DE1283929B - Circuit arrangement for the gain control of a radio receiver - Google Patents

Description

The invention relates to a circuit arrangement for gain control of a radio receiver through a variable attenuator, its longitudinal and transverse branches each contains a diode, the resistance of which depends on the applied control voltage is.

For gain control of transistor devices for receiving amplitude-modulated It is known to oscillate the base currents of the included in the control circuit To move transistors depending on a control voltage. Because of the low Input voltage compatibility of transistor amplifiers cannot be avoided that receivers, which are controlled according to the conventional principle, for input signals with an amplitude of less than 100 mV at the base already completely overdriven are.

There are therefore input circuits in which the input circuit is parallel a damping diode is located, which responds before overdriving the first transistor occurs (U.S. Patent 3,035,170). As a result of the damping of the input circuit however, there is an increased level of selection because of the reduction in selection caused by this Risk of cross modulation.

For this reason, one of the in the British patent sometimes comes up 413 383 described control circuits are used again. This has an attenuator on, whose longitudinal and transverse link each contains a diode whose resistance depends on the applied control voltage is dependent.

It turns out, however, that the use of such a circuit no advantages in receivers with few steps and tight amplification brings.

An increase in the input voltage compatibility and thus also the cross-modulation resistance can only be achieved through an increased effort in the Achieve control circuit that is no longer acceptable for devices in the lower price range is.

The invention is therefore based on the object of a simple and cheap solution to fix the. to find the aforementioned defects.

The invention is characterized in that the diode in the series branch of the attenuator is the series connection of a capacitor with a resistor is connected in parallel, which is dimensioned so that at the highest to be expected Signal voltage is the proportion of the effective at the diode. Control voltage is greater than the amplitude of the positive half-wave of the signal voltage applied to the diode.

Through these measures it is possible without any further additional The input voltage tolerance of a transistor receiver is almost reduced to increase the factor 10. This means that simple transistor devices can now also be used in the Work perfectly in the area of high or strongly fluctuating field strengths.

An embodiment of the circuit arrangement according to the invention is described below using a basic circuit diagram.

The signals coming from the antenna 1 reach the capacitor 5 via the input circuit designed as an az filter with the coil 2 and the capacitors 3 and 4 and from there via the attenuator with the diodes 6 and 7 and via the capacitor 8 to the Base of the first transistor 9. The transistor 9 is part of a stage 10 which, for example, represents a mixer circuit. The intermediate frequency signal is fed via an amplifier 11 to the receiving and regulating rectifier 12, the low-frequency voltage of which reaches the loudspeaker 14 via the amplifier 13.

The control voltage is taken either from the receiving rectifier or from a separate control rectifier of stage 12 and used to control the operating point of the transistors contained in the intermediate frequency amplifier 11. In addition, the control electrode of the control amplifier 15 is connected to the control line 24. But it is also possible to use the control amplifier 15, as it is, for. B. the German Auslegeschrift 1027 737 shows to be connected to the emitter of a regulated transistor of the intermediate frequency amplifier 11 in order to obtain an additional gain in the control voltage.

To overdrive the input stage 10 at high field strengths To avoid the antenna 1 is a known attenuator with the diodes 6 and 7 provided. The diodes are biased by the voltage divider the resistors 16 and 17 and by the voltage across the collector resistor 18 of the Control amplifier 15 determined. The resistors 19 and 20 are used to decouple the High frequency voltage, and the capacitors 5 and 8 hold the DC voltage of the Attenuator away from high frequency circuits.

If no or only a weak signal reaches antenna 1, then the potential at the collector of the control amplifier 15 is negative compared to that at the point 21. Thus, the diode 7 is blocked and the diode 6 is conductive, so that the attenuation of the signal through the attenuator is negligibly small.

If the field strength at the antenna and thus also the control voltage increases, the potentials at the diodes shift in such a way that the resistance of the diode 6 increases, while that of the diode 7 decreases. Finally, the diode 6 is blocked and the diode 7 is biased in the forward direction because the potential at the collector of the control amplifier 15 has become positive compared to that at point 21.

If, however, the amplitude of the positive half-wave of the signal voltage applied to the diode 6 exceeds the maximum blocking voltage at the diode 6 that can be achieved by the control amplifier 15, then the overdrive limit of the attenuator has already been exceeded. Due to the very steep rise in the blocking resistance of the diode 6 in the series branch, the attenuation increases to values that are too great, so that the reverse regulation mechanism can no longer function. The required conduction would only come about if only such a high DC voltage is established at the diode that the HF peaks exceed the bias voltage. This is avoided if, according to the invention, the series circuit of the resistor 22 with the capacitor 23 is placed in parallel with the diode 6. The capacitor 23 serves only to split the direct current path and the resistor 22 is dimensioned according to the invention in such a way that no overdrive can occur up to the highest signal voltage to be expected.

The resistor 22 reduces the voltage drop of the signal voltage at the diode 6 and has the effect that regulation is possible through increased modulation of the control amplifier 15 and thus also a greater reduction in the forward resistance of the diode 7 beyond the previously achievable level.

Claims (1)

Claim: Circuit arrangement for the gain control of a Radio receiver by a variable attenuator, its longitudinal and transverse branch each contains a diode, the resistance of which depends on the applied control voltage is, characterized in thatthe diode in the longitudinal branch of the attenuator is the Series connection of a capacitor is connected in parallel with a resistor, which is dimensioned in such a way that the highest signal voltage to be expected is the one at the Diode effective portion of the control voltage is greater than the amplitude of the positive Half-waves of the signal voltage applied to the diode.