KR20020019643A - Apparatus for dualization of STM-1 link in electronic exchange system - Google Patents

Abstract

PURPOSE: Dual units of a synchronous transport module link in a full electronic telephone exchange system is provided to easily select a switch and prevent loss of data by full-cross dualizing a transport network and the links considering automatic protection switching. CONSTITUTION: A host STM-1 link(21) transports transmit data. A plurality of transport units(22A,22B,22C,22D) transport transmit data of the host STM-1link(21) through a transport network(23). A remote STM-1 link(24) receives data transported from the host STM-1 link(21) through the plurality of transport units(22A,22B,22C,22D). The dual transport units(22A,22B,22C,22D) receive a couple of working nodes from each link and select one working node for transporting data to the corresponding node.

Description

{Apparatus for dualization of STM-1 link in electronic exchange system}

The present invention relates to a synchronous transmission module link of an electronic switching system. In particular, when the STM-1 link, which is a synchronous transmission module in an electronic switching system, is connected to a remote STM-1 link via a transmission network, The present invention relates to a device for duplexing a synchronous transmission module link in an electronic switching system in which full-cross duplication of a transmission network and a link facilitates selection of a switch and prevents data loss.

The prior art for the STM-1 link of the electronic switching system will now be described.

First, Figure 1 is a connection diagram of the STM-1 link in the prior art electronic switch system, Figure 2a is a block diagram of a 1 + 1 unidirectional automatic protection applied to Figure 1, Figure 2b is applied to Figure 1 1 + 1 bidirectional auto-protection transfer block diagram, Figure 2c is a 1: 1 one-way auto-protection transfer block diagram applied to FIG.

As shown in FIG. 1, the conventional apparatus includes a host STM-1 link, a remote STM-1 link, and a transmission section for an STM-1 link to a transmission network.

The transmission section is a series of systems such as a transmission device connected to each STM-1 link, a node in the transmission network connected to the transmission device, and a transmission network that is responsible for a high-speed mass transmission of data.

Each STM-1 link is redundant. That is, the functional units marked A and B on the accompanying drawings are configured to perform the same function, which is a redundant structure of the STM-1 link.

More specifically, the STM-1 link via the transport network is remotely separated from the host. At this time, each STM-1 link is connected to the transmitter in the form of a point-to-point.

In this structure, the redundant operation uses 1 + 1 or 1: 1 Automatic Protection Switching which operates in working mode / protection mode.

2A shows a 1 + 1 unidirectional auto-protection switching structure, FIG. 2B shows a 1 + 1 bidirectional auto-protection switching structure, and FIG. 3 shows a 1: 1 unidirectional auto-protection switching structure.

Each STM-1 link transmits working / protection overhead (K1, K2, ...) by auto-protection switching protocol along with transmission data from each of A and B sides. .

Then, the transmission device receiving the overheads K1, K2, ... selects a working mode based on the automatic protection switching method and transmits the transmission data to the transmission network.

At this time, there is no path for direct communication between the host STM-1 link and the remote STM-1 link.

However, in the above-described prior art, a problem occurs when the node A and the STM-1 link B of the transmitting device cross each other in an abnormal state because the connection between the host link and the remote link is connected to the transmission network in a point-to-point duplication manner. do.

In this case, all data transmitted is lost.

This loss of data degrades the reliability of the system and must be solved.

Accordingly, the present invention has been proposed to solve the above conventional problems, and an object of the present invention is that the STM-1 link, which is a synchronous transmission module in an electronic switching system, is connected to a remote STM-1 link via a transmission network. In this case, the redundancy device of the synchronous transmission module link in the electronic switching system that facilitates the selection of the switch and prevents the loss of data by full-duplex redundancy of the transmission network and the link in consideration of automatic protection switching. To provide.

In order to achieve the above object, in the all-electronic switching system according to the present invention, a duplication apparatus for a synchronous transmission module link includes: a host link for transmitting transmission data; A plurality of transmission devices for transmitting the transmission data of the host link through a transmission network; The technical configuration is characterized by consisting of a remote link for receiving the data transmitted by the host link through the plurality of transmission devices.

1 is a connection diagram of an STM-1 link in an all-electronic switching system according to the prior art,

FIG. 2A is a 1 + 1 unidirectional auto-protection switching block applied to FIG. 1;

FIG. 2B is a 1 + 1 bidirectional automatic protection switching block diagram applied to FIG. 1;

FIG. 2C is a 1: 1 unidirectional automatic protection switching block applied to FIG. 1.

3 is a block diagram of a duplexing device for synchronous transmission module link in an electronic switching system according to an embodiment of the present invention;

FIG. 4 is a detailed block diagram of the STM-1 link and the transmission apparatus of FIG.

Explanation of symbols on the main parts of the drawings

21: Host STM-1 Link 22A, 22B, 22C, 22D: Transmitter

23 transmission network 24 remote STM-1 link

Hereinafter, the configuration and operation of the present invention will be described in detail according to an embodiment according to the technical idea of the apparatus for duplexing a synchronous transmission module in the all-electronic switching system.

First, FIG. 3 is a block diagram of a duplexing device of a synchronous transmission module link in an all-electronic switching system according to an embodiment of the present invention, and FIG. 4 is a detailed block diagram of an STM-1 link and a transmission device of FIG.

As shown in Fig. 3, a suitable embodiment of the present invention includes: a host STM-1 link 21 for transmitting transmission data; A plurality of transmitters (22A) (22B) (22C) (22D) for transmitting the transmission data of said host STM-1 link (21) through a transmission network; The host link 21 is configured as a remote STM-1 link 24 through which the plurality of transmitters 22A, 22B, 22C, 22D receive data.

The operation of the device configured as described above is as follows.

The apparatus proposed by the present invention implements the redundancy of the complete crossover structure of the STM-1 link. Two transmitters are used for this purpose.

In other words, in the prior art, the STM-1 link was implemented in a point-to-point connection structure in the transmission section, but a device such as the present invention can reliably transmit a large amount of data to a communication service provider operating a national electronic switching system. To construct.

The present invention is composed of a transmission device and a transmission network which are components of a host STM-1 link, a remote STM-1 link, and a transmission section.

At this time, each STM-1 link is located in the electron exchanger, and is redundantly configured as A / B.

In addition, the transmission device receives the STM-1 link with redundancy and accesses the transmission network.

The transmission network connected to the transmission device and the node is a high speed network of STM-4 or higher, and consists of a router and a player.

Referring to Fig. 3, a specific operation will be described. First, each of the STM-1 links 21 and 24 and the transmitters 22A, 22B, 22C, and 22D are connected by 155.520 Mbps single mode fiber. At this time, unlike the prior art, the transmission device requires two systems for complete crossover redundancy.

Thus, the A side of the host STM-1 link 21 is connected to port 1 of the transmission device 1 (22A) and the transmission device 2 (22B) P1, B in the host STM-1 link 21 in the same scheme The side is connected to port 2 of transmitter 1 (22A) and port 2 (22B).

In the above, each STM-1 link 21, 24 performs an automatic protection switching with a transmission device and operates separately.

Routing by the transmission network is composed of transmission device 1 (22A) to transmission device 3 (22C) and transmission device 2 (22B) to transmission device 4 (22D), respectively.

In FIG. 4, the switching between the STM-1 link unit and the switch unit occupies the working channel according to the auto-protection switching information received from the STM-1 unit.

In the case of the transmitting side, the occupancy information is one of the two ports because the port 1 of the A 33 side and the port 1 of the B 34 side of the STM-1 link are received from the same transmitter. There is work information. This work information allows the occupation of the work channel.

In addition, in the case of the receiving side, since there is data received from the same transmission device in port 2 (P2) of the A 33 side and port 2 of the B (34) side of the STM-1 link, there is one job information. Done.

This is the same as the result of receiving two tasks at the switch stage, so the switch stage selects one of the two tasks.

As described above, the present invention provides two crossover devices when the STM-1 link is connected to enable full crossover redundancy, so that two work nodes are received at the STM-1 link, making it easy to select and between the STM-1 link and the transmitter. Even when a cross fault occurs, data can be transmitted without loss of data.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, in the electronic switching system according to the present invention, the duplexing apparatus of the synchronous transmission module link has an effect of making selection at the switch stage easier because there are two working nodes received at the STM-1 link terminal. .

In addition, even when a cross fault occurs between the STM-1 link and the transmitter, the transmitted data is not lost.

In addition, there is an advantage that data is not lost even when the host STM-1 link and the remote STM-1 link transition to an intersection abnormal state as a whole.

Claims (3)

A host link for transmitting transmission data; A plurality of transmission devices for transmitting the transmission data of the host link through a transmission network; And a remote link configured to receive data transmitted by the host link through the plurality of transmitters. The method of claim 1, And the host link and the remote link are completely crossed redundant to the plurality of transmission devices. According to claim 2, The redundant transmission device, An electronic switch comprising a switch stage for receiving two working nodes from each link through an auto-protection switching function and selecting one of the received two working nodes to transmit data to the corresponding node. Redundancy device for synchronous transmission module links in a system.