SU585574A1 - Device for overvoltage protection of switching apparatus - Google Patents

Description

but a diode and a resistor, designed to be connected to the load terminals, and a dynistor analog consisting of a back-connected thyristor and a zener diode: included in its control circuit & 2. However, the direct resistance of the included thyristor is small, therefore the self-modulation current The inductive load of the thyristor, which begins to flow through the circuit, decreases slowly and increases the tripping time of the electromagnet. This reduces the acceptable frequency of operation of electrical devices and the efficiency of their controlled production processes. In addition, the circuit from the diode, the sgpipngron, and the resistor, being connected directly to the polarity of the supply source when the load is turned on, begins to consume additional power, which reduces the efficiency of this circuit. To extend the range of loads by constant time and current consumption, the proposed device for protection against overvoltages of the switching apparatus when disconnecting an inductive load in the DC circuit is additionally inserted into the resistor connected between the thyristor cathode and the main resistor, and the zeneriode cathode connected to the cathode diode. On the drawing given the scheme of the proposed device. A chain of a reversely connected diode 1 with a resistor 2 shunts inductive load 3. The negative pole of the power source through diode 1, Zener diode 4, controlling the transition of the thyristor 5, and the resistor 6 is connected to a contactless switching device 7. Thyristor 5 Zener diode 4 is a distorist with the turn-on voltage equal to the voltage & stabilization of the Zener diode 4, since the direct voltage drop across the diode 1 in the circuit of the elements constituting the AE (the analogue analog can be neglected. The device works as follows When the contactless switching device 7 is turned on, the current passes to the load 3 and turns it on, and the back-on diodes 1 and the thyristor 5 prevent the current from passing to the other elements of the device.When disabling the 7 EMF of self-induction load 3, a surge of overvoltage occurs in it energy stored in the inductance. If the time constant or the load current is small, the overvoltage amplitude does not reach the voltage value of the breakdown of the zener diode 4, and the self-induction current decays in the circuit; diode 1 - resistor 2 - load 3. At the same time, the resistance value of resistor 2 provides the minimum guaranteed disconnection time for small loads. When the time constant of the load is high or near the electromagnet, a large current is consumed, the voltage drop from the voltage across the resistor 2 increases to such an extent that the amplitude of the overvoltage reaches a value sufficient to operate a dynistor anapog, i.e. for breaking Zener diode 4 and turning on the thyristor .5. The switched on thyristor 5, a shunt of the stabilitron 4, disconnects it and sends an additional self-induction current to the resistor 6, helping the resistor 2 to dissipate the energy stored in the inductive load 3. At the same time, the reduced resultant resistance of these resistors also provides a regulated disconnecting time, since with increasing load current, the increasing holding current prevents an increase in the disconnection time of electromagnetic devices. In this case, the resistor 6 performs another positive function at the stage of the breakdown of the Zener diode 4 helps to limit the peak current in it and the control transition of the thyristor 5, increasing the reliability of operation of these elements. Thus, during the operation of the proposed device, it automatically optimizes with the ratio between the amplitude of overvoltage, permissible for a contactless mutation device, and the load off time. This allows the introduction of an overvoltage protection device into the design of the output device, i.e. Eliminate the external installation of protective elements. The use of such an overvoltage protection device in a contactless switching device expands the range of loads for a constant time and current consumption, increases the frequency of operation of electrical devices and reduces operating costs. Formulation device An overvoltage protection device for a switching device when an inductive load is disconnected in a DC circuit, containing a chain of a reverse-connected diode and a resistor for connecting to the load terminals and a dynistor analog consisting of a reverse-connected thyristor and a Zener diode. included in its circuit / control, kicking off. so that, in order to expand the range of loads by constant time and current consumption, a second resistor, connected between the thyristor cathode and the main resistor, is additionally introduced into it, with the cathode of the stabilitron connected to the cathode of the diode. Sources of information taken into account in the examination: 1. Transistor contactless elements Hbje Logic-series, Brief description of operating instructions, CNTI, (Ali Nin, 1971, p. 49, Fig. 44. 2. Patent of Great Britain No. 1031953, cl. H 2 H, 1964,

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