KR19990061879A - How to change the connection link between private exchange units - Google Patents

Abstract

The present invention relates to a private switching network configured by connecting a plurality of private exchanges, and in particular, in the event of a failure in the link connected between the main switching unit and the remote switching unit, the switch is quickly switched to a normal link to improve the reliability of the link between the switching units. The present invention relates to a connection link switching method between private exchange units.

In the conventional private switching system, since the redundancy of the message link is not implemented between the main switching unit and the remote switching unit, since the system information is transmitted and received by 16 timeslots of four links between the switching units, the first link is used. If a failure occurs in the remote exchange unit can not be controlled by the main exchange unit there is a problem that performs only a single function that can not be set to talk to the other exchange unit.

The present invention improves the reliability of the link between the exchange units because when the link is connected between the main exchange unit and the remote exchange unit in the event of a failure occurs by quickly switching to the normal link to ensure a stable message transmission path between the exchange units.

Description

How to change the connection link between private exchange units

The present invention relates to a private switching network configured by connecting a plurality of private exchanges, and in particular, in the event of a failure in the link connected between the main switching unit and the remote switching unit, the switch is quickly switched to a normal link to improve the reliability of the link between the switching units. It relates to a connection link switching method between private exchange units.

In general, when a private switching network is formed by connecting a plurality of switching units, a link for interconnecting each switching unit must be normal to communicate smoothly.

Conventionally, in the case of connecting a plurality of exchange units, as shown in Fig. 1, the main exchange unit 10 and the remote exchange unit 20 are connected to each other through a plurality of links to configure a switching network, and each channel has 30 channels. It is assigned to this switching timeslot. The main exchange unit (10) is a switch for switching between the main unit (MPM) responsible for call generation, information analysis and message issuance, the clock generator (CLK) responsible for the clock of the system, and switching unit from the subscriber state detection (GSM), the exchange unit interface (EUIU) for transmitting messages generated by the main processor (MPU) to each exchange unit at 64 Kbps and receiving messages from the remote exchange unit, the main exchange unit and the remote exchange unit; And a main exchange unit interface (MEUI) of an E1-class CCS mode system that provides a switching time slot of the apparatus. In addition, the remote exchange unit 20 is responsible for switching between the main exchange unit 10 and the remote exchange unit interface (REUI) of the E1 class CCS mode providing a switching time slot with the main exchange unit 10. And a local main processor (MPM) for performing call processing in accordance with the situation generated in the main exchange unit (10). On the other hand, the transmission line connected between the main exchange unit 10 and the remote exchange unit 20 is connected via multiplexers 30a and 30b.

The exchange unit interface (EUIU) mounted on the main exchange unit 10 can connect four sub-exchange units and allocate 256 timeslots to each exchange unit to set up a call between each sub-exchange unit. Operate. 256 timeslots means 8 highways, where a message transmission between the main exchange unit 10 and a sub-switch unit secures a transmission rate of 64 Kbps for each exchange unit using 16 timeslots of the first highway. .

When the sub-exchange unit is installed and operated over a long distance, transmission equipment such as multiplexers 30a and 30b should be used to secure several kilometers of transmission paths, and the existing highways are converted into E1 signals to be carried on the transmission paths. Circuit boards of the main exchange unit interface and the remote exchange unit interface function can be mounted on the remote exchange unit interface shelf and the remote exchange unit, respectively, and connected to the transmission equipment.

The main exchange unit interface (MEUI) receives four highways (128 timeslots) from the exchange unit interface (EUIU) and converts them into four E1 signals, which operate with the main exchange unit 10 and the remote exchange unit 20. E1 must be in CCS mode to send and receive operating messages. The remote switching unit interface (REUI) extracts 8Khz from four links and supplies the clock of the remote switching unit in synchronization with the system in the clock generator (CLK).

In the conventional private exchange system as described above, since the redundancy of the message link is not implemented between the main exchange unit 10 and the remote exchange unit 20, four links between the exchange units are assigned to 16 timeslots of the first link. Since system information is transmitted and received by the first link, when the first link fails, the remote exchange unit 20 cannot be controlled by the main exchange unit 10, so that only a single function that cannot be established by a call with another exchange unit can be performed. There is a problem.

The present invention has been made to solve the above-described problems, and when the link is connected between the main exchange unit and the remote exchange unit in the event of a failure to quickly switch to the normal link to improve the reliability of the link between the exchange unit An object of the present invention is to provide a method of switching a connection link between private exchange units.

A feature of the present invention for achieving the above object is, in the connection link switching method between the private exchange unit, the first link to report the failure of the link if a failure occurs in the link between the first exchange unit and the second exchange unit; Process; A second step of the first switching unit issuing a message requesting a link status message to the second switching unit by using a timeslot of a predetermined link; A third step of determining whether link switching is possible by analyzing a link status message received by the first switching unit from the second switching unit; If it is determined that link switching is possible, the first switching unit issues a message informing the second switching unit of the link switching. A fourth step of sending, by the second switching unit, a response message to perform link switching to the first switching unit; And a fifth step of updating the link state information by monitoring the link state after the first exchange unit performs link switching to the second exchange unit.

1 is a diagram showing a connection relationship between a main switching unit and a remote switching unit in a conventional private switching network.

2 is a block diagram of a main exchange unit interface and a remote exchange unit interface for link switching according to the present invention.

3 is a flowchart illustrating a link switching process in the present invention.

4 is a flowchart illustrating a link restoration process in the present invention.

Explanation of symbols on the main parts of the drawings

10: main exchange unit 20: remote exchange unit

MEUI: main exchange unit interface

REUI: Remote Switching Unit Interface

41: highway interface 42: E1 link circuit

43: link converter 44: link status checker

Looking at the configuration of the present invention, as shown in Figure 2, the main exchange unit interface (MEUI) and the remote exchange unit interface (REUI), the highway interface 41, the E1 link circuit 42, the link converter 43 and A link state checker 44 is provided, where the highway interface 41 matches the system highway, the E1 link circuit 42 converts the highway signal into an E1 signal, and the link state checker 44 shows E1. The link circuit 42 is initialized and the link state is checked, and the link converter 43 is responsible for switching over four links.

In the configuration of Fig. 2, four highways, 128 timeslots, are allocated for system operating messages and switching timeslots between the main exchange unit and the remote exchange unit, and 30 channels × 4 = 120 timeslots over four E1 links. Allocate At this time, the message exchange between the main exchange unit and the remote exchange unit is possible only by 16 timeslots of link 0, and the message transfer of the remaining three links is performed by the link between the main exchange unit interface (MEUI) and the remote exchange unit interface (REUI). Can be used to send and receive status-related messages.

An operation when link switching is performed will be described with reference to the flowchart of FIG. 3 as follows.

First, when a link failure occurs on the link, the E1 link circuit 42 reports the link failure checker 44 to the link status checker 44. At this time, the main switching unit interface MEUI sends a link 0 failure message to the main switching unit ( It reports to the main processor MPM of 10) (step S1). Since the main exchange unit 10 has a failure in the message link with the remote exchange unit 20, the main exchange unit 10 cannot perform a call service with another exchange unit and maintains a failure state until the link is restored. To recover, the main exchange unit interface (MEUI) issues a message requesting the link exchange message of the remote exchange unit to the remote exchange unit interface (REUI) of the remote exchange unit 20 using the 16 timeslots of link 1. (Step S2). If link 1 cannot be used at that time, a message requesting a link status message is issued to the remote switching unit 20 side similarly by using the next link. Thus, the link status message received from the remote switching unit interface REUI is analyzed to determine whether link switching is possible (step S3). At this time, if it is determined that link switching is possible, a message for notifying link switching is issued to the remote switching unit interface (REUI), and the remote switching unit interface (REUI) issues a response message indicating that link switching is to be performed. It transfers to the exchange unit 10 side (step S4). Accordingly, the main exchange unit interface (MEUI) performs link switching through the link converter 43 (step S5), and when link switching between the main exchange unit interface (MEUI) and the remote exchange unit interface (REUI) is successfully performed. The recovery of the link 0 will be detected by the E1 link circuit 42 and the link state checker 44 performs the operation as shown in the flowchart of FIG. 4 so that the main processor MPM of the main switching unit 10 is the remote switching unit. Recognizing the link recovery of (20) to perform the call setup service of the remote switching unit 20 and the other switching unit. Thereafter, the main exchange unit interface (MEUI) updates the final link state (step S6) to report the actual failed link through the relationship between the physical link and the logical link to ensure reliability of maintenance.

On the other hand, when the operation of FIG. 3 occurs first in the remote switching unit interface REUI, and a link 0 failure is detected in the main switching unit interface MEUI and both transmission and reception of the link 0 occur, the main switching unit interface ( MEUI) adjusts the performance of FIG. 3, and if the link failure is not detected in the main exchange unit interface (MEUI), the operation of FIG. The interface (REUI) does it.

That is, the present invention processes the link state checker 44 and the link converter 43 in the main exchange unit interface and the remote exchange unit interface for managing the E1 link of the main exchange unit 10 and the remote exchange unit 20. Therefore, the link that can be used in the event of a main link failure is quickly switched to the main link, so that the message transmission line between the main switching unit and the remote switching unit can be secured, thereby improving the reliability of the system.

As described above, in the present invention, when a link between the main exchange unit and the remote exchange unit fails, the present invention quickly switches to a normal link to stably secure a message transmission path between the exchange units, thereby improving reliability of the link between the exchange units. Will be improved.

Claims (1)

In the connection link switching method between private exchange units, A first step of reporting a failure of the link when a failure occurs in the link between the first exchange unit and the second exchange unit; A second step of the first switching unit issuing a message requesting a link status message to the second switching unit by using a timeslot of a predetermined link; A third step of determining whether link switching is possible by analyzing a link status message received by the first switching unit from the second switching unit; If it is determined that link switching is possible, the first switching unit issues a message informing the second switching unit of the link switching. A fourth step of sending, by the second switching unit, a response message to perform link switching to the first switching unit; And a fifth process of updating the link state information by monitoring the link state after the first exchange unit performs link change for the second exchange unit.