DE155043C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

- M 155043 CLASS 21g.

to another.

The purpose of the present invention is to make stronger currents by changing weak currents To put currents in synchronous fluctuations. To achieve this, it will be the change in resistance of selenium when the exposure changes, namely the latter is achieved by having a reflective membrane, which is under the influence of a changing stream

ίο and attraction resp. Repulsion experiences a ray of light from any light source a selenium cell throws.

By the German patent specification 32992, class 21, and the British patent specification 4586 from 1900 similarly acting institutions have become known, in which the amplification of weak electrical currents by means of a transmitter circuit switched on selenium cell is reached, the exposure of which by one in the line line lying electromagnetic receiving device is affected.

These facilities, in which a light beam is blocked out by switched-on diaphragms that the selenium cell is completely or not at all exposed, but do not allow finer changes in currents, which are represented in any curve shape let, such as B. by the human.

Speech generated microphone streams to make perceptible.

With the present invention, however, the finest current fluctuations can occur the light rays influencing the selenium cell and thus by means of the selenium cell on the secondary circuit are transmitted, according to the caused by the line current larger or smaller deflections of the membrane.

A reflecting membrane under the influence of fast oscillating alternating currents is known in and of itself from the Pollak-Virag rapid telegraph. In this case, however, the membrane is used to guide a light beam in its direction to divert, in the present invention, however, to keep one in the same direction to change the remaining light beam in its intensity.

The latter effect can be explained by the fact that the reflective membrane is as it were Light source is to be understood, which is its distance from the exposed objects in in this case the selenium cell, and in this way the light intensity influencing the selenium cell changed, according to the law that the. Light intensity of a light source with the Square of distance is decreasing. The following calculation gives a picture of the size of the membrane deflections that occur:

A sensitive receiving instrument (galvanometer or telephone) responds to currents of 8 to 1000 · 10 ^- " ⁰ amperes. Assuming that the mean value of the current fluctuations in the selenium cell is 10 ~ ⁶ amperes, that is, 0.0025 percent of the maximum current flowing through a selenium cell of 40 MA, so

the exposure or the square of the distance e between the light source and the cell would have to be changed by the same percentage amount, so:

e + de

if de is used to denote the change in distance caused by the deflection of the membrane.

If you now choose for - (distance between

Membrane and cell) about 50 mm, this results in:

de = 0.0012 mm.

The movement of the membrane itself should therefore, provided that the rays of light hit almost vertically, about ■

de

be; this value is of an order of magnitude that can be achieved in practice.

That the selenium on the slightest and fastest light fluctuations of several Thousands of respondents a second with corresponding fluctuations in resistance are through the well-known attempts at wireless telephony using selenium cells have been proven Consider fact.

In the accompanying drawing, for example, an arrangement representing the subject matter of the invention is shown. The mode of operation of this device is as follows: In the line I, which contains a current source b, an interrupter and an electromagnet e , current changes are produced by means of the interrupter u. These changes in current correspond to a magnetism of the electromagnet e that changes in the same sense, and a reflecting membrane m is attracted or repelled. Thereby, the distance between the membrane and the selenium cell 's less than or greater, and the reflected from the membrane to the selenium cell light amount of a lamp L changes in the same way. The selenium cell 5 is connected to a sufficiently large power source B. This in turn sends stronger or weaker currents into an instrument J.

Claims (1)

Patent claim: Device for the transmission of current fluctuations from a circuit another where, with the help of one through the primary current fluctuations oscillating mirror changes the exposure of a selenium cell in the secondary circuit, characterized in that that the change in exposure due to the changes occurring as a result of the oscillations of the mirror the distance between the light source, mirror and selenium cell. ,. 1 sheet of drawings.