SU637943A1 - Random signal generator - Google Patents

Description

The invention relates to radio engineering and can be used to produce random signals. A device for obtaining random signals is known, which contains a ferromagnetic sample placed inside the measuring coil and located in the field of an electromagnet connected to a rotor biasing unit. However, the known device has a limited frequency range. The purpose of the invention is to expand the frequency range. For this purpose, the control unit and the delay element, as well as the electrolyte solution vessel equipped with an electrohydraulic valve, the ferromagnetic sample is placed in the electrolyte solution vessel, the output of the delay element is connected to the electrohydraulic valve, and another the output of the control unit is connected to the control input of the bias unit. The drawing shows a block diagram of the proposed device. A device for receiving random signals contains a ferromagnetic sample 1 placed inside the measuring coil 2 and. located in the field of the electromagnet 3 connected to the sublamping unit 4, the control unit 5 and the delay element b connected in series, as well as the vessel 7 with the electrolyte solution equipped with the electrohydraulic valve 8, while the ferromagnetic sample 1 is placed in the vessel 7 with the electrolyte solution output of the delay element 6 connected to the electrohydraulic valve 8, and the other output of the control unit 5 is connected to the control input of the bias unit 4. The device operates as follows. In the initial state, the electric liquid valve 8 is closed and the electrolyte solution does not enter the vessel 7. A trigger pulse fed to the input of the control unit 5 is fed to the delay element 6 and turns on the biasing unit 4. During the pulse action, the ferromagnetic sample is magnetized to the octane stage. Upon termination of the pulse, the sample begins to demagnetize, and in the measuring coil 2, the emfs are induced

The project is limited in terms of the magnitude of the effect due to the magnetic flux i.

According to OKOH4aHiiJi, the time of the magnetic sequence, when the field of operation becomes constant: -: the delay element b passes the triggering impulse, to the electrohydraulic valve 8, the latter is triggered, and the electrolyte accumulation enters the vessel 7,

Starting with this, a steady flow of pulses of pulses is induced in the coil caused by the action of the electrolyte, which affects the domain structure of the ferromagnetic sample 1. The intensity of the flow of pulses (medium frequency) is controlled by changing the electrolyte concentration of the spectrum; podolahchchieani 4s Podmagnich15vaki8 ferromagnetic sample 1 P-rozBo nts ei-o change for iodoexcitation before the.shaped structure.

Thus, the proposed device allows the frequency range to be extended-the case of Hx signal lines when it is available.

precisely simple adjustment of the average frequency and spectrum

 the invention

A device for obtaining random signals containing a ferromagnetic sample placed inside a measuring coil and located in the field of an electromagnet connected to a biasing unit is about the same because, in order to expand the frequency range, serially connected a control unit and a delay element, as well as a vessel with an electrolyte solution equipped with an electrohydraulic valve; the ferromagnetic sample is placed in a vessel with an electrolyte solution; the output of the delay element is connected to an electrojet A rock valve, and another output of the control unit is connected to the uvravl klchemu input of the body magnetizing unit.

Sources of information taken into account in the examination;

I, Big Sozetka as encyclopedias, third edition, Sovetsk Encyclopedia, 1970, v.3, p.10