SU1390700A1 - Device for protecting against pulse overvoltages of electric installation - Google Patents

Abstract

The invention relates to electrical engineering and is intended for use in power supply circuits of electrical installations. The purpose of the invention is to increase reliability by increasing the current carrying capacity and stabilizing the residual voltage. When an overvoltage pulse occurs in the line (L) 4 connecting the installation 2 to the source 3, the overvoltage is limited at the power supply (VP) of the installation 2 by the overvoltage limiter 6 connected between the VP in series with the current sensor (D) 10. If the duration of the current wave through the limiter 6 exceeds the set time of the relay (P) 8 time, the signal from the output D 10 through the threshold element (E) 7 and P 8 will go to the control input of the switching device (KA) 9 connected between the VP in series with the limiter 5 The SC 9 opens, connecting the limiter 5 to the VP. As a result, almost all the accompanying current passes from the circuit of the limiter 6 to the circuit of the limiter 5, which makes it possible to increase the current capacity of the device with a small input capacitance and high speed. 1 il. i (L

Description

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The invention relates to electrical engineering and is intended for use in electrical circuits.

The purpose of the invention is to increase reliability by increasing the current carrying capacity and stabilizing the residual voltage.

The drawing shows a diagram of the device

Device 1 For protection against impulse overvoltages of electrical installation 2, inputs of a pitcher g connected to source 3 via power supply line 4, with

It is necessary to limit the duration of the flow of current through the limiter 6. This is achieved by transferring the current from the overvoltage limiter 6 to the limiter 5, after the limiter 6 has exhausted its capacity. If the duration of the current wave through the limiter 6 exceeds the set value of the relay 8 time, the signal from the output of the current sensor 10 will pass to the control input of the switching device 9, including the latter. Relay setting 8

holds the first 5 and the second 6 time limits are selected from the condition of overvoltage tolerances, threshold element 7, time relay 8 and switching device 9 connected between terminals for connection to the power inputs

The duration of the flow of the accompanying current through the overvoltage limiter 6. The threshold element 7 excludes the passage of the signal from the electrical installation 2 in series with the 20 and the current sensor 10 to the control

the first limiter 5 overvoltage, and the output of the threshold element

the input of the switching device 9 when flowing through the limiter 6, the threshold of the element 7 is chosen from the condition of the detuning from the current set

7 through the time relay 8 is connected to the control input of the switching device 9, the device has a sensor 35 ki through a limiter 6 at maximum 10 current connected between the terminals of the maximum operating voltage of the source

the input of the switching device 9 when flowing through the limiter 6, the threshold of the element 7 is selected from the condition of the current leakage connecting to the power supply of the electric installation 2 in series with the second limiter 6 overvoltage.

The output of current sensor 10 is connected to the input of threshold element 7, wherein the first overvoltage limiter 5 is applied to a residual voltage that is less than the residual voltage of the second overvoltage limiter 6.

The device works as follows.

When a pulse overvoltage occurs in the supply line 4 (for example, as a result of a lightning strike), it is limited at the power input of the electrical installation 2 by the overvoltage limiter 6 at the level of the residual voltage of the limiter 6. The current is limited by the internal resistance of the overvoltage source as well as its own line 4, Accompanying flows through the limiter 6 i overvoltage

a current that is detected by the current sensor 10.

The overvoltage limiter 6 has a capacity characterized by the flow of a current of a certain duration through it. When limiting overvoltages, the duration of which exceeds the permissible, limiter 6 may fail. To prevent this lack of time, it is selected from the condition that

The duration of the flow of the accompanying current through the overvoltage limiter 6. The threshold element 7 excludes the passage of the signal from the outputs through the limiter 6 at the maximum operating voltage of the source

the input of the switching device 9 when flowing through the limiter 6, the threshold of srabatshan element 7 is selected from the condition of the detuning from the leakage current

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3 meals. After switching on the switching device 9, the overvoltage limiter 5 is connected to the power inputs of the protected electrical installation 2, in view of the fact that the residual voltage of the overvoltage protection limiter 5 is less than the residual voltage of the limiter 6, the voltage at the electrical installation 2 inputs abruptly decreases to the residual voltage the voltage limiter 5, As a result, almost all the accompanying current will transfer from the limiter circuit 6 overvoltages in the circuit of the limiter 5, After that, through the limiter 6 flows Only the leakage current from the residual voltage of the limiter 5. The switching device 9 is turned on after reducing the voltage to the nominal supply voltage, since the leakage current of the limiter 5 is less than the holding current of the switching device 9 (thyristor, triac). - time-consuming operation of overvoltage limiters 6 and 5, which increases the capacity of the device,

Various types of limiters can be used in the device, for example, a zener diode can be used as a limiter 6, which has a high speed

and low capacitive conductivity, but low bandwidth. As the limiter 5 you can use a varistor, which has a large bandwidth, but also a large capacitive conductivity. Such a combination of limiters provides a device with high speed, low capacity and high throughput. A device with such characteristics is advisable to use in the information lines, where the use of devices with small capacity is permissible. The capacity of the device in this case is determined only by the capacity of the overvoltage limiter 6, since the other limiter is turned on through the switching device which is switched off in the stationary mode.

This embodiment improves the protective characteristics of the device.

Claims (1)

Claim Device for protection against impulse overvoltages of electrical installations. Compiled by O. Orlov Editor S. Patrusheva Tehred A. Kravchuk. Order 1776/51 Circulation 650 VNIIPI USSR State Committee for inventions and discoveries, 113035, Moscow, Zh-35, Raushsk nab., 4/5 power inputs connected to the source through a power line containing the first and second overvoltage limiters, threshold element, time relay and switching device connected between the voltages for connecting to the electrical installation power inputs in series with the first overvoltage limiter, the output of the threshold element being connected via the time relay to the control input of the switching apparatus, characterized in that, in order to increase reliability by increasing the current carrying capacity and stabilization residual voltage, a current sensor is inserted in the device, connected between the terminals to be connected to the electrical installation power supply terminals in series with the second overvoltage suppressor, the output of the current sensor is connected to the input of the threshold element, the first overvoltage suppressor being made with a residual voltage that is less than the residual voltage the voltage of the second surge limiter. Proofreader L. Pilipenko Subscription