SU769623A1 - Storage - Google Patents

Description

pulse number and the delay element, the output of which is connected to the input of the pulse width generator. . The drawing shows the structural scheme of the proposed memory,

The memory contains a power control unit L, a pre-emptive signal shaping unit 2, a power source 3 logic circuits, a power source 4 excitation buses, a synchronization unit 5, current generators 6 having first input 7, second input 8, power supply 9 and output 10, unit forming and stabilizing voltage and voltage 11; blocking unit for forming pulse 12; and drive 13.

The blocking device for forming a blocking pulse comprises a pulse width former 14 and a delay element 15.

The power supply network is connected to power control unit 1. Power control unit 1 output is connected to the forward signal forming unit input 2, to power supply input 3 and 4. Power supply 3 output is connected to synchronization power supply 5, power source 4 output is connected to a power bus 9, current generators 6 and with an input of a forming unit and stabilization of a constant voltage 11, the output of which is connected to the power supply bus of a block forming a blocking pulse 12.

The output of the anticipatory signal forming unit 2 is connected to the input of the power control unit, to the input of the synchronization unit and to the input of the blocking pulse generation unit, the output of which is connected to the second input 8 of the current generators. The output of the synchronization unit is connected to the first input 7 of the current generators, the output 10 of which is connected to the drive.

In the blocking pulse shaping unit, the output of the delay element is connected to the input of the pulse width generator.

Consider the operation of this device in the power off mode and in the emergency power off mode.

In the power off mode at the output of the power management unit, the voltage will begin to decrease, although the input power is supplied to the input of the power management unit. When the voltage drops below the value permitted by the operating conditions, but within the limits at which the voltage at the outputs of the charger power supply sources is still within the normal range, the proactive sig formation unit will generate a signal that will be output from the output of block 2, deactivating the start of the memory for the next cycle, and at the input of the power management unit, indicates a voltage pull-up. After a period of time necessary to terminate the started memory cycle, the thread control unit will turn off the power supply of the field busbars 4.

At the same time, the impulse from the pre-emptive signal shaping unit arrives at the input of the prohibition impulse generation unit and, through the delay element necessary for the end of the memory cycle, starts the impulse generator, the signal from which, having entered the second input

8 current generators, will prohibit the launch of these generators.

The signal at the second input 8 of the current generators is present as long as the application of the tire 9

the output of the forming and stabilizing unit voltage level required for the operation of the blocking unit for the formation of a pulse. After the complete disappearance of the voltage

On the threadline 9 of the current generators, the power source is disconnected. The magnitude of the delay is chosen such that it is necessary for the total voltage drop on the supply busbars 9, since

the presence of a mains voltage at the input of the power management unit allows any delay between turning off the power sources 4 and 3. Transients in the delay lines of the synchronization unit during the fall of the voltage on the power bus of the synchronization unit will cause the appearance of signals at the first input 7 of the current generators . However, the absence of voltage on the buses of the 9 current generators does not allow the signal to be formed at the output of the 10 current generators and will thus store the information in the accumulator. In the emergency power off mode at the input to the output of the power management unit, the voltage will begin to decrease. When the voltage drops below the level permitted by the operating conditions, but to the extent that the voltage at the outputs of the power sources 3, 4 is still within the normal range, the anticipatory signal generation unit will generate a signal that will be output from the unit to the asynchronization unit by banning the launch of the charger on

the next cycle, and to the input of the power management unit, signaling a drop in power. After a period of time necessary to end the started memory cycle, the power management unit will turn off

the power supply of the field busses is 4, and then with some delay switches off the power supply of the logic circuits.

In the emergency power off mode at the input of the power management unit, it is impossible to provide such a delay between turning off the power sources 4 and 3, which is necessary for a complete voltage drop on the power supply bus 9 of the generators. The difference in terms of the discharge capacity of the power supply of blocks 6 and 5 leads to the fact that the voltage on the power supply 9 of the current generator remains longer than on the power supply of the synchronization unit.

The impulse from the formation unit is anticipated, its signal arrives at the input of the prohibition impulse generation unit and through the delay element 15, necessary for the end of the memory cycle, will start the shaper, impulse, the signal from which will enter the second generators 8 .

Then, after switching off the power supply of the logic circuits, a signal from the synchronization block caused by transients in the delay lines of this block will arrive at the input 7 of the current generators. However, the launch of the current generators will not occur, since at the input 8 of these generators there is a blocking signal received earlier.

And since the voltage on the power buses 9 of the current generators is maintained for a longer time than on the power buses of the synchronization unit, the blocking signal, whose duration is determined by the voltage dropping time on the power buses 9, is at the second input 8 of the current generators longer than the trigger signal at input 7, which ensures the safety of information in the memory.

The advantage of the invention is the ability to store information in the memory during an emergency power supply shutdown and, as a consequence, the possibility of continuing the calculation without significant loss of computer time.

Claims (2)

1. A memory device containing a drive whose input is connected to 5 output of the current generator, a synchronization unit, a source of pulse voltage supply, connected to the synchronization unit, a power supply voltage of the field bus, connected to the generator 0 current, the control unit, one output of which is connected to the sources of pulsed supply voltage and supply voltage of the busbars of the excitation, the forming unit of the anticipating signal, the input of which is connected to another output of the control unit, and the output - to the input of the synchronization unit and one of the inputs of the unit control, characterized in that, in order to increase the reliability of the device during an emergency power off, it contains a blocking pulse generation unit, whose input is connected to the output of the anticipatory signal generation unit, and move - to the input of the current generator. 5 2. The apparatus of claim 1, wherein the blocking pulse generation unit comprises in series a pulse width former and a delay element. Sources of information taken into account in the examination I. Japan Patent No. 51-13106, cl. 97 (7) C 5 10, 09/04/76. 2. Accepted for Japan No. 48-6287, cl. 97 (7) C 01, 11.29.73 (prototype). GP GP  L, J