RU141022U1 - DEVICE FOR PROTECTION AGAINST THUNDER DISCHARGE AND VOLTAGE PULSES - Google Patents

Abstract

1. Device for protection against lightning and voltage pulses, including: the first stage of the protection elements containing a set of metal oxide varistors and gas-filled voltage arresters, the second stage of the protection elements containing a fuse based on a thermistor based on a conductive polymer with a positive temperature coefficient, characterized in that the first stage of the protection elements used parallel-serial connection of the aforementioned metal-oxide varistors and gas-filled discharge s voltage during the second stage of protection elements used in parallel connection of fuses of this type, each of which consists of said thermistor and a metal oxide varistora.2. A device for protection against lightning and voltage pulses according to claim 1, characterized in that the parallel-series connection of metal-oxide varistors and gas-filled voltage arresters used in the first stage of the protection elements consists of two parallel circuits: the first circuit of two series-connected metal oxide varistors, between which a connection is connected to a gas-filled spark gap, a second circuit of series-connected metal-oxide varistor and gas-filled spark gap. 3. The device for protection against lightning and voltage pulses according to claim 1, characterized in that the parallel connection used in the second stage of the protection elements includes four fuses of the indicated type, each pair of these fuses being controlled by a diode bridge.

Description

The proposed technical solution relates to the field of electrical engineering.

As the closest analogue of the proposed technical solution, a device for protection against lightning discharge described in CN 203103947 published on 07/31/2013 can be selected. It is known from CN 203103947 that the device includes first and second stages (circuits) of protection elements. The first stage of the protection elements contains a combination of metal-oxide varistors and lawn-filled voltage arresters. The second stage of the protection elements contains a fuse based on a thermistor based on a conductive polymer with a positive temperature coefficient. In turn, the proposed technical solution is a further improvement of the protection devices against sharp voltage pulses that occur in the network, which, as a result, will improve the quality of protection of electrical circuits.

The specified technical result is achieved by using the proposed device for protection against lightning and voltage pulses, including: the first (I) stage of the protection elements containing a set of metal oxide varistors (MOV) and gas-filled voltage arresters (GDT); the second (II) step of the protective elements, containing a fuse based on a thermistor based on a conductive polymer with a positive temperature coefficient (PPTC). Unlike the analogue: in the first stage of the protection elements, a parallel-serial connection of the mentioned MOV and GDT is used; in the second stage of the protection elements, a parallel connection of fuses of the indicated type was used, each of which consists of the mentioned thermistor - PPTC and MOV, that is, the fuse circuit - 2Pro AC was used. The parallel-serial connection of MOV and GDT used in stage I of the protection elements consists of two parallel circuits: the first circuit of two series-connected MOVs, between which a connection to GDT is connected; a second chain of and series-connected MOV and GDT. The parallel connection used in stage II of the protection elements includes four fuses of the indicated type, in which each pair of fuses operates on one of the half-waves of the AC voltage and is controlled by a diode bridge.

Practical tests have shown that the I stage of protection elements, based on the MOV + GDT structure, provides protection against voltages> 1000 V. Also, protection against short circuits of 8/20 μs to 5000 A and against voltages of several kV (tests on 7 kV). Thus, the first stage will ensure compliance with class 2 of the EN61643-11: 2002 + A11: 2007 standard. The second stage, based on the use of the PPTC + MOV structure, that is, on the TE Connectivity 2Pro AC protection element, provides protection against short overvoltage <1000 V , from 380-418VAC 3-phase voltage, long-term overvoltages <600 V. As a result, complete protection is provided from any type of lightning discharge and voltage pulses, protection against waves of a sharp increase in the supply voltage of any duration (of the order of several milliseconds) from a 220 V network, short protection for Addi ctive indefinitely. Also, the use of the proposed device will improve the electromagnetic characteristics, first of all, reduce radio emission, reduce the starting current, and allow the use of built-in thermal protection, as well as recovery after turning off the power.

Claims (3)

1. Device for protection against lightning and voltage pulses, including: the first stage of the protection elements containing a set of metal-oxide varistors and gas-filled voltage arresters; the second stage of the protective elements containing a fuse based on a thermistor based on a conductive polymer with a positive temperature coefficient, characterized in that in the first stage of the protection elements used a parallel-serial connection of the aforementioned metal-oxide varistors and gas-filled voltage arresters, in the second stage of the protection elements, a parallel connection of fuses of the indicated type is used, each of which consists of the aforementioned thermistor and a metal-oxide varistor. 2. A device for protection against lightning and voltage pulses according to claim 1, characterized in that the parallel-series connection of metal-oxide varistors and gas-filled voltage arresters used in the first stage of the protection elements consists of two parallel circuits: the first circuit of two series-connected metal-oxide varistors, between which is connected a connection with a gas-filled spark gap, a second chain of series-connected metal-oxide varistor and gas-filled spark gap. 3. A device for protection against lightning and voltage pulses according to claim 1, characterized in that the parallel connection used in the second stage of the protection elements includes four fuses of the indicated type, each pair of these fuses being controlled by a diode bridge.

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