SU456301A1 - Information storage - Google Patents

Description

one

The invention relates to the field of computing, in particular, to storage devices.

Information storage devices are known in which the discharge windings of a magnetic storage device are connected via a bridge circuit.

The disadvantage of such a connection of the discharge windings is that they do not apply to many types of accumulators whose signal propagation time around the perimeter of the winding is shorter than the signal duration. In this case, to each input of the amplifier, two half-waves of the signal of opposite signs, which passed along the bridge discharge winding in opposite directions, arrive. These half-waves mutually compensate each other, causing a decrease in signal amplitude until it disappears completely.

In order to expand the field of application in the proposed information storage, the points of connection of the bridge shoulders of each bit winding are connected to the bullet potential bus through an additionally installed resistor.

The proposed scheme for switching on a single bit of the accumulator is shown in the drawing, where four equal arms of one bit are shown as sections of long lines 1-4, shunting resistors, the resistance value of each of which is p / 2,

(where p is the characteristic impedance of the discharge winding of the storage ring), 9 is the zero potential spike.

The read signal with amplitude E, which occurred at some point in the winding, for example at point 10, consists of two half-waves equal in magnitude but opposite in sign with amplitudes K; 2. These half-waves propagate from the point of origin in the opposite of: Suppose that in our case the positive half-wave propagates counterclockwise (in the direction of point 11), and negative - clockwise (in the direction of point 12). If the time of propagation of a wave along one shoulder is taken per unit, and the time of its propagation from point 10 to point I - after X, the results of the analysis of the propagation of waves in the winding can be presented as follows. After time X, the positive half-wave from point 10 spreads to point 11. After encountering inhomogeneity in the form of a resistor 6 on its way at point 11, the half-wave doesn’t partly reflect so that only half of the voltage of this half-wave is released on the resistor, i.e.

signal with amplitude -. Output voltage4

a read signal stub equal to the difference of the potential points of points 11 and 13, has an amplitude--,

since in time point X to point 13 the half-wave does not have time to propagate and its potential is still zero. Quarter waves propagating in opposite directions from point 11 are not involved in generating the read signal. The second half-wave of the readout signal, having a negative value and propagating clockwise from point 10, will reach point 12 after a period of time (1-X) after its occurrence. As a result of reflections from the inhomogeneity at this point, two quarter waves from it begin to propagate from it.

amplitudes - and with nooscaped

four

by signs. The positive quarter wave propagates to point II, and the negative quarter to point 13, and the quarter wave simultaneously arrive at points 11 and 13, respectively, creating a voltage of corresponding signs with

amplitudes - E. As a result, the difference in .8

tentsialov between points II and 13 again has an amplitude - E - (-): -. This is the second and 8 8/4

last half-wave output voltage of the bridge. The moment of her arrival at the exit points is (-X) +.

Thus, the voltage at the output of the bridge, measured as a potential difference between points II and 13, consists of two half-waves of the same polarity with amplitudes

-E shifted relative to the moment of age

read signal noises: first on X, second on 2-X. This means that the difference in the times of occurrence of the output half-waves is 2 (1-X).

Subject invention

An information storage device containing discharge windings connected in a bridge circuit, characterized in that, in order to expand the application, in it the connection points of the bridge arms of each discharge winding are connected to a zero potential through an additionally installed resistor.