KR20150055131A - TCP/IP-based Wide Use Communication Module for Smart Nano-Grid and Method thereof - Google Patents

Abstract

The present invention relates to a wide use communication module device and a method thereof. It can be compatible with any communication modem which communicates in a TCP/IP serial data transmission/reception standard using a PLC, Ethernet, WiFi, CDMA, WCDMA, LTE, wireless phone, or Bluetooth/zigbee base wireless local area network, can connect a serial data transmission/reception standard for UART, RS 485, SPI, or simple on/off control only when it is connected to a serial port such as electronic appliances and lamps of a smart nano-grid.

Description

[0001] DESCRIPTION [0002] Generalized communication module device and its method for application to TCP / IP based smart nano-grid [0002]

The present invention relates to an apparatus and method for general purpose communication module based on TCP / IP for smart nano-grid, and more particularly, to a method and apparatus for communication using a PLC, Ethernet, WiFi, CDMA, WCDMA, LTE, landline, or Bluetooth / It is compatible with any communication modem module that communicates with TCP / IP or serial data transmission / reception standard. It can be connected to UART, RS485, SPI, or the like only if it is connected through serial port of various devices such as household appliances and lighting on smart nano- To a serial data transmission / reception standard for simple on / off control, and a method thereof.

As the power industry and IT technology develop rapidly, the Smart-Grid industry segment is divided into Mega-Grid, Milli-Grid, Micro-Grid and Nano-Grid according to the scale of distributed power grid. Technological developments are being actively pursued to chemically combine various technologies of consumer sources.

In Korea, it is also possible to use Smart-Grid, Micro-Grid, K-MEG (industrial complex, university campus, town, building-scale power generation source, ), And H-EMS (electricity generation source, storage source, consumer source of home or small building scale).

The Nano-Grid or Smart Nano-Grid is a commercial grid of household and building-scale low-voltage distribution lines (eg, 220V, 380V) The communication technologies for power network intelligence included in the information transmission system of the upper layer are mainly composed of the communication system integration of the lower layer rather than the communication system integration of the lower layer.

However, devices such as circuit breakers, transformers, household appliances, lighting, and renewable energy devices on the smart nano-grid communicate with each other only by a PLC communication method has limitations in hardware / software configuration, In order to be compatible with smart nano-grid devices in various communication environments such as Ethernet, WiFi, CDMA, WCDMA, LTE, Bluetooth / ZigBee, etc., An integrated communication module is needed.

Korean Patent Publication No. 10-2010-0124985 (published on November 30, 2010) may be referred to as related prior art.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide intelligent intelligent service technologies (SEP v2.0, OpenADR (Automatic Demand Response) ) v2.0, DLMS (Device Language Message Specification), ISO / ICE 15118 EV (Electric Vehicle) -EVSE (Electric Vehicle Supply Equipment) communication) And can additionally be connected to support communication by an integrated communication method, and a method thereof.

The general purpose communication module device of the present invention can be connected to any communication modem module that communicates with a TCP / IP or serial data transmission / reception standard, such as PLC, Ethernet, WiFi, CDMA, WCDMA, LTE, wireline telephone or Bluetooth / ZigBee- Energy-consumption devices such as appliances, lighting, heating and cooling devices, and ESS (Energy) devices, which are compatible with each other, and are compatible with each other, such as a smart nano-grid meter (power detection / notification), a switchboard switch, a breaker, a transformer, Storage System, Electric Vehicle, Charging System, Photovoltaic Power Generation, Solar Heating, Wind Power Generation, Renewable Energy Equipment, etc., can be connected through serial port for RS485, SPI or simple ON / OFF control Serial data transmission / reception standard.

In order to achieve at least the above objects and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a communication system including a nano-grid device and a communication modem module, The modular device comprises: a serial connection for connection with the nano-grid device; A communication interface for performing communication according to any one of the plurality of communication methods and for connecting to a communication modem module having a modem of TCP / IP or serial type as a data transmission / reception standard; And processing data received from the nano-grid device through the serial connection and transmitting the data to the communication modem module via the communication interface between the serial connection and the communication interface, And transmits the processed data to the nano-grid device through the serial connection unit.

The communication interface may be any one of a communication method such as PLC (Power Line Communication), Ethernet, WiFi, CDMA, WCDMA, LTE, wire telephone or wireless local area communication including Bluetooth or ZigBee method and TCP / And a socket for connection with the communication modem module having a modem for performing communication according to a data transmission / reception standard.

The nano-grid device may be a lower-level controlled device including an energy consuming device, a power device, or a nano-grid component device, or an energy management device such as energy management, state management, overall control management, Lt; / RTI >

The serial connection unit may include a port for connection with the nano-grid device by a serial communication method of UART, RS232, RS485, SPI, I2C, or USB.

The serial connection unit may use one or two signal lines included in a connection port with the nano-grid device as a port when the device operation management unit transmits a simple ON / OFF control signal.

The device operation management unit includes an MCU (micro controller unit) for overall control of the communication module device, a real time operating system (RTOS) for real-time processing of data transmission and reception, a data transmission / A serial stack for data processing when the communication modem module performs communication according to the data transmission / reception standard of the serial, a TCP / IP stack for the data processing when the TCP / IP stack or the TCP / A link controller for referring to data processed in the serial stack and managing a link between an upper device connected to the communication modem module and the nano-grid device, and a controller for recognizing a simple on / off control occurrence during link management of the link controller, And a corresponding on / off control signal for the nano-grid device to a corresponding port of the serial connection unit And a simple control unit for transmitting the data.

A method of operating a communication module device connected between a nano-grid device and a communication modem module according to another aspect of the present invention to support communication according to a plurality of communication methods includes connecting the nano- step; Connecting to a communication modem module having a TCP / IP or serial type modem as a data transmission / reception standard through an interface socket, performing communication according to any one of the plurality of communication methods; And processing the data received from the nano-grid device through the serial port between the serial port and the interface socket and transmitting the processed data to the communication modem module and receiving data received from the communication modem module through the interface socket And transmitting the processed data to the serial port.

The general purpose communication module device according to the present invention can be applied to various types of communication modem modules such as PLC, Ethernet based Internet, WiFi, CDMA, WCDMA, LTE, fixed line telephone, or Bluetooth / Zigbee based wireless local area communication, Although it should be additionally installed between smart nano-grid device and communication modem module, it can be applied to various smart nano-grid devices without changing hardware / software, so it has advantage in terms of development complexity and utilization cost as a whole system .

Energy-consumption devices such as appliances, lighting, heating and cooling devices, and energy storage systems such as ESS (Energy Storage System), energy-saving devices, When a serial port is attached to an electric device such as an electric vehicle, a charging system, a solar power generation, a solar heating, a wind power generation, and a renewable energy device, and the general purpose communication module device of the present invention is connected to the serial port, Since the communication modem module of various communication methods desired by the user can be selectively installed and utilized for the state management and control of the smart nano-grid device, there is an advantage in related industry activation, standardization, user convenience, and cost reduction.

1 is a view for explaining the concept of a general purpose communication module apparatus according to an embodiment of the present invention.
Fig. 2 is a diagram for explaining a specific configuration of the general purpose communication module apparatus of Fig. 1;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

1 is a diagram for explaining the concept of a general-purpose communication module apparatus 100 according to an embodiment of the present invention.

1, a general purpose communication module device 100 according to an embodiment of the present invention is additionally mounted and connected between a nano-grid device and a communication modem module (see 140 in FIG. 2) And can be applied as a general-purpose device that supports data communication between a communication modem module (refer to 140 in FIG. 2) capable of transmitting and receiving data by TCP / IP or serial method in various communication methods and a nano-grid device transmitting and receiving data in a serial manner .

The general purpose communication module device 100 according to an embodiment of the present invention may be implemented in various forms of communication such as PLC (Power Line Communication), Ethernet, WiFi, CDMA, WCDMA, LTE, landline telephone, or Bluetooth / Zigbee- To be compatible with the communication modem module (refer to 140 in FIG. 2). At this time, even if the communication modem module (refer to 140 in FIG. 2) transmits / receives data according to any data transmission / reception standard such as TCP / IP or serial type, the universal communication module device 100 transmits / receives data to / from the serial- The data received from the grid device may be processed and transmitted to a communications modem module (see 140 in FIG. 2), processed data received from a communications modem module (see 140 in FIG. 2) As shown in FIG.

The general-purpose communication module 100 may include information-based intelligent service technologies (SEP v2.0, OpenADR (Automatic Demand Response) v2.0, DLMS (Device Language Message The Nano-Grid devices of this technology can be applied to energy management, state management, overall control management, and other management functions, such as ISO / IEC 15118 EV (Electric Vehicle Supply Equipment) Or control devices on the nano-grid for simple on / off state and control management, and controlled devices on the nano-grid on the nano-grid, including energy consuming devices, power devices or nano- have.

For example, the control device on the nano-grid may be a desktop PC, a notebook PC, a smart phone, and the like as well as a nano-grid class EMS (Energy Management System), an IHD (In-Home Display)

For example, the lower-level controlled devices on the nano-grid include FFD (Full Function Device) for supporting individual service, energy management function, state management function, control management function, energy management function, MFD (Minimum Function Device) for supporting RFD (Reduced Function Device) for supporting functions, control management function, and simple on / off state and control management, and a general communication module device (100) (NFD), and it can be classified into NFD (No Function Device), etc. Energy consumption of nano-grid component devices such as meter (power detection / notification), panel switch, breaker, transformer and switch, appliances, lighting, Equipment, and electric power equipment such as ESS (Energy Storage System), electric vehicle, charging system, solar power generation, solar heating, wind power generation, and renewable energy equipment.

Fig. 2 is a diagram for explaining a specific configuration of the general-purpose communication module apparatus 100 of Fig.

2, a general-purpose communication module 100 according to an embodiment of the present invention includes a communication interface (not shown) for connection with a serial connection unit 110, a device operation management unit 120, and a communication modem module 140 130).

The serial connection unit 110 for connection with the nano-grid device may include a connector or a socket-type serial port for connection with the nano-grid device. The nano-grid device is a serial communication method such as UART (Universal Asynchronous Receiver Transmitter), RS232, RS485, Serial to Peripheral Interface (SPI), I2C or USB And the serial connection unit 110 may communicate with the communication module device 100. In order to connect the nano-grid device to the nano-grid device through any one of the above serial communication methods, Of serial ports. In addition, one or two signal lines included in the serial port for connection to the nano-grid device may be connected to the nano-grid device when the device operation management unit 120 transmits a simple ON / OFF control signal, It can be used as a port for transmission.

The communication interface 130 for connection with the communication modem module 140 is compatible with the communication modem module 140 of various communication methods and is provided with a socket type MII Independent Interface. The communication modem module 140 may perform communication according to any one of various communication methods such as PLC (Power Line Communication), Ethernet, WiFi, CDMA, WCDMA, LTE, wired telephone, or Bluetooth / Zigbee- And may have a modem capable of performing data communication as a TCP / IP or serial data transmission / reception standard.

The device operation management unit 120 processes data received from the nano-grid device via the serial connection unit 110 between the serial connection unit 110 and the communication interface 130 and transmits the data to the communication modem module 140, processes the data received from the communication modem module 140 through the communication interface 130, and transmits the processed data to the nano-grid device through the serial connection unit 110.

The device operation management unit 120 includes a microcontroller unit 121, a real time operating system (RTOS) 122, a link control unit 123, a simple control unit 124, a serial stack 125, a TCP / And an IP (Transmission Control Protocol / Internet Protocol) stack 126.

The MCU 121 may include an IC chip, a memory, an active device, a passive device, and the like as a processor that performs overall control over each component of the general-purpose communication module apparatus 100 as described above.

The RTOS 122 is an operating system that is installed in an embedded system such as the general purpose communication module device 100 and is stored and managed in a memory for real-time processing of data transmission and reception. The RTOS 122 is connected to the nano-grid device and the communication modem module 140 It is possible to support real-time processing of data requiring real-time data transmission / reception between upper-level devices. Since the RTOS (Real Time Operating System) is well known, a detailed description thereof will be omitted here.

The TCP / IP stack 126 performs data processing when the communication modem module 140 performs communication based on the TCP / IP data transmission / reception standard, that is, receives data from the nano-grid device via the serial connection unit 110 IP data to the communication modem module 140 through the communication interface 130 and transmits the TCP / IP data received from the communication modem module 140 through the communication interface 130 And controls the serial connection unit 110 to transmit corresponding serial data to the nano-grid device.

The serial stack 125 performs data processing when the communication modem module 140 performs communication according to the serial data transmission / reception specification, that is, serial data received from the nano-grid device through the serial connection unit 110 Transmits the serial data to the communication modem module 140 through the communication interface 130 and processes the serial data received from the communication modem module 140 through the communication interface 130 to transmit the serial connection data To transmit the corresponding serial data to the nano-grid device.

The link controller 123 refers to the data processed in the TCP / IP stack 126 or the serial stack 125 to refer to the external upper device connected to the communication modem module 140 and the nano-grid device connected to the serial connection 110 Lt; RTI ID = 0.0 > links. The link control unit 123 checks the function classification (FFD, RFD, MFD, NFD, etc.) of the connected nano-grid device according to a link control function, (Such as SEP, OpenADR, DLMS, ISOIEC 15118, and simple ON / OFF control) of the application service method of the mobile terminal 100 and determine the port operation mode such as RS485, SPI, and simple control through the serial connection unit 110 . That is, according to the serial port connection method and the upper application service method thus determined, only the payload data exchanged in the TCP / IP (or serial) -based data communication can be transmitted, or the packet- whether to pass-through the payload data, or to pass the simple control command by interpreting the payload data.

The link control section 123 may use various communication modem methods of the communication modem module 140 by using the MII interface. However, when the communication modem module 140 performs data communication using the TCP / IP data transmission / reception standard, The TCP / IP frame (packet) actually transmitted and received according to the communication method of each modem of the communication modem module 140 can be appropriately buffered and flow controlled according to the corresponding nano-grid device to ensure communication reliability.

As the simple controller 124 recognizes the occurrence of the simple ON / OFF control during the link management of the link controller 123, the simple controller 124 transmits the corresponding simple on / off control signal for the nano-grid device to the corresponding port of the serial connection unit 110 . Off control signal can be generated without information processing such as data conversion and packetization according to the recognition of the simple ON / OFF control occurrence of the link control unit 123, and the simple ON / OFF control signal (for example, digital high Nano-grid devices such as meters (power detection / notification), distribution panel switches, circuit breakers, transformers, switches, etc., energy consumption devices such as household appliances, lighting, And on / off control of devices related to electric power devices such as ESS (Energy Storage System), electric vehicle, charging system, solar power generation, solar heating, wind power generation, and renewable energy device can be easily performed.

For reference, the TCP / IP data transmission / reception standard (or network data transmission protocol) is a standard protocol for transmitting information between information devices such as computers using different operating systems on the Internet. TCP is a protocol for distributing and packing transmission data in a predetermined unit, and IP includes a protocol for directly exchanging data between a device having a source IP address and a device having a destination IP address. Data is exchanged between devices on the Internet according to the TCP / IP data transmission / reception standard, which is an Internet standard protocol, so that data can be completely transmitted and received.

In the serial or UDP method, data is transmitted unilaterally from the source device to the destination device. Therefore, it is impossible to cope with data loss, loss or error. On the other hand, in the TCP / IP data transmission / reception standard, A method of transmitting data including a process of confirming transmission and reception of data between a source device and a destination device and an error checking process so as to ensure complete transmission of data by allocating an IP address of the source device and the destination device. In the data transmission according to the TCP / IP data transmission / reception standard, if a data packet between the devices is lost or damaged, it is notified that the corresponding fault has occurred and the data can be retransmitted properly. Accordingly, the host that receives the data can always receive the data in order without any error.

As described above, the TCP / IP-based communication module 100 for a smart nano-grid according to the present invention can be used for a PLC, an Ethernet, a WiFi, a CDMA, a WCDMA, an LTE, a landline telephone, or a Bluetooth / Zigbee- And a serial port of a smart nano-grid on a variety of devices such as home appliances, lights, and the like, the UART, Grid device and the communication modem module 140 by being connected to the RS-485, SPI, or the serial data transmission / reception standard for simple ON / OFF control, so that the nano- And can be utilized as a general-purpose apparatus for the present invention.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

The communication module device (100)
The serial connection 110,
The device operation management unit 120,
Communication interface 130,

Claims (7)

A communication module device connected between a nano-grid device and a communication modem module to support communication according to a plurality of communication methods,
A serial connection for connection with the nano-grid device;
A communication interface for performing communication according to any one of the plurality of communication methods and for connecting to a communication modem module having a modem of TCP / IP or serial type as a data transmission / reception standard; And
And processing the data received from the nano-grid device through the serial connection to transmit to the communication modem module via the communication interface between the serial connection and the communication interface, A device operation management unit for processing received data and transmitting the processed data to the nano-grid device through the serial connection unit;
The communication module comprising: The method according to claim 1,
Wherein the communication interface comprises:
Communication by either TCP / IP or serial data transmission / reception standards such as PLC (Power Line Communication), Ethernet, WiFi, CDMA, WCDMA, LTE, wireline telephone or wireless local area communication including Bluetooth or ZigBee And a socket for connection with the communication modem module
The communication module comprising: The method according to claim 1,
The nano-grid device may be a lower layer controlled device comprising an energy consuming device, a power device, or a nano-grid component device, or
Control devices for energy management, state management, overall control management, or simple on / off state and control management
The communication module comprising: The method according to claim 1,
The serial connection unit includes:
And a port for connection with the nano-grid device by a serial communication method of one or more of UART, RS232, RS485, SPI, I2C, or USB. The method according to claim 1,
The serial connection unit includes:
And one or two signal lines included in connection ports with the nano-grid device are used as ports when the device operation management unit transmits a simple on / off control signal. The method according to claim 1,
The device operation management unit,
A micro controller unit (MCU) for overall control of the communication module device,
Real time operating system (RTOS) for real-time processing of data transmission and reception,
A TCP / IP stack for data processing when the communication modem module performs communication according to the TCP / IP data transmission / reception standard,
A serial stack for data processing when the communication modem module performs communication according to the data transmission / reception standard of the serial,
A link controller for managing a link between the upper device connected to the communication modem module and the nano-grid device by referring to data processed in the TCP / IP stack or the serial stack, and
A simple control unit for transmitting a corresponding ON / OFF control signal for the nano-grid device to a corresponding port of the serial connection unit when recognizing occurrence of a simple ON / OFF control during link management of the link control unit,
The communication module comprising: A method for operating a communication module device connected between a nano-grid device and a communication modem module to support communication according to a plurality of communication methods,
Connecting the nano-grid device through a serial port;
Connecting to a communication modem module having a TCP / IP or serial type modem as a data transmission / reception standard through an interface socket, performing communication according to any one of the plurality of communication methods; And
Processing the data received from the nano-grid device through the serial port between the serial port and the interface socket and transmitting the processed data to the communication modem module and processing data received from the communication modem module through the interface socket To the serial port
And transmitting the communication module to the communication module.

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