DE1087183B - Self-oscillating, additive mixer stage - Google Patents

Description

GERMAN

A self-oscillating, additive mixer stage with a triode in its output circuit is known a resistor and the primary inductance between the positive pole of the supply source and the anode of an intermediate frequency output filter are in series. Between the one facing away from the source of food Point of resistance and the grid of the tube, which has a relatively high leakage resistance is provided, a connection is established via which in particular a feedback of the intermediate frequency oscillations he follows.

The resistance in the anode circuit is usually around 10 kOhm. This resistance is conditional Of course, there is also a considerable drop in DC voltage, which may reduce performance of the tube is reduced and is inadmissible in particular if a tube is used that is intended for low anode voltage is determined and from a battery or the like. is fed.

Investigations which have led to the invention have shown that it is true for the desired intermediate frequency feedback would be sufficient to replace the well-known large resistance only by a choke of sufficient inductance. The one mentioned Resistance not only has the task of enabling intermediate frequency feedback, but also the voltage occurring across it also prevents the well-known "overshoot" of the oscillator gate; these are practically relatively low-frequency breakover oscillations that occur in particular when the grid leakage resistance is large, e.g. B. in the order of magnitude of 1 MOhm, and if the Lattice time constant is relatively large, those caused by the grid leakage resistor and those parallel to it lying capacities is determined. These tilting vibrations (overshoots) cause a strong modulation of the useful vibrations and are of course particularly disturbing when their frequency falls within the frequency range of the transmitted signal.

It is therefore essential to have a low frequency negative feedback voltage as well to leave the supplying resistance in the anode lead. However it has it has been shown that its size can be much smaller than the size of the one previously used, including the Intermediate frequency feedback voltage supplying resistor.

In the case of a self-oscillating, additive mixer stage with an electron tube that has a relatively high-resistance grid leakage resistor is provided, preferably a triode, in a capacitive three-point circuit, at the end of the intermediate frequency output circuit facing away from the anode an intermediate frequency voltage to the grid circle Self-oscillating, additive mixer

Applicant:

Philips Patentverwaltung GmbH,
Hamburg 1, Mönckeb ergstr. 7th

Dipl.-Ing. Heinz Bock, Hamburg,
has been named as the inventor

is fed back, without changing the effect, a significant reduction in the DC voltage losses be achieved when according to the invention between the anode and the positive pole of the Anode voltage source the series connection of an intermediate frequency output circuit, an inductance in the form of a choke and an ohmic resistance (negative feedback resistance), if necessary in parallel with a capacitance, and if doing so, the choke together with the subsequent one Capacitance has sufficient impedance for the recovery of the feedback voltage.

An additive mixer circuit arrangement is also known in which an inductive three-point circuit is used for intermediate frequency feedback in the grid circuit and in which 'the via a capacitor dynamically grounded center of the anode oscillation circuit via a resistor with the supply source connected is. Here, the feedback voltage can be removed from a free end of the oscillating circuit, and so can the grid resistance can be made small in the usual way, so that the resistance in the anode lead according to the desired Anode voltage can be dimensioned arbitrarily. Such a circuit is because of the difficulty the setting of the operating point of the oscillation circuit not suitable for high frequencies; man it is therefore necessary to use a three-point circuit known per se (corresponding to a Colpits circuit) large resistance, but the above-mentioned problem arises that the impedance in the anode power supply now to a point carrying AC voltage to a considerable extent must be connected and has to fulfill two important functions.

These difficulties are easily met with a circuit arrangement according to the invention

009 587/287

reliably avoided without a disruptive DC voltage loss is to be feared.

For the sake of completeness, it should be pointed out that it is known per se, in-a heterodyne receiver supply the high-frequency, intermediate-frequency and low-frequency vibrations to a tube, which, like a reflex stage, amplifies all vibrations at the same time.

This tube forms the preamplifier stage in front of a mixer tube. In their anode are, in addition to others Resistors, two resonance circuits measured for the intermediate frequency switched on. From the anode starting from there are in series on the intermediate frequency oscillations tuned parallel resonance circuit, which forms the input circuit of a band filter, followed by an inductance in the form of a Choke and finally the parallel connection of a capacitance with an ohmic resistance. The thrush and the capacitance in series with it form a series resonance circuit for the intermediate frequency oscillations. In contrast to this, in the circuit according to the invention, the throttle is to be used deliberately a part of the intermediate frequency voltage remain, namely the part which is required for the feedback will.

The invention is explained in more detail below with reference to the drawing, for example.

From a dipole antenna 1, ultrashort wave oscillations of an antenna coupling coil are transmitted via a line 2 3 forwarded *. This is coupled to an input coil 4, one end of which has a Tuning capacitor 5 and the other end of which is grounded through a feedback capacitor 6, the will be described later. The center of the input coil 4 is via a coupling capacitor 7 with the Middle of a grid coil 8 connected, on the one hand to the control grid of a triode 9 and on the other hand via a grid bleeder resistor 10 is connected to ground. The grid bleeder resistor 10 has a trimmer capacitor 11 parallel, which is approximately matched to the size of the grid-cathode capacitance of the tube 9 so that the tap point of the coil 8, to which the coupling capacitor 7 is connected, is free of Oscillator vibrations. These oscillator oscillations are made up of the inductance 12 and the Tuning capacitor 13 formed parallel resonant circuit excited. This circle ended at one end. A tap of the inductance 12 is connected to the anode of the via a connecting capacitor 14 Triode 9. The cathode of triode 9 is grounded. The primary inductance lies in the anode circuit of the tube 9 15 of an intermediate frequency ^ output band filter. the Primary inductance 15 is ■ - in particular by means of the connecting capacitor 14 and the stray capacitances approximately matched to the intermediate frequency, and it is further with the inductance of a resonant circuit 16., 17 coupled in such a way that a band filter arrangement is produced from which the intermediate frequency oscillations are taken can be.

Facing away from the anode of the Röhret terminal of the inductor 15 is connected via a resistor to the positive supply source and also connected to the input coil 4 ^7-face terminal of the feedback capacitor. 6 A bridge circuit is formed by the feedback capacitor 6 and the coupling capacitor 7 on the one hand and by the grid-anode and anode-cathode capacitance of the tube 9 on the other hand, in which, in the manner of a Colpitts scheme, a feedback is applied by capacitive voltage division the intermediate frequency output impedance occurring oscillations occurs.

In order to avoid the disturbing voltage drop across a relatively large resistor in the known manner To avoid the anode circuit, wind without changing the intermediate frequency feedback between the one with the Capacitor 6 connected end of the output inductance 15 and the positive pole of the supply voltage source a choke 18 switched on, which is a proportionate for intermediate frequency oscillations has large inductance.

To get a low grid current and therefore low noise and the occurrence more disturbing To avoid harmonics, the grid bleeder resistor 10 is proportionate in a manner known per se high resistance. Without further action, however, the so-called "overshoot" would wound up. result, d. H. an intermittent excitation of the oscillator vibrations in that by Grid rectification a sudden strong charging of the grid capacitance, especially the coupling capacitor 7 and then only a slow discharge occurs.

It is therefore necessary according to the invention, in addition to the choke 18, to have a negative feedback resistor 19 to be inserted between the throttle 18 and the supply source. Any tilting vibrations that are also a cause corresponding fluctuations in the anode current, generate a negative feedback voltage at this resistor, which, like the IF feedback voltage, via the connection line to the capacitor 6 and via the coupling capacitor 7 dem.Gitter of the tube 9 is supplied.

The size of the negative feedback resistor 19 preferably corresponds at least approximately to the reciprocal value the steepness of the anode current-grid voltage of the tube 9; it is preferably several times larger. at a slope of 2 to 10 mA per volt is therefore obtained with a resistor 19 of 100 to 500 ohms the end; this value can be seen to be considerably lower than the value of the previously used resistor, which is also was used to decrease the intermediate frequency feedback voltage.

In evaluating the new knowledge on which the invention is based, without changing the Effect achieved in a manner known per se a substantial reduction in the DC voltage drop.

When the inductive resistance of the choke 18 is

the intermediate frequency is of the same order of magnitude as the value of the negative feedback resistor 19, it is necessary, between the connection point of the choke 18 and the negative feedback resistor 19 to switch on a capacitor 20 to earth, which is a proportionate for the intermediate frequency oscillations has low impedance.

The impedance between the connection point of the inductance 15 with the choke 18 and earth or The supply source is namely via the series connection of the anode-cathode capacitance and the feedback capacitor 6 transformed in parallel with inductance 15. When the ratio of inductive resistance the throttle 18 to the resistor 19 lying in series and thus the quality factor this branch is small, this results in a strong attenuation of the intermediate frequency output filter ; this is avoided by switching on the capacitor 20.

So that a good negative feedback of the above-mentioned, in particular with respect to the input frequency, of the Oscillator frequency and in general also the intermediate

When the frequency reaches relatively low-frequency breakover oscillations, it is advisable that the time constant of the total capacitance from the negative feedback resistor 19 and the parallel lying formed i? C element smaller than, preferably small, against the time constant of the grid leakage resistance 10 of the tube 9 and the total capacitance lying parallel to it is formed by the i? C element.

The choke, which, as mentioned, is transformed in parallel with the inductance 15, should be transformed with its Value to be large compared to the inductance 15. In addition, it should be noted that the transformation is done by multiplying by a factor

'afc

° afc

where C _{6 is} the capacitance of the feedback capacitor 6 plus other capacitances lying in parallel for the intermediate frequency (in particular the tuning capacitor 5), while C _n ^ represents the capacitance between the anode and cathode of the tube 9, which is in particular also formed by the connecting capacitor 14.

It should be avoided that the choke 18 at the intermediate frequency in parallel resonance with the Capacitor 6 (and possibly further capacitances lying in parallel) comes, and in particular shall be the impedance between the feedback line (from the inductor 18 to the feedback capacitor 6) and earth be capacitive so that the capacitive bridge circuit mentioned above is retained. It is therefore necessary to use the mentioned parallel resonance frequency below the intermediate frequency, preferably at about half the intermediate frequency or lower.

Claims (6)

Patent claims: 1. Self-oscillating, additive mixer stage with an electron tube, which is with a relatively high-resistance grid leakage resistance is provided, preferably a triode, in capacitive Three-point circuit at the end of the intermediate frequency output circuit facing away from the anode an intermediate frequency voltage is fed back to the grid circle, characterized in that that between the anode and the positive pole of the anode voltage source the series connection an intermediate frequency output circuit, an inductance in the form of a choke and an ohmic one Resistance (negative feedback resistance des), possibly in parallel with a capacitance, and that the throttle is combined with the subsequent capacitance sufficient for the recovery of the feedback voltage Has impedance. 2. Mixing stage according to claim 1, wherein the inductive resistance of the choke in the same The order of magnitude of the value of the negative feedback resistance, characterized in that the one between the connection point of the throttle (18) and the negative feedback resistor (19) after the end of the switched-on conidenser for the intermediate frequency oscillations has a relatively low impedance. 3. Mixer according to claim 2, characterized in that the time constant of the negative feedback resistor (19) and the parallel total capacitance (in particular 20) formed i? C element smaller than, preferably small, compared to the time constant of the one from the grid leakage resistor (10) of the tube (9) and that lying parallel to it Total capacity formed i? C-member is. 4. Mixing stage according to one or more of claims 1 to 3, characterized in that via the series connection of the feedback capacitor (6) with the anode-cathode capacitance parallel to the intermediate frequency output impedance (15) transformed inductance of the Choke (18) is large compared to the inductance of the intermediate frequency output impedance (15). 5. Mixing stage according to one or more of claims 1 to 4, characterized in that the resonance frequency of the parallel connection of the choke (18) and feedback capacitor (6) below the intermediate frequency, preferably at about half the intermediate frequency or lower, lies. 6. Mixing stage according to one or more of the preceding claims, characterized in that that the size of the negative feedback resistance (19) at least approximately the reciprocal of the anode current-grid voltage slope corresponds to or is preferably several times larger than that of electron tubes. Considered publications:
German Patent Nos. 688 531, 938 552;
Swiss Patent No. 194 293;
British Patent Nos. 533 558, 617 647.
German patent application T 5391 VIII a / 2 la * (published on July 24, 1952). 1 sheet of drawings 009 587/287 8.60