SU411519A1 - - Google Patents

Description

one

The invention relates to the field of computer technology and is intended for use in an operative memory device of a computer.

Dio-magnetic constant-shifting decoders are known, in which both the read current and the write current are acquired in the secondary windings of coordinate transformers using cores with a hysteresis square loop.

This decoder has a minimum number of switching keys and diodes. One of its main drawbacks is the considerable power consumed by the bias circuit.

In addition, its speed and stability are limited by non-transient processes in the circuit, a coordinate transformer — a numerical ruler.

In order to increase speed and increase the stability of the address decoder, an electronic key is inserted in it, the output of which is connected to a different output of the transformers connected in series, and the end of the first winding of each transformer is connected to the beginning of the corresponding numerical range, n diodes, each is connected to the corresponding numerical line circuit in such a way that its anode through the third winding

each transformer is connected to the beginning of this numerical string, and the cathode is connected to the end of the numerical string, each end of the numerical string is connected to the output of the second current source.

Since the accumulator signals are amplified and information is extracted only when reading, and the numerical lines in this case are not directly switched to the keys, this deletes the harmful effect of transient processes in the chain coordinate transformer, the numerical line. Dramatically reduced power consumption

thanks to the impulse response polling of transformers. Impulse polling ne can be carried out in a diode-magnet decoder due to the lack of significant interference currents in linear unselected transformers as a result of non-standard cores. In the proposed decoder, the interference effect is eliminated by a non-linear sonotransfer of separate diodes in the zapssn circuits. Pulse onros transformers,

Compared with the bottom magnetic desfrarator, it allows you to take long pauses by reading and writing information.

The drawing shows the scheme of the proposed dentorator, which consists of nz electronic keys 1, commuting numerical

lines 2 of magnetic storage, transformers 3 on cores with rectangular net hysteresis, having first windings 4, second windings 5 and third windings 6, and separation diodes 7; nitapi source 8, the first current source 9, the second current source 10, electronic key 11.

The windings of 4 transformers 3 are connected in series with numerical lines 2; the windings 5 of transformers 3 are connected in series with each other and oppositely with respect to the windings 4; windings 6 of transformers 3 are connected in series with separation diodes 7 and numerical lines 2, so that the beginning of winding 4 is connected to the end of winding 6, and together they are connected to the beginning of number line 2. Windings 5 form a day, which from one end is connected to electronic key 11 , and on the other - to the current source 9.

Address decoder works in the following way.

The input of one of the normally closed keys 2 receives a read signal, which closes this key. At the same time, the source of nitapi 8 creates in the selected line a reading current limited by the second current source 10.

The separation diode is closed due to the emf. windings 6. As a result, the core of the transformer 3 is read current, flowing, them on winding 4, is set to the selected state. At the next moment in time, the key 11 receives a signal that the key is closed. At the same time, a survey current flowing through the windings 5 of the transformers is limited by the first current source 9. This current returns to the initial state the core of the transformer 3 the selected line and part of this current (minus the part necessary to overcome the coercive force of the core) is transformed into winding 6

in the form of a current record of this line. The pellinear resistance of the diodes of the unselected numerical lines 2 prevents the appearance of current in the rulers due to the emf. interference of unselected transformers.

The ratio of turns of transformers 3 in

windings 6, 5 is chosen greater than 1, therefore

Transformers

current transformers, which ensures a stable amount of current in the lines.

Subject invention

The address decoder of the operative memory device, consisting of electronic keys, the output of each of which is connected to the beginning of the first winding of the corresponding transformer, the second windings of the transformers are connected in series and connected to the output of the first current source, which is connected to the output of the common power source, the third winding of each transformer is connected in series to the circuit of the corresponding numerical line, the input of the second current source is connected to the common output power source, characterized in that, in order to increase speed and the new stability of its operation,

An electronic key has been entered, the output of which is connected to another output of the successively connected second windings of transformers, and the end of the first winding of each transformer is connected to the beginning of the corresponding numerical scale, and the diodes, each of which is connected to the corresponding numerical circuit in such a way that its anode is through the third the winding of each transformer is connected to the beginning of this numerical line, and the cathode to the end of the numerical line, each end of the numerical line is connected to the output of the second current source.

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