DE967947C - Coil for ultra-short waves - Google Patents

Description

Ultra-short wave coil The present invention relates to an ultra-short wave coil which is particularly suitable for the oscillator of a television receiver. Almost all modern television receivers also use a channel switch to switch to the various reception channels. The coils to be switched are either arranged on a reel drum or between the contact segments of a switch. Oscillator frequencies of up to 300 MHz are used. At such a frequency, the resonant circuit essentially consists of the internal capacitances and the inductivities of the connections to the switch contacts. Usually only a few, often only a single turn remain as the tuning inductance. The adjustment of such a coil is only possible in a relatively small area, and you usually have to help yourself to lengthen or shorten the effective wire length. This is very cumbersome and very expensive to manufacture. It is particularly difficult to represent the inductances that require less than one turn or that are between one and two turns. Since the coils are usually wound on a solid body in the interests of oscillator stability, the winding diameter cannot be changed.

Fig. I shows such a known coil as an example. On one Support body i made of insulating material is a single one. Turn 2 applied, and a possible adjustment is only possible by changing the wire length for the supply lines possible. The inductance can also pass through to a small extent Change of the 'position of a metal screw axially screwed into the carrier or high-frequency iron screw 3 can be changed.

According to the invention, the coil consists of two parallel-connected, co-polarized or counter-polarized partial coils with one or a few turns, which can be shifted against each other to such an extent that the relatively small adjustment range of the screw core detects the desired inductance.

If you switch two sub-coils with z. B. two turns in parallel, so, depending on the size of their coupling, they act like a "single coil with one to one two turns, because the two sub-coils together with complete decoupling the inductance of only one turn and, with a fully tight coupling, the inductance of two turns. In this way one can theoretically define the range between record one and two turns, i.e. for every intermediate value that cannot otherwise be produced between one and two turns a comparison with the screw core in a relative perform small area. In practice, that recorded by changing the coupling is sufficient Area up to the next coil size, in which the sub-coils z. B. three turns each with which a range of about one and a half to three turns is achieved. If the sub-coils only have one turn, the result is a range of about one half to one turn.

If the polarity of one coil is reversed, an area can also be recorded that with two turns per coil section is theoretically between zero and one turn because the inductances of the two sub-coils approximate each other with a tight coupling lift. The additional area is one turn per coil section with one half to one turn and with three turns per coil section from zero to one and a half Turns.

In terms of production technology, one can use a few different coils set a large number of inductance values, such as B. for the individual Oscillator frequencies on the channel switch of a television receiver are necessary.

In variometers it is known to change the inductance by changing the coupling to be regulated by coils connected in parallel (German patent specification 365 897). Further it is known in plunger coils (British patent 565 895), for enlargement of the inductance range z. B. to connect three sub-coils in parallel, one after the other are penetrated by the core in such a way that all three sub-coils with each other through the core be coupled. In the invention, however, the coupling of the coil sections is -by mutual shifting of these partial coils changed, and the core made of metal or The only task of high frequency iron is to raise the roughly preset inductance fine-tune a certain value. With this fine adjustment, the coupling not changed again because no expansion of the fine adjustment is intended, because such an extension would impair the accuracy of the comparison.

Fig. 2 shows schematically an example of a coil according to the invention. Here are two sub-coils q on the carrier i. and 5 wound from two turns each, according to the one possibility for carrying out the invention in the same direction in parallel are switched. By changing the distance and thus the coupling between the two sub-coils q. and 5 can be the effective number of turns, i.e. H. the inductance the coil can be set within certain limits. After this rough adjustment will be both coils on the carrier i, e.g. B. fixed by solid paint, immovable. the Fine adjustment can then be made by moving a button inside the bobbin Metal or high frequency iron core 3 can be carried out.

Fig. 3 shows another example in which two sub-coils of each two turns are connected in parallel in opposite directions. The rough and fine adjustments of this The coil works in the same way as in the example in Fig. 2.

The invention does not apply to coils for oscillator tuning TV receivers limited, but can also be used in all other cases where it depends on the very precise setting of a frequency without a sufficient one Number of turns available for this setting should be applied.

Claims (1)

PATENT CLAIM: Coarse adjustable coil for ultra-short waves, which contains a screw core made of metal or high-frequency iron that can be displaced in the tubular coil carrier in order to fine-tune the inductance, in particular as an oscillator coil of a television receiver, characterized in that it consists of two parallel-connected, co-polarized or counter-polarized partial coils consists of one or a few turns, which are so far relative to each other that the relatively small adjustment range of the screw core detects the desired inductance. Documents considered: German Patent No. 365 897; British Patent No. 565,895; U.S. Patent No. 2,561,537; Swiss Patent No. 223 177; British Patent No. 410 327.