RU1814139C - Device for protecting electrical appliances from commutation over- voltages in multiphase network - Google Patents

Abstract

Usage: in electrical engineering, in overvoltage protection of asynchronous electric motors. SUBSTANCE: device contains protective chains according to the number of network phases, each of which consists of two pulse diodes, a current-limiting resistor, two dynamic memory elements, respectively, positive and negative protection tripping levels, each of which consists of a capacitor, a zener diode, a correction resistor. Dynamic memory elements allow the use of a device for switching: circuits and shunting motor windings when overvoltage diode circuits, which; increases the reliability of protection, in silt.

Description

ate

WITH

The invention relates to electrical engineering and is intended for use in relay protection of asynchronous electric motors.

The purpose of the invention is to increase reliability by expanding the protection capabilities of voltage and speed.

In Fig, 1 presents a diagram of a device; figure 2 - diagram of the protective chain; in Fig.Z - current-voltage characteristics.

The device 1 for protection against switching overvoltages of electrical devices in multiphase networks contains protective circuits 2, 3, 4 according to the number of phases of the network, equipped with input terminals 5-10 for connecting protective circuits to the terminals 11, 12, 13 of the protected electrical apparatus 14 according to the schemes star or triangle. Each safety chain is made

on pulsed high-frequency diodes 15, 16, the first and second dynamic memory elements 17, 18, a current-limiting resistor 19. The first element 17 consists of a capacitor 20, a correction resistor 21, and at least one zener diode 22, and the second element 18 is made of a correction capacitor 23 resistor 24 and at least one zener diode 25.

The anode and cathode of the diodes 15, 16 are combined and form the first input terminal 26 of the protective circuit, the cathode of the diode 15 through the first, and the anode of the diode 16 through the second dynamic memory elements are combined and connected through the current-limiting resistor 19 to the second input terminal 27 of the protective circuit. The cathode of the diode 15 is connected to the first terminal of the capacitor 20, and

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the anode of the diode 16 is connected to the first output of the capacitor 23, the second terminals of the capacitors are combined and connected to the first output of the current-limiting resistor 19 - a chain of series-connected correction resistor and at least one zener diode is connected in parallel to each capacitor.

Fig. 3 shows the volt-ampere characteristic 1 (I – V) of the zener diode, 2 (I – V) of the correction resistor, 3 (I – V) of the corrected zener diode, Short-circuit is the correction voltage equal to the amplitude of the overvoltage of the network.

The device operates as follows.

When switching on, turning off, and reversing electric devices, such as induction motors, in multiphase networks, switching overvoltages with steep decimicrosecond edge durations (up to 0.1-ms) are applied, which are applied to the terminals of the electric device and if there is no protection in several times the amplitude of the phase voltage of the supply multiphase network.

In the event of switching overvoltages, positive or negative polarity, respectively exceeding the positive or negative constant voltage on the dynamic memory elements, the diode 15 or diode 16 is shifted in the forward direction, damping the corresponding winding of the electrical apparatus, reducing the amplitude of the switching overvoltages. A current-limiting resistor 19 reduces the damping of the winding by limiting the current through the diode.

Dynamic memory elements provide positive and negative levels of the beginning of surge damping (setting the operation of the protective circuit). The voltage at the capacitor 20 is held by the zener diode 22. the voltage at the capacitor 23 is the zener diode 25 in the working state

the entire voltage range of the supply network. Correction resistors 21, 24 provide the necessary slope of the current-voltage characteristic of the corrected zener diode of the protective element and the operation of the corresponding zener diode 22, 25 in the stabilizing sections at all overvoltages in the supply network.

Claims (1)

The claims Device for protection against switching overvoltages of electrical apparatuses in multiphase networks, containing protective circuits according to the number of network phases, each of which consists of two diodes and is equipped with input terminals for connecting to the terminals of the protected electrical apparatus, the anode of the first diode and the cathode of the second diode combined and form the first input output of the circuit, characterized in that, in order to increase reliability by expanding the protection capabilities in terms of voltage and speed, the diodes are made pulse high-frequency, the first and second dynamic memory elements of positive and negative levels of operation of the protection are sequentially included in each protective kidney, respectively, while the cathode of the first diode through the first, the anode of the second diode through the second dynamic memory elements are combined and connected to the second input terminal of the protective circuit through a current-limiting resistor, each of the dynamic storage elements consists of a capacitor connected to its terminals, connected in series correction resistor and at least one zener diode connected in parallel to the capacitor, moreover, in the first memory element, the zener diode is connected by a cathode to the output of the corresponding capacitor connected to the cathode of the first diode, in the second memory element the zener diode is connected to the anode of the second diode. 9 0 26 FIG 2 fig.Z