DE977420C - Antenna system for receivers - Google Patents

Description

(WiGBl. P. 175)

ISSUED MAY 18, 1966

S 22969IX d / 21 α *

The invention relates to an antenna system with at least one in the course of the antenna lowering lying transformer with separate input and output winding for receiving devices, whose earth socket is connected to a contact protection capacitor is connected to the chassis and for which an asymmetrical interference voltage supplied via the mains cable an interference current through the chassis, the touch protection capacitor, the earth socket, the output winding and the winding capacity of the transformer in its input winding and another Interference current through the chassis, the receiver input circuit, the antenna socket, the output winding and also via the winding capacity of the transformer in its input winding has the consequence.

It is known to suppress in-phase excitation of a power line as Wind up the coil so that an impedance is created for in-phase oscillations while the wave resistance of the power line remains unchanged for out-of-phase oscillations. It is also known to have a ground directly at an input socket in receiving devices to undertake. For devices with this input socket through a touch protection capacitor is blocked, there is no suppression of interference from the network to achieve because the contact protection capacitor is practically the only resistance for the Forms interference current and thus the interference voltage drop occurring across it is particularly large.

According to the invention, the interference voltage supplied via the power supply line is suppressed in the case of an antenna system of the type mentioned, the output winding of the transformer in several Winding sections divided and the location

609 575/5

the capacity between the input and output winding of the transformer by appropriate arrangement of the winding sections to each other and to the input winding selected so that the in the effect of the interference currents flowing in the output winding on the two current paths Compensate receiver input.

Further details of the invention are explained in more detail with reference to drawings. ίο Fig. ι shows schematically an antenna system with a shielded down guide and the input and power supply of an all-current receiver in a known design. The antenna i, which can be designed as a wire or rod antenna, optionally with a VHF antenna (dipole), is adapted to the shielded antenna guide 3 in an economy circuit by the antenna transmitter 2. The .Niederführung 3 ends on the receiver side in the receiver transformer 4, which is also constructed as an economy transformer. The antenna socket A of the receiver is located at one end of a series circuit 5 formed from the coils for the various wave ranges as an antenna circuit of the receiver, the other end of which is located on the chassis 6 of the device. The ground socket B is connected to the chassis 6 via the contact protection capacitor 7. One wire of the power supply line 8 is also located on the chassis 6, while the other wire leads to a power supply unit indicated schematically by a rectifier 9 and a charging capacitor 10.

If, with this arrangement, an asymmetrical interference voltage occurs in the power supply line 8, which is indicated in the figure by an equivalent voltage source St , an interference current flows from the power supply line via the chassis 6, the capacitor 7, the earth socket E, the shielding jacket of the supply line 3 and the earth line of this jacket, which represents a complex resistor 11, to earth. Furthermore, the same interference voltage causes a second interference current, which flows back to earth from the mains supply line via the chassis 6, the input circuit 5, the antenna socket A, the receiver transformer 4, the supply line 3, the antenna transformer 2 and the antenna capacitance 12. At the input circuit 5, the second disturbance current results in a voltage that is to be reduced to a minimum.

The division of the capacitance between the two windings of a transformer according to the invention by means of a special winding structure is explained with reference to FIGS. 2 and 3. 2 shows the winding structure of a receiving transmitter, the input winding 18 of which is connected to the antenna feed cable 3, while the beginning and end of the output winding 19 end in the antenna connector A ₁ and the earth connector E _1, respectively. In FIG. 3, the interconnection of this transmitter with a receiver input corresponding to FIG. 1 is shown. The capacitance between the windings 18 and 19 is essentially concentrated in the immediately adjacent sections of these two windings which can be seen in FIG. The asymmetrical interference voltage St results on the one hand in a current through the chassis, the capacitor 7, the ground socket E, the ground plug E ₁ , the lower part of the output winding 19 and through the capacitance 20 into the input winding 18, and on the other hand another current through the chassis , the input circuit 5, the antenna socket A, the antenna connector A ₁ , the upper part of the winding 19 and also via the capacitance 20 into the winding 18. The earth socket £ is not earthed, as can also be seen from the winding structure of FIG. The strength of these two currents is different from one another according to the resistances in the two current paths, and the position of the fictitious capacitance 20 is selected by appropriate winding structure so that the interference currents flowing in the two winding parts of the output winding 19 compensate for their effect on the receiver input.

Claims (1)

PATENT CLAIM: ₈ g Antenna system with at least one lying in the course of the antenna lowering Transmitter with separate input and output winding for receiving devices, their earth socket is connected to the chassis via a touch protection capacitor and one of which is supplied via the mains lead asymmetrical interference voltage an interference current through the chassis, the touch protection capacitor, the ground socket, ■ the output winding and the winding capacity of the transformer in its input winding and a further interference current via the chassis, the receiver input circuit, the antenna socket, the output winding and also the winding capacitance of the transformer in its input winding, characterized in that that the output winding (19) of the transformer in several winding sections is divided and the location of the capacitance (20) between the input and output winding of the Transformer (18, 19) by appropriate arrangement of the winding sections to each other and is selected for the input winding (18) so that the flowing in the two current paths Interference currents in the output winding (19) in their effect on the receiver input compensate. Considered publications: Austrian Patent No. 152 126; Swiss Patent No. 226 128; British Patent No. 491,220; U.S. Patent Nos. 1,803,620, 2,168,857; "Radio Mentor", H. 9/1950, pp. 480 to 484. iao 1 sheet of drawings © 609 575/5 0.66