SU953665A1 - Magnetic memory device data reading unit - Google Patents

Description

Union of Soviet Socialist Republics

Stroke Committee

USSR on matters of inventions and discoveries (72) Authors of the invention (71) Applicant

DESCRIPTION OF ITS INVENTIONS TO COPYRIGHT CERTIFICATE (61) Additional to ed. certificate-wu - (22) 3 announced 1 3.11.80 (21) 3007222 / 18-24 with the addition of application No. - (23) Priority .-

Posted on 08.23.82. Bulletin No. 31

Date of publication of the description 23.08.82 <11) 953665 (51) M. Cl

Q 11 C 5/02 (53) UDC 681.327.

.12 (088.8)

N.I. Dikarev and N.P. Epikhin '' ¹¹

Branch of the All-Union HayHHo-HccnenoBaTeni.cKorqjggjjjjj'g'fjfja '| electromechanics - * (54) INFORMATION READING UNIT FOR A MAGNETIC MEMORY DEVICE

The invention relates to computer technology and can be used in storage devices (memory) on ferrite cores.

A device for reading information containing a differentiating element ⁵ and a playback amplifier, in which the delay line tlJ

A disadvantage of the device ¹⁰ is something low speed, since the useful signal at the circuit output can be recovered not earlier than after a time equal to the time required to establish the voltage "pedestal" at the input device ¹⁵ plus one-half the length of the useful signal.

The closest in technical essence is the information reading unit for magnetic memory. comprising a preamplifier, the output of which is connected to the input of the first differentiating element, and a playback amplifier, the input of which is connected to the output of the first differentiating element. The time constant of the differentiating element is changed according to the signal from the outside, so that the interference before the arrival of the useful signal is differentiated with a small time constant, and the useful signal with a large time constant (23

The disadvantage of this unit is its low speed, which is due to the fact that differentiation with a small time constant has to be carried out for a long period of time until the slowly decaying component of the noise at the input of the device becomes much less than the useful signal, as well as additional time losses necessary to switch the differentiating element from differentiation mode with a small time constant to differentiation mode with a large time constant.

The keynote of the invention is improving the performance of a device for reading information.

This goal is achieved in that the device contains a second differentiating element, the input of which is the input of the device, and the output is connected to the input of the pre-amplifier. ₅

In FIG. 1 shows a functional diagram of a device; in FIG. 2 is a timing diagram of its operation.

The device comprises a first differentiating element 1, a preliminary amplifier 2, a second differentiating element 3, a playback amplifier 4, an input 5 of the device, an output 6 of the device.

There is an oscillogram 7 (see Fig. 2) of the total interference voltage and a signal 15 at the input 5, an oscillogram 8 of the inductive interference component, an oscillogram 9 of a slowly capturing interference component, an oscillogram 10 of a pedestal type interference component, an oscillogram of ohm 11 of the signal the output of the pre-amplifier, the waveform 12 of the signal at the input of the playback amplifier.

The device operates as follows. 25

When current flows through the discharge winding at input 5, an interference voltage is generated that includes three components (see, Fig. 2); a pedestal, which is the steady-state value of the voltage drop across the resistance of the discharge winding and nd sample keys, the inductive component of the interference caused by a change in the current in the inductance of the discharge winding, and the slowly damping interference caused by irreversible magnetization reversal processes in the half-selected cores located on the discharge winding, and slow by changing the voltage at the _4fl sample _keys when current flows through them. Slowly damped interference damps with a time constant; commensurate with the duration of the useful signal, therefore, during the duration of the useful signal, this interference is possible, ₄₅ but with a sufficient degree of accuracy approximation ·; can be linearized, and the useful signal (signal read 1 from the core) can be approximated by a half-wave sine wave. Then, if the differentiating elements 1 and 3 have a differentiation time constant ten times or more smaller than the duration of the useful signal, then the signal at the input of the playback amplifier 4 is close to the second derivative of the voltage at input 5; Since the second derivative of the pedestal-type noise voltage and the slowly decaying noise component is zero, and the second derivative of the useful signal voltage is a half-wave of a sinusoid, with only a negative sign, after attenuation of the inductive noise at the input of the playback amplifier 4, the useful signal can be obtained slightly distorted, and the noise is suppressed. The preamplifier 2 serves to compensate for the attenuation of the useful signal when passing through di4> ferenpiruction elements 1 and 3.

Thus, in the proposed device, the time interval for the attenuation of the interference that occurs when the discharge and address currents are supplied for reading information is reduced.

The technical and economic effect of the use of the present invention is to increase the speed of storage devices by reducing the attenuation time of interference when reading information.

Claims (2)

(54) INFORMATION READING UNIT FOR MAGNETIC STORING DEVICE The invention relates to computer technology and can be used in memory devices (memories) on the fe | Rita cores. A device for reading information containing a differentiating element and a reproduction amplifier is known in which the delay line tl is used as a differentiating element. The drawback of the device is a low speed, since the useful signal at the output of the circuit can be allocated no earlier than after a time equal to voltage pedestal at the input of the device plus half the duration of the useful signal. The closest in technical essence is an information reading unit for a magnetic storage device, containing a preliminary pre-rammer, the output of which is connected to the input of the first differential}) element, and the amplifier of production, the input of which is connected to the output of the first differentiating element. The time constant of the differentiating element is varied by a signal from the outside, so that the interference before the arrival of the useful signal is differentiated from a small time constant, and the useful signal - from a large constant time 1C21. The disadvantage of a bdok is the low speed, which is due to the fact that differentiation from a small time constant has to be carried out for a long period of time, until the slowly decaying component of the device input noise becomes significantly less than the useful signal, as well as the additional time losses required to switch the differentiating element from the differentiation mode from a small time constant to a differentiation mode from a large time constant. The purpose of the invention is to increase the speed of the device for reading information. The goal is achieved in that the device comprises a second differentiation element, the input of which is the input of the device, and the output is connected to the input of the preamplifier. Fig, 1 shows a functional diagram of the device; in fig. 2 - time diagram of his work. The device comprises a first differentiating elbment 1, a preamplifier 2, a second differentiating element 3, a reproduction amplifier 4, an input 5 of the device, an output 6 of the device. Oscillogram 7 is available (see Fig. 2 of the total voltage of the disturbance and signal at input 5, oscillogram 8 of the inductive component, disturbance, oscillogram 9 of the slowly acquiring disturbing component, oscillogram of the pedestal, oscillogram 11 of the signal on Preamplifier output, waveform oscillogram 12 at the input of the reproduction amplifier. The device operates as follows. When a current flows across the coil, at input 5, an interference voltage is generated, which includes three components, (see, Fig. 2) estal, which represents &amp; half-selected cores located on the discharge winding, and a slow change in the voltage on the selection keys as current flows through them. Slowly damped interference attenuates with a constant time; commensurate with the duration of the useful signal, therefore, over the time of 1) the effective signal, this noise can be approximated with a sufficient degree of accuracy by a linear law, and the useful signal (the signal read out 1 core) can be approximated by a half-wave sinusoid. Then, if differentiating elements 1 and 3 have a constant MeHji differentiation time ten times or less than the duration of the useful signal, the signal at the input of the playback amplifier 4 is close to the second derivative of the Input Voltage .5; Since the second derivative of the pedestal type interference and the slowly decaying component of the interference is zero, and the derivative of the useful signal voltage is a half wave of a sine wave, but with a negative sign, then after attenuation of the inductive noise at the input of the playback amplifier 4 the useful signal can be received undistorted, and the interference is suppressed. The preamplifier 2 serves to compensate for the attenuation of the useful signal as it passes through the differentiating elements 1 and 3. Thus, in the proposed device, the time interval of the attenuation of the noise appearing during the supply of the discharge and address currents for reading information is reduced. The technical and economic effect from the use of the proposed invention is to increase the speed of the memory devices by reducing the fading time for reading information. Claims An information reading unit for a magnetic storage device comprising a preamplifier, the output of which is connected to the input of the first differentiating element, and a reproduction amplifier, the input of which is connected to the output of the first differentiating element, characterized in that, in order to increase the speed of the device, it contains a second differential element, the input of which is the device input and the output connected to the preamplifier input. Sources of information, rintye taken into account during the examination 1. US patent number 3462750, cl. 34O-174, published. 1969. 2.N. E. Van BrucK.Orqjdnization about its core core mempHes EeektroniCS Appeioatlon.1972, N9 4, 31 .. prototype).