SU792532A2 - Quick-action magnetic amplifier - Google Patents

Description

(54) QUICKLY MAGNETIC AMPLIFIER

This invention relates to magnetic amplifiers. According to the main ed. No. 202226 is known a magnetic amplifier with a DC output according to a full-wave rectifier circuit with a medium-point transformer operating on active-inductive load, in which the working winding of saturation throttles is connected in one shoulder of the rectifier 1 The disadvantage of this device is small efficiency and large dimensions. The purpose of the invention is to reduce the size and increase efficiency. This goal is achieved by the fact that the magnetic amplifier is equipped with a transistor connected in series with a choke, a diode-resistor circuit, an additional diode and a capacitor, and the choke is made with two additional windings, the first of which is bridged by a diode-resistor circuit, is connected in parallel with one of the transformer semi-windings additional diode and capacitor, and the second is connected to the base-emitter junction of the transistor. The drawing shows a diagram of the Ma Amplifier. If the core of the throttle 1 is fully saturated, i.e. the control signal on control winding 2 is zero, then transistor 3 is locked because its input will be bridged by the base winding 4 of the saturated core 1. Pulsing charging current of the capacitor 6 will flow through the starting winding 5, which will not transform into a winding winding, since the core 1 is saturated. On the load, the supply voltage through the open valve 7 is released in one of the half-periods. After measuring the polarity, the arm with the transistor will be locked, and since the inductive load resistance is much more active, the current in it must be kept constant, therefore due to the EMF of self-induction it closes through valve 7, which thus also remains open. In this case, the voltage on the load changes its sign. The constant component of the load current over a period is proportional to the minimum average current of the circuit and is inversely proportional to the inductive load resistance. The capacitor 6 is recharged in the circuit: valve 8, resistance 9.

If the signal from the control winding is such that the core of the throttle 1 is fully demagnetized, then with the working source polarity of the throttle 1 through the starting winding 5, the charging pulse current of the capacitor b flows, and in it the emf is induced, which is transformed into the base winding 4 so that which opens the transistor 3.

Through the half-open transistor 3, a load current will flow, which will induce an avalanche-like process in the collector winding 10 to unlock transistor 3 before putting it into naked mode. After the transistor is saturated, the supply voltage is released on the load. When the polarity of the power source is reversed, valve 7 will be opened, and another half power period will be released on the load. The mean current will be determined by the supply voltage of the circuit and the active resistance of the load. The inductor 1 is calculated from the control of the transistor 3, which will reduce the size, the collector winding 10 contains several turns, so the resistance

its small, and therefore, small losses in the amplifier.

Claims (1)

Invention Formula High-speed magnetic amplifier auth.St. No. 202226, characterized in that, for the sake of size and efficiency, it is equipped with a transistor connected in series with droplets, a diode-resistor circuit, an additional diode and a capacitor, and the choke is made with two additional windings, the first of which is bridged diode-resistor circuit, connected in parallel to one of the transformer semi-windings through an additional diode and a capacitor, and the second is connected to the transistor basic-emitter junction. Sources of information taken into account by the expert IZ 1 USSR author's certificate No. 202226, cl. H 03 F 9/00, 1969. m