DE1191442B - Tunable notch filter for suppressing a selectable TV channel - Google Patents

Description

Tunable notch filter for the suppression of a selectable TV channel The invention relates to a tunable notch filter for suppression a selectable television channel that runs parallel to the line of a receiving antenna system is switched on and consists of an adjustable series capacitance and the parallel connection an inductance and an adjustable capacitance.

It is known in television reception technology, so-called blocking filters To be used in cases where, in addition to the useful signal, another undesired signal Signal is recorded, the frequency of which is outside the useful channel. Will the Suppression of this interfering television signal is not or not enough Measurements made so can cross modulation interference in amplifiers and in the Interconnection of antennas so-called "ghost images" occur.

It is known in the feed line of the antenna amplifier or in front of corresponding Antenna interconnection switches to activate channel locks that do not contain the desired Hide channel. For this purpose, reactance combinations connected in series can be used which are high-impedance for the frequency of the channel to be blocked are used, z. B. be operated in parallel resonance, or the parallel connection of, networks operated in series resonance. In all cases, the flanks of the Attenuation curves of these filters should be so steep that neighboring channels as little as possible be attenuated.

It is known to use a reactance combination to achieve very steep resonance curves to use, which consists of a series capacitance and a downstream parallel connection, formed from a capacitance and an inductance. For reasons the type savings, the blocking filter should be constructed so that it covers a whole TV area is tunable and retains a constant locking depth.

The invention, which relates to a blocking filter of the type mentioned above Art relates, the main task is to create a voting facility, the desired course within the tuning range without great effort who has lock depth. According to the invention this is achieved in that coaxially inside a tube a longitudinally displaceable one provided with a blind hole on the front side Spindle is provided which, when a metallic pin is immersed, the series capacity forms, and that the parallel inductance as a short-circuited line piece acting spindle and its threaded bushing and the parallel capacity by an after inside protruding part of the outer tube and the outer surface of the free end of the spindle is formed.

Such an arrangement offers despite simple coordination - actuation of only one tuning element, namely the spindle - the possibility of changing both capacities at the same time so that the blocking depth remains constant regardless of the tuning position.

Further details of the invention are based on an exemplary embodiment explained in more detail that a channel filter that can be tuned over the TV range IV-V shows.

In Fig. 1 shows the equivalent circuit diagram of the filter arrangement, the external structure of which is shown in FIG. 2 in longitudinal section and in FIG. 3 is shown in plan view. The circuit itself consists of two capacitors C, and C, and an inductance L, where C, and L are connected in parallel and C2 is in series with these two dummy elements. The coordination of C2 and C should be done together. The parallel connection of Ci and L is operated in such a way that overall it results in an inductive reactance which, together with C2, forms a series resonant circuit.

In Fig. 2, a bushing 2 is attached inside a tube 1 , which has an internal thread in the area 3 which guides the threaded spindle 4. The front of the socket 2 is provided with slots 5 , which form resilient contact arms and rest on the spindle 4 at points 6 and 7. This has no thread at this point, namely in area 4a. As a result, a contact independent of the conditions in the area of the internal thread 3 is created between the spindle 4 and the socket 2, the z. B. is not affected by core wax introduced into this as a thread brake. The socket 2 is connected to the outer wall of the tube 1 via metallic end plates 8 . The spindle 4 is inserted so deep into the entire arrangement that it does not protrude beyond it and therefore special measures to prevent rotation are superfluous. In the interior of the tube 1 , an inwardly projecting part 9 is provided, on which the widened free end 11 of the spindle 4 is guided via insulating guides 10. On the end face of the spindle 4, a blind hole 12 is made, into which a metallic pin 13 dips more or less deeply depending on the position of the spindle 4. The pin 13 is passed through an insulating plate 14 (see also FIG. 3) and is connected to the inner conductor of a severed antenna down guide cable with the screw connection 15 (see also FIG. 3). The outer conductors of these cables are conductively connected to the tube 1 via the clamps 16 and 17 (see also FIG. 3) . The capacitance C, ( FIG. 1) is formed by the pin 13 and the inner surface of the blind hole 12. The capacitance Ci is created by the outer surface of the attachment sll as far as it is immersed in the inwardly protruding part 9 of the tube 1. The inductance L is essentially formed by the line piece, which extends from the inner edge of the part 9 to the end plate 8 and represents a short-circuited line which is shorter than 1/4 in length. When the spindle 4 is actuated, the two capacitances C, and C, change in the same direction. The change in inductance L is slight. The extension 11 is tapered towards its end face on the outer surface and on the inner surface. As a result, the change in capacitance caused by temperature fluctuations as a result of a longitudinal displacement of the spindle in the initial area, i. H. in the case of small capacitance values, can be kept low. The spindle 4 is arranged so far inside the tube 1 that it does not protrude with its end serving for the attack of the adjusting tools beyond this tube.

Claims (2)

1. A tunable notch filter for suppressing a selectable television channel, which is switched parallel in the pipe run a receiving antenna installation and consists of an adjustable series capacitance and the parallel connection of an inductance and a variable capacitance, d a d u rch g e k hen -zeichnet that Coaxially inside a tube (1) a longitudinally displaceable spindle (4) is provided with a blind bore (12) on the front side, which forms the series capacitance (C2) when a metallic pin (13) is immersed, and the parallel inductance (L) through the Acting as a short-circuited line piece spindle (4) and its threaded bushing (2) and the parallel capacitance (C1) is formed by an inwardly protruding part (9) of the outer tube (1) and the outer surface of the free end (11) of the spindle (4) . 2. Blocking feed according to claim 1, characterized in that the spindle (4) is guided with its extension (11) via an insulating support (10) on the inwardly protruding part (9) of the outer tube (1) . 3. Blocking filter according to claim 1 or 2, characterized in that the conductive connection between the spindle (4) and the outer tube (1) is made by a slotted, resilient contact sleeve (2) resting on the spindle. 4. Blocking filter according to claim 3, characterized in that the resilient contact sleeve is arranged in front of the internal thread (3) serving to guide the threaded spindle in such a way that it is shielded from the current on the spindle (4). 5. Blocking filter according to one of the preceding claims, characterized in that the internal thread (3) is arranged so far inside the outer conductor (1) that the end of the spindle serving to attack the adjusting tools does not protrude beyond the tube (1).