SE519314C2 - Device for overcurrent protection of line drivers - Google Patents

Abstract

In a SLIC (1), line drivers (2,3) are connected with their inputs to respective outputs of a controllable current attenuator (6) whose input is supplied with transversal currents to be transmitted onto the transmission line (A,B), and with their outputs to respective wire of a two-wire transmission line (A,B). Means (4,9,10) are provided to detect any longitudinal currents on the transmission line (A,B) and to generate a current (I5,I6) to the inputs of the line drivers (2,3), that is proportional to a detected longitudinal current to counteract the same . Said means (4,9,10) is connected to a first input of a current comparator (5) having s second input connected to a reference current generator (7), and an output connected to a control input of the current attenuator (6). The current comparator (5) generates currents (I3) to control the current attenuator (6) to increase its attenuation when the current (I4) proportional to any longitudinal current on the transmission line exceeds the reference current (I9).

Description

20 25 15119 314 2 This is achieved according to the invention in that the transverse current is reduced or even throttled when the longitudinal current exceeds a threshold value.

As a result, there is no risk of the line drives being destroyed as a result of excessive power caused by high current.

DESCRIPTION OF THE FIGURES The invention is described in more detail below with reference to the accompanying drawing, in which fi g. 1 schematically shows an SLIC with an embodiment of a device according to the invention for overcurrent protection.

DESCRIPTION OF THE INVENTION Fig. 1 schematically shows a SLIC 1 with an embodiment of a device according to the invention for protecting the SLIC against overcurrents.

In a manner known per se, the SLIC 1 comprises two line drivers 2, 3 which are connected with their input terminals to the respective output terminal of a controllable current attenuator 6 and with their output terminals to the respective wire of a two-wire transmission line A, B to a subscriber device 8.

The input terminal of the current attenuator 6 is supplied with transverse currents IN such as, for example, line currents, speech signals, ring signals, etc. which are intended to be output on the transmission line A, B to the subscriber apparatus 8 by the line drivers 2, 3.

Likewise in a manner known per se, the SLIC 1 comprises means for detecting and counteracting any longitudinal currents on transmission line A, B.

At the i fi g. 1, the line drivers 2, 3 are current amplifying. 10 15 20 25 30 1519 3141 3 To detect a longitudinal current, the potential of the wires A, B is measured and the measured potential is compared with a reference value by means of voltage-current converters 9, 10, for example differential amplifiers.

The voltage-current converter 9 is connected with its one input terminal to the transmission line's wire A and with its other input terminal to a reference voltage V1. Normally the reference voltage V1 is equal to earth. The converter 9 converts the potential difference between earth and the potential of the trees A into a current 17 which is fed to a first input terminal of a current amplifier 4.

The voltage-current converter 10 is connected with its one input terminal to the wire B of the transmission line and with its other input terminal to a reference voltage V2. Normally, the reference voltage V2 consists of a negative potential relative to V1.

The converter 10 converts the potential difference between V2 and the potential of the trees B into a current 18 which is fed to a second input terminal of the current amplifier 4.

The current amplifier 4 has two output terminals which are connected to the respective input terminal of the line drives 2, 3. The current amplifier 4 is arranged to emit respective output currents 15, 16 which correspond to the difference between the currents 17 and 18 which is proportional to the longitudinal current on the transmission line 2. The currents 15, 16 are fed to the line drivers 2, 3 to counteract the longitudinal current on the wires A and B.

If the line drivers 2, 3 were instead voltage amplifying, the current in the wires A and B would be measured to determine the value of a possible longitudinal current. In accordance with the invention, the current amplifier 4 is provided with a third output terminal for outputting a current 14 corresponding to the currents 15, 16 which are fed to the line drivers 2, 3 by the current amplifier 4 to counteract the longitudinal current on the wires A and B. 15 20 25 30 A519 514 4 The third output terminal of the current amplifier 4 is connected to the first input terminal of a current comparator 5. A second input terminal of the current comparator 5 is connected to a reference current generator 7 which generates a reference current I9.

The reference current 19 is set to correspond to a longitudinal current value which is slightly higher than the specified, guaranteed maximum longitudinal current emitted by the SLIC under normal conditions. The SLIC can thus counteract currents which are slightly higher than the longitudinal current corresponding to the reference current I9. The current I4 must always be able to be greater than the reference current I9.

The current comparator 5 is connected with its output terminal to a control input terminal of the current attenuator 6.

The current comparator 5 generates an output current 13 on its output terminal when I4> I9.

The current 13 controls the current attenuator 6 to increase its attenuation to decrease or even throttle the transverse current IN when the longitudinal current on the transmission line is too high.

By reducing the transverse currents, this reduces the risk of damaging the line drivers.

According to one example, the SLIC is guaranteed to counteract longitudinal currents up to 20 mA under normal conditions. Under such conditions, I4 is <I9. In a fault condition, the longitudinal currents are> 20 mA. To detect fault conditions, the reference current I9 is preferably set to correspond to some value of the longitudinal current between 20 mA and a current value, for example 24 mA, corresponding to the maximum longitudinal current which can be driven by line drivers 2, 3. I9 can be set to correspond to e.g. mA. An error condition is then detected when I4> I9. The current comparator 5 will detect the fault condition when the current I4 corresponds to a longitudinal current> 22 mA. As a result, the current comparator 31 supplies the current 13 to the riser of the current attenuator 6 and causes it to increase the attenuation of the transverse current IN to reduce it and consequently reduce the total current fed to the line drivers 2, 3.

Claims (2)

10 15 20 25 1519 314 »6 PATENT REQUIREMENTS Device for overcurrent protection of line actuators (2, 3) in a subscriber line circuit (1), wherein the line actuators (2, 3) are connected with their output terminals to the respective wire of a two-wire transmission line (A, B) and with their input terminals to the respective output terminal of a controllable current attenuator (6) whose input terminal is intended to be supplied with transverse currents intended to be output on the transmission line (A, B), means (4, 9, 10) being provided for detecting any longitudinal dinal currents on the transmission line (A, B) and for generating to the input terminals of the line drivers (2, 3) a current (I5, 16) which is proportional to a longitudinal current detected on the transmission line in order to counteract such a detected longitudinal current, characterized in that said means (4, 9, 10) for generating a current (14) proportional to a longitudinal current detected on the transmission line is connected to a first input terminal of a current comparator (5) which has is a second input terminal connected to a reference current generator (7) and an output terminal connected to a control input terminal of the current attenuator (6), the current comparator (5) being arranged to generate output currents (13) for controlling the current attenuator (6) to increase its attenuation when, against a longitudinal current on the transmission line, a proportional current (14) exceeds the reference current (19). The device according to claim 1, characterized in that the reference current generator (7) is set to correspond to a longitudinal current value which is slightly higher than a specified, guaranteed maximum current emitted by the subscriber line circuit (1) under normal conditions.