SU145064A1 - Pulse Magnetic Decoder - Google Patents

Description

Known pulsed magnetic decoders on two cores, each of which has two input and one output winding.

In the proposed decoder, to reduce the amount of equipment, increase the efficiency and reduce the noise level, the input windings are connected to each other and with two paraphase inputs according to the logical formulas of interpretation and all cores are stitched sequentially by a common winding.

FIG. a schematic diagram of the decoder described is shown; in fig. 2 is a graph of the change in the magnetic state of the core during operation of the decoder.

The decoder has 1 paraphase inputs / and 2 outputs 2. It consists of 2 cores 3 with non-ideal hysteresis loop, through which pass along n input buses in the order defined by the logical formulas of interpretation. In addition, all the cores are united by one common winding 4 connection.

In the initial state, all the cores are in the same magnetization state, for example, at point M (Fig. 2). The input pulses are negative polarity and, by their very nature, are forbidden. When decoding, no signals arrive at the selected core, one signal arrives at n cores (idle) and more than one at the remaining cores (workers). Since the hysteresis loop of the core material is not ideally square, the passage of current through the input windings will cause some change in the magnetic induction in the cores, indicated in FIG. 2 DV Due to this change, a voltage will be induced in the coupling winding. Although the component voltage from each of the working cores is small, but a large number of such cores, connected in series and working on one common connection winding, will transmit considerable power to this winding. As a result, a positive current will flow through the link winding.

No. 145064-2 In the idle cores, the magnetic fluxes generated by the communication winding current and the input winding current are mutually compensated and these cores will remain unexcited. In () working cores, a magnetic flux arises corresponding to at least one input signal. Not a single inhibit impulse passes through the selected core, so a negative output impulse signal arises in its output winding due to the action of the current of the communication winding. Upon termination of the input pulses, the working cores return to their original state. At the same time, due to a change in the magnetic induction, a negative current pulse will be induced in the communication winding, which will return the selected core to its initial state. At the output of the selected core, a positive signal is obtained.

Thus, the dephoner generates bipolar pulses, which allows it to be used to control magnetic operational storage devices (the first half-wave is used for reading, the second for writing codes; in logic circuits that do not require writing, the second half-wave can be cut off by a diode).

The described descrambler allows to reduce the amount of equipment, since the output signal is a direct consequence of the input code signals, to increase the efficiency, since the power is spent on the reversal of the total hysteresis loop of only one selected core. In addition, the described decoder 110 makes it possible to reduce the level of interference. The decryptor can be used in automation schemes and various devices of computing machines. In addition, the decoder can be used in the address systems of various mass storage devices.

Subject invention

Pulsed magnetic decoder on two cores, each of which has two input and one output winding, characterized in that, in order to reduce the amount of equipment, increase the efficiency and reduce noise, the input windings are interconnected with each other and two paraphase inputs according to decoding logic formulas and all cores of the space are successively shared by a common communication winding.