SU22108A1 - Device for controlling the frequency of electromagnetic oscillations - Google Patents

Description

The present invention consists in a special form of the device for controlling the frequency of electromagnetic oscillations using magnetostrictive resonators.

In FIG. 1 shows a device diagram; FIG. 2 and 3 is a diagram of the modified tia device of FIG. one; FIG. 4 is a diagram of a device made in the form of a bridge; FIG. 5,6,7 - other modifications of the device PA of FIG. one.

An electric circuit K, consisting of self-induction coils Lk, Lk and C intermediate circuit / C, is connected to a generator G with electrical oscillations (Fig. 1), whose frequency is controlled, inductively coupled to the current indicator /, for example, a heat meter, a detector with a galvanometer, a lamp voltmeter or etc. Coils /, i, Lii, and Z, a, /.4 are wound in pairs one on the other. Inside the first pair of coils / A, Izi, a magnetostriction core (resonator) R is placed, to oscillate which is served by the alternating magnetic field of the coil Lk. During deformation of the resonator, the intensity of its magnetization changes, which causes the appearance of

The electromotive force in the coil Li, To compensate for the current arising in the coil Li (due to inductive coupling with the coil A, Ac), is a system of respectively switched on self-induction coils Lk, Li., compulsory), coils ZA ,, / -Л, and Z.Zi Z, 4 must have the same number of turns, and a core made of the same material as the resonator / must be placed inside the second coil Lk ,,, LL; the dimensions of this rod should be chosen so that its natural frequency does not lie within the working frequency range. With strong capacitive coupling of the coils Lki, L i and Lk, Liz, electrostatic shielding can be applied between them.

Due to the small attenuation of the magnetostrictive resonators, the resonance between the generator frequency and the natural frequency of the resonator R will be rather sharply observed by the current indicator, /. The intermediate circuit jfT devices can be made in the form of two separate communication circuits 1 and 2 (Fig. 2), in one of which a magnetostriction core R is inserted,

3. The modification of the device according to claim 1 is characterized by using, instead of two coils, two communication circuits 1.2 with a generator, one of which has a magnetostrictive core /.

4. Modification of the device according to claim 1, characterized in that two windings are superimposed on the magnetostriction core, one of which is connected to the intermediate circuit K, and the other with the indicator / current.