SU491153A1 - Memory device - Google Patents

Description

one

The invention relates to the field of computer technology and is intended for reading information from a magnetic core on a magnetic core, but on a 2, 5 D system with two buses through each core, and can be used as a buffer and in computer numerical control systems in the aviation industry. automated process control systems in the electronics industry.

A memory device containing a ferrite core drive is known, the bit buses of which are connected to the driver of the write and read currents directly and through the diode array to the switches of the discharge currents and playback amplifiers.

The operation of this device is based on the simultaneous excitation of two discharge lines at once, the currents through which are mutually compensated at the input transformer of the reproduction amplifier.

The known device requires the use of a transformer at the input of the reproduction amplifier, as well as doubling the number of bit lines, and hence the diodes connected to them.

The purpose of the invention is to simplify the device.

To this end, the proposed memory contains

nonlinear limiters, the inputs of which are connected to the outputs of the recording current drivers, and the outputs to the inputs of the playback amplifiers. Diagram of the device shown in the drawing.

The device contains write current formers 1 and read currents 2 connected to bit buses 3 of drive 4, which are connected to non-switches of bit currents 6 and 7 through diode array 5 and also to non-linear limiter 8 to input of playback amplifier 9.

The memory works as follows.

When reading the selected core 10, the read current driver is triggered.

2, and through the corresponding bit bus

3, selected by switch 6, and a current pulse flows to the corresponding diode of the matrix 5. Voltage drop on switch

6, corresponding to the diode of the matrix 5, and on the bus 3 through a non-linear limiter 8 is applied to the input of the reproduction amplifier 9.

After applying the pulse current address but

bus 11 is the magnetization reversal of the selected core 10, and on the bus emulator emf. At the same time, a voltage increment is applied to the input of the playback amplifier 9, corresponding to the value of the emf induced on the bus 3.

As a writing driver 1, for example, a pulsed current regulator having a high output impedance can be used. The stabilizer can be made on a transistor 12, in the base circuit of which a pulsed stabilized voltage source is included, consisting of a divider on resistors 13, 14, a zener diode 15 and a transistor switch 16, and a resistor 17 in an emitter circuit.

A pulsed source of stabilized voltage may be common to all discharges. The use of a pulsed stabilized current source makes the proposed memory insensitive to interference on power buses. As a non-linear limiter can be applied, for example, series-connected diode 18 and Zener diode 19.

The voltage increment at the input of the playback amplifier depends on the ratio of the resistances, and the signal amplitude is maximum when the following conditions are met:

one.

2

3

four.

where Rt is the equivalent resistance of the readable core 10 and the cables 3;

2 - resistance of the closed write current driver 2;

Ra is the output impedance of the open read current driver;

Ri is the dynamic resistance of the series-connected diode 18 and the zener diode 19;

 - output resistance

playback enhancer.

The fulfillment of the first condition is simple, since the former 2 has a sufficiently high resistance in the closed state.

To fulfill the second condition, a pulse current regulator having a high output impedance is used as read driver 1.

The third and fourth conditions are fulfilled by using Zener diode 18 with low dynamic resistance and playback amplifier 9 with high input resistance as a nonlinear limiter. Diode 19 is necessary to protect the playback amplifier 9 from interference occurring on the bus 3 during the recording cycle.

When constructing a memory of 130 thousand bits, containing eight bits of thirty two address lines each, equipment savings by reducing the number of diodes in the bit lines will be 500 diodes.

Subject invention

A storage device containing a ferrite core drive, the bit buses of which are connected to the writing current and read current drivers directly and through the diode array to the switches of the discharge currents, and, in order to simplify the device, it contains nonlinear limiters, the inputs of which are connected to the outputs of the write current drivers, and the outputs are connected to the inputs of the playback amplifiers.