SU369627A1 - ^: - С ^: SOYuNAYA - Google Patents

Description

one

The proposed method of recording information can be used in zonomy, their devices with direct sampling, used in computing, telegraphy and data transfer systems.

Methods are known for recording in a memory with direct sampling, based on the coincidence of two currents, one of which is fed through a numerical one and the other is fed into a bit bus. The most effective of these is the method, in which a current pulse is supplied to the numerical bus Z (the current’s / t-amilitude is sufficient to remagnetize the core) and the current pulse + / c / t to discharge bus X when recording "1 or - / c / t - when recording “O. At the same time, in the cores of the selected numerical cell, the resulting current value will be equal to either, which is enough to magnetize the core to the state “1, or + / c / t, under the influence of which the zero state of the core does not change. In this case, all cores of non-selected numerical cells are subjected to a destructive effect (partial excitation) of write currents with amplitude / s / t.

Thus, with this recording method, the ratio of the magnetizing force when recording "1 to the magnetizing force of the destructive influence is 3: 1.

2

The proposed recording method makes it possible to improve this ratio to a value of 5: 1 and thus reduce the partial excitation currents of non-selected cores, reduce the requirements for core parameters, extend the temperature range of the memory and increase its reliability.

This is achieved by writing to a numeric bus firstly a current pulse with amplitude / s / m, the polarity of which is the reverse polarity of the reading pulse / counters, and then the current immobile of the opposite polarity, amplitude / bfm, and the current pulse of + / 5 / overlapping them in duration, then npii of the recording "1 or - / 5 / t - when recording" o, in order to reduce energy costs, two short pulses, each of which overlaps, can be fed into the discharge bus instead of one long pulse according to the duration of the corresponding pulses applied to islovuyu bus. in the case of the recording, "1 heart is first exposed to the resulting current value) 7 sufficient for the remagnetized core to the state" 1, and then the current - / 51t, under the influence of which the state of the core does not change.

In the case of recording, the "O core is exposed to two different-polarity current pulses of the same amilitude (+% / t and

). Under the action of the current, the core, which is after the read pulse / ac in the state "O", reverses to the state "1" in full or in part (depending on the value of its coercive force), i.e. its induction increases by -} - & In. Under the action of a current pulse, the core returns to the "O" state, since the induction increment in this case is equal to -DB.

Thus, the action of the pulse is completely destroyed by the action of the pulse, with the result that the core is set to the state of "O."

With this recording method, the resulting recording current value of "1 is 1 t, and the value of the discharge current (partial impact current) is 5 / t, i.e. the ratio between them is 5: 1.

The application of the proposed recording method allows to significantly expand the temperature range of the memory and increase its reliability. For example, for 1.3 W cores in the temperature range from -40 to - | - 70 ° C, the ratio of the maximum field strength required for reliable core reversal to the minimum moving field is 4-f-4.2.

Since the proposed method provides a current ratio of 5: 1, the operation of the charger in the specified temperature range can be achieved without thermostating and thermal control of the currents.

Subject invention

The method of recording information into a directly sampling memory by simultaneously supplying a write current pulse to the word line and the bit having the same amplitude and different polarity when recording "O and" 1, characterized in that, in order to improve the noise immunity of the memory device, operating temperature range and increased reliability, an additional current pulse of opposite polarity, amplitude / 5 / m, is supplied to the numerical bus after the write current pulse, whose amplitude is Vs / m falling in time with a recording current whose amplitude is equal to Vs / m