KR20030025129A - Data packet structure for home appliances using low speed communication media - Google Patents

Abstract

PURPOSE: A data packet structure for a low-speed communication of a household appliance is provided to perform a smooth communication between heterogeneous devices in which a communication protocol differs each other in network environment using a low-speed communication medium. CONSTITUTION: A message and information about a communication protocol applied to a transmission-side instrument are added to a data packet for performing a communication between heterogeneous devices using inter-different communication protocols. The data packet includes a receiving address(B3) and a transmitting address(B4) for classifying products of a transmission side and a reception side. The receiving address(B3) and the transmitting address(B4) are information about a product group, a product type, and a product intrinsic number.

Description

DATA PACKET STRUCTURE FOR HOME APPLIANCES USING LOW SPEED COMMUNICATION MEDIA}

The present invention relates to a data packet structure for low speed communication of a home appliance, and more particularly, to a data packet structure for low speed communication of a home appliance to perform heterogeneous smooth communication using different communication protocols according to a product.

In general, in order to perform communication between devices by connecting home appliances to a network, a modem for processing data modulation and demodulation is installed, and data is transmitted and received by using a communication protocol that is connected to an external device through this modem and mutually agreed. You lose.

In addition, a home appliance that is remotely controlled is equipped with a modem for transmitting and receiving control commands through a network. Such a home appliance has a configuration in which a modem 2 connected to the device set 1 is connected to a network, as shown in FIG. 1, and a message for being created by the device set 1 and transmitted to the other party is transmitted to the modem 2. It is created and transmitted in the form of data format.

2 is a diagram illustrating a data format structure for high speed communication according to the prior art.

Referring to FIG. 2, a conventional data packet includes a preamble A1, a reception address A2, a transmission address A3, a packet length A4, a message A5, and an error. It consists of an error check (A6) and an EOF (A7). Here, the preamble A1 announces the start of the packet, the reception address A2 designates the address of the device to be lost, the transmission address designates the address of the transmitting device, and the packet length A4 is the message to be transmitted. Is the length of, message A5 is the content of the message to be transmitted, error check A6 is information for checking whether an error has occurred in the course of delivering the packet, and EOF A7 indicates the end of the packet.

This packet structure is based on the use of Ethernet, which enables high-speed communication and easily varies the packet length (0-1024 bytes). That is, the reception address A2 and the transmission address A3 follow the preamble A1, followed by the packet length A4 and the message A5 indicating the length of the message. This message A5 is followed by an error check A6 for checking the error of the packet and an EOP A7 indicating the end of the packet.

Here, the message A5 may have various forms depending on the type of data to be transmitted. That is, in communication between home appliances, the message structure has a form in which a control command code A5b is added together with a control command A5a. The reason why the control command A5b is added to the control command code A5a is because it is advantageous in terms of compatibility between products, and in order to perform communication between heterogeneous types using different communication protocols, it is a message structure that is applied as a "control command ( A5a) + control command code (A5b) must be agreed in advance.

However, it is difficult to be compatible because different types of methods are used by countries and standards organizations (AHAM, ECHONET, etc.), and when a special type of protocol is used depending on the product and manufacturer, it is not compatible with existing standard methods. there is a problem.

In addition, the conventional packet structure has a vulnerability that is less reliable in a network environment using a low-speed communication medium (power line communication, UART, RS-232C, etc.). For example, in a power line communication environment using a power line, it is necessary to consider that reliability of data due to an error occurs as the length of a packet is longer, so that only the control command A5a is transmitted as the control command mode is added to the control command. It requires twice as much message space as the way it does. This message space has a big influence on the length of the entire packet, so the more message content, the longer the data length, which is a direct factor that makes data reliability weak.

An object of the present invention is to provide a data packet structure for low speed communication of a home appliance for performing heterogeneous communication between different communication protocols in a network environment using a low speed communication medium.

1 is a diagram illustrating a home appliance communicating using a modem.

2 is a diagram illustrating a data packet structure for high speed communication according to the prior art.

3 is a diagram illustrating a data packet structure for low speed communication according to the present invention.

4 is a diagram showing the structure of a group code according to the present invention.

5 is a diagram illustrating a structure of a reception / transmission address according to the present invention.

6 is a diagram illustrating a structure of an option field according to the present invention.

7 is a diagram illustrating a message method of an option field according to the present invention.

* Description of symbols on the main parts of the drawings *

1: Instrument set 2: Modem

An object of the present invention as described above is in a home appliance that communicates using a low-speed communication medium, information on a communication protocol applied to a sending device along with a message so as to communicate between heterogeneous types using different communication protocols. Characterized in that added to the packet.

The data packet includes a reception address and a transmission address for distinguishing a product of a reception side and a transmission side, and the reception address and transmission address are information on a product family, a product type, and a product unique number.

The data packet includes an option field, and the option field is information for distinguishing a manufacturer from a message method.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

The present invention forms a data packet by adding information on a communication protocol applied in a home appliance that communicates using a low speed communication medium, and interprets the information at the receiving side receiving the data packet according to the receiving communication protocol. By interpreting the contents of the message, data can be transmitted and received to each other for smooth communication.

This data packet structure is formed by the modem 2 under the control of the microcomputer (not shown) of the device body 1, and transmitted through a low-speed communication medium (power line, UART, RS232C, etc.).

Referring to FIG. 3, the data packet structure for low speed communication according to the present invention includes header information (B1), group code (B2), reception address (B3), transmission address (B4), packet length (B5), and option field (B6). ), A message B7, error check information B8, and tail information B9. Here, the header information B1 is data for notifying the start of the packet, the group code B2 is data for notifying the group to which the device belongs, and the receiving address B3 is data for specifying the address of the receiving device. , The transmission address B4 is data for specifying the address of the transmitting device, the packet length B5 is data indicating a message length to be transmitted, and the option field B6 is data indicating a message type and a product manufacturer. The message B7 is data about the content of the message to be transmitted, the error check information B8 is data for checking an error in the delivery process, and the tail information B9 is data indicating the end of the packet.

As shown in FIG. 4, the group code B2 following the header information B1 is data B2a indicating a group to which the receiving device belongs and data B2b indicating a group to which the receiving device belongs. For example, the data B2a and B2b may be configured to have 2-3 bits, respectively.

The group code B2 is followed by a reception address B3 and a transmission address B4. The reception / transmission addresses B3 and B4 are respectively represented by a product family B3a and a product type (B3). B3b), consisting of the product unique number (B3c) and consists of 2bit, 6bit, 8bit, respectively, for example, can be distinguished for products for living products-> air conditioner-> home care.

The packet length B5 is followed by an option field B6. The option field B6 includes information B6a indicating a manufacturer applied to the corresponding device as shown in FIG. 6 and information on a message method B6b. ) Here, the information B6a is for distinguishing the manufacturer A, the manufacturer B, and the like, and the information B6b is for classifying the message system according to the communication protocol used by the standard organization (AHAM, ECHONET, etc.). As shown in the form of command code (B6c) and parameter (B6d), 2bit can be used. In addition, the information B6b is for distinguishing a message type according to a communication protocol used by a manufacturer in a special form, and is made in the form of parameter1 (B6e) and parameter2 (B6f) as shown in FIG. 7 and may use 2 bits.

Since the packet structure for the low speed communication adds information on a message method corresponding to a communication protocol that is variously applied according to a product and a manufacturer, the receiving side can identify the message content by interpreting the information. Species compatibility can be secured.

As described above, the present invention provides a communication method using a low-speed communication medium (power line, UART, RS-232C, etc.) by adding a message type according to a communication protocol applied to a corresponding device and information for distinguishing a corresponding product. Depending on the manufacturer and product model, communication can be performed smoothly without regard to various communication protocols.

Claims (3)

In a home appliance that communicates using a low speed communication medium, A low-speed communication data packet structure of a home appliance, characterized in that information on a communication protocol applied to a sending device is added to a data packet so as to communicate between heterogeneous types using different communication protocols. The method of claim 1, The data packet includes a reception address and a transmission address for distinguishing a product of a reception side and a transmission side, and the reception address and transmission address are information on a product family, a product type, and a product unique number. Data packet structure for low speed communication. The method of claim 1, The data packet includes an option field, wherein the option field is information for distinguishing a manufacturer and a message method.