SU31315A1 - Variometer - Google Patents

Description

For proper operation of transmitters with independent excitation, it is very important to ensure the absence of unwanted communications between the individual elements of the transmitter. Such connections include capacitive coupling, due to the capacitance of the grid-anode of the generator lamps, which is neutralized by known circuits. The correct operation of these latter schemes is possible when there are no other side connections, for example, inductive coupling. In low power transmitters, these side connections are destroyed by shielding. But when designing high-power transmitters, the elements of the latter are placed fairly freely over large areas, and then the distance between the individual stages of the transmitter, i.e. the size of the entire transmitter is determined to a significant extent by the maximum allowable side inductive links. As is well known, such side bonds can be greatly reduced by using the method of introducing the cross links (Entkoppelung). But these methods can not be used in those cascades of the transmitter, where there are adjustable variometers, since 342

any position of the variometer corresponds to another configuration of the field, and consequently, the magnitude of the side connection will also change.

Such a variometer is proposed, in which, according to the invention, two symmetric windings with identical amperages, which create magnetic fields directed towards each other, are located on both the moving and the stationary parts.

The drawing shows a schematic of the proposed variometer. Its windings are so located that only between closely located parts of the winding a certain mutual induction takes place, which allows for the possibility of changing the magnitude of the variometer self-induction. When turning the moving part of the variometer, the magnetic field away from the coils is almost absent and this will take place at any position of the variometer coils. It can be shown that changes in the self-induction of such a variometer are limited to the angle of rotation of the movable part to 90, since the initial position is already reached due to the symmetry at 180. It can be seen from the drawing that the mutual induction of L / s will always be greater than M,

: attach the mobile part of the variometer in such a way that the MS will act in the direction of increasing self-induction (as shown in the drawing). But, by changing the direction of the current in the moving part, one can get a decrease; self-induction. In the first case, the values of self-induction, which can be obtained, are within:

(/, 1-М1 +) Yuah 2 (L, -M, + A - M, -f M, - M,),

and in the second case we have:

(L, -Mi +, -M ,,) (L ,,).

In percentage terms, the magnitude of the change in self-induction is different in both cases, and the second case is usually used. In order to obtain large self-induction variations, it is possible to switch the moving coil during the transition

through the neutral zone by means of a switch. In this case, you can get the values of self-induction

min 2 (Li - M + LZ - Mz -f M)

step 2 (i) - MI + 2 - + Mz - M, i.

If even greater changes of self-induction are required, such variometers can be connected in parallel.

The subject of the patent.,

Claims (2)

1. A variometer, derived from the fact that, both on the mobile and fixed parts, there are two symmetric windings LI TL LZ with the same multi-turns, which create magnetic fields directed towards each other. 2. The form of performance of the variometer according to claim 1, characterized in such an inclusion that the current in the moving coil changes its direction when passing through the neutral zone.