SU1035533A1 - Non-periodic pulse parameter meter - Google Patents

Abstract

MEASURES PLA OF NON-PERIODIC PULSE PARAMETERS, containing N integrated forgma pulse converters, whose inputs are connected to the input bus and the output of each of them is connected to the input of a blanking element and one of the inputs of the processing unit, the outputs of which are connected to the inputs of the display unit, and the synchronizer, the first input of which is tche is connected to the second output of the last integral converter of the pulse shape, and the output is connected to the control input of the processing unit, from which it is sent so that STI when measuring parameters of individual pulses introduced into it, and block n prorpai shaper having an input with .soedinen input bus and an output connected to the first input prograkol unit, whose output is connected to the second input synchronizer dopolnitelyshy whose output is connected to the control inputs of blanking elements. ABOUT)

Description

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One 00 The invention relates to a radio. It is known a device for measuring parameters of non-periodic pulses, which contains two amplifiers for the comparator, the inputs of which are measured signal, and the outputs of which are connected to the input of logical elements AND, OR, trigger elements connected to the corresponding inputs of logic elements, blocks signal analysis C13. However, this device does not both analyze the analysis of the required parameter pulses. The pulse parameter meter closest to the proposed one contains N integral pulse form converters, the inputs of which are connected to the inputs by a bus, and the output of each of them is connected to the input of a blank of each element and one of the inputs of the processing unit whose outputs are connected to the inputs of the display unit, and a synchronizer, the first input of which is connected to the second output of the last integral integral converter of pulses, and the output is connected to the control input of the processing unit E21. However, the known meter does not provide the residual accuracy of pr; measuring the parameters of individual pulses. The purpose of the invention is to increase the measurement of the parameters of individual pulses. The goal is achieved by measuring the parameters of non-periodic pulses, which also contain integrated pulse-shaped converters whose inputs are connected to the input bus and the output of each of them connects to the input of a blanking element and one of the inputs processing unit, the outputs of which are connected to the inputs of the display unit, and the synchronizer, the first input of which is connected to the second output of the last integral form converter and pulses, and the output is connected to the control unit input of the processing unit, a program block and a driver are input, the input of which is connected to the input bus, and the output is connected to the first input of the program block whose output is connected to the second input of the synchronizer, which additional output is connected to the control inputs of the blanks elememtov. The drawing shows the structural electrical circuit of the proposed meter. The pulse parameter meter contains a program block 1, a shaper 2, integral pre-aerators for forifl pulses 3-6, b aykiruyu1e1.1enty 7-10, a processing unit 11, a display unit 12 and a synchronizer 13. The input signal is fed to the input bus 14, and control signals are given to buses 15 and 16. Weekends . signals are taken from outputs 17-22. From “the criter works as follows. The studied pulses of one or another polarity of an arbitrary fork come on bus 14 and further on integrated converters 3-6. The outputs of the integral transform-. The amplitudes of the exponential form, the amplitude of which is a linear function of the duration and nonlinear amplitude of the studied pulses. Expanded impulses are fed to the input of processing unit 11. Here, performing a series of mathematical operations, signals are generated whose amplitude values are proportional to the generalized amplitude Q0 of duration, energy, and quantity of electricity Q, front duration -t or slice -c and a whole number other parameters of the studied pulses. In the presence of blanking elements, the first expanded pulse is triggered by the synchronizer 13, where, together with the strobe pulse, it is controlled by a dimming processing unit 11,. The blanking pulses delayed by the time required to transmit information to the processing system, and. employees for shunting the loads of integrated converters. As a consequence, the signals at the outputs of the integrated converters are missing. I,, In the original STATUS-blanking elements are in the mode in which the extended pulses at the outputs of the integrated transducers 3-6 are missing. At the same time, the emuls, starting from the first, through the forker 2, are fed to the input of the program block 1. When a pulse arrives at the input bus 14, the sequence number of which precedes the specified one, at the end of it, block 1 changes the mode of the elements 7-10 and prepare converters 3-6 for receiving a given pulse, with the arrival of which extended pulses appear at the outputs of integrated converters; From the output and th converter, an extended pulse arrives at the synchronization unit 13, which forms a short strobe pulse 1Well to remove information about the parameters of the discharged pulses, and at the end of it with some delay - blanking pulse, actions on elements 7-10, returning them to the original mode, thus, the processing unit 11 receives information about the parameters of that pulse

non-periodic sequence, KOTOpi is set.

After processing in the processing unit 11, information about the measured pulse is fed to the indicator block.

12, where such pulse parameters as generalized amplitude-U, duration and energy vv quantity of electricity Q, etc. are displayed.

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Claims (1)

NON-PERIODIC PULSE PARAMETER METER, containing N integral pulse shape converters, the input of which is connected to the input bus, the output of each of them is connected to the input of the blanking element and one of the inputs of the processing unit, the outputs of which are connected to the inputs of the display unit, and a synchronizer, the first input of which is connected to the second output of the last integral form converter pulses, and the output is connected to the control input of the processing unit, due to the fact that, in order to increase the accuracy when measuring the parameters of individual pulses, a block about Ramm and shaper whose input is connected to an input bus and an output connected to a first input of program unit, whose output is connected to the second input of the synchronizer, an additional output is connected to control inputs blankiruyuvdih elements.