total power is converted into an inverter or a power load. To connect. Therefore, if it can be determined by checking the status of each module individually, it will be very practical to detect the fault diagnosis or abnormal operation.

In general, solar cells are connected in parallel to increase the current capacity, and solar cells are connected in series to increase the voltage capacity.

The operation of the solar panel is often an unpredictable abnormal operation, and the abnormal operation of the solar panel may be classified into a failure due to a failure of the cell itself and an external factor.

The cause of the failure of the cell itself is due to the open or short of the cell. As a result, when one cell is opened, it does not have a serious effect when the cells are connected in parallel, but when the cells are connected in series, the cell has a serious effect that invalidates the power production of the cell and lowers the total production power.

When a cell is short-circuited, it has no serious effect when the cells are connected in series, but when connected in parallel, the short-circuit state consumes energy of other cells connected in parallel and lowers the output voltage of the solar panel. Causes serious effects.

In addition, when a plurality of solar panels are connected in parallel / parallel, the same problem occurs if the solar panel including the cell of the abnormal state belongs. In conclusion, the general failure or bad condition of individual solar cells in a solar power system affects the solar panel, which in turn affects the whole.

External factors include various factors such as poor irradiation of light to solar light panels due to contamination of solar panels. This problem is difficult to diagnose, and it is impossible to know whether there is more than that by examining the precise data of the amount of light irradiation and the amount of power generation of the entire system.

Currently, photovoltaic power generation is mostly operated as a system that is operated 24/7 in a place where the installation area is large and the installation place is hard to access. For example, it is difficult to reach idle places or people, such as roofs of buildings or waterfronts. Therefore, it is operated unattended after installation, and there is a disadvantage that it is easy to operate in an inefficient state continuously because it is excessive without knowing the abnormality or minor abnormal operation of the unit cell.

The present invention has been made to solve the above problems, the object of which is to measure the abnormal state of the individual solar panel in the photovoltaic power generation system, the photovoltaic power generation capable of detecting abnormality that can monitor the measured abnormal state remotely To provide a system.

Furthermore, the purpose of the present invention is to provide a photovoltaic power generation system that can more accurately determine abnormal driving caused by external factors rather than electrical abnormalities by determining the abnormal state by simultaneously measuring the intensity of sunlight irradiated to the solar panel. .

In the solar power generation system capable of detecting abnormality according to an aspect of the present invention described above, a plurality of solar panels 110 are configured in which a plurality of solar cells for generating energy by collecting energy from sunlight are connected in series / parallel. ); As installed in each of the plurality of solar panels 110, and collects the voltage and current produced from the solar panel 110, and outputs the collected voltage and current to an inverter for converting the collected voltage and current into AC power, the solar panel ( Connection box having a power sensing unit 121 for generating a power sensing signal corresponding to the voltage and current produced by the 110 and the first modem 122 for transmitting the power sensing signal generated from the power sensing unit 121 120; The illuminance sensor 131 which measures the intensity of sunlight irradiated to the solar panel 110 and generates an optical sensing signal, and the second modem 132 which transmits the optical sensing signal generated from the illuminance sensor 131. Illuminance measurement module 130 having; And a plurality of connection terminal boxes 120 and illuminance measurement module 130 connected to a network, wherein the power detection signal transmitted from each connection terminal box 120 and the light detection signal transmitted from the illuminance measurement module 130. And receiving and displaying the host computer 140 comparing the information of each of the plurality of solar panels 110 with each other by the power sensing signal and the light sensing signal to determine whether there is an abnormality of the corresponding solar panel. ; The power detector 121 may include a voltage detector 121-1 detecting a voltage output from the solar panel 110, and a current detector 121-sensing a current output from the solar panel 110. 2), an analog / digital converter 121-3 for converting the voltage and current values sensed by the voltage detector 121-1 and the current detector 121-2 into a digital signal, and the analog A digital filter 121-4 for removing noise of the digital signal converted by the digital converter 121-3; The current sensing unit 121-2 includes a magnetic field circuit 121-21 disposed in a shape of a coil around a conducting wire through which the current output from the solar panel 110 flows, and a part of the magnetic field circuit 121-21. It is installed in the Hall sensor (121-22) for measuring the magnetic force generated in the magnetic field circuit (121-21);

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In the present invention, the host computer includes a data transmitting and receiving unit for receiving the power sensing signal and the light sensing signal transmitted from the connection terminal box and the illuminance measurement module; A display unit for displaying a state of each solar panel; Performing an algorithm for detecting an abnormality by displaying the power sensing signal received through the data transmitting and receiving unit and data corresponding to the light sensing signal through the display unit or by comparing the power sensing signal of the respective solar panels with the light sensing signal; And a control unit for outputting an operating state of the solar panel in which the abnormality has occurred to the display unit.

In addition, the control unit self-diagnoses each received signal and transmits it to a code. The control unit calculates the amount of energy produced by the solar panel and the amount of accumulated energy and outputs the result to the display.

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In the present invention, the voltage sensing unit accurately measures the output voltage of the + and-terminals of the solar panel by dividing the voltage to a voltage that can be applied to the analog / digital converting unit, and the current sensing unit performs analog / digital conversion using a hall sensor or the like. It is applied to the unit 121-3 to measure the DC voltage.

In case of wire, the data transmitting / receiving unit installs a separate wire or connects a connection circuit to the output of the connection terminal box in the case of a power line network. When wireless is required, a separate wireless module is connected inside the connection terminal box to form an entire communication network. The configuration of wireless communication network is installed considering the needs of various users such as separate wireless modules or the environment required for the application of local wireless network, using the module currently used in the local area network, and improving the high adaptability. Not set

The solar power generation system capable of detecting abnormality according to the present invention accurately measures the electrical abnormal state of an individual solar panel as well as simultaneously measuring the intensity of sunlight irradiated to the solar panel so that failures caused by external factors can be accurately remoted. It can be monitored from the advantage that can be managed to the optimum state of operation of individual solar panels.

1 is a schematic diagram schematically showing a photovoltaic power generation system capable of detecting abnormality according to an exemplary embodiment of the present invention.
FIG. 2 is a block diagram schematically illustrating the power detector of FIG. 1.
3 is a schematic diagram schematically showing a current sensing unit according to the present invention.
4 is a schematic diagram schematically showing a photovoltaic power generation system capable of detecting abnormality according to another aspect of the present invention.

The foregoing and further aspects of the present invention will become more apparent through the preferred embodiments described with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

1 is a schematic diagram schematically showing a photovoltaic power generation system capable of detecting abnormality according to an exemplary embodiment of the present invention.
As shown, the photovoltaic power generation system capable of detecting abnormality according to the present invention includes a plurality of solar panels 110 in which a plurality of solar cells for generating energy by collecting energy from sunlight are connected in series / parallel. )and; Collecting the voltage and current output from each solar cell included in the solar panel 110 and outputs to the inverter converting the collected voltage and current into AC power, the whole produced by the solar panel 110 A plurality of connection box 120 having a power detection unit 121 for generating a power detection signal corresponding to the voltage and current of the first and the first modem 122 for transmitting the power detection signal generated from the power detection unit 121 and; It has an illuminance sensor 131 for measuring the intensity of sunlight irradiated to the solar panel 110 to generate a light detection signal and a second modem 132 for transmitting the light detection signal generated from the illuminance sensor 131 Illuminance measurement module 130; It is connected to the connection terminal box 120 and the illumination measurement module 130 by a network, and receives and displays the power detection signal transmitted from each connection terminal box 120 and the light detection signal transmitted from the illumination measurement module 130 and And a host computer 140 that determines whether the corresponding solar panel is abnormal through the power detection signal and the light detection signal.
The solar panel 110 generates electricity by collecting energy from sunlight. To this end, the solar panel 110 includes a plurality of solar cells, each solar cell is connected in series or in parallel. As of 2009, the voltage generated by a solar cell is about 0.6V, and the power generation capacity is about 1.5 watts (W) per module. Therefore, in order for the solar panel 110 to obtain a lot of power, a plurality of solar cells are connected in series / parallel.

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In addition, one solar power generation system is composed of a plurality of solar panels 110, the solar panels 110 are connected in series or in parallel through the connection terminal box 120, respectively.

The connection terminal box 120 is coupled to the lower end of the solar panel 110 is electrically connected. The connection terminal box 120 collects electrical energy, that is, voltage and current, produced from the solar cell included in the solar panel 110 and outputs the DC power to an inverter converting the AC power, and the AC converted by the inverter Power is supplied to the loads connected to the solar power system.

According to a characteristic aspect of the present invention, the connection terminal box 120 to detect the abnormality of the solar panel 110 connected to the connection terminal box 120, the power detection signal corresponding to the voltage and current produced through sunlight To the remote host computer 140. To this end, the connection terminal box 120 is a power detection unit 121 for generating a power detection signal corresponding to the entire voltage and current produced by the solar panel 110, and a power detection signal generated from the power detection unit 121 It includes a first modem 122 for transmitting.

The power detector 121 periodically detects a voltage and a current collected from each solar cell included in the solar panel 110 to generate a power detection signal according to the detected value, and the first modem 122 senses power. The power detection signal generated from the branch 121 is sent to the host computer 140. In this case, the power detector 121 may further include a memory for storing the measurement time together with the sensed voltage and current values, and the stored data may be transmitted at the request of the host computer 140.

Hereinafter, the power detection unit 121 will be described in more detail. FIG. 2 is a block diagram schematically illustrating the power detector of FIG. 1.
As shown, the power detector 121 includes a voltage detector 121-1, a current detector 121-2, an analog / digital converter 121-3, and a digital filter 121-4. do.

The voltage detector 121-1 may detect the voltage output from the solar panel 110, but may apply the output voltages of the + and − terminals of the solar panel 110 to the analog / digital converter 121-3. By dividing the output voltage into a predetermined voltage, a precise voltage measurement can be made.

The current sensing unit 121-2 senses the current output from the solar panel 110. 3 is a schematic diagram schematically showing a current sensing unit according to the present invention. As shown, the current sensing unit 121-2 may include a magnetic field circuit 121-21 and a hall sensor 121-22.
The magnetic circuits 121-21 are arranged around the conductive wires through which the current output from the solar panel 110 flows in a spiral shape, and a part of the magnetic circuits 121-21 is provided with hall sensors 121-22. Accordingly, when a current flows in the conductive wire, a magnetic force is generated in the magnetic field circuits 121-21, and the hall sensors 121-22 measure the magnetic force of the magnetic field circuits 121-21, thereby measuring a voltage corresponding to the strength of the magnetic force. Output Using the output voltage of the hall sensors 121-22 output as described above, current can be measured without a separate connection.

The analog / digital converter 121-3 converts the measured voltage and current from an analog signal to a digital signal using a microprocessor and outputs the converted signal. The digital signal converted by the analog / digital converter 121-3 passes through the digital filter 121-4. The digital filter 121-4 extracts a desired digital value by removing noise from the converted digital signal. To the first modem 122.
The first modem 122 may be implemented as a communication modem of various types such as, for example, RS 485 in a wired line and Zigbee in a wireless line. In particular, the first modem 122 may be a power line communication module using an already installed power line.
In addition, the connection terminal box 120 and the host computer 140 may also be connected by wireless communication. The configuration of the wireless communication network uses a module currently used for a local area network or a separate wireless module such as various user requests and local requirements. It can be installed considering the environment necessary for the application of the wireless network.
For example, in the case of a small capacity photovoltaic power generation system installed on the roof of a building, installation of a simple wired network may be simpler than communication of a power grid. In the case of the medium-capacity power solar power generation system, a short-range wireless communication network capable of communicating in a power line communication network or a mini cell unit may be advantageous. In the case of large-capacity power photovoltaic power generation system, it is necessary to consider the communication network suitable for that case because it must be controlled by block by applying it in combination.

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The power sensing unit 121 and the first modem 122 is preferably driven by first receiving the power required from the solar panel 110 attached thereto, and may use the power supplied from the outside if necessary. .
The illuminance measurement module 130 measures the intensity of sunlight irradiated to the solar panel 110 and transmits the light detection signal generated to the host computer 140. The illuminance measuring module 130 measures an intensity of sunlight irradiated to the solar panel 110 to generate an illuminance sensor 131 and an optical sensing signal generated from the illuminance sensor 131. It consists of two modems (132).

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The illuminance sensor 131 measures the amount of light of the sunlight to predict the amount of generation of the photovoltaic power generation system, and periodically measures and outputs the amount of light of the sunlight. The second modem 132 receives the light detection signal generated from the illuminance sensor 131 and transmits it to the host computer 140.

In addition, the illuminance measuring module 130 may further include a memory for storing data measured by the illuminance sensor 131. At this time, the memory stores the data measured by the illuminance sensor 131 for each hour, and accesses and provides them when requested by the host computer.

The host computer 140 is connected to the connection terminal box 120 via a network, receives and displays a power detection signal transmitted from each connection terminal box 120 and an optical detection signal transmitted from the illuminance measurement module 130, The abnormality of the solar panel 110 is determined through the light detection signal and the power detection signal. That is, the host computer 140 receives the power sensing signal transmitted from the connection terminal box 120 connected to each solar panel 110 and the light sensing signal transmitted from the illuminance measurement module 130, and the solar panel 110. Each of the information is compared with each other, and also to determine the abnormality of the corresponding solar panel 110 or photovoltaic power generation system or to determine the degree of management.
The host computer 140 includes a data transmission / reception unit 141, a display unit 142, and a control unit 143.

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For example, the data transmission and reception unit 141 may be implemented as a communication modem for transmitting and receiving data by being connected to a wired or wireless communication network, and is connected to the connection terminal box 120 and the illuminance measurement module 130 by a wired or wireless communication network. The power sensing signal and the light sensing signal are received and transmitted to the control unit 143.

The display unit 142 may be implemented as, for example, a monitor connected to the host computer 140, and displays a state of each solar panel 110. In addition, the display unit 142 may display the amount of energy and the cumulative energy produced by the solar panel 110 as well as the display of each solar panel 110 state.

The controller 143 may be implemented as a microcontroller in which a microprocessor for calculation and a peripheral circuit thereof are integrated. Preferably, the controller 143 may be a CPU of the host computer 140. The controller 143 displays the data transmitted from each solar panel 110 received through the data transmitter / receiver 141 through the display unit 142.

In addition, the control unit 143 compares the measurement data of each solar panel 110, that is, the power detection signals for each solar panel 110, and through the comparison result an algorithm for detecting a failure factor of the solar panel 110 To perform. That is, comparing the power detection signals (output voltage, current for each time zone) of each of the plurality of solar panels 110, and checks the solar panel 110 that outputs the power detection signal more than the error range of them to determine the failure will be.

According to a characteristic aspect of the present invention, the control unit 143, which is a configuration of the host computer 140, compares the light detection signal and the power detection signal related to the light quantity of sunlight transmitted from the illuminance measurement module 130 to determine whether there is an abnormality. . That is, the controller 143 receives the light detection signal transmitted from the illuminance measurement module 130 and compares the power generation amount of the solar panel 110 with the same amount of power before, when a difference from the power generation amount occurs. Can be considered as requiring maintenance of the system.
For example, the illuminance value corresponding to the light sensing signal measured by the illuminance measurement module 130 corresponding to one solar panel 110 the previous day is 1500LUX, by the power sensing unit 121 of the connection terminal box 120. If the power corresponding to the output power detection signal is 200KW and the illuminance value is the same as 1500LUX the next day but the power measured by the power detection unit 121 is 150KW, the solar panel 110 may have an abnormality. There will be. Accordingly, the host computer 140 may determine whether there is an abnormality for each of the solar panels 110 through a data log function.

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This management can be done remotely, and in the case of a small power generation system composed of a small power system, such maintenance and management work can be managed in a separate place using a communication network such as the Internet. In addition, even medium and large power generation systems can be managed in other regions, multiple power generation systems can be managed from one central computer, and can be used as basic data for analyzing power generation differences between power plants. .

Additionally, the photovoltaic power generation system capable of detecting abnormality according to the present invention collects the power sensing signals and the light sensing signals transmitted from the plurality of connection terminal boxes 120, and displays the collected information on the display unit 142 of the host computer 140. ) May further include a data collection computer 150 that provides data to another host computer 140 connected to the Internet or the like.
The data collection computer 150 includes a network connection device that sends or receives data collected from the communication module information collected by the solar panel 110 to a host computer and the Internet.

In this way, the present invention, by attaching each of the power detection unit 121 that can determine the operating state of the individual solar panel 110 to the conventional connection terminal having a function of connecting the solar panel 110 to obtain the voltage and current information This is to remotely manage the whole system by connecting it through a network.

4 is a schematic diagram schematically showing a photovoltaic power generation system capable of detecting abnormality according to another aspect of the present invention.
As illustrated, the solar power generation system capable of detecting abnormality according to the present invention includes a power sensing unit 121 for generating a power sensing signal corresponding to the voltage and current collected by the solar panel 110, and the power sensing signal. The first modem 122 to send to the host computer 140 as a module to be installed separately from the connection terminal box 120 can be used in the existing solar power generation system.
The power sensing module 160 formed as described above transmits a power sensing unit 121 for outputting a power sensing signal corresponding to the voltage and current output from the connection terminal box 120, and a power sensing signal output from the power sensing unit 121. The first modem 122 is configured to include.

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The power detection module 160 may be coupled to an output terminal of the connection terminal box 120, receives a voltage and a current output from the connection terminal box 120, generates a power detection signal corresponding thereto, and generates the generated power detection signal. Is transmitted to the first modem 122, and the first modem 122 transmits the corresponding power detection signal to the host computer 140 through the network.

The power detection module 160 is provided separately from the connection terminal box 120, and monitors the abnormal state of the solar panel 110 from a remote location only by the electrical connection with the connection terminal box 120 provided in the solar panel 110. Is possible.

110: solar panel
120: connection terminal box
121: power detection unit
121-1: Voltage Sensing Unit
121-2: current sensing unit
121-21: magnetic field circuit 121-22: hall sensor
121-3: Analog-to-digital converter
121-4: Digital Filter
122: first modem
130: illuminance measurement module
131: Ambient Light Sensor
132: second modem
140: host computer
141: data transmission and reception unit
142 display unit
143 control unit
150: data acquisition computer
160: power detection module

Claims (6)

A plurality of solar panels 110 configured by connecting a plurality of solar cells which generate energy by collecting energy from sunlight in series / parallel;
As installed in each of the plurality of solar panels 110, and collects the voltage and current produced from the solar panel 110, and outputs the collected voltage and current to an inverter for converting the collected voltage and current into AC power, the solar panel ( Connection box having a power sensing unit 121 for generating a power sensing signal corresponding to the voltage and current produced by the 110 and the first modem 122 for transmitting the power sensing signal generated from the power sensing unit 121 120;
The illuminance sensor 131 which measures the intensity of sunlight irradiated to the solar panel 110 and generates an optical sensing signal, and the second modem 132 which transmits the optical sensing signal generated from the illuminance sensor 131. Illuminance measurement module 130 having; And
A plurality of connection terminal boxes 120 and the illuminance measurement module 130 are connected to the network, and the power detection signal transmitted from each connection terminal box 120 and the light detection signal transmitted from the illuminance measurement module 130. A host computer (140) for receiving and displaying and comparing the information of each of the plurality of solar panels (110) with the power sensing signal and the light sensing signal to determine whether there is an abnormality of the corresponding solar panel;
The power detector 121 may include a voltage detector 121-1 detecting a voltage output from the solar panel 110, and a current detector 121-sensing a current output from the solar panel 110. 2), an analog / digital converter 121-3 for converting the voltage and current values sensed by the voltage detector 121-1 and the current detector 121-2 into a digital signal, and the analog A digital filter 121-4 for removing noise of the digital signal converted by the digital converter 121-3;
The current sensing unit 121-2 includes a magnetic field circuit 121-21 disposed in a shape of a coil around a conducting wire through which the current output from the solar panel 110 flows, and a part of the magnetic field circuit 121-21. And a Hall sensor (121-22) installed in the magnetic field circuit (121-21) to measure the magnetic force generated; the solar power generation system capable of detecting abnormality. delete The method of claim 1, wherein the host computer 140 is:
A data transceiver for receiving a power sensing signal and an optical sensing signal transmitted from the connection terminal box and the illuminance measuring module;
A display unit for displaying a state of each solar panel;
Performs an algorithm for detecting an abnormality by displaying the power sensing signal received through the data transmitting and receiving unit and data corresponding to the light sensing signal through the display unit or by comparing the power sensing signal of the respective solar panels with the light sensing signal. And a controller for outputting an operating state of the solar panel in which an abnormality occurs to a display unit. delete The method of claim 1, wherein the voltage sensing unit:
The solar power generation system capable of detecting abnormality, characterized in that the output voltage of the + and-terminals of the solar panel is divided by a voltage that can be applied to an analog / digital converter. delete

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