DE866803C - Tube generator for sinusoidal or almost sinusoidal vibrations - Google Patents

Description

Tube generator for sinusoidal or approximately sinusoidal oscillations It is already known that in the AM. i, if a voltage U is supplied to it at terminals a and b, a voltage that is one third of the voltage U can be picked up between terminals a and c, provided that between the angular frequency (o and the values R and C the relationship The voltage 2c taken between the terminals a and c is in phase with the voltage U.

It is also already known to use the circuit according to FIG. I as a feedback element to twist in a sinusoidally oscillating tube generator, with the anode voltage of the vibrating tube as voltage U, and the voltage u via a reversing tube the grid .the vibrating tube is fed. This circuit arrangement is suitable especially for a generator that can be used within a wide frequency range should be set to different frequencies as the frequency as from the The equation given above is the reciprocal value, the first power of R and C is proportional and not like yours. well-known tube generator with a parallel resonance circuit in the anode lead of the root of the product of the Inductance and the capacitance of the parallel resonance circuit. The well-known circuit requires but two tubes, namely the oscillating tube and the above-mentioned reversing tube.

It is also known to use a power distribution control tube To use vibration generation in connection with a parallel resonance circuit, namely in -the way that between .the cathode and; the screen grid of a tube the parallel resonance circuit and the fed back voltage from the screen grid is removed via a Kopp1, urngskon.densator and fed to the safety gate. The first grid of the tube is not involved in the generation of vibrations and is used in this known circuit to keep the oscillation amplitude constant to half. For this purpose, the alternating voltage generated at the bar resonance circuit is used rectified and with the appropriate polarity (that between the screen grid and cathode lying first grid fed. This circuit arrangement for, the vibrating tube While only requiring a single tube, it is only proportionate within one limited frequency range can be used (since the frequency is also the root from the product! of the two frequency-determining quantities is proportional.

According to the invention, a tube generator for sinusoidal or .approximately sinusoidal oscillations of adjustable frequency are created by that the feedback voltage for a known per se, with current distribution control working vibrating tube by means of a four-pole, also known per se, consisting from a series RC element and a parallel RC element connected in series, is produced.

This circuit arrangement has the advantage that you have the advantages of both known circuits are combined with one another, namely only a single tube is required and a-large frequency range gains while the disadvantages of the known circuit can be avoided, namely the small frequency range that was initially in second place, unid the need for a second tube id the one mentioned in the first place known circuit arrangement.

An embodiment of the invention, which at the same time some other Improvements in the circuit can be seen in Fig. 2.

In this ro means the vibrating tube with current distribution control, their Screen grid 2 via a resistor, ii to the positive pole of the anode voltage source is connected and whose catching grid 3 at the upper end, of the P-arallel-RC-Gl: iedes the known four-pole circuit already shown in Fig. i. As tension U is used in Fig. The one on the Perallel RC link in A # bb. 2 occurring alternating voltage is one third of the screen grid alternating voltage, and the circuit arrangement shown can be silent when the gain the tube-io is greater than 3 while maintaining a stable vibrational state the degree of reinforcement must be 3.

As shown in Fig. Z, a DC voltage, which is obtained by rectifying the generated sinusoidal voltage, can be fed to the grid i of the vibrating tube. For this purpose, the anode 12 of the tube io, from which the generated oscillations can be picked up via a coupling capacitor 1d, and a resistor 1q in its circuit. is connected via a coupling capacitor 1t5 a two-pole tube i6 in a parallel rectifier circuit. The resistors and capacitors 17 to zi serve to smooth the DC voltage obtained, and the DC voltage thus occurring at the grid i regulates the gain of the tube from grid 3 to grid: 2 to vVert 3, at which stable vibrations can exist.

You can also see the generated alternating voltage at the upper end of the resistor i i decrease, in which case (the control voltage for Idas grid i is also taken from the screen grid alternating voltage and the anode 112 directly to a positive without the interposition of resistors Potential opposite cathode can be placed.

Claims (1)

PATENT CLAIMS: i. Tube generator for sinusoidal or approximate sinusoidal oscillations of adjustable frequency, characterized in that .die Feedback voltage for a known oscillating tube (ro) with power distribution control by means of a quadrupole, also known per se, consisting of a series RC element and a parallel .RC- element connected in series with it is generated. a. Tube generator according to claim i, characterized in that, the vibrations at a -in the anode circle - Remove the resistor (i4) lying on the tube (iio #). 3. Tube generator according to claim i, characterized in that a direct voltage for amplitude control (the vibrations of one of the electrodes involved in the generation of vibrations (2, 3) separate electrode (i) is supplied.