JPH05284163A - Lan interface selection processing method for lan terminal equipment - Google Patents

Abstract

PURPOSE:To eliminate working load and to construct a LAN system having high efficiency by deciding a LAN interface connected normally to a cable and then deciding the use of the LAN interface. CONSTITUTION:LAN interfaces IF 6a-6c are provided to secure the connection of the LAN 2a-2c respectively. A LAN terminal equipment 10 automatically selects the desired one of those interfaces IF 6a-6c of different rules. In this case, the IF 6c of a 10BaseT rule for example, is selected and a link signal is received. Thus, the use of the IF 6c is decided. Meanwhile the IF 6b of a 10Base5 rule is selected if the link signal is not received. Then, the IF 6b transmits a packet which is addressed to its own LAN terminal equipment. Thus, the use of the IF 6b is decided if an SQE signal is received via the IF 6b. If the reception of data is confirmed, the use of the IF 6b is decided after decision of the normal connection between the IF 6b and a transceiver 7b even though the function of an SQ test sequence is turned off and on SQ signal is received.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plurality of LANs (Local Area Networks) each having different rules.
k, local area network, local area communication network), and more particularly, to a LAN interface selection processing method of a LAN terminal device suitable for efficiently selecting each LAN interface.

[0002]

2. Description of the Related Art In recent years, LANs have been used, for example, in "Nikkei Electronics 1988 5-1" published by Nikkei McGraw-Hill.
6 (No. 447) ”, pp. As described in Nos. 140 to 145, a technique for connecting several LANs to each other is being developed. One LAN terminal device,
In order to connect and use multiple LANs, use the LAN interface that corresponds to each LAN protocol.
It must be installed in N terminal devices.

Conventionally, in a LAN terminal device having a plurality of LAN interfaces, when deciding the LAN interface to any one, for example, all the signal lines are signaled by using jumper pins (or lines). Connect or change the signal to one jumper pin (wire),
It is common to switch using a selector.

[0004]

The problem to be solved by the present invention is that, in the prior art, when one LAN terminal device selects one from a plurality of LAN interfaces of different conventions, the work procedure manual and the like are read. While jumper pin (wire)
This is a point that cannot be easily selected because the setting of (1) and the setting of the software table (file) must be changed. An object of the present invention is to solve these problems of the prior art, to automatically select a LAN interface, eliminate the workload associated with the selection of a LAN interface, and even an operator who does not have knowledge of electric circuits has different rules. Another object of the present invention is to provide a LAN interface selection processing method of a LAN terminal device, which can easily perform data transmission on the LAN, and enables an efficient LAN system to be constructed.

[0005]

In order to achieve the above object, a LAN interface selection processing method for a LAN terminal device according to the present invention comprises (1) a plurality of LAs each having a different protocol.
LA of the LAN terminal device having an N interface and selecting and using one of the plurality of LAN interfaces
In the N interface selection processing method, a plurality of LANs
Select the interfaces in sequence and select this LAN
LA based on the data received via the interface
It is characterized in that the LAN interface normally connected to the N cable is discriminated and the LAN interface normally connected is determined as the LAN interface to be used. Further, (2) the LA described in (1) above
In the LAN interface selection processing method of the N terminal device, the LAN normally connected to the LAN cable based on the characteristics of the LAN interface convention indicated by the data received via the sequentially selected LAN interfaces.
It is characterized by determining the interface. Also,
(3) In the LAN interface selection processing method for a LAN terminal device according to (1) or (2), the LAN cable is selected based on the presence / absence of data received via the sequentially selected LAN interface. The feature is that the LAN interface that is normally connected is determined. (4) In the LAN interface selection processing method for a LAN terminal device according to any one of (1) to (3), a counter for counting the number of received data is added to each of the plurality of LAN interfaces. It is characterized in that the LAN interface having the largest number counted by the counter of the data received via the sequentially selected LAN interface is determined as the LAN interface to be used.

[0006]

In the present invention, the LAN terminal device automatically selects one LAN interface to be used from a plurality of LAN interfaces of different conventions. For example, the LAN interface to be used is automatically determined by determining the LAN interface that is normally connected to the LAN cable by using the characteristics of each regulation of each LAN interface, such as link integrity and SQE test sequence. To choose. Alternatively, the received data is monitored, the LAN interface normally connected to the LAN cable is determined, and the LAN interface is selected. Alternatively, a counter for counting the number of received data is added to each LAN interface, and the LAN interface having the largest number of received data counted by this counter is selected. In this way, since the LAN interface to be used can be automatically selected, the user does not need to see the work procedure manual, the knowledge of the electric circuit is not necessary, and the jumper setting is not necessary. It is unnecessary to remove the LAN interface card, and the workload associated with selecting the LAN interface is eliminated.

[0007]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 shows L of a LAN terminal device according to the present invention.
FIG. 2 is a flowchart showing a first embodiment of an AN interface selection processing method, and FIG.
It is a block diagram showing an example of the composition concerning the present invention of N terminal unit. In FIG. 2, reference numeral 1 is a LAN terminal device 1.
Central processing unit (CPU in the figure
2a to 2c are LAs having different rules.
N, 3 are memories for storing programs and data related to control of the central processing unit 1, and 4 are LANs 2a to 2c.
A LAN controller 5 for controlling connection with a selector for selecting signals waveform-shaped by three types of LAN interfaces 6a to 6c, 6a to 6c LAN interfaces for connecting the respective LANs 2a to 2c, 7
a to 7c are medium connection units (in the figure, which perform connection control of the transmission media (LAN cables) of the LANs 2a to 2c.
MAU: described as Media Access Unit), 8 is a T-type BNC used for connection with the LAN 2a
(Balanced Network Contro
ller) connector (described as T-BNC in the figure), 9
Is a distributor for extending and connecting a plurality of LAN terminal devices to the LAN 2c, that is, a hub. In the present embodiment, the rules for the LANs 2a to 2c are 10Base2, 10Base5, 10BaseT, respectively.
And With such a configuration, the LAN terminal device 10
Are LAN interfaces 6a ...
From 6c, the LAN interface to be used is automatically selected. The operation will be described below with reference to FIG.

A characteristic of the operation in the first embodiment shown in FIG. 1 is that the LAN interface protocol, for example, US IEEE.
E802.3 (The Institute of E
electrical and Electronics
Engineers, Inc. ) Is to utilize the characteristics of. First, L of 10BaseT convention in FIG.
Select the AN interface 6c (step 10)
1). If a link signal is received via this LAN interface (step 102), this 10BaseT
It is decided to use the standard LAN interface (step 103). If the link signal is not received through the LAN interface of 10BaseT protocol, next, in FIG.
LAN interface 6 of 10Base5 protocol in
b is selected (step 104), and a packet addressed to the own LAN terminal device is transmitted (step 105). 10Base
When the SQE signal is received through the LAN interface of 5 protocol (step 106), the use of the LAN interface of 10Base5 protocol is determined (step 1).
07). Even if the function of the SQE test sequence is off and the SQE signal is not received, if it can be confirmed that the data has been received (step 108), normally,
As being connected to the transceiver 7b in FIG.
It is decided to use the LAN interface of 10Base5 standard (step 107). 10Base5 LA
When neither the SQE signal nor the data is received via the N interface (steps 106 and 108), the use of the LAN interface 6a based on the 10Base2 protocol in FIG. 2 is determined (step 109).

In this way, the LAN terminal device 1 of FIG.
0 monitors the link integrity sequence in the case of 10BaseT as in the LAN 2c of FIG. 2 and judges that it is normally connected to the Hub 9 of FIG. 2 when a signal is input. In the case of 10Base5, the SQE test (heartbeat) sequence is monitored, data is transmitted, and if a signal of the SQE test sequence is input, it is assumed that the transceiver is normally connected.

The normally connected LAN can be discriminated and selected using a protocol other than the LAN protocol. In the following, attention will be paid to N-to-N communication, which is one of the features of the LAN, and A method of detecting data addressed to the outside of the station and selecting the LAN interface through which the data is flowing will be described. FIG. 3 shows a second example of the LAN interface selection processing method of the present invention of the LAN terminal device in FIG.
3 is a flowchart showing an example of the above. First, the LAN interface 6c of the 10BaseT protocol in FIG. 2 is selected (step 301). If data is received via this LAN interface (step 302),
It is decided to use the LAN interface of the 10BaseT standard (step 303). If data is not received via the LAN interface of 10BaseT protocol (step 302), then 10Base in FIG.
The LAN interface 6b of the e5 standard is selected (step 304). If data is received via the LAN interface of the 10Base5 protocol (step 30)
5) It is decided to use the LAN interface of the 10Base5 standard (step 306). 10Base5
If there is no data received via the LAN interface of the regulation (step 305), 10Ba in FIG.
The use of the LAN interface 6a based on the se2 protocol is decided (step 307). In this way, the normally connected LAN interface is determined and selected based on the presence or absence of received data.

Further, as shown in FIG. 4, the LAN interface can be selected based on the received data in addition to the first and second embodiments described above.
FIG. 4 shows the LAN of the present invention of the LAN terminal device in FIG.
It is a flow chart which shows the 3rd example concerning the interface selection processing method. A feature of the third embodiment is that the LAN interfaces 6a to 6c of the circuit configuration of FIG. 2 are provided with counters for detecting received data, and the central processing male device 1 of FIG. 2 reads the count value. The LAN interface through which data is flowing is selected. First, the LAN interface 6c of the 10BaseT protocol in FIG. 2 is selected, and the count value of the number of data received via this LAN interface is read (step 401). Next, 10Base in FIG.
Select the LAN interface 6b of 5 rules and select this L
The count value of the number of data received via the AN interface is read (step 402). Further, the LAN interface 6a based on the 10Base2 protocol in FIG. 2 is selected, and the count value of the number of data received via this LAN interface is read (step 403).
Then, of the three types of LAN interfaces read in this way, the one with the largest count value of received data is selected and used (step 404).

As described above with reference to FIGS. 1 to 4, in the LAN interface selection processing method of the LAN terminal device of the present embodiment, one LAN interface to be used is selected from a plurality of LAN interfaces of different conventions. Is automatically selected. As a result, the operator
When selecting the AN interface, neither work procedure nor knowledge of electric circuits is required, and L for jumper setting is set.
There is no need to remove the AN interface card,
It is possible to eliminate the work load associated with the selection of the LAN interface. The present invention is not limited to the embodiment described with reference to FIGS.
A configuration using a LAN interface of a protocol other than case 2, 10Base 5, 10BaseT is also applicable.

[0013]

According to the present invention, it is possible to automatically select one from a plurality of LAN interfaces of different conventions provided, eliminate the workload associated with the operator's selection of LAN interface, and perform electrical operation. Even an operator who does not have knowledge of circuits can perform data transmission via a plurality of LANs having different rules, and an efficient LAN system can be constructed.

[0014]

[Brief description of drawings]

FIG. 1 is a flowchart showing a first embodiment of a LAN interface selection processing method of a LAN terminal device according to the present invention.

FIG. 2 is a block diagram showing an embodiment of a configuration relating to the present invention of a LAN terminal device used for implementing the LAN interface selection processing method of the present invention.

3 is a LAN of the present invention of the LAN terminal device in FIG.
It is a flowchart which shows the 2nd Example regarding the interface selection processing method.

4 is a LAN of the present invention of the LAN terminal device in FIG.
It is a flow chart which shows the 3rd example concerning the interface selection processing method.

[Explanation of symbols]

 1 Central Processing Unit 2a to 2c LAN 3 Memory 4 LAN Controller 5 Selector 6a to 6c LAN Interface 7a to 7c Medium Connection Unit 8 T-type BNC Connector 9 Hub

Continuation of the front page (51) Int.Cl. ⁵ Identification number Office reference number FI technical display location 8020-5K H04L 13/00 309B

Claims (4)

[Claims] 1. A LAN interface selection processing method for a LAN terminal device, comprising: a plurality of LAN interfaces each having a different protocol, wherein one of the plurality of LAN interfaces is selected and used. The LAN interface normally connected to the LAN cable is determined based on the data received via the selected LAN interface, and the LAN interface normally connected is
A LAN interface selection processing method for a LAN terminal device, characterized in that the LAN interface to be used is determined. 2. The LA of the LAN terminal device according to claim 1.
In the N interface selection processing method, based on the characteristics of the LAN interface protocol indicated by the data received via the LAN interfaces selected in sequence, the LA
LAN of a LAN terminal device characterized by determining a LAN interface that is normally connected to an N cable
Interface selection processing method. 3. The LAN interface selection processing method for a LAN terminal device according to claim 1 or 2, wherein the LAN is selected based on the presence / absence of data received via the LAN interfaces selected in sequence.
A LAN interface selection processing method for a LAN terminal device, which comprises determining a LAN interface that is normally connected to a cable. 4. The LAN interface selection processing method for a LAN terminal device according to claim 1, wherein a counter for counting the number of received data is added to each of the plurality of LAN interfaces. ,
The LAN with the largest number counted by the counter of the data received via the LAN interface selected in sequence
A LAN interface selection processing method for a LAN terminal device, characterized in that the interface is determined as a LAN interface to be used.