KR20010001916U - Apparatus for multiple switch in double DS-3 system - Google Patents

Abstract

The present invention is to provide a multi-switching device of a redundant DS-3 system, the present invention is a distribution unit for distributing the input DS3 signal, and the main to perform the line interface function by receiving the DS3 signal distributed from the distribution unit DS3IU, a preliminary DS3IU that receives the DS3 signal to the main DS3IU, performs a line interface function, and selects and processes signals from the corresponding main unit when a failure occurs in a plurality of main units, and a DS3 distributed from the distribution unit. Receive switch unit that receives the signal and the DS3 signal group coming from the 2nd to Nth unit, selects the signal corresponding to the transfered main unit in case of main unit failure, performs N: 1 switching, and transmits it to the spare DS3IU. When the signal processed by the DS3IU and the spare DS3IU is input, and the main unit fails, N is composed of a transmission switch for outputting a second signal path, the one that: it is possible to expand the capacity defined by the unit to support the first transfer: N, without changing the structure of the unit 1.

Description

{Apparatus for multiple switch in double DS-3 system}

The present invention relates to a redundant DS-3 system. In particular, in a transmission device such as a redundant DS-3 system, a spare unit is operated in an interface unit that processes a real signal to increase service reliability. As the spare unit for R & D increases relatively, the price increase factor occurs, so the reliability of service is increased by 1: 1 switching when there is room, and the unit limited to N: 1 switching when there is no room. The present invention relates to a multiple switching device of a redundant DS-3 system, which is suitable for capacity expansion.

In general, DS-n (Digital Signal-level n) is a speed interface based on the existing Digital Hierarchy in North America, and the DS-3 system is used for the transmission device.

1 is a block diagram of a conventional redundant DS-3 system.

Where D3ING1 is the signal coming into the DS3 interface, D3OUTG1 is the signal going out the line from the DS3 interface, the main DS-3 Interface Unit (1) is the active unit, and the spare DS3IU (2) is the main DS3IU (1). ), The main DS3IU (1) is shorted and operated when a fault occurs. The DS3IU (1) (2) is composed of a pad PAD, a relay element, a transformer, and a DS-3 LIU (Line Interface Unit).

Therefore, before the D3ING1 signal input to the device is processed by the DS-3 LIU, which is an interface unit, the signal is bridged into two, and the same operation is performed with the main DS3IU (1) and the spare DS3IU (2), which are currently in operation. send. When the main DS3IU (1) currently in operation operates normally, the relay element is short-circuited and only the normal unit processes the input signal.

If a failure occurs in the main DS3IU (1) currently in operation, short the main DS3IU (1) side through the relay element and connect the signal path to the spare DS3IU (2), which is a spare unit, to process the signal in the spare unit. .

When such a conventional device is applied to a system, when there are enough units that can be used normally, each time the capacity is increased, the same number of spare units as the main DS3IU (1), which is currently used, may be mounted. Then, when a specific unit fails, you can operate the equipment without killing the service by switching over to a spare unit for that particular unit.

However, if a unit is limited or there is not enough spare unit available, when a specific unit fails, there may not be a spare unit for that unit. If so, there was a problem in that the service performed by a particular unit was forced to be killed.

Accordingly, the present invention is proposed to solve the above-mentioned conventional problems, and an object of the present invention is to provide a spare unit in an interface unit that processes a real signal in order to increase service reliability in a transmission device such as a redundant DS-3 system. In this case, as the capacity increases, the spare unit for the interface will increase relatively and the price increase factors will occur. In the absence of this, a multiple switchover of a redundant DS-3 system is provided that allows for capacity expansion by a unit limited to N: 1 switching.

1 is a block diagram of a conventional redundant DS-3 system,

2 is a block diagram of a multiple switching device of a redundant DS-3 system according to the present invention.

Explanation of symbols on the main parts of the drawings

10: distribution unit 20: main DS3IU

30: preliminary DS3IU 21, 31: transfer diagnosis part

22, 32: pad 23, 24, 33, 34: relay element

40: receiving switch part 50: transmitting switch part

In order to achieve the above object, the multiple switching device of the redundant DS-3 system according to the present invention,

A distribution unit for distributing an input DS3 signal; A main DS3 interface unit receiving a DS3 signal distributed by the distribution unit to perform a line interface function; When a failure occurs, the main DS3 interface receives a DS3 signal to perform a line interface function, and when a failure occurs in a plurality of main units, receives and processes a signal of the corresponding main unit, and a corresponding main unit in which a failure occurs in a plurality of main units. A preliminary DS3 interface unit for selecting and processing a signal of an input; N: 1 switching is performed by selecting a signal corresponding to the main unit switched in the event of a failure of the main unit by receiving the DS3 signal distributed from the distribution unit and the DS3 signal group coming from the 2nd to Nth unit. A reception switch unit for transmitting to the interface unit; And a transmission switch unit for receiving the signals processed by the main DS3 interface unit and the preliminary DS3 interface unit and outputting them to the Nth signal path corresponding to the signal processed by the preliminary DS3 interface unit when the main unit fails. It is characterized by the configuration.

Hereinafter, an embodiment according to the technical idea of the multiple switching device of the present invention redundant DS-3 system as follows.

2 is a block diagram of a multiple switching device of a redundant DS-3 system according to the present invention.

As shown therein, a distribution unit 10 for distributing an input DS3 signal; A main DS3 interface unit (main DS3IU) 20 which receives a DS3 signal distributed by the distribution unit 10 and performs a line interface function; A preliminary DS3 interface unit (spare DS3IU) that performs a line interface function by receiving a DS3 signal when a failure occurs in the main DS3IU 20, and selects and processes a signal of a corresponding main unit in which a failure occurs in a plurality of main units. 30; N: 1 switchover is performed by receiving the DS3 signal distributed from the distribution unit 10 and the DS3 signal group coming from the second to the Nth unit, and selecting the signal corresponding to the main unit switched in the event of a failure of the main unit. A reception switch unit 40 for transmitting to the preliminary DS3IU 30; A transmission switch unit receiving the signals processed by the main DS3IU 20 and the preliminary DS3IU 30 and outputting them to an Nth signal path corresponding to the signal processed by the preliminary DS3IU 30 when the main unit fails; 50).

In the above, the main DS3IU 20 and the preliminary DS3IU 30 are provided with pads 22, 32, and relay elements 23, 24, 33, 34, respectively, to perform diagnosis of the unit itself at the time of transfer. It is configured to include a transfer diagnosis portion (21) (31).

The operation of the multiple switching device of the redundant DS-3 system according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, in FIG. 2, D3ING1 is a DS3 signal group coming into the first unit, D3OUTG1 is a DS3 signal group leaving the first unit, D3SPLING1M is a signal coming out of the first distribution unit 10 group and entering the main unit 20, D3SPLING1P is a signal coming out of the first distribution unit 10 group and entering the receiving switch unit 40. D3SPLING [2: N] P is the DS3 signal group coming from the 2nd to Nth unit, D3OUTG1 is the signal exiting from the first unit, and D3OUTG [2: N] P is the signal exiting from the second unit.

So, when the input signal D3ING1 comes in, bridges the pattern and sends it to the distribution unit 10. The distribution unit 10 divides the analog signal of the input D3ING1 into two paths, and then the D3SPLING1M sends the main DS3IU 20 to the D3SPLING1P. Is sent to the receiving switch unit 40. The signal bridged on the pattern is then sent to the spare DS3IU 30.

Accordingly, when there is a normal spare unit for a particular main unit, it has a 1: 1 switching structure for that unit. That is, without using the receiving switch unit 40 and the transmitting switch unit 50 to operate in a paired structure of the main unit DS3IU (20) and the preliminary DS3IU (30) as a spare unit, respectively. To do the same.

Therefore, when the main DS3IU 20 currently operating normally operates a short circuit to the relay element and processes the input signal by the DS3IU 20 which is a normal unit. If a failure occurs in the main DS3IU (20) currently in operation, short the main DS3IU (20) side through the relay element and connect the signal path to the spare DS3IU (20), which is a spare unit, to process the signal in the spare unit. . The processed signal is output to D3OUTG1.

On the other hand, when a normal spare unit cannot be secured, a specific spare unit is used as an N: 1 protective switching unit, and when the operating unit does not operate normally, the transfer is transferred to an N: 1 protective switching unit.

That is, the input signal enters the receiving switch unit 40 through the distribution unit 10, and the N: 1 switching unit is connected to the receiving switch unit 40. Thus, if the main unit does not operate normally, the signal entering the main unit through the distribution unit 10 is cut off by the receiving relay element 23 of the switching diagnosis unit 21. Here, the alternating diagnosis parts 21 and 31 of the main DS3IU 20 and the preliminary DS3IU 30 self-diagnose whether the system is operated by 1: 1 or N: 1 and relay elements 23, 24, 33 (33). (34) is to be made. The receiving switch unit 40 receives the signals of D3SPLING1P and D3SPLING [2-N] P of the distribution unit 10, selects a signal corresponding to the main unit to be switched, and transmits the signal to the preliminary DS3IU 30.

Then, the preliminary DS3IU 30 transmits to the transmission switch unit 50 by performing a line interface with respect to the signal of the main unit in which the failure occurs among the plurality of main units. Transmitting switch unit 50 disconnects the signal of the main unit that has failed from among the outputable D3OUTG1 and D3OUTG [2-N] P signals and outputs the signal from the preliminary DS3IU 30 to the corresponding Nth signal path in which the main unit has failed. do.

As such, the present invention improves the reliability of the service by switching 1: 1 when there is room in the redundant interface unit, and expands the capacity by the unit limited to N: 1 when there is no room in the redundant interface unit. will be.

While 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. Therefore, the above description does not limit the scope of the present invention defined by the limits of the following utility model registration claims.

As described above, in the multiple switching device of the redundant DS-3 system according to the present invention, the conventional device supports only 1: 1 switching, so that the number of the main unit is required as the number of the main unit increases as the signal capacity increases. Supporting N: 1 switching without changing the structure of the system, the capacity can be increased even by a limited unit, thereby improving the reliability of the system.

Claims (2)

In the multiple transfer device of a redundant DS-3 system, A distribution unit for distributing an input DS3 signal; A main DS3 interface unit receiving a DS3 signal distributed by the distribution unit to perform a line interface function; A preliminary DS3 interface unit configured to receive a DS3 signal when a failure occurs in the main DS3 interface unit, perform a line interface function, and select and process a signal of a corresponding main unit in which a failure occurs in a plurality of main units; N: 1 switching is performed by receiving a DS3 signal distributed from the distribution unit and a DS3 signal group coming from the 2nd to Nth unit, selecting a signal corresponding to the main unit switched in the event of a failure of the main unit, and performing the preliminary DS3. A reception switch unit for transmitting to the interface unit; And a transmission switch unit receiving the signal processed by the main DS3 interface unit and the preliminary DS3 interface unit and outputting the signal processed by the preliminary DS3 interface unit to the Nth signal path corresponding to the signal processed by the preliminary DS3 interface unit. Multiple switching units in a redundant DS-3 system. 2. The multiplexing system of claim 1, wherein the main DS3 interface unit and the preliminary DS3 interface unit each include a transfer diagnosis unit configured to include a pad and a relay element to perform diagnosis of the unit itself when the transfer unit is performed. Switching device.