KR100855232B1 - Power Line Communication Apparatus comprising Function of Access Point and Network System comprising the Apparatus - Google Patents

Abstract

Disclosed are a power line communication device having an access point function and a network system including the communication device. The power line communication apparatus of the present invention provides an access point function for a wireless LAN and implements a wired LAN according to a power line communication (PLC) scheme with other power line communication apparatuses. Easy to deploy

Wired LAN, Wireless LAN, Access Point, Power Line Communication

Description

Power line communication device having an access point function and a network system having the communication device {Power Line Communication Apparatus comprising Function of Access Point and Network System comprising the Apparatus}

1 is a diagram illustrating a network system according to an embodiment of the present invention;

2 is a block diagram of a power line communication apparatus having an access point function according to an embodiment of the present invention; and

3 is a perspective view of an embodiment of the communication device of FIG. 2.

The present invention provides an access point function for a wireless LAN and simultaneously implements a wired LAN according to a power line communication (PLC) method with another power line communication device. The present invention relates to a power line communication device having an access point function and a network system including the communication device for simplifying construction.

With the development of wireless communication technology, wired LAN can be implemented as a wireless LAN, and various technologies have been announced.

In general, a wireless LAN refers to a wireless network in which a LAN communication network between a computer and a computer or a computer and other communication systems is formed by a predetermined WLAN protocol based on a wireless interface.

Each wireless client included in a wireless LAN system in an infrastructure mode forms a network around an access point (AP).

A mobile terminal that is a client includes a WLAN card for communicating with one of a plurality of WLAN access points. Each access point may be wired to another access point such as an unshielded twisted pair wire (UTP). The access point controls or relays direct communication between mobile terminals and provides an interface with a wired LAN.

The access point of the WLAN system may be connected to Ethernet by wire and then to a broadband network such as the Internet. To this end, the Ethernet router is wired to a broadband communication network, which is an internet service provider network, to connect a wireless LAN network and the Internet. Each device, or access point, in such a system is powered from a separate power line.

Such systems become more complex as more terminals and access points become clients, and complicated wiring for wired connection and power connection of the network is required. Of course, the inconvenience caused by the damage to the indoor interior and the user's wire installation.

An object of the present invention, by providing an access point (Access Point) function for a wireless LAN (WLAN), and by implementing a wired LAN according to the power line communication (PLC) method between other power line communication devices The present invention provides a power line communication device having an access point function for simplifying system construction, and a network system including the communication device.

In order to achieve the above object, a power line communication apparatus having an access point function according to the present invention includes an access point unit, a hub, a power line communication (PLC) modem, and a controller.

The access point unit relays wireless communication according to the wireless LAN protocol with an external mobile terminal, and the hub includes a wired LAN port for expanding a wired LAN, and a data packet transmitted through the access point unit and the wired LAN port. Switch.

The PSI modem performs power line communication with the external wired LAN device through an AC power line to transmit and receive the data packet between the hub and the external wired LAN device, and the controller controls the access point unit, the hub, and the PSI modem. To control the operation.

According to an embodiment, the power line communication device is configured to receive a command from a user for setting a router that transmits and receives the data packet between only the external broadband and the hub and sets the hub and the PSI modem to operate in one of a master and slave mode. It may further include wealth.

In this case, the controller may control the hub to communicate with the router when the setting unit is in the master mode, and control the PSI modem to operate in the master mode.

A network system according to another embodiment of the present invention may include the at least one power line communication device and may be interconnected through an AC power line to establish a network by mutually transmitting and receiving data packets according to a power line communication scheme.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a diagram illustrating a network system according to an embodiment of the present invention.

The network system 100 of the present invention forms one network by a power line communication (PLC) method. Therefore, the network system 100 of the present invention is basically based on a wired LAN. The network system 100 does not need to separately establish a line and a power line for establishing a wired LAN by using the PI method, and can build a network by using an existing power line. The network system 100 constructs a network based on a power line communication device (hereinafter, referred to as a relay device) having an access point (AP) function.

The network system 100 includes at least one relay device (111, 113, 115), a terminal (131, 133, hereinafter referred to as 'terminal A') connected to a LAN port of the relay device (111, 113, 115). And the terminals 151 and 153 directly connected to the AC power line 170, hereinafter referred to as 'terminal B'. The terminal A corresponds to a terminal including a LAN interface (LAN card) that can be connected to a normal wired LAN. In addition, the terminal B is further provided with a LAN modem for power line communication as well as a LAN interface, such as terminal A, to transmit and receive data to and from one of the relay devices 111, 113, and 115 through the power line 170. .

The network system 100 provides a distribution system (DS) for a wireless LAN and a wireless LAN based on a wired LAN. Therefore, the network system 100 may be connected to at least one mobile terminal 301 to 309.

Hereinafter, a relay device (a power line communication device having an access point function) according to an embodiment of the present invention will be described with reference to FIG. 2.

2 is a block diagram of a power line communication device having an access point function according to an embodiment of the present invention, and FIG. 3 is a perspective view of an embodiment of the communication device of FIG. 2.

Hereinafter, an internal configuration of the relay device 200 representing the plurality of relay devices 111, 113, and 115 of FIG. 1 will be described. Accordingly, the relay device 200 corresponds to the relay devices 111, 113, and 115 of FIG. 1 and may be described in the same manner.

The relay device 200 may operate as a wireless LAN access point, and may be wirelessly connected to the at least one mobile terminal 301 to 309 to form a predetermined wireless LAN. The relay device 200 may connect the wireless LAN and the wired LAN, and expand the wired LAN by switching data packets including a hub function. In addition, the relay device 200 has a routing function for connecting to a broadband network such as the Internet.

Referring to FIG. 2, the relay device 200 includes a setting unit 201, a display unit 203, an access point unit 205, a power supply unit 207, a PLC modem 209, and a hub 211. , A router 213 and a controller 215.

The setting unit 201 receives an operation mode related to whether the relay device 200 operates as a master or a slave, from an administrator. The setting unit 201 may be implemented in various ways, and may simply correspond to a dip switch. The relay device 200 set as the master is connected to the broadband network.

The control unit 215 reads the setting value of the setting unit 201 or receives the setting value from the setting unit 201 to control the operation of the relay apparatus 200. When the user sets the operation mode of the relay apparatus 200 as the master through the setting unit 201, the PSI modem 209 of the relay apparatus operates as a master between the PSI modems of other relay apparatuses. In addition, when the setting unit 201 is set as a master, the hub 211 is connected to the router 213 to allow the relay 200 to be connected to the broadband network.

The display unit 203 may display at least one of a PA communication error, a wired / wireless LAN communication error, and a broadband communication error to a user under the control of the controller 215. The display unit 203 may simply use a light emitting diode (LED).

The access point unit 205 forms a WLAN network with at least one mobile terminal 301 to 309 and performs a function of an access point. The access point unit 205 is a wireless medium access control (MAC) protocol of the Institute of Electrical and Electronics Engineers (IEEE) 802.11 between the mobile terminals 301 to 309 that are wirelessly connected according to the infrastructure mode. Use each to communicate with each other. Therefore, the access point unit 205 controls direct communication between mobile terminals or relays communication between mobile terminals.

The access point unit 205 may configure a distribution system (DS) together with an access point unit of another relay device, and thus, the relay devices in the system 100 may use one extended service set (ESS). Set) can be configured. In such a WLAN, the mobile terminal and the access point unit 205 use an extended service set ID (ESSID).

The access point unit 205 is a roaming function according to a handoff for a mobile terminal 303 moving out of its WLAN network to a WLAN network of another relay device based on a distributed system. To provide.

In addition, the access point unit 205 is connected to the hub 211 under the control of the control unit 215 to transmit and receive a predetermined Ethernet packet (Packet) with the hub 211, the other relay through the hub 211 It is connected to the device or broadband network.

Although not shown in detail in FIG. 2, the power supply unit 207 receives AC power from the power line 170 and supplies DC operation power of the relay device 200. In addition, the power supply unit 207 connects the PSI modem 209 to the power supply line 170.

The PSI modem 209 transmits and receives data (Ethernet packet) with another relay device according to the PSI scheme. The PI method transmits and receives data by modulating data on a predetermined power line and sending the data together.

The PSI modem 209 operates in one of the master or slave modes under the control of the controller 215. In the case of acting as a master, the PSI modem 209 operates as a master in the PSI network formed together with PSI modems of other relay devices to control the transmission and reception of data by the PSI. When operating as a slave, the PCI modem 209 communicates under the control of the PI modem of the other relay set as the master.

The PSI modem 209 demodulates the Ethernet packet received from the PSI modem of the other relay device and transmits the demodulated packet to the hub 211 and modulates the data received from the hub 211 to the PSI modem of the other relay device. do.

The hub 211 is provided with a wired LAN port for expansion of a wired LAN. The hub 211 is connected to the terminal A through the wired LAN port and connected to another relay device through the PSI modem 209, so that a predetermined Ethernet packet is connected between the access point unit 205, the other relay device, and the terminal A. Switch.

The hub 211 may correspond to a switching hub or a dummy hub.

The hub 211 is connected to the router 213 under the control of the controller 215. The controller 215 controls the hub 211 to be connected to the router 213 to access the broadband network when the relay device 200 operates in the master mode.

The router 213 performs a routing function for connecting a network made by the relay devices 200 and a broadband network. The router 213 may perform a dynamic host configuration protocol (DHCP) function and may include a modem for accessing a broadband network.

DHCP is a protocol that allows network administrators to centrally manage and assign IP (Internet Protocol) addresses on an organization's network. DHCP allows network administrators to centrally manage and assign IP addresses, and to automatically send new IP addresses when the device is connected to another location on the network.

The controller 215 controls the overall operation of the relay device 200 of the present invention. In addition, the controller 215 reads the setting value of the setting unit 201 or receives the setting value from the setting unit 201 to determine the operation mode of the relay apparatus 200 and controls the operation according to the operation mode. .

As described above, the relay device 200 of the present invention may simultaneously establish a wired LAN, which is a basic network of the network system 100, with a function of an access point, and separate unshielded twisted pair cable (UTP) by using a PCI method for the wired LAN. It is possible to omit wired hypotheses, such as unshielded twisted pair wires, and to eliminate wires by integrating devices together into one.

Referring to FIG. 3, the relay device 200 may complete the installation by simply plugging an outlet into a power line embedded in a wall. The relay device 200 of FIG. 3 operates in a master mode and is connected to a broadband network.

A case in which a plurality of relay devices 200 are connected to a power outlet as shown in FIG. 3 and one of them is set as a master is configured as shown in FIG. 1. In other words, the first relay device 111 is set as a master, and the second and third relay devices 113 and 115 are set to operate in a slave mode.

The hub of the first relay device 111 is connected to the router and connected to the broadband network. When the mobile terminal 301 is connected to the first relay device 111, the access point of the first relay device 111 gives the mobile terminal 301 an IP allocated from the router, and the mobile terminal 301 transmits it. By transmitting the packet to the hub, the mobile terminal 301 can be connected to the broadband network.

Some of the Ethernet packets transmitted by the second relay device 113 and the third relay device 115 are received by the first relay device 111 through the power line 170, and the hub of the first relay device 111 is connected to the hub of the first relay device 111. It is sent through the router to the broadband network. In addition, the Ethernet packets transmitted between the second relay device 113 and the third relay device 115 are mutually received through the power line 170 and transmitted to the desired mobile terminal or terminal A.

The network formed by the power line 170 between the relay devices 111, 113, and 115 forms a backbone network for the WLAN, and uses an extended service set ID (ESSID). Form a set of services. Accordingly, even when the mobile terminals 301 to 309, which are wireless LAN devices, move to another basic service set (BSS), seamless communication can be performed.

The relay device according to another embodiment of the present invention may not include the router 213 of FIG. 2. In this case, this type of relay can be connected to a separate switching hub having a communication interface of the PI type, the external router is connected between only this separate switching hub and broadband.

The invention can be implemented in devices and systems. In addition, when the present invention is implemented in computer software, the components of the present invention may be replaced with code segments necessary for performing necessary operations. The program or code segment may be stored in a medium that can be processed by a microprocessor and transmitted as computer data coupled with carrier waves via a transmission medium or communication network.

The media that can be processed by the microprocessor include electronic circuits, semiconductor memory devices, ROMs, flash memory, electrically erasable programmable read-only memory (EEPROM), floppy disks, optical disks, and hard disks. (Hard) Includes the ability to transmit and store information such as disks, fiber optics, wireless networks, and the like. Computer data also includes data that can be transmitted over electrical network channels, optical fibers, electromagnetic fields, wireless networks, and the like.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the above-described specific embodiment, the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

As described in detail above, the power line communication apparatus according to the present invention may provide an access point (AP) function for a wireless LAN and establish a wired LAN by power line communication (PLC). .

Thus, system designers can build a network simply by connecting power line communication devices to wall outlets. The user can directly connect to a power outlet after purchasing a power line communication device, and use it as a wireless LAN access point or build a wired LAN without damaging the interior interior due to additional wiring or construction.

Claims (3)

An access point unit for relaying wireless communication according to a wireless LAN protocol with an external mobile terminal; A hub having a wired LAN port for extending a wired LAN and switching data packets transmitted through the access point unit and the wired LAN port; A power line communication (PLC) modem for performing power line communication with the external wired LAN device through an AC power line to transmit and receive the data packet between the hub and the external wired LAN device; A router for transmitting and receiving the data packet between an external broadband network and the hub; A setting unit which receives a command from a user for setting the hub and the PSI modem to operate in one of a master and a slave mode; And And a controller configured to control operations of the access point unit, the hub, and the PSI modem. And the control unit controls the hub to communicate with the router when the setting unit is in the master mode, and controls the PSI modem to operate in the master mode. delete At least one power line communication device connected through an AC power line and transmitting and receiving data packets to each other according to a power line communication method, Each of the power line communication devices, An access point unit for relaying wireless communication according to a wireless LAN protocol with an external mobile terminal; A hub having a wired LAN port for extending a wired LAN and switching data packets transmitted through the access point unit and the wired LAN port; A PSI modem connected to another power line communication device through the power line and performing power line communication between the hub and the other power line communication device; A router for transmitting and receiving the data packet between an external broadband network and the hub; A setting unit which receives a command from a user for setting the hub and the PSI modem to operate in one of a master and a slave mode; And And a controller configured to control operations of the access point unit, the hub, and the PSI modem. And the control unit controls the hub to communicate with the router when the setting unit is set to master mode and controls the PSI modem to operate in the master mode.

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