SU55928A1 - Pulse generator on two triodes of a circuit of inputs and grids of which are connected by resistances - Google Patents

Description

Pulsed generators on triodes are already known, the chains of anodes and grids of which are connected by active resistances. In the proposed generator, the cathode circuit of one of the triodes includes: a capacitor, an active-bypass iM resistance. Due to this, the shape of the generator voltage curve is rich in higher harmonics, as shown in the accompanying drawing (Fig. 2) with a ratio. The amplitudes of these harmonics up to very high can be made equal to each other and much larger values of the constant component (for example, the amplitude of the first harmonic, according to the author of the proposal, is approximately twice the value of the constant component).

The generator circuit is shown in FIG. 1, and the corresponding curves in FIG. 3. It differs from the usual callarotron circuit by including capacitance C and resistance R in the cathode circuit of lamp L2. Unlike ordinary values, the resistance R is in the order of several tens or hundreds of thousands of hours.

From a review of the simplified process of operating the circuit, it can be seen that at the time of maximum voltage on the capacitor the lamp L is locked and there is a voltage on the lamp grid (Fig. 3). Starting from this point on, capacitor C is discharged to resistance R up to time point i (Fig. 3). At time t, the anode current begins to pass through the lamp JIz; with this, the voltage generated to the voltage is applied to the grid of the lamp L, which is usually used as an amplifying lamp, turning the phase through 180 °.

At the expense of the lamp (7), which until the moment 1 was unlocked, a plus is fed to the grid of the lamp L2. The current in the Lz lamp rises even more rapidly by increasing the negative voltage on the grid of lamp 1, and so on — a surge in the grid of the lamp Lg to O is obtained (limited by grid points due to Rg). From the moment of time t (without taking into account the jump time) a zero current flows through the lamp L2; the capacitor C is charged while the lamp is L. locked.

The voltage on the capacitor C increases and at the time t the voltage on the grid starts to decrease sharply (at this point the voltage passes zero at point A). When the voltage decreases on the grid of the lamp L2

(at time t) the anode current of the La lamp decreases; the lamp L is unlocked and on the grid of the lamp L, due to this, the voltage decreases even more quickly - a second voltage jump is created on the grid of the lamp L dL of Ug s 0. Then the process repeats. The period of oscillation is approximately proportional to the constant time: /.C, and the ratio; approximately proportional to the ratio. The proposed pulse generator can operate at frequencies from several periods per second to hundreds of thousands of lane per second. It is possible to obtain harmonics of significant amplitude up to the hundredth. In some cases, capacitors can be switched on instead of resistances. Such a pulse generator, according to the author, is well synchronized by applying additional voltage to the grid of the lamp L.

PREED MET OF INVENTION.

A pulse generator on two triodes, the anode and grid circuits of which are connected by resistance, characterized in that a capacitor shunted by an active resistance is included in the cathode circuit of one of the triodes.

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