SU864517A2 - Sensor of electric flop of pulses distributed to poissone law - Google Patents

Description

(54) ELECTRIC PULSE FLOW SATURATION DISTRIBUTED UNDER THE LAW OF POISSON

Claims (1)

The invention relates to specialized electronic modeling tools and can be used to study the operation of queuing systems. According to the main author. St. No. 285343, an electrical pulse flow sensor is known, comprising a random signal generator, the output of which is connected; through a series-connected digital-to-analog converter, a comparator and a driver, whose input is connected to the input of a generator of random signals and to the input of an exponential voltage generator (1). However, this device is characterized by insufficient accuracy. simulation of the pulse spacing, which leads to insufficient reliability of the research results. The aim of the invention is to increase the reliability of the research results by increasing the accuracy of the simulation. The goal is achieved by introducing a series-connected pulse generator, a controlled frequency divider and a first switching unit, two reversible counters, two coincidence elements and a second switching unit, the first input of the KOTOpord to the sensor of the impulse distributed by Poisson’s law. pulses, the outputs of the first reversible counter through the corresponding coincidence element are connected to the second inputs of the first and second switching unit, the first output of each block switching soy; d inen with the first and second inputs of the first reversible counter, respectively, the second outputs are connected to the first and second inputs of the second reversing counter, respectively, the output of which is connected to the second input of the exponential voltage generator. The drawing shows a structural diagram of the sensor flow of electric pulses, distributed according to the Poisson law. The sensor contains a pseudo-random pulse sequence generator 1, a roBbffi digital-to-analog converter 2, a 3-pulse generator, an exponential voltage generator 4, a comparator 5, a pulse shaper 6, a controlled frequency divider 7, reversible counters 8 and 9, switching blocks 10 and 11, and elements 12 and 13 matches, the intensity 14 setpoint mshna, the output 15 bus of the Poisson flow of events. The sensor works as follows. The pseudo-random sequence of pulses 1 generates a uniformly distributed number at the output, which is fed to the input of a digital-to-analog converter 2, the output of which establishes a corresponding voltage level that goes to one of the inputs of the comparator 5, the other input of which is supplied by an exponentially varying voltage from the generator output 4 exponential voltage, the control output of which is the average period of the number contained in the reversible counter 8. When compared to The comparator 5 changes its state and starts the pulse shaper 6, the output of which is a pulse corresponding to the instant of a random event that arrives on the random output bus 15, to the input of the shift of the pseudo-random sequence of pulses, which leads to the appearance of a new random number, to the input of the installation of the initial state of the generator 4 of the exponential voltage and to the switching unit 11. Then the process of forming a random flow pulse is repeated. The number shown in the reversible counter 8 determines the average period of the appearance of random pulses. The process of establishing the required flow rate and maintaining it at a predetermined level occurs as follows. Pulse with a period equal to the average Poisson flow period comes from the output of the controlled frequency divider 7, to the output of which the pulses from the pulse generator 3 are received, through the switching unit 10 controlled by the first coincidence element 12, to the summing input of the reversible counter 9. The intensity setting input bus 14 serves to set the required flow rate. After the overflow counter 9 overflows, the coincidence element 12 turns off the deterministic pulse flow from its summing input and connects the flow to the analog input of the reversing counter 8. From this moment the device starts to generate Poisson pulses, the first of which which, through a switching unit 11 controlled by a coincidence element 13, will reduce the contents of the reversible counter 9 by the unit and the switching unit 10 connects the output The controlled frequency divider 7 is connected to the summing input of the reversible counter 9, and after it is filled again, connects to the reversing counter 8. This process of gradually increasing the content of the reversing 8 continues until the intensities of the deterministic and deterministic flows become equal. In the steady-state mode, the randomly changing number in the reversing counter 9 does not affect the formation of time intervals between (pulses, and only when the parameters drift, when the reversible counter 9 either overflows or zeroes, does the content of the reversible counter 8 change, resulting in to a change in the intensity of a random flow and to maintain it at the required level. Thus, in this sensor, due to the increased accuracy of the modeling of the Poisson flow, the reliability of the results of the research Claims of the invention of the flow of electric pulses distributed according to Poisson's law, according to auth. St. N 285343, characterized in that, with a chain to increase the reliability of research results, a series-connected pulse generator, a controlled frequency divider and the first switching unit , two reversible counters, two elements of coincidence and the second switching unit, the first input of which is connected to the output of the pulse former, the outputs of the first reversible counter through the corresponding element coincide They are not connected to the second inputs of the first and second switching unit, the first output of each switching unit is connected to the first and second inputs of the first reversible counter, respectively, the second outputs are connected to the first and second inputs of the second reverse counter, respectively, the output of which is connected to the second input of the exponential voltage generator . Sources of information taken into account during the examination 1. USSR author's certificate N 285343, cl. 3 About F 1/02, 1969.