SU115771A1 - Differential Transformer Magnetic Amplifier - Google Patents

Description

The present invention relates to differential magnetic amplifiers with varying magnitude and phase of an output alternating voltage with varying magnitude and polarity of a control DC signal.

Differential magnetic amplifiers are known in which, in order to increase the power gain, positive feedback is applied to the voltage in the output windings of the amplifier using separate rectifiers and individual positive feedback windings.

A distinctive feature of the invention is that positive feedback is performed in the secondary amplifier circuit by applying internal feedback. The advantage of the differential transformer amplifier according to the invention is that there are no separate windings of positive feedback, as well as bias windings, as a result of which the magnetic amplifier is simplified and its gain is increased.

A schematic diagram of the amplifier is shown in the drawing.

The amplifier consists of four toroidal cores /, and on each of them there are primary windings 2 and secondary windings 3. The primary windings of toroids are connected in series and according to them, secondary-pairwise and oppositely. Two control windings 4, of which each spans two toroids, are connected in series and oppositely.

In the secondary winding circuit, valves 5 are connected, through which internal feedback is carried out

In the absence of a control signal, the mains voltage is distributed equally on the primary windings of the amplifier, with the result that the voltage at the output of the amplifier is zero.

When a signal is applied to the control windings of the amplifier, the magnetic permeability of the iron of the core changes, and in those cores No. 115771 2 -. -,

Kah, where the strength of the nojisi generated by the control winding coincides with the strength of the field created by internal feedback, the magnetic permeability decreases; in the same cores where these intensities are subtracted, the magnetic permeability increases. As a result, the inductive resistance of the primary windings located on low magnetic permeability cores decreases and, conversely, the resistance of windings located on cores with a high magnetic permeability increases and almost all the voltage applied to the cervical windings falls on them. Therefore, in the secondary windings, located on the cores iC with a large value of magnetic permeability, a voltage much higher in magnitude than in others will be transformed.

And since the secondary windings working in this half-period are connected in opposite directions, the voltage at the output of the amplifier will be equal to the difference of the voltages transformed in these windings.

A change in the magnitude of the control current leads to a redistribution of voltages between the secondary windings and, consequently, to a smooth change in voltage at the output of the amplifier.

When the polarity of the signal changes, the magnetic state of the cores changes in such a way that in those cores in which the stresses of the constant fields are added up, these stresses are subtracted and, conversely, the result is changed by 180 wives amplifier.

Subject invention

Differential transformer magnetic amplifier with varying magnitude and phase of the output voltage, characterized in that, in order to increase the gain and simplify the amplifier, positive feedback is achieved by using internal feedback in the secondary circuit of the amplifier.