DE1099590B - Transistor input stage for radio receivers with several wave ranges - Google Patents

Description

Transistor input stage for radio reception with several wavebands The invention relates to a transistor input stage for radio receivers several wavebands, which are in the VHF range in the basic circuit and for the rest Wave ranges in common emitter circuit works.

The dimensioning of transistor input stages ranging from long-wave to to work in the VHF range, prepares with the currently available transistors considerable difficulties. In addition, because of the compact structure of the devices Changeover contacts, which can also cause electrical losses and malfunctions, undesirable. That is why there is predominantly an independent VHF pre-stage with its own Transistor provided. Due to the properties of the transit ports, it is advisable to the VHF pre-stage in the basic circuit and the pre-stage for the other wavebands to be set up as an emitter circuit.

There are also known amplifier circuits that allow voltages with widely spaced frequencies without switching alternately or simultaneously to reinforce. There is also a selective amplifier stage equipped with a tube known for audio frequency, with a series resonant circuit in the cathode line of the tube lies. This causes a frequency-dependent negative feedback and thus the increase the selection of the amplifier stage.

The invention is based on the object of providing an input stage for several To build up wave ranges with a transistor in such a way that it can be switched on without switching VHF range works in basic circuit and for the other areas in emitter circuit.

The invention is characterized in that in the base line a for the center frequency of the VHF range tuned series resonance circuit with the capacitor inserted after ground and inserted between ground and the coil of the VHF collector circuit Capacitor is connected and that the input circuits of the other wave ranges between coil and capacitor of the base circuit and the associated output circuits coupled between the coil and the additional capacitor of the collector circuit are.

The mode of operation of exemplary embodiments according to the invention is explained in more detail with reference to FIGS. 1 and 2.

Fig.l shows the basic circuit diagram of an embodiment according to the invention; Fig. 2 shows an embodiment for the series resonant circuit.

In Fig. 1, in which all circuit measures for setting the Operating point of the transistor are omitted for the sake of clarity, the VHF input voltage reaches the input transformer 1. This is with the help of the capacitor 2 and the control core contained in the transformer 1 to the center frequency of the VHF range. The high-frequency voltage generated at the transformer 1 is fed to the emitter of transistor 3. The collector is connected to the one from the coil 7, the capacitor 8 and the tuning capacitor 6 formed output circuit connected. In the base line there is a series resonant circuit with the coil 4 and the Capacitor 5. The series resonant circuit is at the center frequency of the VHF range matched and the bandwidth dimensioned so that those occurring at the limits of the range Reactances can be neglected. The VHF output voltage for the The next stage is taken from the collector circuit via the capacitor 9.

The basis for VHF reception is the low resonance resistance of the series circuit 4/5 is connected to ground. The arrangement thus works in a basic circuit.

The input and output circuits for the other wavebands LW, MW and KW are indicated in FIG. 1 by the resonant circuits 10 and 11. these can but also be tuned to an intermediate frequency.

Input signals with a lower frequency may pass through a for adaptation necessary sub-coupling on the resonant circuit 10 to the connection point from coil 4 to capacitor 5. At the low frequencies the inductive resistance is the coil 4 (z. B. 200 nH) is very small and the capacitive resistance of the capacitor 5 (e.g. 20 pF) very large. The same applies accordingly to the VHF input transmitter 1/2. The emitter of the transistor 3 is therefore for deep Frequencies to ground and the base at the tap of the input circuit 10. The arrangement thus works in emitter circuit.

The output circuit 11 is a Tiber for adaptation to the following Stage provided tap via coil -7 of the VHF output circuit with the collector of transistor 3 connected. The size of the capacitor 8 (e.g. 300 pF) is like this chosen that its reactance in the parallel resonance of the VHF circuit 6/7 practically does not come in and the adaptation to the coupling out at the separating capacitor 12 doesn't bother.

If in a device the spatial distance from the resonant circuit 10 to Resonance circuit is 4/5 large, it is useful to use a conduction circuit to replace. An exemplary embodiment for this is shown in FIG. 2. The base of the transistor 3 is here connected to the circuit 10 via the inner conductor of a concentric cable. The capacitor 14 can be added if the cable length is desired Case of resonance is not sufficient.

As indicated in the example according to Figure 2, the series circle can be in the base line by a trained according to the listed known measures Replace the line circuit: a) with one short-circuited at the end for the VHF reception frequency .1 / 2 long RF cable (symmetrical or coaxial); b) through an open end, for the VHF reception frequency d / 4 long HF line (symmetrical or coaxial); .c) _ by means of a line terminated with a suitable reactance, that a short circuit appears at the line input (base side).

Claims (2)

PATENT CLAIMS: 1. Transistor input stage for radio receivers with several wavebands, which are in the VHF range in the basic circuit and for the rest Wave ranges in emitter circuit works, characterized in that in the Base line a series resonant circuit tuned to the center frequency of the VHF range with the capacitor inserted after ground and between ground and the coil of the VHF collector circuit a capacitor is connected and that the input circuits of the other wave ranges between coil and capacitor of the base circuit and the associated output circuits coupled between the coil and the additional capacitor of the collector circuit are. 2. Transistor input stage for radio receivers with several wavebands according to claim 1, characterized in that in the base line a to the center frequency of the VHF area has been inserted.