JP2004187213A - Network connection device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network connection device in which occurrence of a transmission line fault is easily recognized from a network equipment. <P>SOLUTION: In a network connection device 10 which is connected to relay links 03, 04 face to face between two network devices 07, 08 and performs medium exchange between the network devices 07, 08 and between the relay links 03, 04, the network connection device is provided with a function for detecting reception interruption from the connected network equipment 07 or reception interruption from an opposed network connection device 11 as a transmission line fault, and a function for stopping transmission to the connected network equipment 07 immediately when the transmission line fault is detected. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a network connection device for connecting two remote networks via different relay links of different media, and in particular, makes it easier for network equipment to recognize the occurrence of a transmission path failure without reducing the communication band. It relates to a network connection device.
[0002]
[Prior art]
In order to connect two networks remote from each other via a relay link having a different medium, a network connection device (also referred to as a media converter) for performing medium conversion between a network device and a relay link is connected to the relay link in an opposite manner ( The media are aligned with each other and connected to both ends of the relay link). The difference between the media is simply a metal cable and an optical fiber, but even between optical fibers, the difference in the encoding format, the transmission speed, and the like is included in the difference between the media.
[0003]
As shown in FIG. 8, the network connection device 10 has a network connection port connected to the network 01, and is connected to the opposing network connection device 11 via the relay links 03 and 04, so that the network connection device 10 02 can be connected.
[0004]
When the remote network devices use the auto-negotiation function with the auto-negotiation function turned off, the conventional network connection devices 10 and 11 operate independently of the communication between the transmission side and the reception side. When the transmission stop (failure) of the connection devices 10 and 11 occurs, the communication in the opposite direction is not affected, and these transmission path failures (transmission medium disconnection, transmission stop of the opposing network connection device) are notified. No function.
[0005]
For this reason, as shown in FIG. 9, the network device 07 in the network 01 connected to the network connection device 10 periodically transmits data (continuity confirmation data 28) to the network connection device 10 for continuity confirmation. To the network device 08 in the network 02 connected to the network connection device 11 to be connected, and confirms the presence / absence of a transmission path failure based on whether or not the continuity check data 29 from the network device 08 in the network 02 arrives. I was
[0006]
Alternatively, the network connection devices 10 and 11 may be provided with an auto-negotiation function, and the auto-negotiation function between the network connection devices 10 and 11 may be turned on, so that the one-way connection is possible even when the auto-negotiation function between the network devices 07 and 08 is off. Was notified to the transmission path on the opposite side. Details are described in Patent Document 1.
[0007]
[Patent Document 1]
JP-A-2002-135337
[Problems to be solved by the invention]
The prior art has the following problems.
[0009]
(1) Since the network device confirms the existence of the transmission path failure by the arrival of the data for periodic conduction confirmation, it is not possible to immediately confirm the occurrence of the transmission path failure when the transmission path failure occurs.
[0010]
(2) Since the communication band of the network is used to periodically transmit the conduction confirmation data, the communication band that can be used for other data communication is reduced.
[0011]
(3) Since the function of generating an auto-negotiation signal must be provided in the network connection device, the network connection device is complicated.
[0012]
Therefore, an object of the present invention is to provide a network connection device that solves the above-mentioned problem without having an auto-negotiation function, and makes it easy for network devices to recognize the occurrence of a transmission path failure without reducing a communication band. It is in.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a network connection device which is oppositely connected to a relay link between two network devices and performs medium conversion between the respective network devices and the relay link. A function of detecting a disconnection of the network or a disconnection from the opposing network connection device as a transmission path failure, and a function of immediately stopping transmission to the connected network device when these transmission path failures are detected. It is provided.
[0014]
A signal receiving unit that receives a signal from the network device, a signal monitoring unit that monitors whether the signal is received, a signal reproducing unit that reproduces a waveform of the received signal, and a signal whose waveform is reproduced To the relay link, a signal receiving unit receiving a signal from the relay link, a signal monitoring unit monitoring whether the signal is received, and reproducing a waveform of the received signal. A signal reproducing unit and a signal transmitting unit that transmits a signal whose waveform is reproduced to the network device. When one of the signal monitoring units detects an abnormal reception, the abnormal signal is transmitted to both signal transmitting units. The transmission may be stopped.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.
[0016]
As shown in FIG. 1, a network connection device 10 according to the present invention includes a signal receiving unit 40 that receives a signal (received signal) 30 from a network device, and a signal monitoring unit that monitors whether the signal is received. 41, a signal reproducing unit 42 for reproducing the waveform of the received signal, a signal transmitting unit 43 for transmitting a signal (transmission signal) 31 whose waveform has been reproduced to a relay link (not shown), and a signal from the relay link. (Received signal) 32, a signal receiving section 44, a signal monitoring section 45 for monitoring whether or not the signal is received, a signal reproducing section 46 for reproducing a waveform of the received signal, and the waveform being reproduced. And a signal transmitting unit 47 for transmitting the transmitted signal (transmission signal) 33 to the network device.
[0017]
Further, the network connection device of FIG. 1 has a function of detecting an abnormality of the received signal 30 when the received signal 30 is abnormal, and a function of detecting the abnormality of the received signal 30 when the abnormal state is detected. The function of transmitting the abnormality to the transmission unit 43 and the signal transmission unit 47 (transmitting the information that the abnormality is present), and the signal transmission unit 43 and the signal transmission unit 47 receiving the abnormality transmit the transmission signal 31 and the transmission signal 33, respectively. It has a function of stopping.
[0018]
The signal monitoring unit 41 may transmit the abnormality to the signal transmission unit 43 only if the signal monitoring unit 41 detects the abnormality and the signal reproduction unit 42 does not reproduce the received signal. Alternatively, the signal monitoring unit 41 may directly transmit the abnormality to the signal transmission unit 43.
[0019]
In addition, the network connection device of FIG. 1 has a function of detecting an abnormality of the received signal 32 when the received signal 32 is abnormal, and a function of detecting the abnormality of the received signal 32 when the abnormal state is detected. It has a function of transmitting an abnormality to the transmission unit 47 and the signal transmission unit 43, and a function of stopping the transmission signal 33 and the transmission signal 31 respectively when the abnormality is received. .
[0020]
Note that the signal monitoring unit 45 transmits the abnormality to the signal transmission unit 47 only if the signal monitoring unit 45 detects the abnormality and the signal reproduction unit 46 does not need to reproduce the received signal. Alternatively, the signal monitoring unit 45 may directly transmit the abnormality to the signal transmission unit 47.
[0021]
In summary, the network connection device 10 according to the present invention has a function of stopping both the transmission signals 31 and 33 when either of the reception signals 30 and 32 is abnormal. The abnormality of the reception signal 30 is a disconnection from the network device connected to the signal receiving unit 40, and means a disconnection with the network device. Further, the abnormality of the reception signal 32 is a reception interruption from the opposing network connection device, which means that the transmission of the opposing network connection device is stopped. That is, the network connection device 10 according to the present invention disconnects the reception from the connected network device (disconnection with the network device) or the reception from the opposite network connection device (stops the transmission of the opposite network connection device). As a transmission path failure, and a function of immediately stopping transmission to a connected network device and an opposing network connection device when the transmission path failure is detected.
[0022]
The means for monitoring signal abnormalities in the signal monitoring units 41 and 45 is based on a synchronization detection function specified in IEEE 802.3-2000 section 36.2.5.2.6. It is.
[0023]
Alternatively, the signal abnormality monitoring means in the signal monitoring units 41 and 45 includes monitoring of run length limit (a rule that prohibits the code 0 or code 1 from continuing more than a specified number) and running disparity ( It is also possible to monitor a rule for performing encoding for reducing the bias of the appearance ratio of code 0 and code 1).
[0024]
Alternatively, the signal abnormality monitoring means in the signal monitoring units 41 and 45 may have a function (signal detect) for detecting whether or not the intensity of the received signal is equal to or higher than a threshold.
[0025]
Hereinafter, the operation of the network system using the network connection device according to the present invention will be described.
[0026]
In the network system shown in FIGS. 2 to 5, the two networks 01 and 02 are respectively composed of a plurality of network devices 07 and 08. The network 01 is connected to the network connection ports 20 and 22 of the network connection device 10 according to the present invention. The network 02 is connected to network connection ports 21 and 23 of the network connection device 11 according to the present invention. The network connection devices 10 and 11 are connected to each other via relay links 03 and 04. That is, the network connection devices 10 and 11 are oppositely connected to the relay links 03 and 04 between the two network devices 07 and 08.
[0027]
With this configuration, the information of the network 01 is transmitted to the network 02 through the network connection port 20, the relay link 03, and the network connection port 21, and the information of the network 02 is transmitted to the network connection port 23, the relay link 04, the network connection port. 22 to the network 01.
[0028]
Each of the relay links 03 and 04 is configured by one optical fiber. Each of the network connection ports 20 to 23 is connected to the networks 01 and 02 using a cable such as an optical fiber or a twisted pair wire, respectively.
[0029]
As illustrated in FIG. 2, when a failure (indicated by an X mark) occurs in the network connection port 20, the network device 10 connected to the network connection port 20 detects the failure occurrence in the network connection port 20 and relays the failure. By stopping the transmission signal for the link 03, the failure is notified to the opposing network connection apparatus 11, and the transmission signal of the network connection port 22 is stopped to notify the network equipment 07 of the failure. The network connection device 11 that has been notified of the failure via the relay link 03 (specifically, has detected the reception interruption) stops the transmission signal of the network connection port 21 to notify the network device 08 of the failure.
[0030]
As shown in FIG. 3, when a failure occurs in the relay link 03, the network connection device 11 connected to the relay link 03 detects the failure in the relay link 03 and sends a transmission signal to the network connection port 21. Is stopped, the failure is notified to the network device 08, and the transmission signal of the relay link 04 is stopped, thereby notifying the opposite network connection device 10 of the failure. The network connection device 10 notified of the failure via the relay link 04 stops the transmission signal of the network connection port 22 to notify the network device 07 of the failure.
[0031]
As shown in FIG. 4, when a failure occurs in the network connection port 23, the network device 11 connected to the network connection port 23 detects the occurrence of the failure in the network connection port 23 and transmits the failure to the relay link 04. By stopping the signal, the failure is notified to the opposing network connection device 10 and the transmission signal of the network connection port 21 is stopped to notify the network device 08 of the failure. The network connection device 10 notified of the failure via the relay link 04 stops the transmission signal of the network connection port 22 to notify the network device 07 of the failure.
[0032]
As shown in FIG. 5, when a fault occurs in the relay link 04, the network connection device 10 connected to the relay link 04 detects the fault occurrence in the relay link 04 and transmits a transmission signal to the network connection port 22. , The network device 07 is notified of the failure, and the transmission signal of the relay link 03 is stopped to notify the opposite network connection device 11 of the failure. The network connection device 11 notified of the failure via the relay link 03 stops the transmission signal of the network connection port 21 to notify the network device 08 of the failure.
[0033]
As described above, when four types of failures occur, the network connection devices 10 and 11 can notify both the network devices 07 and 08 that a failure has occurred.
[0034]
Next, another embodiment will be described.
[0035]
As shown in FIG. 6, the two networks 01 and 02 are respectively composed of a plurality of network devices 07 and 08. The network 01 is connected to network connection ports 20, 22, 24, 26 of the network connection devices 10, 12 according to the present invention. The network 02 is connected to network connection ports 21, 23, 25, 27 of the network connection devices 11, 13 according to the present invention. The network connection devices 10 and 11 are connected to each other via relay links 03 and 04, and the network connection devices 12 and 13 are connected to each other via relay links 05 and 06.
[0036]
With this configuration, the information of the network 01 is transmitted to the network 02 through the network connection 20, the relay link 03, and the network connection 21, or is transmitted through the network connection 24, the relay link 05, and the network connection 25. To the network 02. The information of the network 02 is transmitted to the network 01 through the network connection 23, the relay link 04, and the network connection 22, or is transmitted to the network 01 through the network connection 27, the relay link 06, and the network connection 26. Sent.
[0037]
Each of the relay links 03, 04, 05, and 06 is configured by one optical fiber. Each of the network connection ports 20 to 27 is connected to the networks 01 and 02 using a cable such as an optical fiber or a twisted pair line, respectively.
[0038]
In normal operation, both the relay links 03 and 04 and the relay links 05 and 06 are used for communication between the networks 01 and 02. Each of the network devices 07 and 08 realizes a large communication band between the networks 01 and 02 by performing communication by distributing communication traffic to the relay links 03 and 04 and the relay links 05 and 06.
[0039]
Here, the operation when the optical fiber is cut in the relay link 04 will be described with reference to FIG.
[0040]
In this case, the network connection device 10 detects that the optical signal from the network connection device 11 has been interrupted. At this time, the network connection device 10 immediately transmits the disconnection of the optical fiber to the network device 07 via the network connection port 22 and transmits the disconnection of the optical fiber to the network connection device 11 via the relay link 03. . The network connection device 11 detects the abnormality transmitted from the relay link 03, and notifies the network device 08 of the abnormality through the network connection port 21.
[0041]
The means for detecting an anomaly is based on the detection of loss of synchronization when the function for synchronization specified in the IEEE 802.3-2000 standard section 36.2.5.2.6 is provided. Alternatively, monitoring of the run length limit and the running disparity may be performed. Alternatively, the function may be a function of detecting whether or not the strength of the received signal is equal to or higher than a threshold.
[0042]
The means related to the notification of the abnormality is, for example, by stopping the transmission of the signal of the network connection port and the relay link.
[0043]
In this way, it is possible to notify the network devices 07 and 08 that the communication route between the network connection devices 10 and 11 has become unusable, and switch to communication using only the network connection devices 12 and 13.
[0044]
【The invention's effect】
The present invention exhibits the following excellent effects.
[0045]
(1) Since no auto-negotiation function is provided, a code converter inside the network connection device is not required, and the network connection device only needs to have a waveform reproducing function, a signal monitoring function, and a transmission stop function. Can be simplified.
[0046]
(2) In a network connection device equipped with an auto-negotiation function, only signals supported by the network connection device can be exchanged between networks because the network connection device itself generates signals. Since all signals are transmitted, all signals related to the functions of the network devices at both ends can be used regardless of the signals supported by the network connection device (the network connection device is a device that operates only at the layer 1 level). Therefore, communication can be performed between network devices by an arbitrary method at the layer 2 level or higher).
[Brief description of the drawings]
FIG. 1 is an internal configuration diagram of a network connection device according to an embodiment of the present invention.
FIG. 2 is a configuration diagram of a network system showing an embodiment of the present invention.
FIG. 3 is a configuration diagram of a network system showing an embodiment of the present invention.
FIG. 4 is a configuration diagram of a network system showing an embodiment of the present invention.
FIG. 5 is a configuration diagram of a network system showing an embodiment of the present invention.
FIG. 6 is a configuration diagram of a network system according to an embodiment of the present invention.
FIG. 7 is a configuration diagram of a network system according to an embodiment of the present invention.
FIG. 8 is a configuration diagram of a conventional network system.
FIG. 9 is a configuration diagram of a conventional network system.
[Explanation of symbols]
01, 02 Network 03, 04, 05, 06 Relay link 07, 08 Network device 10, 11, 12, 13 Network connection device 40, 44 Signal receiving unit 41, 45 Signal monitoring unit 42, 46 Signal reproducing unit 43, 47 Signal Transmitter

Claims (2)

A network connection device which is connected to a relay link between two network devices and performs medium conversion between the respective network devices and the relay link. A network connection device comprising: a function of detecting a reception interruption as a transmission path failure; and a function of immediately stopping transmission to a connected network device when the transmission path failure is detected. A signal receiving unit that receives a signal from the network device, a signal monitoring unit that monitors whether the signal is received, a signal reproducing unit that reproduces a waveform of the received signal, and a signal whose waveform is reproduced To the relay link, a signal receiving unit receiving a signal from the relay link, a signal monitoring unit monitoring whether the signal is received, and reproducing a waveform of the received signal. A signal reproducing unit and a signal transmitting unit that transmits a signal whose waveform is reproduced to the network device. When one of the signal monitoring units detects an abnormal reception, the abnormal signal is transmitted to both signal transmitting units. The network connection device according to claim 1, wherein transmission is stopped.

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