DE629901C - Oscillator circuit - Google Patents

Description

Oscillator circuit The present invention relates to circuit measures for tube oscillators to suppress interference waves, in particular such interference waves, those in the through the connected inductances and the inner tube capacitances formed resonant circuit are excited. It is known that the tube circuits Interference wave excitation by connecting ohmic resistors in front of the anode or grid to suppress. With these circuits, the useful wave is inevitably attenuated, which leads to significant losses. In order to avoid these losses, it is suggested the ohmic resistances with series circuits made of elements capable of resonance to bridge, which are tuned so that they are a shunt for the useful wave to form damping resistance. In this way one can achieve that predominantly only the interference wave is dampened and suppressed by the ohmic resistances. Such circuits are expensive, complicated and form due to the accumulation of several elements capable of resonance are the cause of further disturbance wave excitation.

It is known per se, the occurrence of in oscillator circuits To compensate for interference waves through negative feedback; however, were with the known circuits always two feedback paths or feedback organs required, namely one to maintain the desired useful coupling and another for suppression the disturbing wave.

Additional switching elements are used in the circuit according to the invention avoided. There are only those required anyway to build the resonant circuit Elements used in ingenious ways to create a desired one for the useful wave To achieve feedback and a zero or negative feedback for the interference wave. , The oscillator circuit according to the invention, which relates to circuits in which the unmatched grid circle loosely to the matched with tapping Anode circuit is coupled, is characterized in that the grid coil with a Part of the anode coil is coupled so that feedback for the useful wave and that there is zero coupling or negative coupling for the interference waves.

In almost all oscillator circuits one tends to loosely couple the tuning circuit to the tube in order to be able to keep the oscillating frequency as small as possible. One of the most common circuits is shown in Fig. Z, in which the loose coupling is carried out by means of a coil tap. In order to reduce the influence of the effective parallel capacitances for tuning L ", one couples the grid coil 4b on the lying between Anodenabzapf and power source supplying part of the tuning coil, since the effective alternating voltage with respect to ground (cathode) is the lowest.

With this circuit, the risk of disturbance wave excitation is very high. One time it can excite a Sförwelle whose frequency is equal to the natural frequency of the through the grid inductance and the grid-cathode capacitance Cbk formed resonance circuit matches (Fig.2). At other times, an interfering wave can be excited, its resonance circuit by the anode-cathode capacitance Cnk and those to be considered connected in parallel Partial inductances La 'and L "" of the tuning coil is formed (Fig. 3). The changeable one Capacitor Ca is a short circuit at the high frequencies in question to watch.

In these and similar cases, taking into account the phase relationship between anodes and grid alternating voltage, there is feedback for the useful wave determined by La and Ca if L is coupled either to LQ or to L "" or to both. For the interfering wave, however, the two coil parts Ld and L- 'are to be regarded as connected in parallel (Fig. 2 and 3). The interfering alternating current flows in different directions in both parts.

In a circuit according to Fig. Q. the effects of the Interfering wave in L, induced currents because the grid coil is symmetrical with the two Share, e.g. B. halves, coupled to the anode coil provided with a center tap is. In this case, there is zero coupling for undesired frequencies.

In the circuit according to Fig. 5, the coil Lb is with the between the anode tap and the end of the coil which is not connected to the power source. In this case there is negative feedback for the interference waves. In the inventive Circuits, it is recommended to avoid mutual capacitive influences A static shielding S must be attached between the tuning coil L ″ and the lattice coil L.

The application of the inventive concept is not limited to circuits, where the tuning circuit is identical to the anode circuit of the oscillating tube, but can also be used in circuits in which the grid circle of the Is the tuning circle and the anode circuit remains untuned (see Fig. 6).

Claims (5)

PATUNT REQUESTS: i. Oscillator circuit in which the unmatched Lattice or anode circuit inductively to the coordinated anode circuit provided with a tap or grid circle is coupled, characterized in that the unmatched Coil is coupled to part of the tuning coil so that feedback for the useful wave and there is zero coupling or negative coupling for the interference waves. 2nd circuit after Claim i, characterized in that the connection of the anode in the middle of the Anode coil takes place. 3. A circuit according to claim i, characterized in that the Grid coil symmetrical with the parts on either side of the anode connection the tuning coil is coupled. q .. Circuit according to Claim i, characterized in that that the grid coil is coupled to the part of the tuning coil between the not connected to the power source end of the coil and the anode connection. 5. A circuit according to claim i, characterized in that between the tuning coil and a static shield is provided on the grid coil.