SU126551A1 - Device for discrete implementation of a random process - Google Patents

Description

In the known schemes of noise generators on thyratrons, the static nature of the ionization process is used. Such generators allow AND: to mitigate random functions that are implemented non-discretely. In addition, in existing generators it is difficult to obtain a significant noise power in the infrasonic frequency range.

The proposed device, consisting of several elementary cells of the same type on thyratrons, allows one to realize both stationary and non-stationary random processes in the frequency range of the order of I Hz and less. For this, the device uses the fact of the accidental ignition of a thyratron located in the region of unstable burning. The ability of a thyratron to transmit significant currents makes it possible, by means of a relay in its anode circuit, to close certain sections of the automatic control circuit, to cause a disturbance (noise) of high power. Connecting in series cells or their actuators (relays), you can change the period of noise (their frequency).

The cell diagram is shown in the drawing. A bias voltage, corresponding to the unstable burning zone, is applied to the control grid of the thyratron L through the resistance Ri from the divider formed by the resistances Ri, RS, Rt and Rs. A change in the magnitude of this voltage changes the likelihood of thyratron ignition (the realization of a random function). To obtain a non-stationary process, the likelihood of thyratron ignition varies over time, for which purpose the switch of the type of work. VC. E. Turns on the resistance s with the heater. The magnitude of this resistance varies with the temperature of the coil of the heater. (Structurally, the resistance can be performed in various ways). Switch "1 kind of work" fi / C has three positions. The positions / (contacts / -2, 3-4, 7-8 are closed) and /// (contacts 5-4, 5-6, 7-8 are closed) are used to obtain unsteady