SU120042A1 - Decoder - Google Patents

Description

Known in computing machines decoders for selecting the address bus according to specified information, based on the principle of coincidence of currents, or have a non-matching selection system, have a significant drawback due to the fact that the series connection of cores in the decoder forms a delay line leading to an increase in the number of cores to the shift of the working impulses formed in each core of the matrix. Throttle type decoders, in which there is no working pulse delay, have more complicated circuits and require two diodes for each ferrite cell.

A descrambler is proposed for driving the tires of the ferrite accumulator, which eliminates the disadvantages of the circuits with delayed operating pulses and the design complexity of throttle type decoders.

SUMMARY OF THE INVENTION (Consists in that the formation of working pulses is carried out by powerful pulse transformers, to the two primary windings of which electronic drives are connected, and the secondary windings of each are loaded by a series of parallel-connected working windings of all the cores included in a given row of the matrix. Herewith, magnetic the cores play the role of switches only, since the ferrite loads of each row of the decoder are practically not loaded on the magnetic cores of the decoder, but are loaded and connected at the moment of their choice, to the pulse transformer of the given line, which makes it possible to improve the squareness of the generated pulses. The primary windings of the cores of the matrix, through which the exciting pulses are applied, are connected in series along the columns of the matrix.

The schematic diagram of the decoder shown in FIG. 1, contains pulse transformers,., To the two primary windings of which electronic drives dUi-EP, are included, generating overmagnetizing signals. The secondary windings of transformers H; I№ 120042-2 -

Loaded with parallel-connected working windings of the cores of each row through the resistances Z, -Z, which are the address buses of the ferrite storage of the computer. The principle of operation of the decoder is that when a pulse C is delivered from the generator, it is forbidden for their pulse FSHi-GNL of the selected column to magnetic the cores of this column, which were initially in state B (see Fig. 2), are mixed into a point. The reversal pulse A, supplied along the line with a shift in time, forms in the secondary winding of the pulse transformer a current of this direction, which reversal all parallel connected cores of this row with the exception of the core of that column, which is affected by prohibiting amp revitches. The magnetic permeability of the core subjected to the action of two opposite-polarity pulses and changing its state along the lower part of the loop (Fig. 2) is small compared to | j, the other cores of the line, which under the action of the pulse A completely reversal and resist the working windings of which while dramatically increasing. The low magnetic permeability of the nodal core corresponds to the low resistance of the working winding and, therefore, the working impulse, of the current is closed along the working winding with the load of the selected core. The inhibit signal C, which is shifted in time with respect to the working pulse A, makes it possible to isolate the interference arising from the inconsistency of the hysteresis loop, which increases the accuracy and reliability of the ferrite drive. The second polarity of the working impulse is formed by the action of the forming impulse B, which remagnetizes all the cores from state Bg, except for the selected core remaining in state-B. In this case, the same phenomena occur as during the formation of the first polarity of the working impulse. In this case, the prohibition signal is izlischen, since the magnetic state of the selected core and all the others in this line is mutually opposed. After the formation of two razopolarny working pulses, which are half a current in the address bar of the ferrite accumulator, all the cores again return to their original magnetic state-B and the process of subsequent selection of the decoder core with the address bus of the ferrite accumulator is carried out similarly.

Subject invention

A decoder for sending a pulse over an address bus containing a matrix of ferrite cores, characterized in that, in order to simplify the design and to obtain output pulses without a shift, the decoder additionally contains a number (by the number of rows of the matrix) electronic drives and pulse transformers with two primary windings and one secondary one, which is loaded by a number of parallel working windings of all the cores included in a given row of the matrix, and the primary (prohibiting) windings of the cores are connected to a follower on the columns of the matrix.

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