DE835905C - Audio receiver in capacitive three-point circuit - Google Patents

Description

The invention relates to a radio receiver in capacitive Three-point circuit in which the beginning of the resonant circuit coil with the grid of the Audio tube and the coil end connected to the anode while a tap a capacitive voltage divider with the cathode lying parallel to this coil the tube is in communication. This circuit has the disadvantage that low-frequency interference that gets into the device via the antenna, in full Size occur on the grille of the audio tube and impair reception.

1) The invention avoids this disadvantage by between a coil tap or if necessary <learn the anode-side coil end and the cathode line switched on real or complex resistances, preferably inductors.

The low-frequency interference entering the device via the antenna (Mains hum) are short-circuited via these resistors, and another advantage of the invention is that the dependence of the feedback on the setting of the iron core is avoided.

The invention and related details are illustrated in Fig. i to 3 explained for example.

Iri dept. I, the tuning circle consists of the variometer coil i and the capacitors 2 and 3 forming a capacitive voltage divider, their connection is connected to the cathode of the audio tube 4. The vote takes place through the in the coil i movable iron core 5, and the feedback is across the capacitor 6 regulated. The anode resistance is 7, the grid resistance 8, the grid capacitor with 9 and the coupling capacitor to the following amplifier stage with io. The antenna is through the capacitor i i and the ground through the 1 # Z capacitor 12 connected. Between a tap of the variometer coil i and the cathode line the inductance 13 is switched on according to the invention. This has for low frequency Interference voltages have a small resistance and thus short-circuit them. For high frequency it represents a high resistance and therefore only affects the feedback at low level. Rather, this is essentially provided by the capacitors 2, 3 and 6 determined. The requirements for the quality of the inductance 13 are otherwise low, so you can use a cheap coil at this point. It even comes according to Fig. 2 a suitably dimensioned ohmic resistor 14 instead of the inductance 13 into consideration.

In the circuit of Fig. 3, the resistor 14 is at the anode-side end connected to the variometer coil i, so that the coil tap is saved. Even Here, low-frequency interference can flow through the resistor 14 without the voting circle is noticeably attenuated. In this circuit can also be in place of the resistor 14 to be switched on an inductance.

In principle, other types of circuits can also be used, if necessary Complex complex resistances are used, principally two-pole, the low-resistance at low frequency, but high-resistance at high frequency and possibly cut sharply off the interference by steep flanks. The invention is also not limited to variometer tuning and capacitive voltage dividers, however particularly useful here.

Claims (2)

PATENTAVSPRL (; HÜ: i.Audion receiver in capacitive three-point circuit, preferably with variometer tuning, characterized by between a coil tap or optionally the anode-side coil end and the cathode line switched on real or complex resistances (13, 14), preferably inductors. 2. Audio receiver according to claim i, characterized by use in connection with a variometer (i) with iron core tuning (5).