DE1077727B - Reactance tube circuit - Google Patents

Description

Reactance tube circuit It is known to detune oscillators, z. B. at; Axial tuning circuits, frequency modulation, etc., realizable reactances in the form of so-called reactance tubes. The effect of the realance tube is based on the fact that the voltage on the grid against the voltage through a phase scanner The anode voltage is pliasenv created by 90 °, the anode alternating current is then opposite the alternating voltage + 90 ° in the phase v veroba. By regulating the working point of the tube the anode alternating current can be regulated so that nm in this way an adjustable inductive or capacitive reactance.

Such a known reactance tube circuit is shown in Fit 1, in which the phase shift between grid and anode alternating voltage of the reaction tube Rö is achieved by an RS element (resistor 1 nd capacitor 2) and in which the Voltage used for control at terminals _-1 and B and across resistor 3 is guided to the control grid.

As a result of the inevitable tube and switching capacities, this leads known reactance tube circuits; at higher frequencies to difficulties, in particular when the losses in the circuit are to be avoided.

Another known reactance tube circuit for achieving a adjustable reactance, which is particularly advantageous at higher frequencies as the circuit described, as shown in FIG. 2, consists of an amplifier tube Rö, in whose anode voltage supply line the primary winding 4 of a transformer, the secondary winding 8 of which is the series connection of the capacitor 5 and MTderstand 6 feeds. The between the connection point of capacitor 5 and Resistance 6 and the center tap of the secondary winding 8 lying voltage added to the control grid of the tube Rö. Depending on the polarity of the transformer, this is Voltage exactly -a-90 ° or -90 ° shifted against the alternating anode voltage, if the absolute value of the resistance of capacitor 5 is equal to resistor 6. A disadvantage of this circuit is that a phase angle of 90 ° is always is only achieved at a very specific frequency and the frequency deviation is not constant can be held.

Furthermore, it is already known, the control grid of the reactance tube to supply the voltage via a low-pass filter.

However, it is desirable for many purposes to use such reactor tube circuits achievable frequency deviation almost constant over a certain frequency range to keep. The invention solves the problem by means of a combination expediently one on top of the other matched circuit features and consists in the fact that by using a in a manner known per se from the secondary winding of one in the anode circuit of the reactance tube lying transformer-fed phase shift element from a series connection of capacitor and resistor, with the one between the middle of the secondary winding and the voltage at the junction of the resistor and capacitor to the control grid is fed to the reactance tube and one to the control grid in a manner known per se Way upstream low-pass filter, the frequency deviation is constant in a frequency range is held by the frequency response of the low-pass filter is dimensioned so that the frequency dependence of the phase shift element is compensated over a wide tuning range.

According to a development of the concept of the invention, this is derived from the Series connection of capacitor and resistor dimensioned the existing phase rotation element so that that for the middle of a frequency range to be swept the absolute value of the Capacitor resistance corresponds approximately to the resistance, and continues to be the cutoff frequency of the low pass is placed above the frequency range to be swept. Also is It is advantageous for many purposes to use the primary winding of the transformer as a resonant circuit coil to use.

The invention is explained below with reference to FIG. 3, which shows an example of an embodiment of the inventive concept. The reactance tube circuit shown in Fig. 2, consisting of a reactance tube Rö with the primary winding 4 of a transformer located in the anode circuit of this tube and a phase rotation Z fed from the secondary winding 8 of this transformer, consisting of a capacitor 5 and a resistor 6, is connected to a control grid of the tube Combined low-pass filter, which is dimensioned so that the frequency dependence of the plias rotary member is compensated in a large range by the frequency response of the voltage fed to the control grid. Such a low-pass filter is shown in FIG. 3 by the choke 9 and the capacitor 10. The cut-off frequency of this low-pass element 9, 10 is placed correspondingly far above the frequency range to be swept over. The voltage for regulating the reactance is applied to terminals A and B in such a way that it is finitely in series with the grating removed from the phase rotation element. This circuit has the further advantage that the grid cathode capacitance is included in the low-pass filter and loses its other influence.

With the circuit according to the invention, much smaller Realize reactances than with the known circuit of FIG. 1, since the The larger the alternating voltage fed to your control grid, the smaller the reactance is. In the circuit according to the invention, the amplitude of the grid supplied to your depends Voltage largely depends on the choice of the transformer's transformation ratio from, whose transmission ratio accordingly corresponds to the respective ratios can be customized.

Claims (1)

PATENT CLAIMS: 1. Reactance tube circuit for producing a controllable reactance, characterized by the fact that by using ei # s in a manner known per se from the Sektuidävicklung of a transformer lying in the anode circuit of the reactor tube fed PliasendreligAes from a series circuit of 1,7-ondensor and resistance, whereby the voltage between the fit of the secondary winding and the connection point of the resistor and capacitor is fed to the control grid of the reactance, and an "efpasses" upstream of the control element in a manner known per se, the frequency deviation is kept constant at a frequency by the frequency #ang of the low-pass filter is so dimensioned that the frequency dependency of the phase-shifting element over a wide tuning range is compensated for purchase corresponds. 3. Reactance tube circuit according to claim 1 or 2, characterized. <let the primary winding of the transformer be used as a secondary circuit (e.g. of an oscillator). Documents considered French patent specification \ r. 938957; U.S. Patent No. 2,503,739.