SU792414A1 - Device for overvoltage protection of electric apparatus - Google Patents

Description

one

The device relates to electrical engineering, namely, devices for protecting electrical installations from overvoltages.

Devices are known for protecting overvoltage direct-current electrical installations used in converter equipment 1.

These devices contain a five-phase rectifying bridge connected to the power supply and to the electrical installation load and a resistor-bounded capacitor, which are connected to the DC terminals of the rectifying bridge, and protective equipment.

The disadvantage of these devices is that, by the principle of their operation (bypassing the power source or load with a capacitor), the power source and the load must have an increased dynamic resistance. Another disadvantage is that with a long pulse overvoltage or the presence of a pack of short overvoltage pulses the capacitor is charged to approximately the amplitude of the overvoltage pulse and the electrical installation is protected.

Of the known devices for protecting a direct current electrical installation from overvoltages, the closest to the technical essence is a device for protecting a direct current electrical installation from overvoltages 2.

This device contains a transistor whose collector-emitter junction is connected in series to

About tse1: electrical installation, and the base is connected through a divider, the voltage to the positive power supply source bus of the electrical installation, controlled valve, the anode of which is connected to the midpoint

1 voltage divider, and a cathode to the minus bus of the electrical circuit and a zener diode connected to the control electrode of the valve and resistor connected in series to

20 electrical circuit.

When overvoltage occurs in the electrical installation circuit, a zener diode is punched and the controlled valve turns on, which connects the middle

25 point voltage divider to the negative busbar electrical circuit. The transistor closes and breaks the power supply circuit of the electrical installation. With the disappearance of overvoltages in the power supply circuit of an electrical installation, controlled by

the valve remains in the on state, and the electrical installation remains disconnected from the power source. To connect the electrical installation to the power source, it is necessary either to turn off the electrical power source of the electrical installation, and then turn it on, or break the load circuit of the controlled valve.

The known device impairs the stability of the voltage on the electrical installation, since a resistor is connected in series with the electrical installation circuit, in combination with the resistance of the electrical installation, is a voltage divider. When the electrical installation resistance changes (for example, switching the integrated circuits), the voltage on the electrical installation changes by the amount of voltage variation on the resistor connected in series of the electrical installation circuit, moreover, the device has insufficient efficiency because the part of the energy is dissipated on the resistor included in the circuit. and relieves overvoltages only after it has been applied to the electrical installation, since the zener diode in the control electrode circuit of the controlled valve is connected directly to the electrical installation. This reduces the reliability of the device.

The aim of the invention is to contactlessly start the device after the disappearance of overvoltages and increase the reliability of the device.

This goal is achieved by introducing a LAN circuit in the device for protecting the direct current electrical installation from overvoltages, which is connected between the minus bus of the electrical installation and the control electrode of the controlled valve and a capacitor connected in parallel to the controlled valve, the zener diode is connected between the midpoint The CS circuit and the positive bus of the power source of the electrical installation, and the capacitor is connected in parallel to the controlled valve, with triode lockable tiris used as the controlled valve Op.

The drawing shows an electrical circuit of a device for protecting a direct current electrical installation from overvoltages.

A device for protection of a DC overvoltage device includes a transistor 1, whose collector-emitter junction is connected in series to an electrical installation circuit, a voltage divider consisting of resistors 2 and 3, through which the base of transistor 1 is connected to the positive power supply bus, control The gate valve is a triode lockable thyristor 4, the anode of which is connected to the midpoint of the voltage divider, and the cathode is connected to the minus bus of the electrical installation, the RC circuit consisting of a resistor 5 and a capacitor 6 is turned on and between the negative bus bar of the electrical installation and the control electrode of the triode lockable thyristor 4, a zener diode 7 connected between the midpoint of the RC circuit and the positive bus of the power supply of the electrical installation, a capacitor 8 connected in parallel with the triode thyristor 4 and the electrical installation 9.

When the power source is turned on, transistor 1 opens with a positive voltage through the bluetooth resistors 2 and 3 (emitter follower mode)

5 and the electrical installation 9 is supplied with the voltage of the power source,

Triode lockable thyristor 4 is turned off, as the zener diode 7 is closed (the breakdown voltage of the zener diode 7 exceeds the supply voltage).

When overvoltage occurs, the Zener diode 7 is punched and the capacitor B is charged along the circuit: the positive power supply bus, the open Zener diode 7, the capacitor 6, the control electrode junction — the cathode of the triode lock thyristor 4,

the minus bus of the power supply of the electrical installation 9. In this case, the triode lockable thyristor 4 turns on and connects the midpoint of the resistors 2 and 3 to the minus bus of the power supply of the electrical installation. Transistor 1 closes and shuts down the electrical installation 9 from the power source. Simultaneously with the inclusion of the triode lockable thyristor 4, the capacitor 8 is charged along with

resistors 2 and 3, which forms a T-shaped filter, which, at the time of switching on the transistor lockable thyristor 4, removes the overvoltage from the base of transistor 1. As a result, the overvoltage pulse to the electrical installation 9 does not pass. After switching on the triode lockable thyristor 4, the capacitor 8 is discharged through it. When overvoltage disappears

Zener diode 7 is closed, capacitor B is discharged along the control electrode-cathode circuit of triode lockable thyristor 4, resistor 5. By discharge current of capacitor 6, triode lockable thyristor 4 is turned off.

Transistor 1 is energized and the source voltage is applied to the electrical installation 9.

Thus, in this device automatic

starting after the disappearance of the overvoltage, which is ensured by the introduction of an RC circuit, the use of a triode lockable thyristor and the connection of a zener diode to the positive source

Claims (2)

nutrition Claim 1. Device for protection of a direct current electrical installation against overvoltages, containing a transistor whose collector-emitter junction is connected in series to the electrical installation and the base is connected via a voltage divider to the positive power supply bus of the electrical installation, controlled valve, the anode of which connected to the midpoint of the voltage field, and the cathode to the negative bus circuit of the electrical installation, and a zener diode, characterized in that, in order to start the device without contact after the disappearance of voltage and reliability, a capacitor is inserted in it and an RC circuit is connected between the minus bus of the electrical installation and the control electrode of the controlled valve, the zener diode is connected between the midpoint of the RC circuit and the positive power supply bus of the electrical installation, and the capacitor is connected in parallel with the controlled the valve. 2. A device according to claim 1, characterized in that, as a controllable valve, a lockable thyristor is connected. Sources of information taken into account During examination 1.Patent SYAN 3536984, cl. 231-11,. 2. USSR author's certificate 6082-19, cl. H 02 H 3/08, 1977. but P