SU393743A1 - RANDOM BINARY SENSOR EQUALLY - Google Patents

Description

one

The invention relates to computing.

The device can be used in various fields of automation, telemechanics and other related fields and models of probabilistic processes by statistical tests.

Known sensors of random binary uniformly distributed single-digit numbers for digital computers BESM-2M, containing i-semiconductor zener diodes as the primary source of noise, amplifier and trigger.

In order to increase the speed in the proposed sensor, the Zener diode and the switch are parallel to the grounded resistor of the voltage divider, the second resistor of which is connected to the source of the collector jack, and the trigger is made and the main one.

The Zener diode switching circuit provides a selection of high-frequency high-quality noise with the ability to adjust its noise Bfjx properties. The absence of a special shaper provides T1 with the necessary speed, since switching on the sibial shaper leads to a decrease in the intensity of the current of pulses at the counter input, and in order to obtain uniformly distributed random numbers in the pause between the counts of the counter ai, it should be moved 8-10 times. The application of a high-speed, its counter, assembled according to the scheme of an unsaturated trigger without special mixing, significantly improves), ie, the counting of noise pulses, the amplitude and duration of which are random.

Diagram of the device shown in the drawing.

The sensor contains transistors / -5, semiconductor diodes 6-12, semiconductor zener diode 13, resistors 14-35, co-sensors 36-45.

A zener diode 13 is connected in a non-conductive directional parallel to resistor 14, which with a resistor 15 forms a pair divider. the zener diode is connected to the differentiating price of an amplifier formed by a resistor of 16 p by a capacitor 36. The amplifier consists of three stages, each of which contains a transistor, a collector resistor and a reverse link resistor. The cascades are interconnected by themselves through transition capacitors. The output of the third amplifier stage is connected via a co-capacitor 41 to a voltage divider formed by a resistor 23 and diode 12. The output of the voltage divider is connected via a valve 46 to the input of a one-bit counter made according to the unsaturated trigger circuit.

One of the triggers consists of a transistor 4, a capacitor 43, a diode 6, a resistor

24, resistor 27, diode 7, capacitor 42, resistors 25, 26, 28. Other, the shoulder consists of transistor 5, capacitors 44, 45, diode 8, resistors 29-32, 34, diode 9. Resistor 35, capacitors 37, 40 form a filter.

In the case of the fission divider on resistors 15 and 14, a mode is selected in which the noise amplified by the wide-band amplifier and transistors / -3 is released at the anode of the Zener diode 43. The amplified voltage fluctuations through the cable and the differentiating depot arrive at the input of a one-bit counter assembled according to the unsaturated trigger scheme, without special bias, on transistors 4, 5, which recalculates the random pulse sequence during the fixed interval of the polling time of this counter. A random sequence of pulses arrives at the input of the counter at the moment of supplying the unlocking potential and then 46 (potential input). During the absence of unlocking potential, a single state of the counter is read. The threshold of the counter is less than the average amplitude of the stream of recalculated pulses, and the average pulse duration is less than the switching time of the counter.

The input 47 of the valve 48 receives read pulses that enable the unit to have a single state, while the potential input receives voltage drops of the unit output of the latter. Read pulses are generated in the BESM-2M computer control device upon a command to the device. The pulses passing through the valve 48 are fed to the valve circuit 49 (pulse input 47, and the potential input of which supplies a high potential of the device formed by the diode coincidence circuit in case of a high voltage level of the operation command code ( 10th bit A2 of the UPC). The pulses, the valve 49, is fed to a single input of the trigger 50 of the second register of the arithmetic unit BESM-2M. The shift emulsions formed in the device for controlling the device call are received by Eve trigger input 50.

They sequentially shift the incoming ones and zeros in the direction of the lower order bits. To access the device, use the command "Full shift. Signs of device access are:

1) operation code- "26

2) a unit in the 10th bit of the second address of the command to access the device.

The team has the form: 26-1140 with

KOP u ,, AZ, Az.

When executing a command to access a device, a random number is formed by successively shifting towards the lower bits and 32 bits.

Subject invention

Sensor 1 is one of the first binary equally distributed numbers for the CVM BESM-2M, containing a resistor voltage divider, the primary source of noise on a Zener diode connected through an amplifier and connected to a trigger, different body, to increase speed, in order to improve performance, to get an increase, in order to improve the performance, to perform, they had to, because, in order to improve speed, they wouldn’t have, because, in order to improve speed, they wouldn’t be able to improve the speed of performance of the amplifier and connect to a trigger, which was different, to increase the performance, to improve the speed, to increase the speed of performance. The bilitro is connected in parallel to the grounded resistor of the divider, the second resistor of which is connected to the gland of the collector and the trigger, and the trigger is unsaturated.