DE862319C - Circuit for linearly changing an admittance by means of a periodic control voltage - Google Patents

Description

It is sometimes desirable to have 'an admittance, usually the admittance of a coil or a capacitor, to change periodically in size with the aid of a periodic control or modulation voltage and care to ensure that this modulation is as linear as possible.

The invention provides a simple means of doing this.

It is assumed that the so-called Reaktainzröhry including a tube that is mostly used in conjunction with a coordinated system is to be understood that is controlled in such a way that it behaves in relation to the system as one or more behaves less pure inductance or capacitance.

According to the invention, the modulating control voltage is applied to a reactance tube in a controlling manner and becomes part of the current flowing in this tube, which is caused by the control voltage is modulated in amplitude, after demodulation is fed back to the tube in antiphase.

The invention is particularly useful, among other things for use with transmitters with frequency modulation. Modulation negative feedback is already known for such transmitters, but so far it has been found that the frequency-modulated Signal had to be detected for this purpose. The almost unavoidable in this frequency detection

The distortion is then obtained with negative feedback in the transmitter.

In addition, one is often forced to exit of parasitic vibrations, through application to avoid tangled networks. Both evils are alleviated by the invention avoided. The detection of the amp-hour-modulated currents in the reactance tube can be performed without distortion and the circuit is so simple that parasitic oscillations are not to be feared are.

A more detailed: explanation of the invention follows with reference to two embodiments, both applied to a ¹ transmitter with frequency modulation, which are shown in Figs 1 and 2 of the drawing in. '. Similar or equivalent parts are denoted by the same reference numerals in the two figures. In Fig. 1 is the Qeneratorröhre, 'which is connected in any way. A reactance tube 2 sweeps parallel to the tuning circuit of the tube, the circuit and effect of which, as known, are no longer described here. An innovation, however, is the coil 3 connected to the anode of the tube 2, which is flowed through by the anode surge of the tube 2, but has such a low impedance that it does not noticeably influence the action of the reactance tube as such.

The coil 3 is coupled by means of a coil 5 to a detector ^{circuit in which 1} a rectifier 7 of any type and a resistor 8 are located. The voltage changes occurring in this resistor are in series, but in opposite phase! with the modulation voltage applied between the terminals 9, 9, the grid of the tube 2 is pressed.

If there is no modulation present, flows in the tube 2 and the coil 3, an alternating current having a frequency equal to that of the generator, and is dear shifted with respect to the voltage at the generator circuit ¹ to about 90 ⁰ in phase. Em ¹ case of a modulation changes in the strength of this Wiecnsielstoomies' 2 and 3, so that an ordinary 8, known for amplitude modulation detector used in the circuit 5, 7, can. The detected modulation voltages, which can be used for negative feedback, therefore occur between the ends of the resistor 8.

Since the capacity of the anode of the tube 2 in relation to

on ■ earth, shown in dashed lines in Fig. 1, not is completely negligible, is preferably also with the consequent flowing through the coil 3 Current! to be expected, the phase of which can be different from the above and which then relies on the desired result has an adverse influence Has. This influence, however, can easily be found in the Compensate in a way that, as shown in Fig. 1, one also has a similar current can flow through the coil 4 coupled to the coil 5, which has a small capacitor 6 from the the same capacity as the one shown in dashed lines is connected to earth. The sense of coupling of the coils 3 and 4 with the coil 5 is of course chosen opposite.

Another method for avoiding the same inconvenience is shown in FIG. It lies not 'the reactance tube 2 itself parallel to the generator, but a second tube 12 connected in cascade with tube 2. This series connection takes place in the normal way with the help of an Arüodenistores 10 and a separating capacitor 11. All the current in the tube 2 and therefore in the coil 5 is now in the correct Phase caused by the stresses imposed on the grid of this tube, while the with respect to the latter, the phase-shifted voltage of the generator circuit is no longer the Anode dar tube 2, but the anode of the tube 12 is pressed, where it is on the circle 5, 7, 8 germinate influence can exert.

When using two completely identical tubes 2 and 12, the grids of these tubes can also be controlled in parallel.

Claims (4)

PATENT CLAIMS: 1. Circuit for the linear change of an admittance by means of a periodic control voltage, characterized in that this control voltage is applied to a reactance tube and that a part of the flowing in this tube, due to said control voltage in amplitude modulated current after demodulation in opposite phase to the. Tube fed back will. 2. Circuit according to claim 1, 'characterized in that 'That the capacitive leakage currents flowing parallel to the reactance tube at the Negative feedback can be compensated. 3. Circuit according to claim 1, characterized in that that two cascade-connected reactance tubes are used, which together serve as a variable impedance and of which - the first, 'which also through' the modulation is controlled, is used for the negative feedback. 4. Circuit according to one of claims 1 to 3, characterized in that it is used in association with a ¹ oscillator for frequency and phase modulation of the oscillations generated by the latter. 1 sheet of drawings & 5615 -14.52