RU2136106C1 - Method for finding broken piece in remote power supply circuit and device which implements said method - Google Patents

Abstract

FIELD: electrical engineering, in particular, systems for digital information transmission. SUBSTANCE: method involves additional measurement of test current in broken piece of remote power supply circuit in same direction as remote power supply current. Index of non-attended intermediate node before broken piece of remote power supply circuit is calculated using equation

, where I_opp is test current in broken piece of remote power supply circuit in opposite direction with respect to remote power supply current, I_dir is test current in broken piece of remote power supply circuit in same direction as remote power supply current, I_na is current of non-attended intermediate node, when test source has opposite voltage polarity with respect to polarity of remote power supply voltage. EFFECT: increased precision of finding, simplified operations.

Description

 The invention relates to electrical communication technology, in particular to methods for localizing a section of an open circuit of a remote power supply and to devices for localizing a section of an open circuit of a remote power supply, and can find application in both digital transmission systems and analog transmission systems.

 There is a method of localizing a portion of a break in a remote power supply circuit, in which the loop circuits of the cable conductors are looped alternately behind maintenance-free intermediate points (LLP), starting from the first by number, and determining the LLP number following the damaged cable section, according to the first loss of control current [ 1].

 A disadvantage of the known method of localizing a portion of a break in a remote power supply circuit is the considerable complexity and duration of the process of localizing a portion of a break in a remote power supply circuit.

 It is also known a device for localizing a portion of an open circuit of a remote power supply circuit, comprising a signal meter for a portion of an open circuit of a remote power supply circuit through which a current source for monitoring an open circuit of a remote power supply circuit is connected to a cable line [1].

 In this device, the localization of the open circuit portion of the remote power supply circuit is ensured by the formation of loop circuits alternately after each NUP and the determination of the open circuit portion of the remote power supply circuit at the first loss of the control current of the remote power supply circuit.

 A disadvantage of the known device for localizing a portion of an open circuit of a remote power supply is that reducing the duration of the localization process leads to a significant complication of its design.

 The closest in technical essence to the proposed method for localizing the remote circuit open circuit section is the method for localizing the remote circuit open circuit section, which consists in generating a break monitoring current through a maintenance-free intermediate point through the remote power circuit in polarity opposite to the remote power current, determine serial number of the unattended intermediate point in front of the remote power supply circuit break [2].

 The closest in technical essence to the proposed device for localization of the remote circuit open circuit section is a device for localizing the remote power circuit open section, containing a power source and a current meter for monitoring the remote circuit open circuit, and in each maintenance-free intermediate point, a single-sided element is connected open loop current passing and remote control I connected in parallel to the remote power circuit.

 The disadvantage of this method of localization of the remote circuit open circuit section and the device for its implementation is the considerable complexity of the process of determining the remote circuit open circuit section, as well as the significant error of the result of determining the remote circuit open circuit section.

 The technical result that can be obtained by implementing the proposed method and device for its implementation is expressed in increasing the accuracy of the localization of the remote circuit open circuit section and in simplifying the process of localizing the remote circuit open circuit section.

где O_обр - ток контроля обрыва цепи дистанционного питания, обратный по направлению току дистанционного питания;
I_прям - ток контроля обрыва цепи дистанционного питания, имеющий направление тока дистанционного питания,
I_н.п.п - ток через один необслуживаемый промежуточный пункт при напряжении источника контроля в полярности, обратной полярности напряжения дистанционного питания.To obtain this technical result, in a method for localizing a remote circuit open circuit portion, including generating a remote power open circuit monitoring current through maintenance-free intermediate points in a remote power circuit in polarity inverse to the remote power current, and determining a serial number of a maintenance-free intermediate point in front of the remote open circuit section power supply, measure the current monitoring the open circuit of the remote power supply, which coincides with the current of the remote power supply, in the serial number of the maintenance-free intermediate point in front of the open circuit section of the remote power supply is determined from the expression

where O _arr is the control current of the open circuit of the remote power supply, the opposite direction to the current of the remote power supply;
I _direct - the control current of the open circuit of the remote power supply, having the direction of the current of the remote power supply,
I _n.p.p - current through one maintenance-free intermediate point at the voltage of the control source in polarity, reverse polarity of the voltage of the remote power supply.

 To obtain this technical result, in a device for localizing a portion of an open circuit of a remote power supply circuit of maintenance-free intermediate points containing a serially connected power supply and a current meter for monitoring an open circuit of a remote power supply, and at each maintenance-free intermediate station there are serially connected one-sided transmission element for monitoring the open circuit of a remote power supply and setpoint for the value of the current for monitoring the open circuit of the remote power circuit connected in parallel to the circuit Remote power unit introduced changes polarity remote power circuit in the process of determining continuity portion connected between the meter control circuit breaking current remote power and maintenance-free intermediate points furthermore made controllable power source.

 The drawing shows one of the possible variants of a device for localizing a section of an open circuit of a remote power supply, characterizing a method for localizing a section of an open circuit of a remote power supply according to the invention.

 The device shown in the drawing contains elements 1 for one-way transmission current monitoring of an open circuit of a remote power supply in maintenance-free intermediate points, controllers 2 for a current value for monitoring an open circuit of a remote power supply in maintenance-free intermediate points, a receiver 3 of a current of remote power supply, maintenance-free intermediate points 4, a current source 5 remote power circuit and meter 6 current control open circuit remote power.

 Maintenance-free intermediate points 4 are maintenance-free amplification points in analog transmission systems or maintenance-free regeneration points in digital transmission systems.

 Each setpoint 2 of the current value for monitoring the open circuit of the remote power supply in a maintenance-free item can be made in the form of a resistor. In this case, the resistor of each maintenance-free intermediate point 4 has the same nominal resistance value, since otherwise the mutual exchange of maintenance-free intermediate points would be more difficult when they are installed in the transmission system.

 Each element 1 of one-way transmission of current monitoring the open circuit of the remote power supply can be made in the form of one or more diodes connected in series.

 The device also contains a unit 7 for changing the polarity of the connection of the remote power circuit in the process of determining the section of open circuit, connected via a meter 6 for monitoring the open circuit of the remote power supply to the current source 5 of the remote power circuit, and an element 8 for switching the operation mode. In this case, the current source 5 of the remote power supply circuit is made with a switching input to the voltage stabilization mode connected to the output of the operation mode switching element 8.

 The unit 7 for changing the polarity of the connection of the remote power supply circuit in the process of determining the open circuit is made in the form of the first and second switches 9 and 10. The first fixed contact of the first switch 9 is connected to the first input by the power supply 5 through the meter 6 for monitoring the open circuit of the remote power supply, and the first stationary the contact of the second switch 10 is connected directly to the second input of the power supply 5. In this case, the first fixed contact of the first switch 9 is connected to the second fixed contact of the second switch 10, and the first fixed contact of the second switch 10 is connected to the second fixed contact of the first switch 9. The movable contacts of the first and second switches 9 and 10 are connected through cable wires on the first elementary cable section of the transmission system with the first order of maintenance-free intermediate point.

 Each receiver 3 of the current remote power can be made in the form of an amplifier described in the book: B.P. Smirnov et al. Transmission system K-3600. Transmission line equipment. M., "Radio and Communications, 1986, p. 150-152, fig. 6.4.

 As the power supply 5, a remote current stabilizer described in the book: B.P. Smirnov et al. Transmission system K-3600. Transmission line equipment. M., "Radio and Communications, 1986, p. 106-107, fig. 4.6. To do this, in the remote control current stabilizer shown in Fig. 4.6., It is necessary, for example, to open the circuit between the tap of the resistor Roc and the input of the amplifier; it is connected to the moving contact of the switch, one fixed contact of which is connected to the output of the resistor Roc and the other fixed contact - with the tap of an additional feedback resistor, which is connected in parallel with the output buses of the DP stabilizer. Moreover, in this case, the switch plays the role of the element 8 switching mode.

 Localization of the open circuit portion of the remote power supply according to the proposed method is as follows.

 To determine the location of the open circuit of the remote power supply, a current is generated to control the open circuit of the remote power supply. In this case, to obtain the control current of the open circuit of the remote power supply, voltage stabilization is performed.

 The formation of the current monitoring the open circuit of the remote power supply is carried out both in the direction opposite to the direction of the current of the remote power supply, and in the direction of the current of the remote power supply. At the same time, the values of the currents for monitoring the open circuit of the remote supply circuit in both directions are measured.

где I_обр - ток контроля обрыва цепи дистанционного питания, обратный по направлению току дистанционного питания;
I_прям - ток контроля обрыва цепи дистанционного питания, имеющий направление тока дистанционного питания,
I_н.п.п - ток через один необслуживаемый промежуточный пункт при напряжении источника контроля в полярности, обратной полярности напряжения дистанционного питания.Then, the sequence number of the maintenance-free intermediate point is determined in front of the remote power supply circuit break section. In this case, the determination of the serial number of the unattended intermediate point in front of the remote circuit open circuit section is performed according to the mathematical expression

where I _arr is the control current of the open circuit of the remote power supply, reverse in direction to the current of the remote power supply;
I _direct - the control current of the open circuit of the remote power supply, having the direction of the current of the remote power supply,
I _n.p.p - current through one maintenance-free intermediate point at the voltage of the control source in polarity, reverse polarity of the voltage of the remote power supply.

 Localization of the open circuit portion of the remote power supply via the device shown in the drawing is as follows.

 To determine the location of the open circuit of the remote power supply, the power source 5, which operates when transmitting signals in the current stabilization mode, is switched to the voltage stabilization mode due to the effect of the operation mode switching element 8.

 After switching the power supply 5 to the voltage stabilization mode, in any sequence, the formation of the remote control circuit open-circuit monitoring current, the direction of which coincides with the direction of the remote power current, and the remote-circuit open circuit monitoring current, the direction of which is opposite to the direction of the remote power current, are generated. In this case, the change in the direction of the current monitoring the open circuit of the remote power supply is carried out by simultaneously switching the first and second switches 9 and 10 of the unit 7 to change the polarity of the connection of the remote power supply in the process of determining the section of the open circuit, and the magnitude of the current control open circuit of the remote power supply is determined by the meter 6 of the control current open circuit remote power.

 To form a current for monitoring an open circuit of the remote power supply, which coincides in direction with the current of the remote power supply, the movable contacts of the first and second switches 9 and 10 are set in the state of pairing with their first fixed contacts. In this case, the magnitude of the current monitoring the open circuit of the remote power supply in the event of a break in the remote power supply circuit is determined only by the presence of all spurious leaks both throughout the distance of the remote power supply circuit to the open part, and at the point of open circuit. No currents flow through the adjusters 2 of the current value for monitoring the open circuit of the remote power supply, since the elements 1 for unilateral transmission of the current for monitoring the open circuit of the remote power supply are switched on in the opposite direction. Thus, the current monitoring the open circuit of the remote power supply, coinciding in direction with the current of the remote power supply, represents the total leakage current.

 To form a current for monitoring an open circuit of the remote power supply, which is opposite in direction to the current of the remote power supply, the movable contacts of the first and second switches 9 and 10 are set in the state of pairing with their second fixed contacts. The remote control open circuit control current, opposite in direction to the remote supply current, flows through the cable wires of elementary cable sections to the remote power circuit open point and through the adjusters 2 remote control open circuit control current values, remote control open circuit control current passing elements 1 and receivers 3 of current remote power supply, all maintenance-free intermediate points 4 located to the point of disconnection of the remote power circuit. The current for monitoring the open circuit of the remote power supply circuit, opposite in direction to the current for the remote power supply, is determined mainly by the currents through the settings 2 of the current value for monitoring the open circuit of the remote power supply circuit, since their resistance in this direction is chosen to be much larger than the resistance in this direction of the elements 1 of unilateral current transmission remote circuit open circuit control and 3 current receivers of remote power. Thus, the current through the switches 2 of the current value for monitoring the open circuit of the remote power supply when forming the current for monitoring the open circuit of the remote power supply, which is opposite in direction to the current of the remote power supply, is determined by its resistance, the nominal value of which is chosen the same for each maintenance-free intermediate point 4. If the resistances are equal 2 values of the current monitoring the open circuit of the remote power supply through them differ only due to the voltage drop across the wires of the cable elementary cable sections 11 and receivers 3 current remote power. If the resistance of the adjusters 2, the values of the current for monitoring the open circuit of the remote power supply are sufficiently large, then the current through them depends little on the voltage drop on the cable wires of the elementary cable sections 11 and on the receivers 3 of the current of the remote power supply. In this case, in the case of a sufficiently large increase in the resistances of the setpoints 2, the values of the current for monitoring the open circuit of the remote supply circuit begin to affect spurious leakage currents between the wires of the cable of the elementary cable sections 11. The current control circuit of the remote supply, which is opposite in direction to the current of the remote supply, is essentially equal to the sum of the currents through all setpoints 2 values of the current monitoring the open circuit of the remote power supply in maintenance-free intermediate points 4 to the point of open circuit of the remote power supply and current pairs operating actions leakage between the conductors of the cable elementary cable sections 11 to chain termination locations remote power. In this case, the current component, determined by the resistance of parasitic leaks, in the remote control circuit breakage control current, which is in the reverse direction to the remote power supply current, is close in magnitude to the remote control circuit breakage control current, which coincides in direction with the remote power current.

 The remote supply open circuit section is determined by the serial number of the maintenance-free intermediate point 4 preceding the elementary cable section 11, on which the remote power supply circuit is interrupted. The determination of the serial number of the last maintenance-free intermediate point 4 in front of the remote power supply circuit break section is made from a mathematical expression in which the serial number of the last non-serviceable intermediate item 4 before the remote power supply circuit break section is equal to the ratio of the difference of the control currents of the open circuit of the remote power supply, one of which coincides with the remote current power supply in the direction, and the other is opposite to it, to the current through one of the adjusters of the current value of the remote current supply control when forming a terminating remote power supply, reverse the direction of current remote power feeding (see. mathematical expression given above).

 The serial number of the last unattended intermediate point in front of the remote power supply circuit breakage section can also be determined by the difference between the remote-control circuit open-circuit monitoring current, reverse to the remote power supply current, and the remote-supply circuit open-circuit monitoring current, which coincides with the remote power supply current. After determining the difference of the monitoring currents of the open circuit of the remote power supply, having opposite directions, for the desired section of the open circuit of the remote power supply, compare it with the table values of this difference for the sections of the break of any possible elementary cable sections 11. This table is built according to the measurement and determination of the difference of the control currents open circuit of the remote power supply, having opposite directions, for the open circuit of the remote power supply on each elementary cable 11. The elementary cable section 11, on which the open circuit of the remote power supply circuit breaks down, is determined by the tabular value of the difference of the currents for monitoring the open circuit of the remote power supply, which is the closest to the value obtained from the measurement and calculation of the difference between the currents of the control circuit open circuit of the remote power supply.

 Measurement of the monitoring currents of the open circuit of the remote power supply, which coincides with the current of the remote power supply in the direction opposite to it, as well as the value of the control current through the maintenance-free intermediate point 4, is carried out by means of a meter 6 for monitoring the open circuit of the remote power supply. After measuring these currents, they are stored and the subsequent mathematical processing of their values. In this case, the meter 6 of the current monitoring the open circuit of the remote power supply can be performed with blocks of memorization, subtraction and division, providing electronic processing of these mathematical operations.

Sources of information
1. Mileykovsky S. G. and other wire communication. M., "Communication", 1971, p. 69, 80.

 2. Smirnov B.P. and other transmission system K-3600. Transmission line equipment. M., "Radio and Communications, 1986, p. 133, 220 (prototype).

Claims (2)

1. The method for localizing a portion of a break in a remote power supply circuit, which consists in generating a break control current through maintenance-free intermediate points using a remote power supply circuit in polarity opposite to the distance to the remote power supply, and determine the serial number of a maintenance-free intermediate point in front of the break-in portion of the remote power supply circuit, characterized in that measure the current monitoring the open circuit of the remote power supply, which coincides in direction with the current of the remote power supply, and the serial number is unattended of an intermediate point in front of the remote circuit open circuit section is determined from the expression

where I _arr is the control current of the open circuit of the remote power supply, reverse in direction to the current of the remote power supply;
I _direct - the control current of the open circuit of the remote power supply, having the direction of the current of the remote power supply;
I _n.p.p - current through one maintenance-free intermediate point at the voltage of the control source in polarity, reverse polarity of the voltage of the remote power supply.  2. A device for localizing a portion of an open circuit of a remote power supply of maintenance-free intermediate points, comprising a power supply and a current meter for monitoring the power supply circuit in series, and at each maintenance-free intermediate point, a one-way control current transmission element and a control current value adjuster connected in parallel to the remote control circuit power supply, characterized in that the unit for changing the polarity of the connection of the remote power circuit in the process of determining the section of the cliff included between the current meter of the remote control circuit and maintenance-free intermediate points, in addition, the power source is made controllable.