DE178867C - - Google Patents

Description

IMPERIAL

PATENT OFFICE

PATENT LETTERING

- M 178867 CLASS 21 af GROUP

VALDEMAR POULSEN in COPENHAGEN.

Patented in the German Empire on October 6, 1905.

The invention relates to a receiving system for wireless signal transmission and aims by means of the principle known from the capacitor electroscope, greater sensitivity of the receiving machine.

In the drawing, there are, for example, various setups based on this principle shown schematically.

In Fig. Ι α denotes a coil whose

ίο ends are connected to the capacitor b . One end can be connected to the earth at c and the other end to an antenna at event d. One plate of the capacitor b is attached to an arm / which can be rotated about the point e. By moving this, the capacitor plate in question can be approached or removed from the other plate, at the same time that the same is in the outermost layers

extra contact with resp. forms the contact parts g and h , / denotes the wave indicator (e.g. a coherer), R a relay and K a battery.

The arrangement works in the following way:

If vibrations occur in the alternating current circuit formed by the coil α and the capacitor b etc., voltage differences will arise between the capacitor plates. If the moving plate is removed from the fixed plate at a moment when there is such a difference in voltage, the contact at g will be broken, and because of the decreasing capacitance of the capacitor the voltage of this latter plate will increase.

'If the contact is closed at h , the capacitor discharges through the wave detector and the relay comes into operation. The wave indicator is thereby influenced by more energy than in AC circuits to \ stand ⁷ erfügung, by feeding by moving the capacitor plates energy. .

It goes without saying that the moving plate of the capacitor b must swing back and forth in such rapid succession that even during the shortest characters to be transmitted (points of the Morse code) a larger number of back and forth movements are always carried out by this plate. Otherwise, on the one hand, most of the rapid electrical oscillations would remain unused and the probability that the case considered above (movement of the plate at the moment of the greatest voltage difference between the plates) would be very low, and on the other hand, Morse code transmission would not be possible at all.

The diagram shown in Fig. 2 only differs from that shown in Fig. I in that the capacitor is discharged through a coil i which constitutes the primary winding of a transformer, the secondary winding of which forms a coil / which the current oscillations to the wave indicator feeds.

In the diagram of Fig. 3, the wave indicator is a magnetic detector,

by passing the magnetized wire through the coil i .

The diagrams are to be regarded as exemplary embodiments only and the invention can be used in many other configurations, e.g. B. does not need the coil a in Fig. Ι to be directly connected to the receiver antenna, the coil can rather be the secondary coil of a transformer

ίο be its primary coil with the antenna connected is.

Except by changing the distance between the capacitor plates, which is easy with one rotating system made of plates

can be made, the changes in capacity can naturally be made thereby be that one intermittently changes the dielectric used, switching on a plate made of conductive material or in a similar way, which in practice can easily be done with a rotating system can be done by e.g. B. plates made of different material from and in the space between the capacitor plates is moved or in a similar manner.

4 shows the arrangement schematically

such a capacitor in which the change in capacitance is achieved thereby that one capacitor plate rotates in relation to the other by the Capacitor plates have a shape appropriate for the purpose.

The fixed plate m is shown in the drawing in connection with a coil α , the other end of which is connected to a contact spring η . The moving plate system is kept in motion by rotating the shaft ρ ■. In the position of the movable capacitor plate 0 shown with full lines, the capacitor is charged. Given a given external influence from the oscillating circuit formed by the coil α and the capacitor, by far the greatest charge of the capacitor can be achieved if the said oscillating circuit is tuned in resonance with the influencing. When the plate is rotated into the position indicated by the dotted line, the capacitor has reached its smallest capacitance and in this position it is discharged by the wave indicator / when it comes into contact with the contact spring q. The plate 0 is of course attached to the shaft ρ in an insulated manner.

Claims (1)

Patent claim: Receiving system for wireless signal transmission, characterized by a Capacitor that is charged by the vibrations induced by the sender, whereupon the capacitance of the capacitor is increased is reduced, so that a higher voltage difference is generated, under the influence of which a wave indicator is generated (Current or voltage indicator) is put into action. For this purpose ι sheet of drawings. Berlin! printed in the Reichsdruckerei.