JPS6313450A - Loop connection device - Google Patents

Abstract

PURPOSE:To use a token ring and to secure the reliability of a loop-shaped local area network LAN equivalent to a doubling loop by changing over a transmission line so that a transmission line changing-over circuit can be looped back to the token ring at the time of the occurrence of the defect of the transmission line. CONSTITUTION:In a loop-shaped LAN connecting device where a transmission line is doubled, respective of transmission lines, which is equipped with a transmission line changing-over circuit 9 and doubled, are used as a token ring and a time division multiplexing loop, and at the time of the occurrence of the defect of the transmission line, the transmission line is changed over so as to loop back to the token ring. Thus, bothe services of the token ring and the time division multiplexing loop can be supplied, and at the time of the occurrence of the defect of the transmission line, the token ring is used and the loop-shaped LAN reliabtlity equivalent to the doubling loop can be secured.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a loop connection device for a loop local area network (hereinafter referred to as "loop LANJ") that connects a host computer and a plurality of terminal devices in a loop. Regarding.

〔overview〕

The present invention provides a loop connection device for a loop LAN with duplexed transmission lines, which is equipped with a transmission line switching circuit, uses each of the duplexed transmission lines as a token ring or a time division multiplexing loop, and connects the transmission lines. By switching the transmission line to loop back to the Token Ring when a failure occurs, it is possible to provide both Token Ring and time division multiplexing loop services. By making use of the token ring, it is possible to ensure the reliability of a looped LAN equivalent to a duplex loop.

[Conventional technology]

The loop-shaped LAN includes a token ring using token passing access and a time division multiplexing loop (hereinafter referred to as rTDMA loop) that multiplexes communication lines.
There is. Token Ring is suitable for transmitting large amounts of data in a short period of time, but the time it takes to secure transmission rights is not always constant, making it unsuitable for transmitting real-time information. Therefore, Token Ring is used for computer-to-computer communications such as file transfers. On the other hand, T
In the DMA loop, the channels to be used are reserved in advance, and can be used at any time (but within the allocated time interval).
Since data can be sent to the network, it is possible to transmit real-time information like a telephone system.

On the other hand, in a loop LAN, the transmission path is duplicated to improve reliability, and when the transmission path is disconnected, the loop connection device connected to the transmission path reconfigures the loop by loop hacking. There is.

[Problem that the invention seeks to solve]

In recent loop-like LANs, a method has been proposed in which multiple channels of a TDMA loop are allocated for token ring use in order to realize file transfer and telephone services in the same loop.

However, in such a system, the transmission line capacity is divided into two systems, and there is a problem in that the transmission performance of Token Ring is limited depending on the usage status of telephone services.

The present invention solves these conventional problems,
A loop connection device is provided that can use each of the duplicated transmission lines as a token ring or TDMA loop, and that can switch the transmission line to loopback against the token ring when a failure occurs in the transmission line. The purpose is to provide.

Means for Solving Problem C] The present invention provides a loop-shaped local area network having an O-system transmission line and a 1-system transmission line whose signal propagation directions are different from each other. Connected receiving and transmitting circuits and token
Token passing system with ring-based transmission control?
1) Transmission line switching that connects one circuit, a channel multiplexing control circuit that performs transmission control using a time division multiplexing loop, the above transmitting circuit and receiving circuit, and the above token passing control circuit and channel multiplexing control circuit. It is characterized by being equipped with a circuit.

Normally, the transmission line switching circuit connects a token passing control circuit to the receiving circuit and transmitting circuit of the O system transmission line, connects a channel multiplexing control circuit to the receiving circuit and transmitting circuit of the 1 system transmission line, and connects the token passing control circuit to the receiving circuit and transmitting circuit of the 1 system transmission line. When a failure occurs in the token passing control circuit, the receiving circuit of the 0 system transmission line and the 1
It is preferable to include means for connecting the transmitting circuit of the system transmission path, or the receiving circuit of the 1-system transmission path and the transmitting circuit of the O-system transmission path.

[For production]

In the present invention, normally, a transmission line switching circuit connects each duplex transmission line to a token passing control circuit or a channel multiplexing control circuit. Therefore, each transmission path can be used as a Token Ring or TDMA loop, and can provide both Token Ring and TDMA loop services.

Further, when a failure occurs in the transmission line, the transmission line switching circuit switches the transmission line so as to loop back to the token ring, thereby making it possible to utilize the token ring. Therefore, the reliability of the loop-shaped LAN corresponding to a duplex loop can be ensured.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention. The loop connection device of the present invention has two pairs of input/output ports P1 to P4 corresponding to a 0-system transmission line and an I-system transmission line.

In FIG. 1, port P1 has an O-system transmission line receiving circuit 5, port P2 has an O-system transmission line transmitting circuit 6, and port P
The receiving circuit 7 of the 1-system transmission line is connected to the port P4, and the transmitting circuit 8 of the 1-system transmission line is connected to the port P4. Each receiving circuit 5
．． 7 and the transmission circuit 6.8, a token passing control circuit 10 and a channel multiplexing control circuit 1) are connected via a transmission path switching circuit 9.

FIG. 2 is a diagram showing an example of a loop-shaped LAN connection. In FIG. 2, each loop connection device #1, #2, #3 is
0 system transmission line 101.102.103 and 1 system transmission line 1
)1.1)2.1)3.

In other words, the clockwise 0-system transmission line 101.102.103
are loop connecting devices #1 and #2, #2 and #3, #3 and #
Ports P2 and P1 are connected to each other. The counterclockwise 1-system transmission line 1) 1.1) 2.1) 3 connects port P4 and port P3 of loop connection devices #1 and #3, #3 and #2, and #2 and #l, respectively. do.

In a loop LAN using the loop connection device of the present invention,
To improve reliability, duplex transmission lines are used for the token ring and TDMA loops, respectively. Therefore, when looping back when a transmission line failure occurs,
Both Token Ring and TDMA loops become unusable.

A feature of the present invention is that when a duplex transmission line is used for the token ring and the TDMA loop, a transmission line switching circuit is provided so that when a failure occurs in the transmission line, the token ring is utilized by loopback. It is in a configuration that performs switching.

FIG. 3 is a diagram showing an example of the connection of the loop connection device of the present invention during normal operation.

That is, the token passing control circuit 10 is connected to the 0-system transmission line (ports P1, P2), and the channel multiplexing control circuit 1) is connected to the 1-system transmission line (ports P3, P4).

Therefore, in such a connection, the 0-system transmission line 101.
102 and 103 constitute the token ring, and the 1-system transmission line 1) 1.1) 2.1) 3 is the T in the opposite direction to the O-system transmission line.
Configure a DMA loop.

FIGS. 4 and 5 are diagrams illustrating the states of opposing loop connection devices when a failure occurs in the transmission path.

For example, when the transmission line 102.1)2 is disconnected, the transmission line switching circuit 9 of the loop connection device #2 switches the token passing control circuit 10 to a port as shown in FIG.
- PL and baud) connect to P4.

Further, the transmission line switching circuit 9 of the loop connecting device #3 connects the token passing control circuit 10 to the port P2 and the port P3, as shown in FIG.

In this way, in the loopback state, the TDMA loop function stops, but the Token Ring function, which is used for inter-computer communication and other purposes and is relatively important, can be utilized.

〔Effect of the invention〕

As explained above, the present invention is capable of providing both Token Ring and TDMA loop services using a normal duplex loop transmission line, and is also capable of providing Token Ring services, which are highly important when a failure occurs in the transmission line. By taking advantage of this, the reliability of the redundant loop can be ensured.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention. FIG. 2 is a diagram showing an example of a loop-shaped LAN connection. FIG. 3 is a diagram showing an example of the connection of the loop connection device of the present invention during normal operation. FIG. 4 and FIG. 5 are diagrams for explaining the states of opposing loop connection devices when a failure occurs in a transmission path. #1, #2, #3...Loop connection device, PI, P2,
P3, P4... Boat, 5.7... Receiving circuit, 6.
8... Transmission circuit, 9... Transmission line switching circuit, 1o...
- Token passing control circuit, 1)...Channel multiplexing control circuit.

Claims (2)

[Claims] (1) 0-system transmission lines and 1 with different signal propagation directions
In a loop-shaped local area network having a system transmission line, a receiving circuit and a transmitting circuit connected to the 0 system transmission line and 1 system transmission line, respectively, a token passing control circuit that performs transmission control using token ring, and A channel multiplexing control circuit that performs transmission control using a division multiplexing loop, and a transmission line switching circuit that connects the transmitting circuit and receiving circuit, and the token passing control circuit and channel multiplexing control circuit. Features a loop connection device. (2) Normally, the transmission line switching circuit connects a token passing control circuit to the receiving circuit and transmitting circuit of the 0-system transmission line, and connects a channel multiplexing control circuit to the receiving circuit and transmitting circuit of the 1-system transmission line. , when a failure occurs in the transmission line, connect the receiving circuit of the 0-system transmission line and the transmitting circuit of the 1-system transmission line to the token passing control circuit, or connect the receiving circuit of the 1-system transmission line and the transmitting circuit of the 0-system transmission line to the token passing control circuit. A loop connection device according to claim 1, comprising means for connecting.