SU141183A1 - Differential Transformer Magnetic Amplifier - Google Patents

Description

A subject of the present invention is a differential transformer magnetic amplifier, which allows varying the magnitude and phase of the output AC voltage.

A feature of this amplifier is the use of eight secondary identical windings in it, superimposed on four cores and connected in two bridge cross circuits, each containing four windings, sized on two cores. In the bridge diagonal, formed by the connection points of the winding terminals of the same name (beginning - beginning or end - end), valves are turned on, and the diagonal of two bridges formed by the connection points of opposite terminals (start - end) are connected in series with the load resistance.

This embodiment of the magnetic amplifier allows positive feedback on even harmonics without the use of separate windings.

The drawing is a schematic diagram of the proposed differential magnetic amplifier consisting of two MU and MU amplifiers, each having two cores.

The amplifier MU has two primary windings WH and W, four secondary windings, Wzs, 23 and W2 and a control winding Wynp amplifier MU - respectively, two primary windings Wn and - Wi2, four secondary windings W2i, 22, 23 and W and a control winding. The four secondary windings of each amplifier form a bridge crossover circuit. The diagonal of the bridge formed by the connection point of the ends of the windings IFgi, 24 and the connection point of the windings began and W23 included valve B. Accordingly, the diagonal of the second bridge formed by the connection point began windings Wai and 24 and the ends of the windings I Wzz included valve B. Other two

М 141183-2 diagonals of each of the two bridges, formed by the junction points of different pins (beginning - end) are connected in succession with the load resistance ZH-. With such switching on of the secondary windings of the MU and MVz amplifiers, the voltages transformed into them are equal in magnitude and directed oppositely, with the result that the load current is zero and the current consumed from the network is equal to the idling current of the amplifier. When the control signal U is supplied, one of the amplifiers (MVi or UIU) opens, and the second remains closed, which causes the appearance of a voltage output, the phase and amplitude of which are determined by the polarity and magnitude of the control signal. The discovery of one of the amplifiers is due to the fact that in the presence of a control signal of direct current in the magnetic flux of each core even harmonics appear. Induced in the secondary windings of the amplifier e. d. even harmonics in the circuits formed by the windings W2, (or Wzi, 22) and the valve B (or B) "as well as the windings, 24 (or Wzz, W2) ii with the same valve B (or B), the current rectified even harmonics , resulting in positive feedback on even harmonics. In this case, the flow created by the rectified current of even harmonics is summed with the flow created by the load current, which, in turn, causes the occurrence of complete internal feedback in each core, and the full rectified load current flows through the valve. Thus, a combined feedback (internal and even harmonics) is carried out in the amplifier, which provides a high gain circuit. The scheme proposed by the authors has industrial utility and can be recommended for controlling two-phase asynchronous reversing motors.

Subject invention

Differential transformer magnetic amplifier with a change in the magnitude and phase of the output alternating voltage, characterized in that, in order to realize positive feedback on even harmonics without using separate windings, eight secondary windings connected in two bridge cross circuits are located on the four cores, each of which contains four windings placed on two cores, and in the diagonal of bridges formed by the connection points of the winding terminals of the same name (started o - the beginning or end of the end), the valves are turned on, and the diagonals of the two bridges, formed by the points of connection of opposite terminals (beginning - end), are connected in series with the load resistance.

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