KR102416996B1 - Edge device for data collection and processing with intelligent operation mode setting function - Google Patents

Abstract

An electronic terminal is disclosed. This terminal uses a communication unit, a serial interface physically connected to one or more electronic devices electrically connected to the energy source, a switch for setting an operation mode corresponding to the type information of the energy source, and a first comfort to obtain the type information of the energy source. and a controller for controlling the communication unit to transmit request data based on a predetermined protocol to the electronic device through the serial interface in order to estimate. Accordingly, the efficiency and convenience of communication connection may be improved.

Description

EDGE DEVICE FOR DATA COLLECTION AND PROCESSING WITH INTELLIGENT OPERATION MODE SETTING FUNCTION

The present disclosure relates to an electronic terminal that collects data in conjunction with various renewable energy systems.

As the use of fossil fuels, which is a major energy source, has side effects such as climate change, restrictions on its use are deepening, and the rate of depletion of fossil fuels is progressing very quickly.

In order to overcome these limitations, renewable energy to replace fossil fuels is in the spotlight, and the new renewable energy includes solar power, wind power, solar heat, ESS (Energy Storage System), fuel cells, geothermal energy, and the like.

Efficient management of the power generated by the renewable energy system is required, and for this, a method for integrally and efficiently monitoring the operation of the renewable energy system is required.

On the other hand, the above information is only presented as background information to help the understanding of the present invention. No determination has been made, nor is any claim made as to whether any of the above is applicable as prior art to the present invention.

Laid-open Patent Publication No. 10-2004-0054216 (published date: June 25, 2004)

The present invention has been devised to solve the above-described problems, and an object of the present invention is to provide an electronic terminal that automatically establishes an operation mode and naturally communicates with a communication target device.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

An edge device for data collection and processing with an intelligent operation mode setting function for realizing the above tasks includes: a communication unit; a serial interface physically coupled to one or more electronic devices electrically coupled to the energy source; a switch for setting an operation mode corresponding to the type information of the energy source; and a controller controlling the communication unit to transmit request data based on a predetermined protocol to the electronic device through the serial interface in order to estimate the type information of the energy source using the first comfort.

The controller estimates the type information and type information of the energy source based on the response data received from the electronic device, and sets the operation mode of the switch based on the estimated type information and type information of the energy source can be configured to

The controller may be configured to estimate type information and type information of the energy source based on values of a length information field and an error detection field of the response data.

The controller sets a numerical range of a predetermined field included in the response data in advance, and configures not to trust the estimated type information and type information of the energy source when the numerical value of the predetermined field is out of the numerical range can be

The controller may be configured to estimate type information and type information of the energy source based on energy source installation information in a region in which the energy source is provided.

When the controller intends to communicate with one or more electronic devices electrically connected to an energy source based on a Modbus protocol with one or more second comforts other than the first comfort, based on pre-stored Modbus map information, the energy source may be configured to estimate the type information and the type information of .

The controller may be configured to obtain information on an operation mode of the switch by a user operation when the type information and type information of the energy source cannot be estimated.

The controller estimates the type information of the energy source based on the previously learned energy source type learning model, wherein the energy source type learning model includes a value of a length information field of response data, a value of an error detection field, and a value of an energy source. It may be a model trained using the type information and the type information as labels.

By providing an electronic terminal according to various embodiments of the present disclosure, an electronic terminal capable of naturally receiving energy source related data can be provided even if information on the type of energy source connected to the communication target device is not known.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be.

1 is a view for schematically explaining a renewable energy system according to an embodiment of the present invention;
2 is a block diagram showing the configuration of an electronic terminal according to an embodiment of the present invention, and;
3 is a diagram for explaining a Modbus map file according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, a detailed description thereof will be omitted.

1 is a diagram schematically illustrating a renewable energy system 1000 according to an embodiment of the present invention.

Referring to FIG. 1 , the renewable energy system 1000 may integrally manage energy generated from an energy source (ES). The plurality of energy sources ES may include solar ES, solar thermal ES, wind ES, ESS ES, fuel cell ES, and geothermal ES.

The plurality of energy sources ES may be connected to various electronic devices. Here, the various electronic devices may include inverters I1 and I2, converters Conv, connection boards, watt-hour meters, and the like, and may include various devices capable of receiving energy source-related data.

The electronic terminals 100A and 100B 100 may collect energy-related data generated from a plurality of energy sources ES and provide it to the data collection server 200 . The data collection server 200 may be provided by a mobile communication provider, but the providing entity is not limited thereto.

The electronic terminal 100 may store energy-related data in its storage for 90 days, and may automatically delete data exceeding 90 days, but the embodiment is not limited thereto.

Here, energy-related data includes solar single-phase data, solar three-phase data, solar heat production side data, solar load side data, solar thermal facility side, heat pump data, hot water supply side data, wind power facility side data, fuel cell data, ESS data, etc. may be included, and different fields and field values may be included for each data.

For example, solar single-phase data includes PV voltage (2 bytes), PV current (2 bytes), PV output (2 bytes), grid voltage (2 bytes), grid current (2 bytes), current output (2 bytes), power factor (2 bytes), frequency (2 bytes), accumulated power generation (8 bytes), failure information (2 bytes) may include fields and corresponding values, and the total data length may correspond to 26 bytes. .

Solar three-phase data is 38 bytes, solar production side data is 22 bytes, solar load side data is 16 bytes, solar heat final data is 38 bytes, heat pump data is 41 bytes, hot water supply side data is 16 bytes, geothermal final data is 73 bytes Byte, wind power final data may be implemented as 24 bytes, fuel cell final data as 56 bytes, ESS final data as 27 bytes, etc. However, the length (size) information of data may vary according to implementation examples.

The electronic terminals 100A and 100B 100 may be connected to the electronic devices I1 and I2 through the serial interfaces DI1 and DI2. For example, the electronic terminals 100 and the electronic devices I1 and I2 are RS485 It can be connected through communication.

In addition, the electronic terminal 100 and the electronic devices I1 and I2 may communicate using a standard protocol provided by a specific entity, for example, the electronic terminal 100 and the electronic devices I1 and I2 are You can use the provided standard protocol. In an optional embodiment, the electronic terminal 100 and the electronic devices I1 and I2 may use a Modbus protocol.

The data collection server 200 may collect energy-related data from various electronic terminals 100A and 100B 100 and provide the data to the energy management system 300 . The data collection server 200 may be managed by a mobile communication provider, and the energy management system 300 may be managed by the Korea Energy Agency.

Each of the personal computers PC1 and PC2 may set the setting values of the connected electronic terminals 100A and 100B 100 . Specifically, the personal computers PC1 and PC2 may set the setting values of the electronic terminals 100A and 100B through an application program.

For example, each of the personal computers PC1 and PC2 may set the number of electronic devices I1 and I2 connected to the electronic terminal 100 and identification information of the electronic devices I1 and I2, and the serial interface DI1 , DI2) baud rate information can be set.

Each of the personal computers PC1 and PC2 may set a reset period of the electronic terminal 100 . The reset may be a procedure for rebooting the electronic terminal 100 by setting the settings and operations to the original state in order to solve the malfunction when the electronic terminal 100 malfunctions.

According to another embodiment, the electronic terminal 100 may set setting values set by the personal computers PC1 and PC2 by itself. The electronic terminal 100 may set a data retransmission period when a network failure occurs, and may communicate with the data collection server 200 by selectively using an internal modem and an external modem.

Also, the electronic terminal 100 may determine a period for collecting energy-related information of an energy source. When a plurality of electronic devices are disposed in the same energy source, the electronic terminal 100 may sequentially allocate identification information to the electronic devices and sequentially receive energy-related information according to the identification information.

As salpin, the renewable energy system 1000 includes a plurality of ESs, various electronic devices electrically connected to the plurality of ESs (hereinafter, representatively, the first inverter I1 will be described as an example of an electronic device), an electronic terminal 100 ), a data collection server 200 and an energy management system 300 may be included. Reference will also be made to the reference numerals in the description of the drawings below.

Hereinafter, the configuration of the electronic terminal 100 will be described in more detail. The electronic terminal 100 may include a communication unit 110 , a serial interface 120 , a switch 130 , a memory 140 , and a controller 190 . The electronic terminal 100 may correspond to an edge device for data collection and processing with an intelligent operation mode setting function.

The communication unit 110 may provide a wire-based serial communication function using the serial interface 120 . According to an embodiment, the communication unit 110 may provide various serial communication protocols, and may transmit data or receive data to one or more electronic devices electrically connected to the energy source.

The communication unit 110 may provide a wireless communication function. The communication unit 110 may perform communication based on a LoRa (Long Range) protocol with the data collection system 200 .

The communication unit 110 may include a mobile communication module and a short-distance communication module, and may provide a function capable of communicating with various devices on a wireless basis.

The communication unit 110 may have a function of receiving location information of the electronic terminal 100 . In an optional or additional embodiment, the communication unit 110 may receive information on whether or not a specific energy source facility is installed in the vicinity of the electronic terminal 100 from an external system. Accordingly, the communication unit 110 may obtain information on the electronic device I1 connected to the energy source disposed around the installation site.

The serial interface 120 is a configuration for physically and electrically connecting the electronic terminal 100 and the electronic device connected to the energy source.

The switch 130 is configured to set the operation mode of the electronic terminal 100 according to the control of the controller 190, and the controller 190 determines what kind of energy source (eg, solar power, solar heat, wind power, geothermal heat, ESS, fuel cell) and what type (e.g., solar three-phase, solar thermal natural circulation, geothermal load side, solar single-phase, solar forced circulation, etc.) can be set.

Specifically, the switch 130 may include five (first to fifth switches). The first switch to the second switch are switches for setting type information of the energy source, the fourth switch is for setting type information, ON corresponds to solar three-phase, solar thermal natural circulation, geothermal load side, OFF can correspond to solar single phase and solar forced circulation type.

Here, the type information may also be implemented as being included in the type information of the energy source. The fifth switch is for setting the comfort protocol, and when ON is set that the first comfort COM1 corresponds to the selected protocol, and the second to fourth comfort COM2 to COM4 correspond to the Modbus protocol. When OFF, it can be used when all of the selected protocols are the same.

The memory 140 may store various information under the control of the controller 190 . When the energy-related information of the energy source is provided through the electronic device, the controller 190 may store the corresponding content in the memory 140 for a predetermined period of time.

The memory 140 may store the artificial intelligence-based learned model. For example, the memory 140 may store an energy source type learning model. The energy source type learning model is a model for estimating the type and type of an energy source by receiving a specific field (data length information field, error detection field), etc. of communication data. The model may be completed by using a specific field of communication data, a value of a specific field, energy source type information, and type information as label information in the learning step, and accuracy may be increased.

The controller 190 may set a storage period of energy-related data in the memory 140 , and in the case of data that has passed the storage period, it may be deleted without sharing it with the data collection server 200 .

The controller 190 controls the communication unit 110 to transmit request data based on a predetermined protocol to the electronic device I1 through the serial interface in order to estimate the type information and type information of the energy source using the first comfort. can do. The predetermined protocol may be a standard protocol provided by the Korea Energy Agency.

That is, the controller 190 may control the communication unit 110 to transmit request data based on a predetermined protocol to the electronic device I1 through the serial interface 120 using the first comfort.

For example, when the predetermined protocol is a standard protocol provided by the Korea Energy Agency, the controller 190 may transmit request packet data including an SOP field, a station number field, a command field, a CRC field, and the like to the electronic device. Among the fields, the command field may have different values according to the type (eg, solar light, geothermal heat, etc.) and type of energy source to which the electronic device I1 is connected. Although it is described that the controller 190 communicates through the first comfort, other comforts may be used depending on the implementation example, and various protocols including the Modbus protocol may be used.

The controller 190 may estimate the type information and type information of the energy source based on the response data received from the electronic device I1, and set the operation mode of the switch based on the estimated type information of the energy source. have.

For example, operation mode 0 may be set manually by a user, 1 may be solar power, 2 may be wind power, 3 may be solar heat, 4 may be ESS, 5 may be fuel cell, 6 may be geothermal, and 7 may be set as a reservation mode. The operation mode may be set through a first switch to a third switch. In addition, since type information may be set through the fourth switch, the operation mode may be set to 1 to 6 of a specific type. Also, comfort matching may be performed through the fifth switch.

The controller 190 may estimate type information and type information of the energy source based on the values of the length information field and the error detection field of the response data. Here, the error detection field is a CRC field and may be information negotiated between the electronic terminal 100 and the electronic device I1.

For example, when the energy source of the controller 190 is solar single-phase data, energy-related data including 26 bytes may be received, and in the case of solar three-phase data, 38 bytes of energy-related data may be received.

Here, solar three-phase data is PV voltage, PV current, PV output, grid R-phase voltage, grid S-phase voltage, grid T-phase voltage, grid R-phase current, grid S-phase current, grid T-phase current, current output, power factor , frequency, accumulated power generation, and failure status fields may be included.

In addition, the controller 190 may receive 22 bytes of solar heat production side data, 16 bytes of solar load side data, and 38 bytes of solar heat final data. Also, the controller 190 may receive 41 bytes of heat pump data.

When a plurality of electronic devices are connected to the same energy source, the controller 190 may assign identification information to each electronic device, set a transmission rate, and allocate a transmission order in real time.

As illustrated, the controller 190 may estimate type information and type information of the energy source based on the values of the length information field and the error detection field of the response data.

In addition, the controller 190 sets the numerical range of a predetermined field included in the response data in advance using the first comfort, and when the numerical value of the predetermined field is out of the numerical range, information on the type and type of the energy source may not trust you.

For example, after the controller 190 sets the value ranges of the power factor field and the frequency field, when the collected power factor value or frequency value exceeds the numerical range, the controller 190 determines that the information has been incorrectly collected, and then again information on the type of energy source and It is possible to estimate the type information and reset the operating mode. Due to the overlapping estimation, it is possible to more accurately estimate the type information of the energy source.

The controller 190 may attempt a communication connection with the electronic device I1 immediately after physical connection with the electronic device is performed for each comfort.

Also, the controller 190 may set a different collection period of energy source-related data for each energy source. For example, the controller 190 may set a collection cycle every 15 minutes for solar power, wind power, fuel cell, and ESS ES, and may set a collection cycle every 2 minutes for solar heat and geothermal heat. However, the collection period may vary depending on the implementation.

According to an embodiment, the controller 190 may allocate the first comfort to the public standard protocol, and may allocate the second to fourth comforts to the Modbus protocol. The setting may be set through a fifth switch.

However, even when data is being collected, the controller 190 may transmit data in compliance with the collection period of each energy source. For example, when the controller 190 transmits data to the electronic device connected to the first energy source with the first comfort, when a collection period for transmitting data to the electronic device connected to the second energy source arrives, the You can also transfer data using other comforts. Accordingly, the collection period may be kept constant, and thus the collection reliability may be improved.

In addition, if the controller 190 is to communicate with one or more electronic devices electrically connected to the energy source based on the Modbus protocol as one or more second comforts (eg, second to N-th comforts) rather than the first comfort, Based on the previously stored Modbus map information, type information and type information of the energy source may be estimated.

The controller 190 may estimate information on the type of energy source based on energy source installation information in a region where the energy source is provided.

In addition, the electronic terminal 100 may include a light emitting device ( 310 in FIG. 1 ) and may be implemented with various materials including an LED.

3 shows a sample of a Modbus map file according to an embodiment of the present invention.

When the Modbus protocol is assigned to a predetermined comfort, the controller 190 may use the Modbus map file as a protocol for communicating with the electronic device I1.

Referring to FIG. 3 , the seq, device_id, and tag_code fields are fields used for identification, and the req-seq, func, unit_id, and address fields are fields indicating information to designate the collection location of the Modbus protocol, endian, wordcnt, format The , scale field can be used as a field indicating information used to parse and express the collected values.

The controller 190 may directly communicate with the electronic device I1 based on the Modbus map file. The Modbus map file may be stored in the memory 140 , but the storage location may be disposed outside the electronic terminal 100 .

When the controller 190 is to communicate with one or more electronic devices electrically connected to the energy source based on the Modbus protocol using one or more second comforts (eg, second to N-th comforts) rather than the first comfort, the pre-stored Based on the Modbus map information, type information and type information of the energy source may be estimated.

If the Modbus map file is not found, the controller 190 communicates with the electronic device based on at least one of product production information, market share information, delivery area information, and communication protocol information of a manufacturer that manufactures the electronic device. can try

That is, the controller 190 may obtain product information of the electronic device I1 based on manufacturer information of the electronic device connected to the energy source for each energy source, product production information of the manufacturer, market occupancy information, delivery area information, and the like. .

The controller 190 may transmit the request data to the electronic device and receive and analyze the response data based on the obtained product information of the electronic device and the obtained communication protocol information.

As such, this specification is not intended to limit the invention to the specific terms presented. Accordingly, although the present invention has been described in detail with reference to the above-described examples, those skilled in the art can make modifications, changes, and modifications to the examples without departing from the scope of the present invention. The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

Claims (7)

As an edge device for data collection and processing with intelligent operation mode setting function,
communication department;
a serial interface physically coupled to one or more electronic devices electrically coupled to the energy source;
Memory;
a switch for setting an operation mode corresponding to the type information of the energy source; and
A controller for controlling the communication unit to transmit request data based on a predetermined protocol to the electronic device through the serial interface in order to estimate the type information of the energy source using the first comfort,
The controller is
and estimating type information and type information of the energy source based on the response data received from the electronic device, and setting an operation mode of the switch based on the estimated type information and type information of the energy source,
The controller is
A storage period of energy-related data is set in the memory, and in the case of data that has passed the storage period, it is configured not to be shared with a data collection server, and is configured to set a different collection period of energy-related data for each energy source,
The controller is
Based on the values of the length information field and the error detection field of the response data, the type information and type information of the energy source are estimated,
The controller is
If a numerical range of a predetermined field included in the response data is set in advance, and the numerical value of the predetermined field is out of the numerical range, the estimated type information and type information of the energy source are not trusted;
The controller is
The edge device, configured to estimate type information and type information of the energy source based on energy source installation information of a region in which the energy source is provided. delete delete delete According to claim 1,
The controller is
When communicating with one or more electronic devices electrically connected to an energy source based on a Modbus protocol using one or more second comforts other than the first comfort, based on the previously stored Modbus map information, type information and type of energy source An edge device configured to estimate information. According to claim 1,
The controller is
The edge device, configured to acquire information on an operation mode of the switch by a user operation when the type information and type information of the energy source cannot be estimated. According to claim 1,
The controller is
Based on the previously learned energy source type learning model, the type information and type information of the energy source are estimated,
The energy source type learning model is a model learned using the value of the length information field of the response data, the value of the error detection field, the type information of the energy source and the type information as labels, edge device.

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