SU142819A1 - Ferrite switch - Google Patents

Description

Ferrite switches using the impedance principle of ferrite are known.

The described switch, which also uses the impedance principle of operation, differs in that from the recording signal one of the cores is re-magnetized to the state "1, and all the others to the state" O. This increases the reliability of the switch. The switch is designed to distribute the current pulses arriving at the inputs, to the output circuits, the number of which is equal to

The drawing shows a circuit diagram of a switch for three inputs and four outputs.

The switch consists of two groups of ferrites. The first group (main) contains cores 1, 2, 3 and 4, the second group (auxiliary) - cores 5, 5, 7 and 8. The impulse of setting is fed to one of the inputs 9, 10, 11 or 12, for example, to the input / /. This passage along the winding 13 of the core 3, re-marsizes it to the state "1. By the same impulse, the cores 1, 2 and 4 are re-magnetized into the "O" state according to the windings 14.

The current flowing in the winding 14 of the core 5 does not cause a reversal of magnetization into “About this core, because the amperages of the winding 13 exceed the amperages of the winding 14. Then, each cycle of the device operation takes two cycles. Distributed pulses are fed to inputs 15, 16, and 17 in the first clock. These pulses pass through the windings 18 of that core, which is in the "1" state and act on the corresponding output. In this case, the output pulses occur at terminals 19, 20 and 21. Simultaneously with the arrival of the distributed pulses, an input pulse is applied to the input 22, which affects the windings 23, 24 and 25. The pulse passes through the winding .25 of the core, which is in the state "1 (core 5), and then through the winding 24 of the core 7 and the winding 25 of the cores 5, 6, 7

No. 142819-2 and 8. The core 7 reverses to the state of "I, and the cores 5, 6 to 8 - to the state of" 0. Thus, after the action of a clock pulse at terminal 22, the cores 5–8 remagnetized in accordance with the state of serAc / -4.

Then .. clock pulse at terminal 26 (second stroke of the device). The action of this pulse is similar to the action of the first clock pulse, but in the opposite direction. The cores 1-4 are reversal in accordance with the state of the cores 5-8. In this way, the initial state of the cores} -4 is regenerated until ae arrives at the installation impulse to another installation input (9.10 or 11). After switching the device, the input pulses will be distributed to the outputs of another group. The switch, which contains m inputs and n outputs, works in the same way as described.

The proposed switch can be used to solve a narrow range of problems on the distribution of pulses, when there are no strict requirements for the output pulse. It is positive that only ferrites and diodes are used in the switch. This makes the circuit reasonably reliable.

The described switch can also be used in software control machines, teleautomatic circuits, etc.

Subject invention

A ferrite switch using an impedance principle of operation, characterized in that, in order to increase reliability, a switch state is regenerated there, and a clock pulse corresponding to this switch state passes through an auxiliary ferrite in two opposite directions, and auxiliary ferrites - in the direction of increasing their impedance