DE723508C - Pass-through filter for a very large high frequency range - Google Patents

Description

Pass filters for a very large high frequency range were previously. Broadband intermediate frequency amplifier, e.g. B. for a frequency band from zoo to 600 kHz (i 500 to 500 m), structured as follows: Either strongly damped, band filters consisting of oscillating circuits that are coupled to one another or against one another out of tune, arranged in successive tube stages, the also be attenuated. If you want to achieve a high gain with both methods, so you have to use very small oscillating circuit capacities, d. H. one uses exclusively the switching and tube capacities. This results in very unstable conditions, since very small capacitance spreads are enough to make the resonance curve noticeable to deform. Your three-band intermediate frequency amplifier with a band filter is a Another disadvantage is the required strong damping, which results in a gain reduction makes noticeable. In the case of the amplifier with mutually detuned circles Another disadvantage is that each stage is only part of the entire frequency band effectively reinforced. In summary, it can be said that both procedures the disadvantage of -difficult adjustment, possibly unstable conditions and large ' Own tube expense.

The invention now specifies an arrangement that these disadvantages to the greatest possible extent Avoids dimensions.

According to the invention, the transmission filter is constructed in such a way that that between the input terminals one to approximately the one within the pass band lying cut-off frequency is matched series resonant circuit and that further _parallel to the one reactance of the series resonance circuit another, approximately on the other Cutoff frequency lying within the pass range tuned series resonance circuit with the same order of inductive and the capacitive reactance is connected and that the output voltage of the ends of the series connection of the two similar, with their connection point Reactors that are not connected to an input terminal have been removed from the two circuits will.

In Fig. I an embodiment of the invention is shown.

The two series resonance circuits are labeled L1, Cl and L2, C2. The capacitance Cl of the series resonance circuit Cl, L1, strictly speaking, also forms part of the resonant circuit capacitance of the other friction resonance circuit, but the natural resonance of the circuit L2, C2 is only slightly changed by the capacitance Cl, since the capacitance Cl according to a further invention is large compared to the capacitance C2 is e.g. B. Cl = 6o pF compared to C2 = q pF for L1 = mHy and L2 = 6 mHy. The capacitance C2 is larger than the capacitance Cl so that the transmission curve at the two ends of the range has the same height. The greater the bandwidth, the greater the difference in capacities.

The resistance R of e.g. B. i oo kOhm is used to supply the anode DC voltage and for setting the most favorable gain and at the same time causes a certain Damping. The tension is on. the capacitors Cl and C2 removed.

It is also possible to add coils and capacitors in all places swap; then the filter curve according to Fig.2, in which on the vertical the output voltage U and the frequency f are plotted on the horizontal, the opposite. Course.

One advantage of this filter is that it also has a large Bandwidth and high gain is achieved. The filter also has a extensive independence from switching and tube capacities, as tests have shown to have. So it is possible to adjust this filter for yourself outside of the amplifier.

The filter only needs to be dampened a little, e.g. B. by means of the Resistance W, as there are several resonances within the pass band Maxima. appear. The filter curve therefore has, in contrast to a coupled one Oscillation circles existing edge filter not a strong saddle, but the The middle range of the filter is higher because of the resonance points mentioned. Through this is the one advantage of the filter, namely the higher transmission rate, despite the large Bandwidth justified.

Claims (2)

PATENT CLAIMS: i. Pass-through filter for a very large high-frequency range, in particular for intermediate frequency amplifiers, characterized in that between the input terminals there is a series resonant circuit tuned to approximately the one fundamental frequency lying within the pass-through range and that, furthermore, parallel to one reactance of the series resonant circuit, another, approximately to the other within the The cut-off frequency of the pass band is connected to a series resonant circuit with the same sequence of inductive and capacitive reactances and that the output voltage is taken from the ends of the series connection of the two similar reactances of the two circuits, with their connection point not at an input terminal. 2. Pass-through filter according to claim i, characterized in that the capacitance of the first series resonant circuit is substantial is greater than the: capacitance of the other series resonant circuit.