DE969385C - Adjustable band filter, preferably for high-frequency communications equipment - Google Patents

Description

Adjustable band filter, preferably for high-frequency communication devices The invention relates to a controllable band filter, which is preferably used for high-frequency communication devices is provided and in which the coil windings, their longitudinal axes parallel run in two-part., adjustment cores having pot cores made of high-frequency iron and the leakage flux field of at least one of the coils forming the filter designed asymmetrically and adjustable with respect to the other coil, in particular is rotatable.

It is known, in the case of adjustable band filters, of the ones outlined in more detail above The type of leakage flux field of at least one of the coils forming the filter is therefore asymmetrical and to train with respect to the other coil adjustable, - that your cylindrical Part of the pot core = at least one coil, one that changes along its circumference Given wall thickness and the coil provided with such a pot core opposite the other spool is rotatably arranged. The pot core with uneven wall thickness its cylindrical part has less in the .den cylindrical pot core part Wall thickness adjoining outer space a spatially more extensive magnetic stray field on than in the wall thickness adjoining the cylindrical pot core part of greater wall thickness Outside space. With such a band filter belonging to the state of the art adjustable bandwidth, the maximum value of the coil coupling is reached when the cylindrical pot core part of the smallest wall thickness of the one around the axis of the bobbin rotatable pot core dem second pot core at the smallest possible distance is approached. In this position the asymmetrical stray field of the rotatable pot core the greatest possible influence on the coil of the second Pot core .. The achievable maximum value of the coil coupling depends among other things on the smallest wall thickness of the cylindrical part of the rotatable pot core. In the borderline case: with such pot cores in the cylindrical 'part with less Wall thickness provided an opening. The stray field of pot cores with uneven Wall thickness of its cylindrical part, has in the one on the cylindrical pot core part small wall thickness adjoining outer space necessarily a relatively large one spatial expansion. It is therefore not possible to use those with such pot cores adjustable band filter with isolating, rmgehäusen to surround small dimensions, such as this is often desirable for reasons of space saving. Shield case small Volume would have been impermissible with such known adjustable band filters high reduction in the quality of the coil with the rotatable pot core result.

This disadvantage is in the controllable band filter according to the invention, that belongs to the genus of adjustable band filters, in which the coil windings, whose longitudinal axes run parallel, in two-part, provided with adjustment cores Pot cores made of high-frequency iron are located and the leakage flux field is at least one of the coils forming the filter are asymmetrical and opposite the other Coil is adjustable, in particular rotatable, thereby avoiding the asymmetry of the leakage flux field by one on the outer circumference of the pot core or the pot cores attached, preferably pressed-on nose made of high frequency iron is effected.

In the case of the adjustable belt filters according to the invention, the stray field of the coils is limited to the immediate vicinity of each of the pot cores. Due to the preferably pressed-on nose made of high-frequency iron attached to the outer circumference of at least one pot core, a certain proportion of the stray field of one coil, which is restricted to the immediate vicinity of each pot core, together with the stray field of the other coil of the band filter, results in the desired, controllable degree of mutual induction. While in the known adjustable band filters, the maximum coil coupling is set when the rotatable pot core with non-uniform wall thickness of its cylindrical part assumes such a position that the places of greatest accumulation of ferromagnetic material -, d. H. the cylindrical wall part of the greatest wall thickness - the greatest possible distance from the other pot core, one obtains with the adjustable band filter according to the invention the greatest possible coil coupling due to the special shape of at least one pot core when this pot core has such a spatial position that its place is greatest Accumulation of ferromagnetic material - that is, the pot part carrying the nose - is turned towards the second coil as far as possible.

The adjustability of one of the two coils of the adjustable belt filter according to the invention is expediently achieved in that the shell carrying the nose of the two-part pot core or the two-part pot cores is designed to be rotatable. In an advantageous embodiment of the belt filter according to the invention Furthermore, the rotatable pot part has a device for engaging a calibration key on. It is also an advantageous embodiment of the band filter according to the invention possible, the rotatable, provided with a nose part of the pot core over a Train cord adjustable.

The invention is explained in more detail with reference to the drawing.

F'ig. i is a cross-section and a top view of an embodiment according to the invention; Fig. 2 shows another embodiment of the invention.

According to the embodiment of Fig. I, the coil 6 is adjustable with the Core q. enclosed in a pair of shells i, 2. The adjustable core q. penetrates the shell 2 at M does not. The upper shell part 2 has a pressed-on nose 8, with which he over the also provided with such or a similar nose 7 bobbin shell 5 protrudes. When adjusting the two shells 5 and 2 against each other, with With the help of a socket wrench to be used at 9, the stray fields change of the two coils their position to one another, whereby the degree of coupling is adjusted. The two coil shells are combined in a holder 3.

Fig. 2 shows that instead of the socket wrench to be applied at 9 an io cable can also be used. In this case the rotatable bowl is 5 with a groove 1q intended for the insertion of the rope. Mistake. The rope will operated from the button 16.

Claims (1)

PATENT CLAIMS: i. Adjustable band filter, preferably for high-frequency communications equipment, in which the coil windings, whose longitudinal axes run parallel, are located in two-part pot cores made of high-frequency iron and provided with balancing cores, and the leakage flux field of at least one of the coils forming the filter is asymmetrical and adjustable with respect to the other coil, in particular is rotatable, characterized in that the asymmetry of the leakage flux field is brought about by a preferably pressed-on nose made of high-frequency iron attached to the outer circumference of the pot core or the pot cores. z. Band filter according to claim i, characterized in that the shell of the two-part pot cores carrying the nose made of high-frequency iron is rotatable. 3. Band filter according to claim i and 2, characterized in that the rotatable pot part has a device for engaging a calibration key. 4. Band filter according to claim 2, characterized in that the rotatable pot part is adjustable via a pull cord. Considered publications: German Patent Specifications No. 682 139, 705: 279, 708 517; Swiss Patent No. 263 410; French Patent Nos. 775,614,948,765 ; British Patent Nos. 450 286, 491 532.