SU362353A1 - MAGNETIC ANALOG STORAGE DEVICE - Google Patents

Description

one

The invention relates to the field of automation and computer technology and can be used to store information in analog form.

Known analogue coupling devices, Hei devices, containing magnetic zanomipani magnetic input conductors with control windings, magnet compensated cores with compensation windings and a mapped power controlled cores with working windings connected through reverse diodes, and controlled windings with working windings connected through reverse diodes, and controlled windings with working windings connected through reverse diodes, and controlled windings with working windings connected through reverse diodes, and controlled windings with working windings connected through reverse diodes, and controlled windings, with working windings connected through reverse diodes, snooded controlled cores with working windings connected through feedback diodes, and hp controlled cores with working windings connected through reverse diodes, h-guit-

The purpose of the invention is to improve the accuracy of the storage device. This is achieved by the fact that, in the proposed device, the controlled cores are connected end-to-end with commented cores, and the combination windings are followed by the control windings.

In the drawing, the principal scheme of the proposed device is given.

The device contains magtepo rigid magnetic circuits (cores) 1 and 2 behind the input signal, a magnetically adjustable 3 and 4, and 5 and 6 functional cables. On the magnetic cores 1 and 2 are located the windings 7 and 5 of the control, on the cores 3 and 4 - two pairs of working windings 9 p W, a. cores 5 and. 6 - compensation windings P 12. The operating windings 9 and 10 are connected via feedback diodes 13-16 to the load elements 17 and 18 and the power supply terminal 19. Sources 20 and 21 of the control signals are connected in series with part-winding // and 12 windings and 7 11 8 control windings. lI 5vam emye and compensatory connections butt joint. The gaps between the 6 n 4, 5 and 3 cores eliminate the help of the BF glue and prizi many clips, and the gaps between the cores 4, 3 2, 1 - and the help of the ferromagnetic crust and iris clips.

The device works as follows.

The signal from the source 20 but the winding 8 is energized and an equating note F occurs, the direction of which coincides with the direction of the alternating flux F2 of the core 4. Thus, the magnetization of the core increases, and, consequently, the current in the load / 7 is increasing. At the same time, the flow F passes through the core of 3 m, being met on a note of the FZ, demagnetizes it. Part of the flow F closes the cores 5 and 6. Due to the fact that the cores 5 and b in the junction with the cores 3 4 still have some air gap, this part of the flow F1 is very small (the gap on the junction of the cores 3, 4 and I, 2 should reduce to a minimum). The control signal passes through the winding 12, creating flow F4. The latter, closed on core 4, is directed oppositely to flow F2. Consequently, the F4 flux to a certain extent demagnetizes the core 4. A part of this flux passes through the cores 2, 5 and 5. The presence of gaps at the joints, a small permeability of the material of the 1 n 2 cores (magnetic hard) and a longer power line lead to a sharp increase magnetic resistance of this circuit. Consequently, this branch of flow F4 can be neglected. This is necessary in order for the flux F to compensate the noise signal, due to the uncontrolled hysteresis loop of the control core and resulting in ambiguity of the output signal in the control and storage mode, not to demagnetize the core 2. The condition of compensation and separation of the magnetic circuits is due to selection turns of the winding 12 and adjustment of the magnitude of the air gap cores 6 and 4. When the control signal t / I is fed from the source 21, the processes in the device are similar. As a result, the current in the load 18 is increased and, accordingly, the current in the load 17 is reduced. Subject of the Invention Magnetic analog storage device containing magnetic hard magnetic cores of the input signal with control windings, soft compensation cores with compensatory windings and magnetic controllable cores with working windings connected via feedback diodes to the load elements, characterized in that, in order to increase the accuracy of the memory, controlled heart Buttons are connected end-to-end with compensation cores, and compensation windings are connected in series with control windings.