JPH0346848A - Base band network system - Google Patents

Abstract

PURPOSE:To immediately recover trouble at the time of the occurrence of trouble by constructing plural cables for base band network and using another cable at the time when trouble or a collision signal larger than normal and longer than a prescribed duration occurs on the cable used at present. CONSTITUTION:If the collision signal larger than normal and longer than a prescribed duration occurs for on a cable 1 for base band network, a trouble detecting circuit 20 outputs the collision signal from a collision signal generating circuit 21 and sends it to a cable 2 for base band network. Thus, it is supplied to a switch change-over circuit 19 of each switch 7 through a transceiver cable 16, a transceiver 14, the cable 2 for base band network, each transceiver 15 and each transceiver cable 17, and connections of corresponding switches 18 are switched by respective switch change-over circuits 19 to connect a transceiver cable 8 and the transceiver cable 17.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a baseband network system used as one of communication systems.

(Prior Art) A baseband network system is conventionally known as a communication system.

As shown in Figure 2, this system has one transceiver installed in each required part of the baseband network cable +01.
By attaching the 02 and pulling out the transceiver cable 103 from these transceivers 102 and connecting it to the device 104, each device BIo4 is connected to the baseband network cable +01, and communication between each device 104 is enabled. .

However, in this system, when a failure occurs in the baseband network cable lot and communication between each device 104 is hindered.

Restoration work required rerouting a new baseband network cable lot, connecting the transceiver 102 and transceiver cable 103 to this new baseband network cable 101, and reconnecting the existing equipment 104 to this. .

Therefore, there was a problem in that it was not possible to recover from the failure in the 9th period.

(Object of the Invention) The present invention has been made in order to eliminate the conventional drawbacks as described in 1 above, and provides a baseband network cable that can be immediately restored when a failure occurs in a baseband network cable, etc. The purpose is to provide a band network system.

(Summary of the invention) F, kll! In order to solve the problem, in the baseband network system according to the present invention, a plurality of baseband network cables are laid, and the baseband network cables currently in use are prevented from experiencing interference or collision signals for a certain period of time or more. The system is characterized by stopping the use of the currently used baseband network cable and using another baseband network cable instead.

(Example) The present invention will now be described in detail based on an example shown in the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention.

The C3MA/CD type baseband network system shown in this figure includes a baseband network cable 1 used as a regular cable and a baseband network cable 2 used as a backup cable. Transceivers 3 and 5 are connected to the starting end and each necessary part of the cable l for use, and among these transceivers 3.5,
A switching device 7 is connected to the transceiver 5 of each required portion by a transceiver cable 6, and this switching device 7
A device 9 is connected to the device 9 by a transceiver cable 8.

A monitoring device fRII is connected to the transceiver 3 connected to the starting end via a transceiver cable IO.

In addition, transceivers 14 are provided at the starting end of the baseband network cable 2 described in 1 and at the portions corresponding to the respective required parts in . +5 is connected, and among these transceivers 14 and 15, the transceiver 14 connected to the starting end is connected to the monitoring device X! by a transceiver cable 16. The transceiver 15 connected to the transceiver cable 17 and connected to each required part
It is connected to each of the switching devices 7 by.

Each switch 7 includes a switch 18 for disconnecting and connecting the transceiver cable 8 to one of the transceiver cables 6 and 17, and a switch switching circuit 19 for controlling this switch +8.
When no o11ision (fault or collision) signal is provided, the switch 18 switches the transceiver cable 8
and the transceiver cable 6. When the Co11ision signal is supplied via the transceiver cable 17, from this time until the reset switch (not shown) is operated, the switch changeover circuit 19 controls the switch 8 to switch between the transceiver cable 8 and the transceiver. Connect the cable 17.

The monitoring device 11 also includes a fault detection circuit 20 that monitors the signal on the baseband network cable 1 to determine whether there is a fault or not, and generates a Co11ision signal based on the output of the fault detection circuit 20. Cal I sent out on baseband network cable 2
1sion signal generation circuit 2I, and when a Co11ion signal exceeding the specified value is generated in the baseband network cable 1 indicated by "i" for a predetermined period of time, the failure detection circuit 20 generates the baseband network cable 1.
It is determined that a failure has occurred in the Co11ision signal generating circuit 21, and the Co11ision signal is outputted onto the baseband network cable 2.

Next, the operation of this embodiment will be explained with reference to FIG.

First, the baseband network cable! When the glision signal is not generated for a predetermined period of time or more, the failure detection circuit 20 determines that no failure has occurred in the baseband network cable 1, and the Co11ion signal generation circuit 2 is connected to the Co11ion signal generating circuit 2.
1ision signal is not output.

In this state, the switch 18 of the switch 7 connects the transceiver cable 8 and the transceiver cable 6, and supports communication between each machine N9 using the baseband network cable 1.

The baseband network cable! When a specified amount of Co11ision signal is generated on the baseband network cable l for a predetermined period of time, the fault detection circuit 20 determines that a fault has occurred in the baseband network cable l, and turns on the Co11ision signal.
A Co11ision signal is output from the signal generation circuit 2, and this is sent to the transceiver cable 16 and transceiver 1.
4. Baseband network cable 2. Each transceiver 15, each transceiver cable! The signal is supplied to the switch switching circuit 19 of each switch 7 via the switch 7, and the switch switching circuit 19 switches the connection of the corresponding switch 18, thereby connecting the transceiver cable 8 and the transceiver cable 17.

As a result, the use of the failed baseband network cable l is prohibited, and the baseband network cable 2 designated as a backup
The use of the baseband network cable 2 is started, and communication of each device 9 is supported using this baseband network cable 2.

As described above, in this embodiment, when a failure occurs in the baseband network cable 1 that is designated for regular use, this is detected and the baseband network cable 1 is designated as a backup instead of the baseband network cable 1. Since the baseband network cable 2 is used, when a failure occurs in the baseband network cable 1, it can be immediately restored.

Further, in this embodiment, the presence or absence of a fault is determined by detecting the c011ision signal of the baseband network cable, but the fault detection circuit 20
A check signal is output from the baseband network cable and sent to the baseband network cable, and when a corresponding return signal is returned to the fault detection circuit 20,
It may be determined that the baseband network cable 1 is operating normally.

In addition, alarm lamps are provided on the monitoring device 11 and the switching device 7, so that when the baseband network cable 2 designated as a backup is in use, each alarm lamp is turned on so that this can be visually recognized. It's okay.

In addition, in the embodiment described above, Co11isio
The Co11ision signal is output from the n signal generation circuit 21 to switch the switch switching circuit I9.
Alternatively, the switch switching circuit 19 may be switched by outputting the DATA signal.

(Effects of the Invention) As described above, according to the present invention, when a failure occurs in a baseband network cable or the like, it can be immediately restored.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of a baseband network system according to the present invention, and FIG. 2 is a block diagram showing an example of a conventional baseband network system. l, 2-Baseband network cable blindness 1-monitoring device, 20...fault detection circuit, 21-Colli
sion signal generation circuit.

Claims (1)

[Claims] (1) In a baseband network system, multiple baseband network cables are installed, and the current baseband network cable that is currently in use is subject to the condition that a failure or collision signal occurs for a certain period of time or more. A baseband network system characterized in that the use of one baseband network cable is stopped and another baseband network cable is used instead.