JP2002261864A - Media converter system - Google Patents

Abstract

(57) [Problem] To provide a media converter system having a function of setting a communication mode of a remote subscriber side media converter from a station side media converter. SOLUTION: The station side media converter 3200 which has received a communication mode setting request from an SNMP unit 310.
Requests the opposing subscriber-side media converter 400 to set the communication mode. The subscriber-side media converter 400 sets itself to the specified communication mode, and establishes a link with the terminal in the set communication mode. Is established, and the result is notified to the station side media converter 3200.
, The communication mode of the remote subscriber-side media converter 400 can be set, and maintenance operability can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is constructed by connecting a subscriber side media converter and a station side media converter by a communication line, and has a function of setting a communication mode of the subscriber side media converter from the station side media converter. Media converter system.

[0002]

2. Description of the Related Art In general, since a subscriber media converter to which a user terminal or the like is connected is a facility of a telecommunications carrier, the telecommunications carrier operates and manages the subscriber media converter. Need to do. But,
In the conventional media converter system, the station side media converter cannot set or change the communication mode of the remote subscriber side media converter connected via the communication line.

[0003] As a method for solving such inconvenience, an IP (Internet) is provided to a media converter on the subscriber side.
Protocol) address, and directly access the subscriber side media converter remotely to set a communication mode. However, according to this method, it is necessary to individually manage a large number of IP addresses assigned to the media converter on the subscriber side.
Address management becomes complicated. Also, it is not preferable to require many IP addresses because the current IP address is in a depleted state. Furthermore, since a third party who has learned the IP address can freely set and change the communication mode of the subscriber side media converter, there is a problem in security.

As described above, in the conventional media converter system, in order to set or change the communication mode of the subscriber-side media converter, a maintenance manager or the like directly places the subscriber-side media converter at the installation location. There is a problem that maintenance management is not good because it is necessary to go to the site to set and change the communication mode.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned circumstances, and is directed to a media converter having a function of setting a communication mode of a remote subscriber side media converter from a station side media converter. The purpose is to provide a system.

[0006]

Means for Solving the Problems The present invention has been made to solve the above-mentioned problems, and the invention according to claim 1 comprises a first media converter and a second media converter. In a media converter system interconnected by a transmission medium, first connection means for mutually connecting the first transmission medium and a different kind of second transmission medium, and the second connection medium via the first transmission medium. Communication mode setting request means for requesting the media converter to set a predetermined communication mode.
Media converter, and second connection means for mutually connecting the first transmission medium and a different third transmission medium,
A link between communication mode setting means for setting a predetermined communication mode specified by the first media converter and a communication device connected to the other end of the third transmission medium by the set communication mode; And a notifying unit for judging the success or failure of the link establishment and notifying the first media converter of the judgment result. Is a media converter system.

According to a second aspect of the present invention, in the media converter system according to the first aspect, the predetermined communication mode includes a transmission speed and a communication system, and the transmission speed and the communication system are combined. I do.
According to a third aspect of the present invention, in the media converter system according to the first or second aspect, the communication system is a full-duplex communication system or a half-duplex communication system.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a media converter system according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a system configuration diagram showing a schematic configuration of a network system to which the media converter system according to the embodiment is applied. In FIG. 1, a network system includes an SNM on a LAN (Local Area Network) 100.
P (Simple Network Management Protocol) Manager 2
00 and a concentrator 300 containing a terminal 500 connected via a media converter system. The SNMP manager 200 manages the network by collecting status information and the like from each device constituting the network system and setting each device to a predetermined state. The concentrator 300 is an SNMP manager 2
00, an SNMP unit 310 having a maintenance management function such as reporting the status of the media converter system to the SNMP manager 200 or setting the media converter system to a predetermined status, and a plurality of station-side media converters 3200. And a hub (SW-HUB) 330 for concentrating and connecting to the LAN 100.

[0009] The media converter system is
It comprises a subscriber-side media converter 400, a station-side media converter 3200, and an optical fiber cable 700 connecting the subscriber-side media converter 400 and the station-side media converter 3200. The subscriber side media converter 400 is connected to the twisted pair cable 6.
A function of interconnecting the optical fiber cable 700 with the optical fiber cable 700;
And the station side media converter 3200 facing itself
The terminal 500 is set to a predetermined communication mode designated by
It has the function of trying to establish a link with Also, the office-side media converter 3200 has a function of interconnecting the twisted pair cable 640 and the optical fiber cable 700, and a function of the opposing subscriber-side media converter 400.
Has a function to set a predetermined communication mode and to set its own communication mode.

Also, the subscriber side media converter 400
And the communication mode of the station side media converter 3200, for example, as a transmission rate of 10 Mbps, respectively.
Set or change the mode to a combination of fixed or 100 Mbps fixed and full-duplex communication or half-duplex communication as the communication method, or to an automatic negotiation mode that adjusts the transmission speed and communication method according to the communication partner. It has become possible. Here, it is assumed that the communication mode of station-side media converter 3200 is set to an auto-negotiation mode.

Next, the configurations of the subscriber-side media converter and the office-side media converter constituting the media converter system according to the present embodiment will be described in detail with reference to FIG. FIG. 2 is a block diagram showing a configuration of the subscriber side media converter 400 and the station side media converter 3200 of FIG. In FIG. 2, 402, 32
03, 3223 is a receiving circuit conforming to the 100BASE-TX standard for receiving an electric signal from a twisted pair cable and performing a receiving process using a physical layer level protocol. Transmitting a signal to an optical fiber cable by performing a BASE-FX standard transmission circuit, 41
2, 3212, a receiving circuit compliant with the 100BASE-FX standard for receiving an electric signal from an optical fiber cable and performing a receiving process according to a protocol at a physical layer level;
Reference numerals 13, 3213, and 3222 denote transmission circuits conforming to the 100BASE-TX standard for performing transmission processing using a physical layer level protocol and transmitting signals to a twisted pair cable.

Here, reference numeral 403 denotes a MAC switch.
The MAC switch 403 is realized as a general switching HUB function as a LAN device. Specifically, the MAC switch has a plurality of data transmission / reception ports and has the following functions 1 to 3. (Function 1) Referring to the source MAC address field of the received data, the communication apparatus automatically learns which transmission / reception port the communication apparatus is located at, and builds an internal address table (a correspondence table between MAC addresses and port numbers). (Function 2) Referring to the destination MAC address field of the received data, an output port is determined depending on whether or not it is registered in the address table, and the output port is transmitted only to that port. (Function 3) A specific address is written in the address table in advance so as to correspond to a specific port, and a frame having the address as a destination address is output to the intended port.

In this embodiment, when the TP interface is port 1 and the optical interface is port 2, and the data transmitting / receiving device connected to the control unit is port 3,
By writing the destination MAC address of the “communication mode setting request frame” transmitted from the station side media converter in the address field of port 3 in advance, the MAC switch transfers this data only to port 3 and the control unit Surely receives the data frame.
Further, since the data is not transferred to the TP interface (port 1) side, it is possible to prevent a frame exchanged by local communication between media converters from leaking to the outside (TP interface).

Reference numerals 405 and 3205 denote electro-optical converters (E / O) for converting electric signals into optical signals, and 411 and 321.
1 is a photoelectric converter (O / O) for converting an optical signal into an electrical signal.
E). The data receiving unit 421 includes the MAC switch 4
03, information about the communication mode setting is received,
The data transmission unit 422 sets the communication mode and transmits the result of trying to establish a link with the terminal connected to the connector 401 side. Reference numeral 430 has a function of controlling each unit constituting the subscriber-side media converter 400, and in response to a communication mode setting request requested from the station-side media converter 3200, sets the communication mode to the designated transmission speed and communication method. And a control unit that controls the establishment of a link with the terminal in the set communication mode and controls data transfer in the set communication mode.

Reference numeral 3202 designates the receiving circuit 3203 and the transmitting circuit 3213 as L in the case of normal data transfer.
When connecting to an AN via a connector 3201 and setting the communication mode, the receiving circuit 3203 and the transmitting circuit 32
13 is a changeover switch for switching connection of the transmission circuit 13 to the transmission circuit 3222 and the reception circuit 3223. Further, the data generation unit 3221 includes the subscriber-side media converter 40.
0, the data receiving unit 3224 generates information for setting a communication mode of 0.
And the link establishment result sent from the server. 3
220 has a function of controlling each unit constituting the station side media converter 3200, and in response to a communication mode setting request from the SNMP unit, requests the opposing subscriber side media converter 400 to set a communication mode. ,
The control unit has a function of controlling data transfer in accordance with the communication mode of the subscriber-side media converter 3200.

Next, the operation of setting the communication mode of the media converter system according to the present embodiment will be described with reference to FIG. FIG. 3 is a flowchart showing the operation of setting the communication mode of the media converter system according to the present embodiment. In FIG. 3, the SNMP unit 3
10 receives the communication mode setting request from the SNMP manager 200, and requests the corresponding station side media converter 3200 to set the communication mode (Step S).
1). Upon receiving the communication mode setting request, the station side media converter 3200 controls the changeover switch 3202 to stop transmission and reception on the LAN interface side and stop normal data transfer (step S2). In addition, the station side media converter 3200 transmits the information generated by the data generation unit 3221 to the opposing subscriber side media converter 400, and issues a communication mode setting request (step S3).

Next, the subscriber-side media converter 400 that has received the communication mode setting request is sent to the data receiving section 42.
The terminal 5 sets its own communication mode to the specified communication mode based on the communication mode setting information received in
An attempt is made to establish a link with 00, and the success or failure of the link establishment result is determined (step S4). Then, the subscriber side media converter 400 notifies the station side media converter 3200 of the link establishment result (step S5). The station side media converter 3200 notifies the SNMP unit 310 of the received link establishment result,
By controlling the changeover switch 3202, the transmission / reception prohibition on the LAN interface side is released (step S6).

In the above-described embodiment, the communication mode of the station side media converter 3200 is set to the automatic negotiation mode. However, the same communication mode as that of the subscriber side media converter 400 may be set. In the above-described embodiment, the case where the communication mode of one subscriber-side media converter is set has been described. Similarly, the communication mode of a plurality or all of the subscriber-side media converters is set simultaneously. It is also possible.

[0019]

As described above, according to the present invention, the station-side media converter receiving the communication mode setting request from the SNMP unit requests the opposite subscriber-side media converter to set the communication mode. However, the subscriber media converter sets itself to the specified communication mode, attempts to establish a link with the terminal, and notifies the station media converter of the result. The maintenance manager can remotely set the communication mode of the subscriber side media converter, thereby improving the maintenance management.

Further, since the maintenance manager of the telecommunications carrier can remotely control the transmission speed and communication system of the communication line on the subscriber side, it is possible to appropriately perform traffic management and charging of the network system. Further, the exchange between the subscriber-side media converter and the office-side media converter is performed in a unique procedure, so that the security is improved without being controlled by an external third party.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram showing a schematic configuration of a network system to which a media converter system according to an embodiment of the present invention is applied.

FIG. 2 is a block diagram showing a configuration of a media converter system according to the embodiment.

FIG. 3 is a flowchart showing a communication mode setting operation of the media converter system according to the embodiment.

[Explanation of symbols]

100 LAN, 200 SNMP manager, 300
... Concentrator, 310 ... SNMP unit, 330 ... Hub (SW-HUB), 400 ... Subscriber side media converter, 401,3201 ... Connector, 402,3203
3223 ... Reception circuit (100B-TX PHY (R
x)), 403... MAC switches, 404, 3204.
Transmission circuit (100B-FX PHY (Tx)), 40
5,3205: electro-optical converter (E / O), 411, 32
11 ... photoelectric converter (O / E), 412, 3212 ... receiving circuit (100B-FX PHY (Rx)), 413
3213, 3222 ... transmission circuit (100B-TX PH
Y (Tx)), 421 data receiving unit, 422 data transmitting unit, 430, 3220 control unit, 440 voltage conversion unit, 450 AC adapter, 500 terminal, 610, 6
20,630,640 ... twisted pair cable, 700
.., Optical fiber cable, 3200, station media converter, 3202, changeover switch, 3221, data generator, 3224, data receiver, 3230, optical connector (SC).

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Katsuyuki Arai, Inventor 1440, Murosaki, Sakura-shi, Chiba F-term in Fujikura Sakura Works (reference) 5K033 AA03 CB01 DA01 DA15 DB17 DB22 EC01 5K034 AA16 DD03 EE02 FF02 HH04 HH06 HH13 HH62 HH63 KK21 LL01 NN04

Claims (3)

[Claims] 1. A media converter system in which a first media converter and a second media converter are interconnected by a first transmission medium, wherein the first transmission medium and a different type of second transmission medium are interconnected. The first connection means for connecting, and the communication mode setting request means for requesting the second media converter to set a predetermined communication mode via the first transmission medium. Media converter; second connection means for mutually connecting the first transmission medium and a different third transmission medium; and communication for setting a predetermined communication mode designated by the first media converter. Link establishment for trying to establish a link between mode setting means and a communication device connected to the other end of the third transmission medium by the set communication mode Media converter system, wherein the stage, and a notifying means for notifying the determined success or failure of the link establishment determination result to the first media converter, and the second media converter having at least a, by including the. 2. The media converter system according to claim 1, wherein the predetermined communication mode includes a transmission speed and a communication system, and the transmission speed and the communication system are combined. 3. The media converter system according to claim 1, wherein the communication system is a full-duplex communication system or a half-duplex communication system.