DE2853648A1 - DC fault location in cable from central transmission station - has constant current supply producing voltage across cores compared with voltage from count stage - Google Patents

Abstract

The direct current fault location circuit is for a transmission line with intermediate stations supplied from a central transmission station. Each intermediate station has transmission line sections with alarm contacts in lengths of line of standardised resistance measured from the transmission station. The alarm contact produces a short circuit when the effective level of the signal is below a given value. This restricts the direct current loop resistance measured from the central control station to a given value. The locating volt. prod. by the constant supply of current through the cores in the cable are compared with the ref. volt. which is derived from the position of a counter. The counter has an equal number of output stages as there are possible fault sections. The counter is controlled by a pulse generator which operates when the locating volt. differs from the ref. volt.

Description

Procedure for direct current fault location

The invention relates to a method for direct current fault location for a transmission line with intermediate points from a central end point off, with one in the transmission or a separate one in each intermediate point Accessory pack line with direct current looped-in series resistance of a uniform Size and seen from the central transmission point behind the series resistance at least one each for the transmission line in the event of loss or failure of the useful signal level or failure the remote supply short-circuiting signal contact are provided, which in the event of a fault the direct current loop resistance of the disturbed line to one by its Reduce distance from the central transmission point defined value, and where DC fault location by means of a constant current feed and a voltage measurement takes place at the transmission point.

Such a method is described in DE-OS 27 06 748 in connection described with a characteristic frequency method in a broadband distribution network.

The object of the present invention is to provide an automated method to evaluate the possibility of fault location described at the beginning.

The solution to this problem is characterized in that the by the constant current infeed between the wires of the line (Locating voltage) is compared with a reference voltage obtained from the position derived from a counter that has at least as many output voltage levels as how possible error locations are present that the counter is controlled by one Clock generator that runs when the locating voltage deviates from the reference voltage, and which is stopped when the reference voltage equals the locating voltage is that after the clock has been stopped, the counter returns to its starting position is brought, with a display element for each output voltage level of the counter is provided.

The development according to claim 3 describes a solution for the inventive Method whereby the counter only runs when an error occurs.

By suitable choice of the frequency of the clock generator can be achieved that the display elements assigned to the fault locations, e.g. lamps or light-emitting diodes, appear continuously actuated in the event of a fault.

To support the rra esen effect, resetting the counter @@ rs be delayed by a monostable stage after the fault location has been displayed.

The invention will now be explained in more detail with reference to the figure.

In the case of the direct current fault location proposed according to the invention the voltage generated by the locating current on the locating resistor (locating voltage) queried with input E with high resistance.

This locating voltage is provided by a comparator K with a reference voltage compared, which is below the idle locating cI): tr1nun, but still above that Maximum value of the locating voltage in the event of a fault in the furthest away Field.

As soon as an error occurs, i.e. a certain locating resistance is switched on in the line, the comparator input voltage drops below the Reference voltage. The output of the comparator K switches over and is the clock generator T free. Its output pulses switch a binary counter Z step by step. The counter position is queried at the counter outputs with a ladder network L, at which, as is well known, the output voltage, ;; gradually changes from step to step changes with the size of the last designated bit (LSB = Last Significant Bit). A downstream inverting amplifier delivers when it is running forward Counter the network voltage as a reference voltage to the comparator K. This is the step-by-step voltage change chosen so that each counter step the possible Waste of the locating i Suspends tension by disturbing a field. If the reference voltage falls below the locating voltage at the other comparator input, their output tilts back to the starting position. The clock is thereby stopped and a monostable stage started. Their external wiring makes a longer one than the clock pulse generated. With the falling edge at the end of this pulse the binary counter Z is reset to zero. This jumps the reference voltage back to the initial value, and the comparator K gives again the clock T for the counter Z free, which again until the voltage equals the comparator inputs is running.

Arl the outputs of the counter Z are via decoders, in the simplest case a diode matrix D, and buffer amplifier light-emitting diodes LED for fault location detection turned on. If there is no fault, a green LED lights up, for example. Once the locating voltage drops, i.e. a locating current is flowing, this LED goes out. At the same time it is positive Potential given to the alarm output. The light-emitting diode to indicate the location of the fault only lights up when the meter is at a standstill, as the power supply is there LEDs of the monostable stage M is switched on and off.

But to create the impression of a constantly lit LED, you can the clock frequency for the counter can be chosen to be about 10 KHz.

Wi'd instead of the binary counter used in the exemplary embodiment, that can only count in one direction, a counter is used that can count up and down can count, it is of course also possible to close the counter after a short standstill counting up or down at the output level that corresponds to the disturbed position to leave and thus to bring it back to its starting position.

The circuit according to the invention can be connected to individual LC lines or also via manually switchable or automatic changeover switches for a large number of lines to be monitored.

Claims (6)

Method for direct current fault location Claims C Method for direct current fault location for a transmission line with intermediate points of a central transmission point, with one in the transmission in each intermediate point or a separate accessory line with direct current looped in series resistance of a uniform size and seen from the central transmission point behind the Series resistance at least one the transmission line in the event of failure and # failure: des Useful signal level or failure of the remote power supply short-circuiting signal contact is provided which, in the event of a fault, determine the DC loop resistance of the faulty line to a value defined by its distance from the central transmission point reduce, and the direct current fault location by a constant current injection and a voltage measurement is carried out at the transmission point, characterized in that the one created by the constant current feed between the wires of the line Voltage (locating voltage) is compared with a reference voltage that from the position of a counter is derived which has at least; o vlel output voltage levels has how possible error locations exist that the counter is controlled by a clock that runs when the locating voltage deviates from the reference voltage, and the counter is stopped when the reference voltage of the locating voltage is the same that after the clock has been stopped, the counter is set to his Initial position is set, for each output voltage stage of the counter a display element is provided. 2. The method according to claim 1, characterized in that the locating voltage in the case of non-interference above the reference voltage and the reference voltage, the the counter outputs by less than one output voltage level of the counter below the voltage is that of a locating voltage in the event of a fault in the nearest one Place corresponds. . Method according to Claim 1, characterized in that the locating voltage in the case of no malfunction above the reference voltage and in the case of malfunction in the furthest removed Stellc by less than one output voltage level of the counter below the reference voltage that the meter outputs in its initial position. 4. The method according to any one of the preceding claims, characterized in that that the frequency of the clock is chosen is that that after shutdown of the clock, the display element that is switched on appears continuously actuated. b. Method according to one of the preceding claims, characterized in that that resetting the counter to its starting position after stopping the timer succeeded by a non-stable stage. 6. The method according to any one of the preceding claims, characterized in, that the power supply to the display elements to indicate the location of the fault in the event of shutdown of the clock is switched on and switched off when the counter is reset.