KR20010108870A - Apparatus for interface unit terminating in transmission system - Google Patents

Abstract

The present invention provides an interface unit switching device of a transmission system that does not use a relay when switching input signals and output signals between a main unit and a spare unit. The present invention includes: a main unit for interfacing an input signal; A preliminary unit for interfacing the input signal in the abnormal operation of the main unit; A distribution unit for distributing a signal input through a transmission line and outputting the signal to a main unit and a preliminary unit, wherein the main unit and the preliminary unit include: a plurality of transformers for converting an input signal; It is composed of a line interface unit for outputting the interface converted by the transformer unit, has the effect of reducing power consumption, efficiency of the space operation and adaptability in the unit.

Description

Apparatus for interface unit terminating in transmission system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interface unit of a transmission system, and in particular, a signal transfer between the plurality of units in an interface unit which is operated with a main interface unit and a protection unit. The present invention relates to an interface unit switching device of a transmission system that is suitable for improving the operation efficiency of an interface unit by not using a relay.

In general, a transmission system such as a data communication system (DCS) and a fiber loop carrier (FLC) operate a preliminary unit in preparation for a failure of a main unit that performs signal processing to increase service reliability.

In the case of operating the main unit and the spare unit for the signal processing interface as described above, the signal must be switched according to which of the two units the input signal is to be processed. This requires an interface unit switching device.

Hereinafter, the interface unit switching device of the transmission system according to the prior art will be described.

First, Fig. 1 is a block diagram of an interface unit switching device of a transmission system according to the prior art.

As shown in FIG. 1, the conventional apparatus includes: a main unit 10 for interfacing a signal input through a transmission line; It is composed of a spare unit 20 for interfacing the input signal in the abnormal operation of the main unit 10.

The main unit 10 includes: a first relay 11 for switching an input signal; A first transformer unit 12 for converting a signal switched by the first relay 11; A line interface unit 13 for interfacing and outputting the signal converted and output from the transformer unit 12; A second transformer unit 14 for converting a signal output from the line interface unit 13; It consists of a second relay 15 for switching the signal converted and output from the second transformer (14).

In addition, the configuration of the preliminary unit 20 is the same as the configuration of the main unit 10.

Referring to the operation of the device according to such a configuration as follows.

Looking at the DS3 signal input to the interface unit through the coaxial cable in the transmission system, the DS3RTIP signal is input through the center line of the coaxial and the DS3RRING signal is input through the outer line of the coaxial.

Since the main unit 10 and the preliminary unit 20 for interfacing the input signal as described above have the same configuration and operation, the operation of the main unit 10 will be described.

When the DS3RTIP and DS3RRING signals are input to the main unit, the coupling is converted by the first transformer unit 12 and terminated by the resistor-capacitor circuit, and then the RTIP terminal and the RRING terminal of the line interface unit 13. Each is input.

At this time, if the DS3RTIP signal is input to the main unit 10 and the preliminary unit 20 at the same time, the resistance value and the storage capacity of the resistance-capacitor circuit are different, so that only the one of the main unit 10 or the preliminary unit 20 DS3RTIP signal should be input.

Thus, the main unit 10 and the preliminary unit 20 are provided with first relays 11 and 21 for switching input signals, respectively. That is, the DS3RTIP signal is input only to the currently operating interface unit.

Therefore, when the first relay 11 of the main unit 10 is connected, the first relay 21 of the preliminary unit 20 is disconnected so that the terminal resistance value and the terminal capacitance of the input signal are constant. Got to have.

The signals output from the TTIP terminal and the TRING terminal of the line interface unit 13 are inputted to the second transformer unit 14 to be coupled and converted into DS3TTIP and DS3TRING signals, respectively. At this time, between the line interface 13 and the second transformer 14 has two resistors connected in series.

When the main unit 10 and the spare unit 20 are connected at the same time even when the DS3TTP and DS3RRING signals are output, such as when the DS3RTIP and DS3RRING signals are input, the resistance value of the interface unit viewed from the transmission line side is changed. The unit 10 and the preliminary unit 20 use the second relays 15 and 25, respectively, so that signals are output from only one of the units.

As described above, the conventional technology is to switch the signal input and the output signal through the transmission line to the operating unit in the main unit and the reserve unit, thereby maintaining the terminal resistance value and the terminal capacitance of the interface unit constant.

However, the interface unit switching device of the transmission system according to the related art described above has to increase the relay for switching the signal to twice the number of the increased signals when the number of signals to be processed in the unit increases. There is a problem that power consumption is increased and occupy a lot of space in the unit.

In addition, in order to exactly match the impedance (impedance) of the interface unit, only the relay having a specific impedance should be used, and the TIP signal and the RING signal should be disconnected and connected at the same time, there was a disadvantage that limit the interface unit operating conditions.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, an object of the present invention is to improve the operating efficiency of the interface unit by not using a relay when switching the input signal and output signal between the main unit and the spare unit The present invention provides an interface unit switching device of a transmission system that can be used.

In order to achieve the above object, the interface unit switching device of the transmission system according to the present invention includes a main unit for interfacing an input signal; A preliminary unit for interfacing the input signal when the main unit is abnormally operated; It is composed of a distribution unit for distributing the signal input through the transmission line to output to the main unit and the reserve unit,

The main unit and the preliminary unit, the first transformer unit for converting the signal input from the distribution unit; A line interface unit for interfacing and outputting a signal converted and output from the first transformer unit; The technical configuration is characterized by consisting of a second transformer for converting and outputting the signal output from the line interface unit.

1 is a block diagram of an interface unit switching device of a transmission system according to the prior art,

2 is a block diagram of an interface unit switching apparatus of a transmission system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

30: main unit 40: spare unit

50: distributor 33, 35, 43, 45: transformer

33, 43: line interface unit

Hereinafter, the configuration and operation according to an embodiment according to the technical concept of the interface unit switching apparatus of the transmission system according to the present invention as described above will be described in detail.

First, Fig. 2 is a block diagram of an interface unit switching device of a transmission system according to an embodiment of the present invention.

As shown in FIG. 2, an embodiment of the present invention includes: a main unit 30 for interfacing an input signal; A preliminary unit 40 for interfacing an input signal when the main unit 30 is abnormally operated; The distribution unit 50 distributes the signal input through the transmission line and outputs the main unit 30 and the preliminary unit 40.

The main unit 30 includes: a first transformer unit 33 for converting a signal input from the distribution unit 50; A line interface unit 34 for interfacing and outputting a signal converted and output from the first transformer unit 33; A second transformer 35 converts and outputs a signal output from the line interface unit 34.

In addition, the configuration of the preliminary unit 40 is the same as the configuration of the main unit 30.

Referring to the operation of the device according to such a configuration as follows.

Among the DS3 signals input to the interface unit through the transmission line, the DS3RTIP signal is divided into two signals independent of each other in the distribution unit 50 and output. The DS3RRING signal is directly input to the second transformers 35 and 45 of the main unit 30 and the preliminary unit as in the prior art.

The DS3RTIP_M signal and the DS3RTIP_P signal distributed by the distribution unit 50 are input to the main unit 30 and the spare unit 40, respectively. At this time, the DS3RTIP_M signal and the DS3RTIP_P signal are independent of each other so that they are not affected by the terminal resistance value and the terminal capacitance of the other interface unit. For example, the DS3RTIP_M signal input to the main unit 30 is not affected by the termination resistance of the preliminary unit 40.

Since the independent input signal is used in this way, the main unit 30 and the spare unit 40 can normally perform a function as an interface unit even when the relay is removed.

That is, although the main unit 30 and the preliminary unit 40 receive the input signal at the same time, the influence of the termination resistor and the capacitor by the other interface unit does not need to be considered as in the prior art. This is different from the case where the input signal is simply bridged in the conventional device, and thus the signals input to the main unit and the spare unit are not independent in the absence of a relay.

In addition, the DS3TTIP signals outputted from the TTIP terminals of the interface units 30 and 40 are respectively converted by the second transformer units 35 and 45 of the main unit 30 and the preliminary unit 40, and then simultaneously transferred to the transmission line. Even when outputting, two DS3TTIP signals collide with each other.

As described above, in the related art, a signal is output from only one unit by switching between a main unit and a preliminary unit using a relay. In the present invention, the signal output from the line interface units 34 and 44 is performed. Control.

In the signal output control operation, when the main unit 30 is switched and the spare unit 40 is operated, the output control signal TXCNTR is externally transmitted to the TXOFF terminal of the line interface unit 34 of the main unit 30. Is entered.

Then, the TTIP terminal and the TRING terminal, which are output terminals of the line interface unit 34, become high impedance, thereby preventing signal output. That is, in the prior art, such a function as switching an output signal to a relay can be performed without a relay.

At this time, the line interface unit 45 of the preliminary unit 40 in the operating state does not receive the output control signal TXCNTR and outputs a signal through the TTIP terminal and the TRING terminal. The output signal is converted by the second transformer 45 and output as a DS3TRING signal to the transmission path.

As such, when the main unit and the preliminary unit are used in the signal interface unit, the present invention distributes the input signals independently and simultaneously inputs them to the two units, and has a function of controlling the output of the interfaced signals. It is possible to switch between the unit and the spare unit.

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, the interface unit switching device of the transmission system according to the present invention does not use a device such as a relay that must be provided with twice the number of signals to be processed in the prior art, thereby reducing the interface unit with low power consumption. It can drive and improve the efficiency of space operation in the unit.

In addition, the switching between the main unit and the spare unit is performed at the line interface part by the output control signal, so it is not necessary to consider the impedance of the transmission line, and does not have the limitations such as the accuracy of switching operation by a device such as a relay. The interface unit can be applied to various operating environments.

Claims (2)

A main unit for interfacing the input signal; A preliminary unit for interfacing the input signal when the main unit is abnormally operated; And a distribution unit for distributing a signal input through a transmission line and outputting the signal to the main unit and the spare unit. The method of claim 1, wherein the main unit and the preliminary unit, A first transformer converting a signal input from the distribution unit; A line interface unit for interfacing and outputting a signal converted and output from the first transformer unit; And a second transformer unit for converting and outputting a signal output from the line interface unit.