SU354428A1 - ALL-UNION / - Google Patents

Description

The invention relates to the field of specialized computing equipment for the study of random processes.

There are known statistical analyzers containing a distribution storage unit, a pulse generator, a counter-divider, a sample counter, a buffer register with a digital-to-analog converter, control cascades with storage capacitors and keys at the inputs, and distribution indicators. However, in the known device, the distribution of the distribution to the indicators before the end of the sample is not provided, which is not always convenient.

To expand the functionality of the proposed device — the distribution representation — on the indicators during the sampling input process, a trigger is entered into it, with one trigger input connected to the device input, another trigger input connected to the output of the splitter counter, and trigger output connected to the counting inputs of the unit registers storage distribution.

Thanks to the indicated differences, and also by eliminating the blocking of the pulse generator by the sample counter, continuous output to the indicators of the distribution storage unit registers and simultaneous input of information to these registers is achieved, and the asynchronously received information is recorded in the registers synchronously with the operation of the device.

In the drawing, a diagram of a device for representing a statistical distribution. In the proposed device, the multichannel input is connected to the control inputs of registers 2 (2, 2 ... 2) of the distribution distribution unit 5 and to the input of sample counter 4. The outputs of registers 2 are connected to the input

the trigger 5, to the other input of which the output of the counter-divider 6 is connected. The counter-divider 6 has the same width m with the registers 2. The control input of the pulse generator 7 is connected through a one-shot 8 with

the output of the counter-divider 6. The output of the counter-divider 6 through the one-shot 8 is connected to the input of the switch 9 and through the switch of the 10 kind of work with the reset buffer buffer //. The trigger output 5 is connected to

the control input of the buffer register I. The output of the pulse generator 7 is connected to the counting inputs of registers 2 and 11, and the output b is connected to the input of the counter-divider 6. The outputs of the switch 9 are connected to the control

inputs of registers 2 and keys 12, as well as through the switch of 10 kind of work - with a reset of the buffer register //.

whose connected to the inputs of the channel control circuits of the control stages 14 containing the reference resistances 15 in the emitter circuit. Parallel to the inputs of the control stages 14, storage tanks 16 are connected. In series with the control stages, distribution indicators / 7 are included, which are gas discharge linear current indicators. The community of the multichannel input / device is connected to the input of the trigger 18, the other input of which is connected to the output of the counter-divider 6, and the output of this trigger is connected to the counting inputs of the registers 2.

The device works as follows.

Before starting operation, registers 2, 11, sampling counter 4, switch 9 (consisting, for example, of a counter with a decoder), triggers 5, 18 are set by resetting signal (reset circuits are not shown for simplicity). In this case, the switch 9 will close the inputs of all registers 2, and the trigger 5 will close the input of the register //. As a result, the pulses from generator 7 will only flow to counter-divider 6. When counter-divider 6 overflows, one-shot 8 starts up, which turns off pulse-set 7. Returning to its original position, one-shot 8 will trigger one unit into switch 9 again to turn on generator 7 ( a series of output pulses of generator 7 begins half a period earlier than at output b). The signal from switch 9 opens the input of register 2 and key 12. Next, the clock pulses from generator 7 will flow to counter-divider 6 and register 2. When arriving at register 2 and counter 6 2 ™ pulses, they both overflow, and register 24 The overflow pulse of register 2 will overturn trigger 5, and the overflow pulse of counter 6 will return it to its original position and start a one-shot 8. Prn this impulses from generator 7 to buffer register 1} will not pass and, therefore, the signal at the output of digital-analog converter 13 will be equal to zero and the indicator / 7 will be off. When the one-shot 8 is returned to its original position, a reset pulse is applied to the register 11, and the switch 9 is switched to the second interval and the generator 7 is turned on. The pulses from the generator 7 will start to flow to the register 2. Then the operation proceeds in a similar way.

The impulse of information received on the gth input channel 1 will write the unit to sample counter 4 and overturn trigger 18. The next overflow pulse of counter-divider 6 will return trigger 18 to its original position, with a pulse of overturning register 1 in register 2. Further filling of the f-ro register 2 with generator pulses 7 it will overflow when 2 ™ -1 pulses are received on it and overturn trigger 11, which will open the input of buffer register 11. The next () generator pulse 7

will go to register 11 and counter 6, the overflow pulse of which will return trigger 5 to its original position and start a one-shot 8 which will block generator 7. Digital-analog converter 13 converts the number stored in register 11 to proportional voltage U that goes through the public key 12 to the input of the control stage 14. At the same time, through the indicator / 7g

current flows / g (where R is the value of the reference resistance / 5). The memory capacitance 16i is charged before the voltage U. Then the one-shot 8 returns to its original position and the circuit operates in the same way. Thus, indicators 17 are successively turned on, through which currents will flow, proportional to the numbers stored in registers 2. In this case, the recording of the incoming

information in the corresponding registers 2 in the manner described. If necessary, upon reaching a sample of a specified volume, the sample counter 4 blocks the multichannel input /. By this time, registers 2 will be

recorded frequency n ,. The output of the numbers Pg to the register // cyclically repeats for charging the storage capacitance 16. With an appropriate selection of the storage capacitance 16 and the exposure time of the one-shot 8, the current required through the indicators 17 is achieved. By adjusting the value of the reference resistances 15, the variation of the parameters of the indicators 17 can be compensated. To obtain an integral distribution curve, it is necessary to connect the reset bus of buffer register 11 to the last output of switch 9. In this case, at each polling cycle of registers 2 in buffer register 11 will gradually accumulate

the sum of the frequencies P {, and the contents of the register // will be reset at the end of the polling cycle. As a result, the voltages U supplied from the digital-analog converter to the control stages 14 will correspond to the integral distribution. Using the integral distribution, you can easily determine the median, for which it is sufficient to read the number of the interval at which the integral curve intersects the half of the last ( maximum) ordinates.

Subject invention

A device for representing a statistical distribution, containing a distribution storage unit, made on registers, a sample counter, a divider counter connected by an input to a pulse generator, and an output — to a trigger and, via a one-shot — to a switch, a buffer register, one of whose inputs is connected to a trigger connected by a second input to the storage unit, a podzatel, and channel control circuits with storage capacitors at the inputs to the distribution indicators, characterized in that, in order to output to the indicators operational information in the process, it

contains an additional trigger, one input of which is connected to the input of the device, and the other is connected to the output of the counter-divider, the output of the trigger is connected to the counting inputs of the registers of the distribution storage unit.