RU2158476C2 - Negative surge protective gear responding to inductive load disconnection - Google Patents

Abstract

FIELD: protection of inductive load power circuits against voltage surges during their disconnection. SUBSTANCE: protective gear has power supply, contactless switching device whose input is connected to positive pole of power supply, inductive load connected between output of contactless switching device and negative pole of power supply, diode, and voltage regulator diode. Diode and voltage regulator diode are connected in series between negative pole of power supply and control input of contactless switching device, cathode of voltage regulator diode being connected to negative pole of power supply and diode cathode, to control input of contactless switching device. EFFECT: improved reliability and reduced size of protective gear. 1 dwg

Description

 The invention relates to the field of electrical engineering and can be used to protect power circuits of the inductive load from surge emissions during shutdown.

 A device for suppressing inductive throw is described in the scientific publication P. Horowitz, W. Hill. The art of circuitry. M .: Mir, 1993, 4th edition in 3 volumes, vol. 1, p. 60, containing the inductive load and the switch in series, a power source connected to the output of the switch by a minus sign and an inductive load input by a plus, in parallel with which an inductive throw blocking diode is connected, connected by the anode to the switch input and the cathode to the power source plus.

 There is also a device for suppressing inductive throw described in the scientific publication P. Horowitz, W. Hill. The art of circuitry. M .: Mir, 1993, 4th edition in 3 volumes, vol. 1, p. 60, containing the inductive load and the switch connected in series, a power supply connected to the output of the switch by a minus and an inductive load by a plus, in parallel with which an RC damping circuit is connected.

 A disadvantage of the known devices is to delay the attenuation of the current flowing through the inductive load.

 Closest to the technical nature of the present invention is a device for overvoltage protection of the switching apparatus according to a. with. N 585574, 1977, IPC H 02 H 9/04, comprising a power source, a non-contact switching device, the input of which is connected to the positive pole of the power source, an inductive load connected between the output of the non-contact switching device and the negative pole of the power source, a chain of a reverse-connected diode and a resistor designed to connect to the load terminals, a dynistor analogue consisting of a thyristor and a zener diode included in its control circuit, and a second resistor connected th between the thyristor cathode and the main resistor, and the zener diode cathode is connected to the cathode of the diode.

 However, the known device has several disadvantages, namely low reliability, large dimensions and high cost, due to the use of powerful radioelements, which must withstand the current equal to the current flowing through the inductive load, and delaying the attenuation of the current flowing through the inductive load, since the decay rate This current is proportional to the voltage at the inductive load.

 The proposed technical solution is aimed at creating a device for protection against negative emissions when disconnecting an inductive load, which has high reliability and small dimensions. To do this, the device for protection against negative emissions when disconnecting the inductive load contains a power source, a contactless switching device, the input of which is connected to the positive pole of the power supply, an inductive load connected between the output of the contactless switching device and the negative pole of the power supply, diode and zener diode, zener diode and the diode is connected in series between the negative pole of the power source and the control input of a contactless switching device Twa, wherein the negative pole of the power source is connected the cathode of the stabilizer, and to the control input of the switching device of non-contact - the cathode of the diode.

 The drawing shows a circuit diagram of the device.

 The negative emission protection device when the inductive load is switched off contains a non-contact switching device made in the form of a key 1, for example, a transistor, between which the control input and output include a resistor 2, diodes 3, 4, 5 and a zener diode 6. The input of key 1, which is the contactless input a switching device, connected to the positive pole 7 of the power source (not shown in the drawing), and the output of key 1 (output of a contactless switching device) is connected via inductive load 8 to the negative nomu pole of the power source 9. The stabilizer 6 and the diode 5 are connected in series between the negative pole 9 of the power source and the control input of the key 1 (non-contact switching device), while the zener diode 6 is connected by a cathode to the negative pole 9 of the power source, and the anode to the anode of the diode 5, the cathode of which is connected to the control key input 1. Between the input and output of the contactless switching device, as well as between the poles 7 and 9 of the power source can be installed, as shown in the drawing, back-connected diodes 3 and 4, respectively.

 The device protects against negative emissions when disconnecting the inductive load operates as follows.

 From the control device, the input of key 1 (contactless switching device) receives a power-off signal for inductive load 8. At load 8, the polarity of the voltage changes abruptly (shown in parentheses in the drawing), as a result of which key 1 is switched on again and the current flowing through inductive load 8.

 The use of this device allows to reduce the dissipated power on the diode 5 and the zener diode 6 by increasing the utilization rate of the key 1, by involving it in the circuit to limit the negative surge voltage of the load, and, therefore, increase the reliability. The use of low-power semiconductor devices reduces the size and cost of the device.

Claims (1)

 A device for protecting against negative emissions when an inductive load is disconnected, comprising a power source, a non-contact switching device, the input of which is connected to the positive pole of the power source, an inductive load connected between the output of the non-contact switching device and the negative pole of the power source, diode and zener diode, characterized in that the zener diode and the diode are connected in series between the negative pole of the power source and the control input of the contactless switching a device, and a zener diode cathode is connected to the negative pole of the power source, and a diode cathode is connected to the control input of a contactless switching device.