DE1179612B - Circuit arrangement for coupling an antenna to a transistor receiver - Google Patents

Description

Circuit arrangement for coupling an antenna to a transistor receiver The invention shows how to use the antenna in a known transistor circuit can couple in a particularly simple manner. This known circuit (Auslegeschrift T 11557 IX d / 21 a4) is used to create an oscillating circuit that can be tuned in a wave range to be coupled to the input of a transistor in such a way that it is as independent of frequency as possible a favorable transformation is present, especially in the sense of a constant Signal-to-noise ratio. For this purpose, in the known circuit a mixed coupling, namely transformer coupling and capacitive current coupling by means of a capacitor located in the oscillation circuit and on the secondary side at the same time, used. This mixed coupling is particularly important when using a variable capacitor advantageous, because then the resonance resistance of the oscillating circuit is higher Frequencies increases while the input resistance of the transistor decreases. To the In the known circuit, a special coupling coil is used to couple a high antenna.

It is also known (receiver Dandy 5900 from Loewe Opta), the secondary coil of the transformer mentioned to use at the same time as an antenna coupling coil, so connect the antenna directly to the base. This has the disadvantage that the sieving effect of the oscillation circuit is not fully utilized and therefore there is a risk of that unwanted senders, e.g. B. shortwave transmitters in the medium wave range, break through can.

According to the invention, the above-mentioned capacitor is used as an additional capacitive coupling between the oscillating circuit and the transformer for coupling at the same time an antenna to the oscillation circuit. This is possible because of the antenna coupling cheapest capacitance value of the capacitor with sufficient accuracy with the cheapest capacitance value for the coupling of the resonant circuit to the transistor (approx 3000 to 4000 pF).

It is known per se to construct an antenna by means of capacitive current coupling to be coupled to an oscillation circuit, but then it is not at the same time for one other coupling used.

The drawing shows an embodiment of the invention.

The input oscillating circuit consists of coil 1, the variable capacitor 2 and the coupling capacitor 3. This capacitor 3 and the coil 4 are used for mixed coupling of the resonant circuit with the transistor 5. The coil 4 has the same direction of winding as the coil 1, so could from the coil 1 downwards continue to be wound with the same winding direction. That's why the tension the same phase position on the capacitor 3 and on the coil 4. Becomes the variable capacitor 2 is set to a smaller capacity, the resonant circuit voltage is divided between the capacities 2 and 3 so that on the capacitance 3 a corresponding smaller proportion falls. This reduces the increase in the voltage on coil 4 (as a result of the larger resonance resistance with smaller rotary capacitor capacity) or overcompensated.

According to the invention, the capacitor 3 is also used to couple the Antenna -6 on the oscillation circuit is used. A special antenna coupling coil so falls away.

The usual base voltage divider is labeled 7, 8. He could also lie at the base of the coil 4. In both cases, the capacitor 3 still has the third effect that the base bias is not short-circuited by the coil 4 will.

The receiver stage shown can be a pre-stage or a mixer be.

The coil 1 can, as in the known circuit, on a ferrite rod be arranged if the operation with ferrite rod antenna is desired.

Claims (1)

Claim: Circuit arrangement for coupling an antenna to the first oscillating circuit of a transistor receiver, which can be tuned in a wave range, in which the coupling of this oscillating circuit to the input of the first transistor is achieved by using a transformer coupling dimensioned in this way and capacitive current coupling by means of an oscillating circuit and on the secondary side at the same time Capacitor takes place between the resonant circuit and transistor in the entire wave range there is an almost constant favorable transformation, characterized in that the capacitor (3) also serves to couple the antenna (6) to the resonant circuit (1, 2, 3). Considered publications: German Auslegeschriften No. 1076 197, 1098 048; German exposition N 10515 VIII a / 21 a4 (published on September 20, 1956).