DE941200C - Overlay receiver with constant sensitivity - Google Patents

Description

The sensitivity of a heterodyne receiver is not above that the same throughout the tuning range. This fact is particularly annoying with receivers with a large frequency range, since here between the beginning and the end of the tuning range significant differences in the. Sensitivity occur. The reason for this appearance lies in the frequency dependence of the resistance of the coupling circuits of the amplifier tubes, which are voted on.

It is now known that the direct voltage, which is caused by rectification at the grid leakage resistor of the superimposer, to use. In these known arrangements, however, it is assumed that one as possible to generate constant grid tension and uses a particularly powerful one for this oscillating oscillator with an amplitude that is independent of the wavelength.

It has now been recognized that there is a need to achieve constant sensitivity is possible, the amplification - for example of the intermediate frequency amplifier - The sensitivity of the high-frequency amplifier varies according to the tuning range being practiced by using such an arrangement to control in the opposite sense. the Invention consists in the fact that in a heterodyne receiver in which to regulate of the gain, the DC voltage, which is generated by rectification at the grid discharge resistor of the superimposer arises, is used, influencing the gain in such a way occurs that the overall gain is almost constant over the frequency band.

In order to obtain a control voltage suitable for this, the fact can be exploited that the circular resistance of the superposition circle is similar Has frequency response, like that of the high frequency stage. It will therefore be the one negative DC voltage at the oscillator grid, which is caused by rectification at the grid leakage resistor of the oscillator in the oscillating state, used an amplifier tube - e.g. B. an intermediate frequency amplifier tube - to regulate so that the overall gain of the receiver remains constant over the entire tuning range.

To explain the invention in more detail, the circuit is shown in the figure a heterodyne receiver is shown in which the inventive concept is implemented will.

From the antenna A, the received signal goes through two HochfrequenzverstärkerröhrenRi and R2, the three tuned circuits K1, K2, K3 are coupled overall. The high frequency resistance of these circuits is frequency dependent. This changes the overall gain of the receiver.

In the mixing tube M, the signal is superimposed with the local oscillation from the superimposed i`I. The resulting intermediate frequency signal is then, in the usual way in the intermediate frequency amplifier ZFi and. ZF2 amplified, fed to the second rectifier GL2 and the low frequency amplifier NF. The control voltage ATIC obtained in the second rectifier is fed to the tubes R1, R2, M and ZFi for fading control.

A control voltage is applied to the grid resistance Rg of the superimposed element Ü RSp taken, which is used to regulate the gain of the second intermediate frequency amplifier tube ZF2 is used. As a result of the frequency dependence of the circular resistance of the superimposed circuit K4, this control voltage is also frequency-dependent and can therefore be used for this to keep the overall gain constant.

Claims (1)

PATENT CLAIM: heterodyne receiver, in which to regulate the gain the DC voltage, which is generated by rectification at the grid leakage resistor of the superimposer arises, is used, characterized in that the influencing of the degree of gain takes place in such a way that ß the overall gain over. the frequency band almost constant is. Cited publications: Funk, 19,38, pp. 5z9, Fig. A.