DE454376C - Antenna conductor - Google Patents

Description

In wireless telegraphy, antennas and jumper wires are made from Voüdraht or bare wire, both also insulated, used. These have the disadvantage that the radiation resistance is high for reception purposes, and that its natural oscillation as such cannot be changed. A disparagement the radiation attenuation by reducing the capacity or reducing the cross-section sets the reception immediately down. According to the invention, it is possible to reduce the radiation attenuation without sacrificing reception, and at the same time the natural oscillation can be changed.

This is done according to Fig. 1 in that the actual receiving conductor group α is separated from the receiving air layer by a dielectric. The reception

ao happens because the dielectric d is surrounded by a thin, spirally or otherwise wound outer conductor group b . Through the dielectric d , this group of conductors with the smallest cross section b transmits its receiving field to group a. As a result, the effective radiation is reduced to group b , whose capacity, beam area and thus radiation resistance are low. Group b does not need to radiate out anything, since the field of the inner conductor is strong enough to de-attenuate group b. A relatively large reception area (group a) is combined with low radiation attenuation (group b) .

According to Fig. 2 there is the further advantage that the group b can be grounded directly or via a variable capacitance c , whereby the received wave can be produced with great precision. In this way, group b is not connected to a coil, but only to a capacitor, so that all static charges, air disturbances, etc. can flow away unhindered. As a result, the relationship between the signal volume and the intensity of the air disturbance is so great that in midsummer wavelengths of up to 420 m can be received almost completely without disturbance.

The group b wound in a spiral shape has a certain inductance. As with the Karup cable, this can now be selected to be sufficiently high (e.g. 32 turns per 10 cm) that when the capacitor c is tuned, the natural wave of group b and α changes. In this case, the antenna is in resonance with any reception wave to be set, whereby the capacitive resistance of the inner conductor and the inductive one of the outer conductor assume almost the same values and the resulting damping resistance is reduced to almost zero.

The most suitable antenna length is 12 to 15 m, so that the lowest natural oscillation from about 48 to 60 m. arises. In

45437α

In this case, all frequencies from 50 to 50,000 m can be used with sufficient selectivity be received.

Group b is expediently formed from silver-plated copper wire with a diameter of 0.15 to 0.05 mm. This group is best placed on a waterproof insulating layer / to prevent humidity from penetrating the dielectric.

According to Fig. 1, connections in '' Radio devices are running.

Claims (7)

Patent claims: 1. antenna conductor, characterized in that two or more through a dielectric separate groups of conductors are available and one group of conductors is the inner conductor of a cable-like structure while the other concentrically surrounds it. 2. Antenna conductor according to claim 1, characterized characterized that the outer conductor group almost only inductance, the inner conductor group almost only has capacity. 3. Antenna conductor according to claim 1 and 2, characterized in that the inductances of the outer conductor and the capacities of the inner conductor are in such a relationship that the natural oscillation of the antenna constantly changes when the outer conductor is tuned, and so does the resulting damping resistance is as small as possible. 4. antenna conductor according to claim 1 to 3, characterized in that the outer] pus group is formed from wires 0.15 to 0.05 mm thick. 5. Antenna conductor according to claim 1 to 4, characterized in that the length the antenna is about 12 to 15 m. 6. antenna conductor according to claim 1 to 5, characterized in that the outer conductor group on a solid, water-impermeable Layer (/) is attached. 7. Use of the antenna conductor according to claim 1 and 2 as a connecting wire in Radio equipment in such a way that the inner conductor group (β) is used as a connecting conductor is connected while the sheathed wire (&) is connected to the filament or the earth wire can be. For this purpose ι sheet of drawings.