SU1107299A1 - Device for determining fault location in remote power supply circuit of communication line - Google Patents

Abstract

A DEVICE FOR DETERMINING THE TROUBLESHOOD IN THE REMOTE POWER SUPPLY CHAIN of ELS CONNECTION, containing at the unattended point located between the place of malfunction and serviced point, the first and second regenerators connected in the forward and reverse wires of the remote power supply circuit, respectively, as well as a control unit and connected in series a resistor, a diode, a health sensor in the forward direction of the remote supply circuit, with one output of the resistor connected to the output of the first regenerator, and the other However, to the diode anode, characterized in that, in order to improve the accuracy of determining the location of the fault, an additional source of remote power supply is introduced at the service point, a two-position switch, the first and second contacts of which are connected to the poles of the additional source of remote power, the third contact is with a direct the wire of the remote power supply circuit, the fourth contact is with the return wire of the remote power supply circuit, the fifth and sixth contacts are connected to the earth, and the unattended point is inserted an additional resistor connected in series, an additional diode, a remote power supply reverse direction sensor, and a temporary cyMN.-iTop, with one additional resistor connected to the output of the second regenerator, and the other to the cathode of the additional diode, the forward link the remote power supply and the health sensor of the reverse direction of the remote power supply circuit are connected to earth, and the information outputs of the forward health sensor the directions of the remote power supply circuit and the health sensor of the reverse direction of the remote power supply circuit are connected to the corresponding inputs of the temporary adder, the output of which is connected to the input of the telecontrol unit.

Description

one

The invention relates to technology, telecommunications and can be used in equipment monitoring the wired paths of communication systems on a coaxial cable.

A device for determining the location of a discontinuity in a message transmission line is known, which contains at each unattended point in the forward wire of a remote power supply circuit - the first diode whose cathode is connected to the output of the regenerator of the forward direction of the transmitting link, and the anode is the output of the forward direction of the transmission line messages, and a health sensor in the forward direction of the remote power circuit, connected in parallel with the first diode; in the return wire of the remote power circuit, there is a second diode, the anode of which is connected to the input of the regenerator of the reverse direction of the message transmission line, and the cathode is the input of the reverse direction of the transmission line of the message, and the health sensor of the reverse direction of the remote power circuit, connected in parallel to the second diode; a third diode and a resistor are connected in series, the cathode of the third diode is connected to the anode of the first diode, the anode of the third diode is connected to the output of a resistor, the other output of which is of the connections with the cathode of the second diode sp.

The device is characterized by insufficient localization of the location and type of damage to the remote power supply circuits.

The closest to the technical essence and the achieved result to the proposed is a device for determining the fault location in the remote power supply circuit of the communication line, containing, at an unattended point located between the fault point and the serviced point, the first and second regenerators, included in the forward and reverse wires remote power circuits, respectively, as well as a telecontrol unit and a series-connected resistor, diode, and sensor in the forward direction of the remote supply circuit nor, with one terminal of the resistor connected to the output pervo072992

the second regenerator, and another conclusion - to the anode of the diode C2.

However, in this device, the localization of the main types of 5 malfunctions of the remote power supply circuit, associated with the activation of the control chain in the vein system, is insufficient. Such inclusion excludes the possibility of controlling a second type of failure (current leakage, insulation breakdown), as well as the possibility of determining the location of the malfunction (in the forward or backward direction).

The purpose of the invention is to increase the accuracy of determining the location of the fault.

To achieve the goal, the device for determining the fault location in the remote power supply wiring line circuit, contains at the unattended point located between the fault point and the serviced point, the first and second regenerators, included in the forward and reverse wires of the remote power supply circuit, respectively also a telecontrol unit and a series-connected resistor, a diode, a health sensor in the forward direction of the remote supply circuit, with one output of the resistor connected to the output of the first regenerator ora, and the other terminal - to the anode of the diode, at the served paragraph introduced additional

5 remote power supply,

two-way switch, the first and second contacts of which are connected to the poles of the additional source of remote power supply,

0 the third contact is with the direct wire of the remote power supply circuit, the fourth contact is with the return wire of the remote power supply circuit, the five and sixth contacts are connected

5 to the ground, and on the unattended

a point introduced in series are connected an additional resistor, an additional diode, a health sensor for the reverse direction of the circuit

0 remote power supply and time adder, with one output of an additional resistor connected to the output of the second regenerator, and the other to the cathode of the additional diode, the second power inputs of the forward direction sensor of the remote supply circuit and the reverse direction sensor

the remote power supply circuits are connected to ground, and the information outputs of the health sensor of the forward direction of the remote power chain and the health sensor of the reverse direction of the remote power chain are connected to the corresponding inputs of the temporary adder, the output of which is connected to the input of the telecontrol unit.

The drawing shows the structural electrical circuit of the device for determining the location of a fault in the remote power supply circuit of the communication line.

The device contains a serviced item 1, an additional source of remote power supply 2, a two-position switch 3, a forward wire 4 and a return wire 5 of the remote power supply circuit, a maintenance-free item 6, the first regenerator 7, the second regenerator 8, a resistor 9, auxiliary resistor 10, a diode 11, auxiliary diode 12, a health sensor 13 for forward direction of the remote power circuit, a health sensor 14 for reverse direction of the remote power circuit, a time adder 15, a telecontrol unit 16.

The device works as follows.

From the serviced point 1, when information is received on the occurrence of a malfunction in any of the wires 4 or 5 of the remote power supply circuit, a check is carried out separately for a malfunction of the cable of the corresponding direction.

To do this, at the serviced point 1, from the output of the additional source 2, through the switch 3, a supply voltage is applied to the wire of the tested direction r according to the core-to-earth circuit, the polarity of which is inverse to the operating mode. In the equipment of the tested direction, unattended points 6, located between the serviced point 1 and the place of damage, the control current supplying through the resistor 9 (additional resistor 10) and diode 11 (additional diode 12) to the power input of the sensor 13 (sensor 14), excites it, creating at the information output of this sensor a signal of the health of the remote power supply circuit for the direction being checked, of the unattended point 6.

In unattended points 6, located beyond the point of cable damage, the sensors 13 and 14 of serviceability will not generate an output signal in two types of malfunction: in the event of a cable break and in the event of a leakage of the supply current to earth, exceeding the norm. The health signal from the sensor 13 or 14 (depending on the direction checked) goes through the temporary adder 15 to the input of the 16th telecontrol unit 16 and further along the telecontrol line follows the serviced point 1, to the evidence of the absence of a malfunction in unattended points 6 and sections located to the place damage.

The technical and economic effect of the research is to ensure the localization of the main types of malfunction in the remote power supply circuit, increasing the accuracy of the communication line differentiated by direction and type of localization, which improves the conditions for their elimination. L

Claims (1)

DEVICE FOR DETERMINING THE MALFUNCTION PLACE IN THE REMOTE POWER SUPPLY CIRCUIT OF THE COMMUNICATION LINE, containing at the maintenance-free point located between the fault location and the service point, the first and second regenerators included in the direct and return wires of the remote power supply circuit, respectively, as well as a telecontrol unit and a resistor connected in series, diode, serviceability sensor of the direct direction of the remote power supply circuit, while one output of the resistor is connected to the output of the first regenerator, and the other output to a an ode to a diode, characterized in that, in order to increase the accuracy of determining the place of a malfunction, an additional remote power source, a two-position switch, the first and second contacts of which are connected to the poles of an additional remote power source, and the third contact with a direct wire of the remote circuit are introduced at the serviced point power supply, the fourth contact - with the return wire of the remote power supply circuit, the fifth and sixth contacts are connected to the earth, and the additional resistor, additional diode, operability sensor of the reverse direction of the remote power supply circuit and a temporary adder are connected separately, moreover, one output of the additional resistor is connected to the output of the second regenerator, and the other to the cathode of the additional diode, the second power supply inputs of the health sensor of the direct direction of the remote circuit the power supply and the health sensor of the reverse direction of the remote power circuit are connected to ground, and the information outputs of the health sensor of the forward direction of the circuit remote power sensor and serviceability of the reverse direction of the remote power circuit connected to respective inputs of temporary adder whose output is connected to the input of telecontrol unit. 1 107299