DE581839C - Arrangement for practicing the method for periodic, fast changing (wobbling) of transmitter waves - Google Patents

Description

GERMAN EMPIRE

ISSUED ON
AUGUST 3, 1933

REICH PATENT OFFICE

PATENT LETTERING

JVe 581 CLASS 21a ⁴ GROUP

Change (wobble) of transmitter waves

Addition to patent 560

Patented in the German Empire on August 28, 1929 The main patent started on August 14, 1929.

In certain methods of wobbling shortwave transmitters, capacitors are used applied, the capacity of which is changed periodically. Is there such a capacitor e.g. in the control circuit, the frequency will fluctuate within certain limits, such as it is intended with the wobble.

As such capacitance variators are capacitors with rotating or else with oscillating assignments have been proposed.

The latter can be implemented in various ways, e.g. B. so (in the main patent 560912 this has been suggested) that.

a tuning fork with insulated metal plates according to FIG. 1 or FIG. 2 is provided, the plates α and b representing the two assignments. From both figures it is easy to see that when the tuning fork is vibrating

(e.g. caused by electromagnets) the capacitance changes periodically.

If certain requirements are placed on the lateral course of the change in capacitance, then for this purpose the boundary lines aa, β-β (Fig. 1) can be given a suitable shape, possibly the plates a and b can be designed as curved surfaces.

However, the arrangements described will not always be applicable in practice, because both the absolute capacity values and the capacity changes are too small.

One can therefore expand the arrangement according to FIG. 1 in such a way that, instead of a parallel pair of plates, several pairs of plates are arranged, as is shown schematically in FIG. As soon as the tuning fork is caused to vibrate, the two plate groups α and b vibrate in and out. The plates α _υ a ₂ , a _s ... are electrically connected to one another and form one assignment of the capacitor, the plates b _v b ₂ , £> 3 ... the other.

For constructive reasons, however, it will not be possible to exceed certain limits here either. In particular, one is very tied to the dimension χ (Fig. 3), since this plate width depends on the mechanical oscillation amplitude, which is not great even with large tuning forks, especially if the frequencies are not very low. The number of pairs of plates cannot be increased to a large extent in order not to make the arrangement sensitive in a mechanical relationship. From similar

*) The patent seeker indicated the following as the inventors:

Mendel Osnos and Rudolf Gürtler in Berlin.

Union reasons you will not be allowed to make the length of the plates aa, β β (Fig. ι) too large.

According to the invention, however, there is an immediate multiple increase in capacity by arranging several of the plate arrangements according to FIG. 3 not one above the other, but side by side, so to speak several parallel grids are used, <o as sketched in FIG. 6. Figures 4 and 5 show this arrangement with only one pair of grids.

By training the assignments as a grid you can use a relatively accommodate a larger capacity in a small space and yet achieve sufficiently large changes in capacity.

In the practical execution one can

make the grid so that you can z. B. glues metal foil strips a, α ', α "... onto thin mica plates and conductively connects the individual strips to one another.

In the arrangement according to FIG. 6, the tuning fork becomes even with small amplitudes get enough large capacities and capacity changes so that you can get tuning forks higher frequencies (which usually have small amplitudes) can apply what is desired for the wobble will be.

If, however, a wobble frequency that is several times higher is important, this can be achieved in practice by choosing the grating strips so narrow that each individual one sweeps over several gaps or strips of the counterplate during a tuning fork oscillation. Then the wobble frequency is a multiple of the tuning fork oscillation number.
Of course, one can in this case the plates with different numbers of metal strips \ ^r seen (z. B. in FIG. 7), so that during the time of a tuning fork vibration, the maximum capacity and the capacity variation not change.

Also, if necessary, one can adjust the width of the outer strips and gaps in this way make it smaller so that the frequency of the capacity fluctuations does not change (during it changes sinusoidally in grids with equally wide gaps and stripes).

Claims (3)

Patent claims: i. Arrangement for carrying out the method for the periodic, rapidly changing (wobble) of transmitter waves according to patent 560 912, characterized in that the two relatively oscillating occupancies of the capacitor are formed by two spatially parallel grids (α, α ', α ". .. and b, b ', b " ..., Fig. 4 and 5) are formed. 2. Arrangement according to claim 1, characterized in that each occupancy consists of several parallel and electrically connected grids. 3. Arrangement according to claim 2, characterized in that the spacing of the grating strips is small compared to the amplitude of the oscillation, so that the frequency of the fluctuations in capacitance is a multiple of the mechanical oscillation number of the system, and that the number of grating strips in the one grating group (b , b ₁ ..., Fig. 7) is greater than in the other, so that the maxima and minima of the capacitance remain approximately the same during the entire mechanical oscillation of the system. 1 sheet of drawings