DE933516C - Arrangement to suppress the effect of undesired intermediate frequency signals with multiplicative mixing - Google Patents

Description

Arrangement for suppressing the effect of undesired intermediate frequency signals in the case of multiplicative mixing In the case of heterodyne receivers, it is necessary to prevent signal voltages in the IF range from being applied to the control grid of the Mixing tube have an effect, otherwise malfunctions can occur.

It is known for this purpose blocking or suction circuit arrangements between To switch the antenna input and the coupling to the grid circle of the mixer tube.

When using matched ferrite rod antennas as a grid circle However, these arrangements are ineffective because of the interference voltage caused by the mixing tube Immediate absorption from the field occurs in the circle itself. This fact can Another consequence of this is that, in the case of a crowded structure, due to the scattering of the reinforced Intermediate frequency from the device, feedback to the ferrite rod occurs, which can lead to self-excitement. An activation of blocking or suction circuit arrangements between the grid circle and the tube is simply not possible as an effective means, since they would adversely affect the quality and the coordination of the preliminary circle.

These difficulties make the use of ferrite rod antennas may be questioned. The present invention now shows a way like the effects of unwanted intermediate frequency signals on the grating of a usual multiplicative mixing tube (z. B. Hexode) suppressed and thus the above-mentioned Difficulties can be resolved.

The idea of the invention provides for the switching on of an intermediate frequency matched trap circuit in the cathode line of the mixer tube. The activation a trap circuit in the cathode line of a tube to achieve a selective Negative feedback and thus attenuation of the gain for a certain frequency is known per se, but in the usual circuit for suppression undesirable Intermediate frequency signals not readily usable with mixer tubes; there for the The useful intermediate frequency formed by the mixture also cause a negative feedback and the mixing gain would be significantly reduced.

The circuit according to the present invention now allows attenuation the effect of unwanted intermediate frequency voltages on the control grid a multiplicative mixed pine (e.g. Hexode) without reducing the Mixing amplification in that, according to the invention, the . The blocking circuit tuned to the intermediate frequency is switched in such a way that the anode alternating current traced back directly to the cathode, the screen grid current on the other hand via the mentioned Trap circuit is performed and so causes a selective negative feedback, which is undesirable Intermediate frequency signals are suppressed, but the mixer gain is not influenced.

FIGS. 1 to 3 are for understanding the present invention three circuit diagrams compared.

Fig. I shows the scheme of a common multiplicative mixer circuit, at which the anode current I "depends on both the grid g1 and the grid g3 standing voltages of the receiving or oscillator frequency is fully controlled. A voltage Ue at the grid g1, at whose frequency the anode resistance formed from L "and Ca. Z "is in resonance, will therefore appear amplified at Z". This applies to that Grid G1 reaching undesired intermediate frequency voltages. As a consequence of this then disturbance phenomena occur due to external sources of interference at this frequency or feedback on.

Fig. 2 shows the scheme of a conventional circuit with selective negative feedback through a cathode blocking circuit Lsp - C, in which the anode current I "and the screen grid current I92, both of which are controlled by the voltage on the grid g1, flow through the blocking circuit in the cathode line and in its Resonance at its resistor Zsp generate a noticeable voltage drop (I "+ 12) Zsp, which is composed of the voltage U" supplied from the outside to the grid g1 in phase opposition, as a result of which the control voltage Ust of U, acting between the cathode k and the grid g1 decreased (negative feedback) and thus a weakening of the amplification of the tube stage of V, on causes. Here, S "means the steepness of the Id-U.9l characteristic and S92 the steepness of the I92-U91 characteristic.

Fig. 3 shows the scheme of a multiplicative mixer circuit, in which the inventive inclusion of a cathode trap circuit Lsp - Csp weakens the control effect of an undesired intermediate frequency voltage U reaching the control grid g1 without loss of mixer amplification, thus reducing the risk of the above-mentioned disturbances occurring .

The essence of the present invention is that the mixing tube is switched in such a way that the anode alternating current I "carrying the mixed intermediate frequency is returned directly to the cathode (e.g. via the capacitor , bypassing the intermediate frequency blocking circuit Lsp - C" connected between cathode k and ground) C), while the current 42 + 4 of the interconnected screen grids g2 and 94, which does not yet have a mixed intermediate frequency, since it is almost independent of the voltage of the control grid 93 at the oscillator frequency and essentially only of the voltage at the control grid g1, which is also the intermediate frequency voltage U, to be suppressed, contains, depends on -, the cathode trap circuit Lsp - C ", which is tuned to the intermediate frequency, flows through. Here then a voltage drop (I92 + 4) ZSD occurs, which, as explained above, is the control voltage between the cathode k and the control grid g1 is effective, from U, to scaled down. Thus, an undesired intermediate frequency voltage U reaching the control grid g1 is increased by the factor in its effectiveness weakened. The mixing gain, however, is not reduced because. the current I ″ carrying the intermediate frequency produced by mixing does not flow through the cathode trap circuit.

An influence on the oscillator circuit, which may be Triode system located in the same tubular bulb and working on the same cathode used, does not normally take place at the usual frequencies.

The circuit arrangement according to the present invention permits thus, among other things, the reception by means of a tuned ferrite rod antenna with avoidance of unwanted disturbances caused by IF interference, without affecting the mode of operation the mixing tube is adversely affected.

Claims (1)

PATENT CLAIM: Arrangement 'to suppress the effect undesirable, on the control grid of a multiplicative. Mixing tube (z. B. Hexode) receiving intermediate frequency signals without reducing the mixing gain, in particular when receiving with a ferrite rod antenna, characterized in that a trap circuit located in the cathode line and tuned to the intermediate frequency is connected in this way; that the anode alternating current is led directly, the screen grid current, however, via the blocking circuit to the cathode.