DE207949C - - Google Patents

Description

IMPERIAL

O O

PATENT OFFICE.

The use of membrane capacitors in place of microphones in the wireless Telephony is known per se; thereby will. the. Membrane either directly through the Sound influences or indirectly as in the American patent 793650, according to which "It is made of iron and, on the other hand, belongs to a magnetic telephone. However, it is not quite possible to produce a capacitor with the help of a single membrane, which Is able to follow sound vibrations and absorb sufficient energy. One multiple division is therefore necessary; but that is with the direct influence through the sound for acoustic reasons (interference, etc.) impracticable, with indirect with a magnetic telephone it would be too cumbersome.

According to the present invention, the membrane is not activated by magnetic forces, but by electrostatic forces, ie by means of intermingling erneTMikrofons known A Shu i

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Kind of, from the show

Such a KoncTeiisatortelephon is shown in Fig. Ι by the fixed disk b and the membrane 'brane e ; the latter also forms a second capacitor with the fixed disk a, which is located in the air wire I , which is excited by the vibration generator g. If the microphone m is hit by sound waves, its current fluctuations are transmitted to the capacitor telephone through the intermediary of the induction roller i and via the additional battery ν , and through the
bran changes the capacity of the Kondejo; .- saTors α e and .sjamit the wavelength of the aerial dredge _v "

** It goes without saying that both for influencing a capacitor telephone through a microphone as well as a rapid alternating current Numerous other circuits are possible with an elastic capacitor.

The capacitor telephone can also be combined with the membrane capacitor through which the rapid alternating current flows. Such an arrangement is shown in FIG. 2. It means c the elastic capacitor consisting of a solid plate and a membrane or two membranes, which is coupled for example through the transformer t to the air wires and at the same time connected to the microphone circuit with the interposition of choke coils dd.

In the arrangements described above ^ \ the microphone is not of the ^quick-ς currents flowing through it and can therefore be drawn up by the diaphragm away.

If you want to give up this advantage, you can use a special power source for the Do without a microphone and operate it yourself with the rapid alternating current.

A simple arrangement of this kind is shown Fig. 3. In the air wires, which by means of the coil s from a high-speed alternator in Vibration is caused, the micro-

51

Claims (6)

phon m and the membrane capacitor c; its natural oscillation in the state of rest is somewhat faster than that of the exciting current. If the microphone receives a sound surge, its resistance is reduced, the air wire absorbs a little more current, the condenser membrane is tightened and the air wire thereby approaches the resonance position, so that it again absorbs more current. Here, too, the linkage between the membrane capacitor and the microphone can just as easily be achieved using any other circuitry. In this case, a condenser microphone can be used instead of the usual one. The membrane can also be made of wire mesh to reduce its damping by air resistance; the same effect has the effect of enclosing the membrane capacitor in a space filled with thinner gases (hydrogen) or in a vacuum. Instead of a single membrane capacitor, in all the cases described, a larger number of such capacitors can be used, expediently in parallel, and thereby a much larger surface can be made effective than if the sound is directly influenced. In contrast to the magnetic telephone, a multiple subdivision can be carried out here without difficulty. The individual membranes and plates are z. B. simply stacked on top of one another in the form of a column with insulating rings as intermediate layers, pressed together and connected by suitable circuits. > Godfather nt-A ν Proverbs: 1. Membrane capacitor for influencing a rapid alternating current 'through the sound, especially for the purposes of j wireless telephone, characterized in that the membrane is moved by electrostatic forces and not directly by the air. ^: 2. Membrane capacitor according to claim 1, characterized in that its membrane belongs to the other side of a capacitor telephone influenced in a known manner by a microphone. _f 3. membrane capacitor according to claim i, characterized in that the flow of the quick-change and the microphone flow through the same. ; .- ..; 4. membrane capacitor according to claim J, ' characterized by the fact that the same with a microphone operated by the same Schnellvechselstrom is linked by a suitable circuit. ·, ■.: / ■; > · ■ ;; ■ ■ ;;. -;, ^, 5. membrane capacitor according to claim i> characterized in that the membrane for the purpose of reducing the ^; Air resistance consists of a wire mesh or is in hydrogen or vacuum; ^ 6. membrane capacitor according to claim i, characterized in that the same is broken down into a number of individual cells. For this purpose ι sheet of drawings. t cc- O S. 'O