DE527776C - Feedback tube generator with throttle chain link to suppress the harmonics - Google Patents

Description

The invention relates to a feedback tube generator and is intended to be pure sinusoidal Vibrations by suppressing the harmonics during the generation of vibrations to obtain. For this purpose there is an oscillating circuit tuned to the desired frequency provided over which the outgoing vibrations are conducted, and thus acts as a sieve circle, which allows the vibrations of the desired frequency to pass easily and upright receives, but suppresses the other frequencies.

The invention is to be described in more detail with reference to the schematic examples of the drawing, in the

Fig. Ι a well-known sieve circle,

Fig. 2 his circuit according to the invention with a generator and an amplifier tube,

Fig. 3 shows another embodiment of such a circuit.

The filter circuit in Fig. 1 is composed of a self-induction coil L and two capacitors C ₁ , C _{2 of} different capacities; the larger capacitor C ₁ s5 connects the input terminals 1, 1, the smaller capacitor C ₂ the output terminals 2, 2 of the filter circuit, which is tuned to the frequency W _{0 to be generated.}

For the harmonics, the input impedance between terminals 1 is practically equal to the capacitive resistance of capacitor C ₁ . A large capacitance of the capacitor C ₁ thus has a favorable effect.

In the circuit according to FIG. 2, one input terminal 1 of the oscillating circuit L ₁ , C ₁ , C _{2 is} connected to the anode 4 via a blocking capacitor 3 and the other terminal to the cathode 5 of a generator tube 6. The oscillating circuit has a double task in this circuit. Firstly, it determines the vibration frequency of the generator and secondly, it serves as a filter circuit for the vibrations generated. One output terminal 2 of the filter circuit is connected via a block capacitor 7 to the grid 8 of an amplifier tube 10 and to the grid 6 ^{1 of} the generator by a line 11. The other terminal is connected to the cathode 9 of the amplifier tube 10. The line 11 forms a galvanic feedback which can easily be replaced by a feedback of another type. Apart from the fact that the feedback naturally works in the correct way, it is of essential importance that only the vibrations passed by the filter circuit, i.e., practically speaking, only the vibrations of the fundamental frequency, may exert a feedback effect. The vibrations are kept away from the batteries by suitably arranged choke coils 12, 13, 14, 15. the

Choke coils 13, 15 can optionally be replaced by high ohmic resistances. The amplified, pure vibrations are picked up at the terminals 16.
The arrangement according to Fig. 3 differs from that described in Fig. 2 partly by the transformer 12 between the anode circuit of the generator and the input terminals i, i, partly in that not the entire output voltage, but only part of it is used for the feedback will. For this purpose, the line 11 for the feedback is connected between two capacitors C ₂ , C '£ which are connected in series to the output terminals of the filter circuit. By suitably choosing the ratio of the capacitances of the capacitors Ci, C ₈ ', the size of the part of the output voltage taken for the feedback can be adjusted as desired. The circuit according to Fig. 3 can be used in particular if you want to connect an amplifier tube 10 with a large saturation current immediately after the generator and therefore, in order to fully utilize it, must supply a grid voltage of such a large amplitude that this voltage is not directly used for the feedback can be used. Although the invention has been described here in application to a vibration generator with a subsequent amplifier, it is not restricted to this embodiment. In cases where a pure sinusoidal voltage is required and the load circuit has a very large impedance, this voltage can be taken directly from output terminals 2, 2 or, as with the feedback according to Fig. 3, from part of the capacitive reactance between them .

Claims (3)

Patent claims: 1. Feedback tube generator with throttle chain links to suppress harmonics, characterized in that the oscillating circuit which determines the generator frequency is designed as a π-shaped throttle chain link whose input capacitor (Cj) is larger than its output capacitor (C ₂ ). 2. Tube generator according to claim 1, characterized by a galvanic _{feedback emanating from the output capacitor (C 2} ) of the filter circuit. 3. Tube generator according to claim 2, characterized by a capacitive voltage divider between the output terminals (2, 2) of the filter circuit in the form of two series-connected capacitors (Cj, C ¹ O), between which the feedback line is connected. 1 sheet of drawings