SU408409A1 - DEVICE FOR SWITCHING CURRENTS - Google Patents

Description

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The invention relates to automation and control devices and can be used in cryogenic electronics and electrical engineering.

Known cryotrons are electromagnetic relays with break contacts.

However, the known cryotrons are characterized by insufficient reliability and speed. The extremely low ohmic resistance of the cryotron valve in the resistive state (- South), allows switching currents only in very low-resistance, mostly superconducting, circuits. The potential difference arising at the cryotron gate during its transition to the resistive state is so small: (lO -, 10 V) that when using such a cryotron to control external current devices, it is necessary to use rather complex electronic amplifiers.

The aim of the invention is to improve the reliability and speed of the device when operating in chains with high ohmic resistance.

For this, the device contains a magnetically controlled contact with a superconducting field winding, which is connected in parallel with the gate of the control cryotron.

The drawing shows a diagram of the device.

The device for switching currents contains magnetically controlled contacts (MUK) 1, winding 2 of the MUK, made of superconducting material, valve 3

control cryotron, control winding 4 cryotron.

The device works as follows. In the initial state, the entire device is cooled to a temperature at which winding 2, valve 3 and winding 4 are in a superconducting state. The supply current of the circuit flows through the valve 3. The winding 2 is de-energized, the contacts of the MUK are open and the resistance between them is infinitely large.

When a current pulse is applied to the winding 4, the amplitude of which is greater than a certain critical value, the valve 3 will go to the resistive state and the circuit supply current will begin to be forced out to the winding 2. If the current pulse duration through the winding 4 is long enough for current managed to reach a value at which the MUKs are closed, they will remain closed not

only after the end of the pulse in the winding 4, but also after turning off the power supply current of the circuit, as a non-damping current will circulate in the superconducting circuit consisting of winding 2 and valve 3. This state, like the original one, is stable and remains as long as the winding 4 is not

will give a new impulse again if the supply current of the circuit is absent. Then the current in the winding 2 will attenuate, the contacts MUK is open and the system will return to the initial state.

Subject invention

A device for switching currents consisting of a control cryotron, the valve of which is connected to a power source, characterized in that, in order to increase reliability and speed, the device contains a magnetically controlled contact with a superconducting field winding that is connected in parallel to the valve; the control cryotron .

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