SU680056A1 - Analog memory - Google Patents

Description

The invention relates to the field of automation and computer technology and can be used in specialized computers as a storage device of uninterrupted signals or an integrated memory memory card.

Known magnetic storage devices made in the form of an insulating cannula with pins. Inside each capsule there is a magnetic core, and outside there are multiple-stranded windings, missed by the special grooves 1.

The disadvantage of these devices is the limited number of memorization levels, determined by the number of pins installed in the device.

The closest to the proposed is a device comprising a hermetic case, inside of which a ferromagnetic core of cylindrical shape is located. The tube is filled with a viscous liquid and the control and measuring winding 2 is placed on top of it.

The disadvantage of the device is its sensitivity to interference. The input currents of the device magnetically core, changing in one or another of its permeability, which leads to a distortion of the read

parameter - reactance of the measuring winding.

The aim of the invention is to increase the noise immunity of the device. The goal is achieved by the fact that the device contains an emitter and a receiver located on opposite sides of the hermetic case, matching elements and an additional control winding, one ends of both control windings directly, and others through the matching elements are connected to the device input.

In addition, the hermetic case is made transparent and filled with a transparent face, and the receiver is made in the form of a photoresistor.

Due to the use of photoelectric reading of information, using both a transparent liquid and a transparent housing, on which the additional control winding and matching elements are placed, it was possible to talvanically dissipate the output and input circuits of the device.

The proposed analog storage device (ABC) shown in the drawing. The device contains a hermetic glass case 1 with located B1 inside

It has a ferromagnet core 2, floating in a viscous troechic fluid 6. On the housing 1 there are control taps 4 and o, one ends of which are joined through the successively connected matching elements b and /. On opposite sides of the housing 1, the radiator 8 and the receiver U are placed.

the input of the device is the common SST. The control windings 4 and the connection point 1 of the connection of matching elements, diodes b and 7 are connected. The output of the device was a receiver of the U.v. vtozhtotzyztor processor body 1 and the core 2 there is an annular gap for the flow of a viscous fluid.

The analog storage device operates as follows.

and the initial state of the control windings 4 And de-energized. Ferromagnetic core 2 Finds in: indifference on equilibrium. The light flux from the radiator passes through the glass of the corrs 1 with the clear liquid 3 and hits the sensitive surface of the photoresistor ti. The magnitude of the illumination of the photoresistor Y is determined by the position of the core 2, which performs the role of a movable shutter.

11r AND the supply of the control plane depending on the applied polarity, the current passes through the left 4 and right 5 ynpai windings. When connecting the common connection point of the diodes 6 and 7 to the positive terminal of the input source, and the common connection point of the windings 4 and o to the negative terminal, the current, and the local control winding 4, generated by this current, interacts with the moving the ferromagnetic core 2, as a result of which the core begins to move to the left, retracting into the left winding 4. During this movement, the non-opaque body of core 2 frees the path of the light from the radiator 8. The illuminated surface of the photoresistor 9 increases and ina its resistance: no umenschaets.

When the control voltage polarity changes (the common connection point of the diodes 6 and 7 is connected to the negative terminal of the source) the current is broken by the locking winding 5. Heart | Neither 2 moves to the right, retracting into the winding 5. It covers the opaque end of the light winding the flow from the radiator 8. The resistance of the photoresistor 9 increases (the conductivity decreases).

The speed of movement of the core 2 depends on the magnetomotive force, the viscosity of the fluid used 3, the size of the gap (its length and width) between the housing 1 and the core 2, the distance 1H between the control rams and the core, between the windings. With

the vigorous geometry and material of the core 2, the case i and the control windings i and and, I twist, |; the fluid annoys J and the number of turns ouAiOTOK, as well as in the case of relative ibHO parts up to i mm; The displacement of the movement of the core is proportional to the control choke. ..1eveno .ibjiu, the magnitude of the displacement will be the integral of the it and the current during its scaling. 1 as the area of light scattering, x; the photoresistivity is proportional to the movement of the heart Z, the output output1, and the device pyramid conductivity of the photoresistor yj is also a function of the integral of the input current over time.

After the control windings are turned off, the analog storage device stores the integrated value of the input signal.

The proposed device is a thin-walled glass tube with j-j: "b." Windings mounted on it. As a viscous, transparent l: liquid 6, glycerin was used. The ferromagnetic core 2 is made in the form of a hollow hermetic cylinder of lermalloy le1nty. Before being placed in a transparent case, 1 core / was balanced in an open vessel with glycerin to level the specific weights (the lifting force of the hollow hermetic sage, was compensated by the weight of its shell).

The device used an SF2-12 photoresistor (with the dimensions of the photosensitive area i, oxO, lb mm), and as the radiator - the submina- tive ribbon of teal Cjnhi-yo). The device can also use a receiver and a source of electromagnetic radiation in the frequency range from CH4 to -radiation, a receiver and a source of radioactive radiation.

11 the proposed device integrates multi-polar input signals in an open circuit. Integration time from 2 to kuO with.

In analogue storage mode, a closed input signal processing circuit was used. To the input of the device, control signals were output from the output of the comparator, to the input of which the output of the AMS was connected (photoresistor 9) and the signals to be recorded were added. The output of the photoresistor 9 varied from 10 cm.

Experimental studies — and, conducted with eight AZS assembled on one circuit board, confirmed their increased noise immunity compared to the above-mentioned devices. The use of a photoelectric readout of spilled information allowed us to exclude the effect of input circuits on the weekend and to improve the accuracy of the device. Error

recording the signal according to the compensation scheme is 0.1%, its speed in the entire range is 2 s., the error in storing the signal is 1% per day.

The device was tested for sensitivity to the field of vibration, vibrations and shock loads. When the tube axis deviates with the core a ± 20 ° from the horizontal, the recorded signal does not break, and in the integration mode, the time constant for different-polar signals of the same level is practically unchanged. A corlus with a ferromagnetic core, a photoresistor and a radiator are rigidly connected to each other. Due to the indifferent state of equilibrium of the core in a viscous liquid, the device is insensitive to vibrations in the frequency range from 0.5 to 50 Hz with an acceleration of 0.5 gr and to shock loads with an acceleration of g.

The device is used in the system for automatically optimizing the process of alkylation of benzene with olefins.

Claims (3)

1. Analog memory device containing a control winding placed on a hermetic Kqpnyce filled with a viscous liquid, whose iB is a ferromagnetic core, characterized in that, in order to increase the noise immunity of the device, it contains an emitter and a receiver located on opposite sides of a hermetic enclosure , matching elements and additional control winding, one ends of both control windings directly, and the other through the matching elements connected to the input device a. 2. The device according to claim 1, characterized in that the hermetic body is made transparent and filled with clear liquid. 3. The device according to paragraphs. 1 and 2, characterized in that the receiver is designed as a photoresistor. Sources of information accepted in the examination 1. The UK patent number 948841, cl. H 01 F, 1972. 2. Japanese Patent No. 1341, cl. 114A512, 1965. Output