SU668039A1 - Arrangement for overvoltage protection of equipment of two-wire communication line - Google Patents

Description

one

The invention relates to overvoltage protection devices for electric circuits and can be used to protect wired communication devices and telemechanic equipment from overvoltages occurring on communication lines.

A device is known for the incorporation of electrical signals containing zero-conducting zener diodes or circuits on thyristors, the threshold of response of which is determined by the zener diodes in a control unit of control electrode 1.

The closest technical solution to this invention is a device for wiping overvoltages of a two-wire communication equipment, containing a three-electrode arrester, the main electrodes of which are connected to input inputs, to which a chain of series-connected resistors is also connected, and the primary winding of the pulse transformer and switching a block with a negative resistance section on the current-voltage characteristic and abruptly switching at any polarity of the input voltage drove, and the secondary winding of the pulse transformer is connected to

igniting and one of the main electrodes of the arrester, to which is also connected the yen of counter-activated bilitrons connected in parallel to the chain of the circuit, and non-linear resistance, the other output of which is connected to the primary winding of the pulse transformer C2,.

A disadvantage of the known devices; is the difficulty of applying its length to two wires. lines and lack of speed.

The purpose of the invention is a uyrop.nie and increase the speed of the device.

Claims (2)

The goal is achieved by those. that in the device for protection against interruption | 1 of the equipment of the two-wire line cr.H.ui, containing for each line a threefold.1sk1 codyy discharger, the main electrodes of which are connected to the input inputs, to which a chain of series-connected resistors is also connected, the primary winding a pulse transformer and a switching unit with a section of negative resistance on the current-voltage characteristic and abrupt switching of the power at any polarity of the input spgnal, and the secondary winding of the pulse transformer and connected to the igniter and one of the main electrodes of the discharge, to which is also connected a circuit of opposite-connected zener diodes connected in parallel to the protected circuit and nonlinear resistance, the other output of the latter is connected to the primary winding of the pulse transformer, the primary windings of the pulse transformer are on top of the secondary windings and placed on one common magnetic core, with the primary and secondary windings associated with the first line being located on the magnetic core at a maximum bend lenii of windings associated with the second communication line. In addition, in order to increase the reliability of the protection, by excluding the zener bypassing the primary winding of the pulse transformer, the nonlinear resistance is connected to the end of the primary winding of the pulse transformer, also connected to the switching unit. “The drawing shows a circuit diagram of the proposed device for overvoltage protection of a two-wire communication equipment. The device contains a spark discharge. The main electrodes 1 and 2 of which are connected to the input inputs 3 and 4 of the device, connected to the source of overvoltages, i.e. lines of communication. The firing electrode 5 of the discharge capacitor is connected to one output of the secondary winding 6 of the pulse transformer 7, its second output is connected to the grounded main electrode 2. A serial circuit composed of a limiting resistor 8, the primary winding 9 of the pulse transformer and switching unit 10 is connected in parallel to the input terminals 3 and 4 devices. The primary winding of one half of the device is wound with a water layer on top of the secondary winding for the communication line 11 on one core of the pulse transformer core, on the opposite rod of which the windings for the other communication line of the protection device are placed in the same way. One pin of the limiting resistor is connected to the input terminal 3, and the other is connected to one output of the primary winding 9 of the pulse transformer 7, the other output of the primary winding 12 is connected to the switching unit 10 and through the nonlinear resistance 13 to the output terminal 14 of the protection device and the protected circuit 15. In parallel with the output terminals 14 and 16, connected to the protected target, the opposite-connected zener diodes are connected 17. In the working direction of the protected circuit, the switching unit 10 is locked, the zener diodes 17 do not conduct current, therefore , The protection circuit has bolschoy internal resistance. With the occurrence of a voltage at terminals 3 and 4 that exceeds the switching threshold of the switching unit, it is suddenly unlocked. The voltage pulse applied to the primary winding 9 of the pulse transformer 7 is transformed into the secondary winding 6 and applied to the ignition and main electrodes 5 and 2, respectively, causing electrical breakdown of the air gap of the main electrodes 1 and 2 of the bit. An electric arc having a low resistance short-circuits a source of overvoltage. A current flows through the main electrodes of the discharge and the overvoltage source is discharged. The current through the main electrodes ceases, as a result, the switching device and the discharge device generally return to their original state. Resistor 8 limits the maximum current in the circuit of the switching unit 10. Due to the trigger effect in the switching unit and its full unlocking, all overvoltage during several microseconds are applied to the primary winding 9 of the pulse transformer 7, which causes a sharp change in the current in it. In order to protect the overvoltage with a duration of the delay time of the switching unit from the protected circuit 16, the zener diodes 17 and the nonlinear resistance 13 with an inductance of 100–200 mG are connected in series with it. The stabilization voltage of the zener diodes 17 is the same or slightly higher than the switching voltage of the switching unit. With the simultaneous occurrence of overvoltages of different polarities at the input terminals of the protection device, the magnetic fluxes generated by the primary windings of the pulse transformer are read. However, due to the fact that the ignition windings, connected to another line of communication, the protection devices are displaced on the opposite core of the core, their mutual influence is minimal and an ignition pulse occurs on both output windings. . The invention can be used on most wireline and telemechanic lines. Its use in overvoltage protection circuits makes it possible to increase the reliability of communication equipment and telemechanics and reduce the costs of their repair and maintenance. The invention The device for protection against overvoltages of the equipment of a two-wire communication line, containing for each line a three-electrode discharge, main electrodes which are connected to input inputs, to which a chain of successively connected resistors, the primary winding of a pulse transformer and a switching unit, is also connected, with a section of negative resistance on the current-voltage characteristic and a jump-like switching at any polarity of the input signal, and the secondary winding of a pulse transformer is connected to the ignition and one of the main electrodes of the discharge, to which is also connected a circuit of anti-zener diodes connected A parallel circuit and non-linear resistance, the other output of which is connected to the primary winding of a pulse transformer, is characterized in that, in order to simplify and increase speed, the primary windings of the pulse transformer are located on top of the secondary windings and are placed on one common magnetic core, while the primary and secondary The windings associated with the first line are located on the magnetic core as far as possible from the windings associated with the second link. 2. The device according to claim 1, characterized in that, in order to increase the reliability of protection by excluding the zener diodes bypassing the primary winding of the pulse transformer, the nonlinear resistance is connected to the end of the primary winding of the pulse transformer, also connected to the switching unit. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 202289, cl. H 01 T 1/16, 1970. 2. For the number 2139021/07, cl. H 02 H 9/06, 1975, according to which the decision to issue an author's certificate was made. ||| 9