SU145067A1 - Magnetic gate - Google Patents

Description

Magnetic logic elements are known, with the help of which operations “And with negation can be performed.

In the proposed magnetic logic element to reduce equipment and increase speed when performing the operation "And with negation, the control winding has two consecutive inputs. The schematic diagram of the described magnetic logic element is shown in the drawing.

The magnetic logic element is made on a toroidal core} from a material with a rectangular hysteresis loop having two windings: working 2 (Wp and controlling 3 (Wy). Working polarity (s) and supporting (") voltage in the drawing for controlling half-cycle is not circled in a circle, and for a worker is circled. The same applies to the input signal a (input 4) and input (input -5), the operating and reference voltages are sinusoidal, of the same frequency and coincide in phase. the signals are alternating periodic functions, although the operation of the circuit In principle, they are not disturbed in the control of constant signals and signals of one- and two-wave rectifier. The working half-period is called the half-period in which the working circuit diode 6 conducts and the control when diode 6 does not conduct. and the signals a and e are related to each other and to the reference voltage and the ratio U ,,

In the control half-period of mode a 0 and 0, the core / is not demagnetized, since the reference (the voltage is blocked by the diode 7. In the working half-period of this mode, both the reference and the operating voltage will act in the direction of conduction of the diodes 5 and 7, and the operating and control circuits will be released under the condition

(L-4)

No. 145067-2 where iy and 7 are instantaneous currents in windings 2 and 3 in the working half-period (the current iy is the current in the control circuit led to the load circuit).

/ - conditional coercive current.

Thus, at а 0 and 8 0 the voltage on the load is 8 t / "„ 1 ().

In the control half-period of mode a and 0, the demagnetization of the core also does not occur, since the voltage of the signal a is compensated by the reference voltage. Therefore, when a and 6 0 s „, 1 (). Mode a 0 and does not differ from mode a 1 and 8 0.

In the control half-period of mode a 1 and 8 1, demagnetization of the core becomes possible, since the demagnetizing voltage acts in the conduction direction of the diode 7

t / ,,

with a given number of turns Wy of the control winding 3, it is sufficient to magnetize the core for a half-period from + Fa to -FaH. At the same time, in the working circuit e. d. the transformation is blocked by the operating voltage U.

Thus, with and “a load will be zero output (a / 8 0).

The described logical element can be used in automatic devices.

Subject invention

A magnetic logic element containing a core with a rectangular hysteresis loop, having control and operating windings, each of which has a series of diode, resistance and a source of alternating voltage in series, distinguished by the fact that, in order to reduce equipment and increase speed when performing " And with negation, the control winding has two consecutive inputs.