DE369708C - Circuit for tube generators - Google Patents

Description

The invention relates to a circuit for Rölirengeneratoren and pursued in primarily the purpose of making the generated vibrations independent of minor ones Changes in impedance between the tube electrodes and fluctuations in the anode battery. The invention consists essentially in the parallel connection of an oscillating circuit of low impedance to Tube generator with a high resistance connected upstream of the anode battery. the Circuitry, which has other special features, ensures that the anode battery supplies a current which is quite independent of the state of the generated Oscillations, so that the latter also remain constant and independent of changes in the tube. Below are two embodiments of the invention described.

In Fig. Ι represents the tube 4 in connection with the induction coils 5 and 6 and with your capacitor 7 is a generator which oscillates with a frequency generated, which is determined by the setting of the capacitor 7. 10 is the anode battery, its negative pole with the cathode 11 and its positive pole via the high one Resistor 13 is connected to the anode 14. This resistor 13 is one of these high value that the direct current flowing through is practically constant and little depends on the oscillation frequency or on small changes in impedance the electrodes of the tube. A path of low impedance is offered to the oscillations via capacitor 18 and resistor 19.

Accordingly, two parallel current paths run between the 4> terminal of the battery io located at the cathode and the terminal of the resistor 13 located at the anode. One path leads via the tube and the other via capacitor 18, resistor 19. The u!: Er The current flowing through the tube is made up of two components, a direct current and an alternating current component, whereas the current through 18, 19 consists of only one alternating current component. These different components come from the battery 5 ⁿ ι ο, but the two AC components in the two parallel branches always have the same amplitude and the oscillations can be considered to be in series in the circuit 18, 19, 11, 14, 6 and 7 As a result, the current flow through resistor 13 is essentially to be regarded as constant, and since this resistance represents a large part of the total discharge current impedance, not only the total current is kept essentially constant, but the direct current component also essentially constant with respect to a small impedance fluctuation of the battery or the discharge path. It follows from this that the alternating current component must also be constant. The capacitor 18 has a high capacitance and consequently a low impedance, so that the impedance of this path is mostly due to the low A resistance 19. The impedance of this resistor is dependent on the frequency of the generated oscillations and accordingly, since the average current of the battery 10 remains constant, the amplitude of the alternating voltage at the terminals of this

Resistance a constant. The increased vibrations in circle 24 can through the transformer 25 placed on any suitable receiving or transmitting terminals will. The amount of tension that is pressed on the reinforcement can be mediated by of the adjustable contact 26 can be regulated. This amplifier 23 has the Property that it allows current to flow only in one direction. Consequently no current will flow from circuit 24 back to the generator. The circle 24 can so it does not affect the generator and cause distortion in the waveform of the generated vibrations.

The capacitor 18 prevents a direct current flow through 19. The voltage source 10 can also be used as a battery for the amplifier 23 can be used. The choke coil 28 prevents the oscillatory currents through the Go battery circuit. Similarly, a capacitor 29 prevents the Direct current flows through the primary winding of the transformer 25.

The tube generator of Fig. 2 is connected in a similar way as in Fig. 1. The high frequency oscillations go through the shunt, inductance 32 and capacitor 33. This inductance 32 significantly bypasses the low frequency currents from the amplifier and causes the high frequency currents to create high voltages on the inductance and amplifier terminals so that the harmonics Frequency components are amplified. The voltage drop at the terminals of the inductance 32 is pressed onto the grid circuit 35, the tube 36 which is conductive in one direction, the latter preventing any reaction of the circuit 38 on the generator. The amplified vibrations in the circuit 38 are applied to a system of coordinated circuits by means of the transformer 39. Since the impedance of the inductance 32 increases with the increase in frequency, it follows that the harmonics caused by the tube 4 are again amplified significantly more than the fundamental wave, so that the secondary coil 41 of the transformer 39 contains the fundamental wave and its ear waves with approximately the same intensity . If the capacitor 42 and the inductance 43 have such values that only oscillations of the fundamental wave f can pass through, the circuit 45, which is tuned to the frequency f , will only receive oscillations of this frequency through the transformer 46. When capacitor and inductance 49 on the first harmonic 2? are tuned, the tuned circuit 15 will only pick up oscillations of the frequency 2 ^. In the same way, the tuned circuit 52 can be designed so that it only receives oscillations of the frequency 3 ^ etc. The arrangement thus serves as a generator for harmonics and these can be used for any purposes, such as. B. in a signal system as high frequency waves that are controlled by low frequency signals.

The capacitor 33 prevents the passage of the direct current of the battery 10 through Inductance 32 and the choke coil 54 prevents the generated vibrations from and 13 flow. The capacitor 37 prevents the battery 10 from crossing the primary winding of the transformer 39 is short-circuited.

The circuit which allows the replacement of a tube 4 by a tube of a similar type without Interference enables, can be applied to tubes of any kind.

Claims (5)

Patent Claims: 1. A circuit for tube generators, characterized in that in parallel to Tube an oscillatory circuit (18, 19 j low impedance, with the anode battery having a high resistance (13) is upstream. 2. Arrangement according to claim 1, characterized in that in the pipe branch an oscillating circuit (6, 7) is arranged, which is in feedback with the grid of the tube. 3. Arrangement according to claim 1, characterized in that the harmonics can be filtered out using circles (Fig. 2). 4. Arrangement according to claim 1, characterized in that said low impedance in its value depends on the frequency of the generated Oscillations affect the harmonics so that they have the same intensity value how the fundamental waves come, the high resistance (13) being an impedance for the high frequency, so that it is kept away from the anode battery will. 5. Arrangement according to claim 1 and 4, characterized in that one only in a directional conduction tube between the low impedance and the useful circuit on a reaction of the latter prevents the tube generator. 1 sheet of drawings.