SU457149A1 - Rotary Transformer - Google Patents

Description

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The invention relates to the field of automatic control and regulation.

Rotating transformers are known that contain a stator with two quadrature windings connected via an electric amplifier and a contact current collection device.

The disadvantages are the low reliability of the contact device and the difficulty of implementing a high electrical reduction ratio.

The purpose of the invention is to provide contactless and increase electrical reduction with the same number of pole pairs, and, consequently, to increase the reliability and expand the functionality of the device.

This goal is achieved by the fact that the output ends of the winding located on the rotor are connected between the CO-battles and the output of the amplifier is connected to the output terminals of the device, Fig. one.

The drawing shows an electrical diagram of the proposed device.

The rotating transformer contains on the stator the excitation winding 1 and two coaxially arranged windings: measuring 2 and compensating 3. On the pOTOipe winding 4 is located, short-circuited. Winding 2

connected to the input of the electronic amplifier 5, and the winding 3 to its output.

The output terminals of the rotating transformer are the output terminals of the power supply 5.

The device works as follows. When winding 1 is excited by an alternating current, a magnetic flux occurs in the longitudinal axis of the rotating transformer: the mat (fa, which induces a 4 emf in the winding).

E CgFa sin. y (take the number of pairs of poles). This emf creates a magnetizing reaction force of the rotor, the longitudinal component of which is compensated by the magnetizing force of the winding 1, and the transverse component determined from the relation:

P - / CrF Sin AC05U. To Sin 2a,

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on the transverse axis of the rotating transformer creates a flux Φ :: КЗРд, where Ki, K, Kg, ... are the proportionality coefficients, and.- the angle of rotation of the rotor of the rotating transformer.

The transverse magnetic flux f is measured by winding 2 connected to the input of amplifier 5, and compensated by winding 3 connected to the output of the amplifier. Since the magnitude of the compensating magnetic flux is proportional to the output current (voltage) of the amplifier 5 ,. then with compensation there is equality

out - sin 2a

or

6, /C.f/B sin 2a.

Obviously, for a myogolar rotary transformer (), the output equation will take the form:

OUT KUg Sin 2.

Subject invention

A rotary transformer containing a stator, on which the excitation winding is located, a measuring and compensating winding interconnected through an amplifier, and a rotor with a winding, characterized in that, in order to increase the reliability of the device and expand its functionality

capabilities, the output ends of the winding located on the rotor are interconnected, and the output of the amplifier is connected to the output terminals of the device.

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