KR100657001B1 - Home Network Control System - Google Patents

Abstract

 The present invention relates to a home network control system in which RF wireless communication is performed between a home net server and a home network product. An RF communication modem including a transceiver using a Zigbee method (hereinafter, referred to as a 'Zigbee transceiver') and a home network protocol, and a microcomputer that checks the status of packets transmitted from the Zigbee transceiver and the home network product. It is characterized by including.

As described above, the present invention applies a Zigbee MAC layer that has reached the stabilization stage to a protocol (eg, LnCP) of a home network system. It can provide a home network protocol (LnCP) RF communication solution.

Zigbee, Home Network, RF

Description

Home Network Control System

1 is a block diagram of a general Zigbee product.

2 is a diagram illustrating a home network control system according to a conventional embodiment.

3 is a diagram illustrating a home network control system according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

400: home net server 500: home network product

600: RF communication modem 610: Zigbee transceiver

620: microcomputer (MCU)

The present invention relates to a home network control system, and more particularly, to a home network control system that can improve communication speed at a low cost by applying a Zigbee physical layer and a MAC layer to a home network protocol.

Zigbee, which has been released to date, is a very reliable protocol in the Sensor Network.

Next, the Zigbee method will be described in more detail with reference to FIG. 1.

1 is a block diagram of a general Zigbee product.

As shown in FIG. 1, the Zigbee-type product includes a microcomputer 120 and a transmission / reception component 130.

The microcomputer 120 uses a value measured from a predetermined sensor 110 as its input, and converts the sensor signal into a data signal conforming to a Zigbee standard.

The transmission / reception component 130 carries a data signal transmitted from the microcomputer 120 on an RF signal.

The microcomputer 120 implements a Zigbee protocol corresponding to OSI layers 2 to 7, and has a ROM of about 60 kByte or more.

The transmission / reception component 130 corresponds to a physical layer and a MAC layer.

More detailed description of the Zigbee is as follows.

ZigBee is a competitive short-range wireless communication technology in the area of vertical applications such as sensor networks. In addition, ZigBee is a technology that combines low-power ZigBee transceivers with sensors (motion, light, pressure, temperature, humidity) to form a large sensor network. For example, building managers can use ZigBee for lighting, fire detection, and air conditioning systems in buildings to perform building system management and control remotely from portable devices rather than from the management room. As such, ZigBee is used to create automated sensor networks for a variety of applications, including industrial, home, medical, and military. In the IEEE 802.15.4 standard, 868 MHz (BPSK / 1 channel / Europe), 902 to 928 MHz (BPSK / 10 channel / US). Three frequency bands including 2.4GHz (OQPSK / 16 channels / world) are defined to support transmission rates of 20 to 250 Kbps up to 100 m with DSSS modulation. By assigning 64-bits to the address, up to 65,000 nodes can be used. CSMA-CA, which is similar to wireless LAN as an access method, uses the GTS mechanism for QoS. ZigBee extends the network / security layer and topology to 802.15.4, allowing repeaters to extend the network beyond a few kilometers, as well as ad hoc, star, and mesh topologies. .

However, such Zigbee has a very complicated protocol specification.

As mentioned above, the protocol should be implemented in the microcomputer 120. Due to the complexity of the protocol, a microcomputer with a large capacity of ROM / RAM (about 60 kBytes) should be used to implement the protocol. This means that you have to use a good and expensive microcomputer, which increases the cost of the product.

On the other hand, Living Network Control Protocol (LnCP), LG Electronics' home network protocol, is relatively simple, easy to implement, and very small in source code.

Next, a home network system using the protocol will be described in more detail with reference to FIG. 2.

2 is a diagram illustrating a home network system including a communication modem used in the home network implementation.

Referring to FIG. 2, a conventional home network system includes a home net server (not shown) and a home network product (home net home appliance) 210 under the control of the home net server.

A communication modem is provided for communication between the home network product 210 and a home net server. The communication modem includes a microcomputer 220 and an RF transmission / reception component 230.

The microcomputer 220 processes the packet generated from the home network product 210 into a data signal conforming to the corresponding home network protocol. That is, the microcomputer 120 generates an error check, a CRC generation, a home code generation (LnCP standard), and a preamble of a packet generated from the home network product 210.

The transmit / receive RF component 130 may transfer the data signal transmitted from the microcomputer 120 to the RF signal or receive the RF signal transmitted from the homenet server and transmit the received RF signal to the microcomputer.

In the present invention, referring to the step of transmitting a packet (data) from the home network product 210 to the home net server, the home network product 210 first generates a packet including data and a destination address. The packet is transmitted to the microcomputer 220 through RS-232C communication, and the microcomputer 220 generates an error check of the packet, CRC generation, home code generation (LnCP standard), and a preamble. Then, if data (packet) is not transmitted in another home network product (CSMA / CA implementation), the packet is transmitted to the transmit / receive RF component 230 in a serial communication manner. The packet is transmitted to the homenet server through RF communication.

On the contrary, referring to the step of transmitting a packet (data) from the home net server to the home network product, the RF transmission / reception component 230 detects an RF signal transmitted from the home net server and transmits the RF signal to the microcomputer 220. Then, the microcomputer 220 checks the state of the packet through the error check and the CRC check of the packet, and delivers it to the home network product 210 through the RS-232C communication method.

In the home network system as described above, like Zigbee, the home network protocol (LnCP protocol) is implemented in the microcomputer 220, and since the code amount is small, a low-cost microcomputer is used.

However, the communication speed of the low power RF used in the communication modem so far is 10 kbps, which is limited to a low speed network.

The present invention has been made to solve the above problems, the object is to provide a home network control system that can improve the communication speed at a low cost by applying the Zigbee (physical layer and MAC layer) to the home network protocol There is.

In order to achieve the above object, the present invention provides a home network control system for RF wireless communication between a home net server and a home network product, and detects and receives an RF signal transmitted from the home net server, and receives a packet generated from the home network product. It is equipped with a Zigbee transceiver (hereinafter referred to as a 'ZigBee Transceiver') and a home network protocol that carries a RF signal and transmits it to a home net server. It characterized in that it comprises an RF communication modem comprising.

Communication between the home network product and the microcomputer preferably uses a serial communication method.

The microcomputer generates an error check, a CRC generation, a home code generation and a preamble signal of a packet transmitted from a home network product, and performs an error check and a CRC check function of a packet transmitted through a Zigbee transceiver.

The RF communication modem is preferably provided outside the home network product, but more preferably within the home network product.

The home network protocol is a living network control protocol (LnCP).

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

3 is a diagram illustrating a home network control system according to an embodiment of the present invention.

Referring to FIG. 3, the home network control system according to the present invention includes a home net server 400, a home network product 500, and an RF communication modem 600.

The home network product 500 includes air conditioners, washing machines, lights, gas valves, boilers, as well as various sensors.

The sensor includes an external intrusion detection sensor, a fire detection sensor, a room temperature detection sensor, a short circuit detection sensor, and the like.

The home net server 400 not only controls and manages the home network product 500 in the home, but also provides an Internet service to the user in connection with the Internet, and performs a function of protecting the user from external intrusion in connection with a door lock.

In addition, the home net server 400 is provided with, for example, a Graphic User Interface (GUI), and a user may issue a command to the home network product 500 through the GUI.

The RF communication modem 600 is a communication modem for communicating between the home net server 400 and the home network product 500.

The RF communication modem 600 includes a ZigBee transceiver 610 and a microcomputer (MCU) 620.

The Zigbee transceiver 610 is a transceiver used in the Zigbee method, detects and receives an RF signal transmitted from the homenet server 400, and also puts a packet generated from the home network product 500 into an RF signal. Send to homenet server 400.

As described above, by applying the ZigBee type transceiver to the home network system, high-speed communication is possible than the conventional home network system. (10kbps or more)

The microcomputer (MCU) 620 is equipped with a home network protocol (LnCP) and checks the status of packets transmitted from the Zigbee transceiver and home network products.

That is, the microcomputer (MCU) 620 not only checks whether the packet is transmitted from the home network product, generates a CRC, generates a home code, and generates a preamble signal, but also an error of a packet transmitted through the Zigbee transceiver 610. Performs a check and CRC check function.

The home code is set (set) independently of the home network product to distinguish a plurality of home network products connected to the same communication line.

The cyclic redundancy check (CRC) is a value taken from a data set transmitted to detect a transmission error in data transmission. The reception unit detects a transmission error by calculating a CRC and comparing it with an original value.

The preamble is a signal used to synchronize transmission timing between two or more systems in network communication. Proper timing ensures that all systems correctly interpret the beginning of information delivery.

The RF communication modem 600 may be provided inside or outside the home network product, but is preferably provided inside the home network product.

The communication between the home network product and the microcomputer is wireless or wired communication, it is preferable to use the serial communication method of the wired communication method.

Examples of the serial communication method include an RS-232C communication method.

Next, the packet transmission path between the homenet server and the home network product will be described.

First, in the present invention, referring to the step of transmitting a packet (data) from the home network product 500 to the home net server 400, the home network product 500 generates a packet containing data and a destination address to send, The packet is transmitted to the microcomputer 620 through RS-232C communication. The microcomputer 620 generates an error check of the packet, a CRC generation, a home code generation (LnCP standard), and a preamble. The packet is transmitted to the ZigBee transceiver 610, and the ZigBee transceiver 610 transmits the packet to an RF signal through a Zigbee MAC and transmits the packet to a homenet server.

On the contrary, referring to the step of transmitting a packet (data) from the homenet server 400 to the home network product 500, the Zigbee transceiver 610 detects an RF signal transmitted from the homenet server and transmits it to the microcomputer 620. Pass it. Then, the microcomputer 620 checks the state of the packet through an error check and CRC check of the packet, and transmits the packet to the home network product 500 through the RS-232C communication method. Accordingly, the home network product 500 performs a task corresponding to the contents of the packet. The home network product 500 then transmits the response to the command and the event signal to the home net server in reverse order (transmitting the packet from the home network product to the home net server).

As described above, in the present invention, high-speed communication is achieved by applying the Zigbee physical layer to the home network system.

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

As described above, the present invention applies a Zigbee MAC layer that has reached the stabilization stage to a protocol (eg, LnCP) of a home network system. It can provide a home network protocol (LnCP) RF communication solution.

Claims (5)

In the home network control system in which RF wireless communication between a home net server and a home network product is performed, ZigBee transceiver for detecting and receiving the RF signal transmitted from the homenet server, and transmitting the packet generated from the home network product to the RF signal to the homenet server; A home network control system, comprising: an RF communication modem including a homecommunication protocol and a microcomputer for checking a state of a packet transmitted from the Zigbee transceiver and a home network product.  The home network control system according to claim 1, wherein the communication between the home network product and the microcomputer uses a serial communication method.  The microcomputer of claim 1 or 2, wherein the microcomputer generates an error check, a CRC generation, a home code generation, and a preamble signal of a packet transmitted from a home network product, and an error check and a CRC check of a packet transmitted through a Zigbee transceiver. Home network control system, characterized in that performing a function.  The home network control system according to claim 1, wherein the RF communication modem is inherent in a home network product.  The home network control system according to claim 1, wherein the home network protocol is a living network control protocol (LnCP).

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