SU22743A1 - Apparatus for repeatedly generating or amplifying high frequency electrical oscillations - Google Patents

Description

Many methods of generating electrical oscillations using cathode lamps (for example, Gartle, Meissner, Kolpit and others) are already known, the difference between which is the use of E various methods of electrical communication between the elements of the lamp and the elements of the circuit in which oscillations are generated. In order to increase the oscillation power at a given type of lamps and certain voltages of sources of electrical energy, they must either be used in parallel to connect lamps or switch to the so-called multiphase circuits. Both methods are widely used today, with the second method being used mainly in the form of the well-known two-phase scheme, called the push-pull scheme, Push-pull and Meni scheme, in various versions.

The method of parallel connection of lamps entails well-known drawbacks, mainly due to the appearance of lightly parasitic vibrations and the uneven distribution of the total load between the individual lamps.

The two-phase scheme, being much less susceptible to these drawbacks, has, along with this, the advantage

in greater stability of oscillations. But an increase in the initial power, when moving from a single-lamp scheme to a two-lamp scheme operating on a two-phase principle, is limited to its doubling. In order to increase the power even more, you have to switch to a system with a large number of phases or, in a two-phase scheme, turn on the lamps with pypps several in parallel or finally return to the single-lamp scheme according to the principle, but with several lamps operating in parallel. A multiphase system with more than two phases is difficult to implement, and the disadvantages of the parallel section are already described above.

The present invention aims at eliminating the aforementioned disadvantages and consists in a special form of implementation of a device for the repeated generation (or amplification) of electric vibrations, in which tuned circuits are used, which are interconnected in series in the form of a polygon with or without separation capacitors.

In FIG. 1 depicts part 1 of the device; FIG. 2 - 4 - schemes of its modifications.

In the device. in FIG. 1 (in the case of using an autotransformer connection) the cathodes //, // generator lamps are connected to successively configured circuits C, LK, Cio; one of the capacitors C, .- i of each of these circuits at the same time is connected in parallel with the grid-thread CK of the corresponding lamp, and the self-induction coil Lk (or part of it) is connected via the blocking capacitor Cc to the anode A of the same lamp. In the anode supply circuit of each lamp, the reactive coil AJ is included, as usual

When the device is manufactured in a two-stroke double circuit with the aim of amplifying oscillations (Fig. 2), the cathodes And, I of the generator lamps are connected to the extreme points of the 6V, L circuits from the side of the respective capacitors, and the anodes A, A through the blocking capacitors C, to the middle points LK self-induction coils. The amplified voltage must be applied to the grids C of these lamps, for which the grid and their filament are electrically connected to the pathogen.

In a modification of the device designed to generate oscillations (Fig. 3) in a four-stroke push-pull pattern, the lamps are connected to tuned circuits by means of self-induction coils KS A (in the grid circuit) and (in the anode circuit). Equally, inductive coupling can be applied in a device designed to amplify vibrations. As an example in FIG. 4 depicts an eight-time single-ended amplifier.

Thus, in the above-described device, any of the electrodes of the lamps (the thread — the anode, the knock — the grid, the grid — the anode) are connected in parallel to the elements of the common contour and each of the llamas also

electrically connected only with its section of the entire cucTeiMbi of the circuits connected in series. Due to this, it is possible to evenly load the lamps and eliminate a number of causes of spurious phenomena.

According to the author, the device can be used both to amplify oscillations by the regenerative method without causing natural oscillations, and to amplify, accompanied by their generation.

about

The subject matter of the invention.

Claims (3)

1. A device for repeatedly generating or amplifying high-frequency electrical oscillations using a system of tuned circuits interconnected in series as a polygon with separation capacitors between or without loops, characterized in that the generator tubes are connected by cathodes to these circuits so that one of the capacitors of each circuit Ck is connected in parallel to the grid circuit - the thread of one of these lamps, and the self-induction coil or part of it // is connected through a blocking condensation Torus Cc to the anode of the same lamp (Fig. 1). 2. The device modification according to claim 1, stating that the cathodes of the lamps are connected to the extreme points of the circuits on the side of the capacitors C, and the anodes through the blocking ..-. We capacitors Cf - to the average, then to: - self-induction bulbs of IL-kon-urr in, with the amplified voltage applied to the grids (Fig. 2). 3.Video modification of the device according to claims 1 and 2, characterized in that the lamps are connected inductively to the circuits (Fig. 3 and 4). A.I. B to the author's testimony of V. Spike ff ( Spike 4. t, A / L 1 L ff С V. Shirkova K 22743