SU1453332A1 - Device for measuring amplitude of pulsating signals - Google Patents

Abstract

This invention relates to digital measurement technology. The purpose of the invention is to improve the accuracy of measuring the amplitude of pulsed signals. The device contains analog-to-digital converter 1, synchronizer 2, keys 3 and 4, memory elements 5 and 6, and averaging elements 7 and 8. To achieve this goal, switches 9 and 10, keys 1Ки 12, memory elements 13 and 14 are entered into the device , averaging elements 15 and 16, elements 17 and 18 of the subtraction, threshold elements 19 and 20, triggers 21 and 22, and new functional connections formed. 1 il. a &

Description

The invention relates to digital measuring equipment and can be used to measure the amplitude of MULTI-POSITION pulsed signals of 5 different sources, in particular, signals received from the output of data acquisition equipment with instability of the transmission coefficient of the path.

The purpose of the invention is to increase the accuracy of measuring the amplitude of pulsed signals.

The drawing shows a functional diagram of a device for measuring the amplitude of pulse signals. J5

The device contains an analog-to-digital converter (ADC) -1, synchronizer 2, keys 3 and 4, memory elements 5 and 6, averaging elements 7 and 8, switches 9 and 10, keys ~ 2 hours 11 and 12, memory elements 13 and 14 , averaging elements 15 and 16, subtraction elements 17 and 18, threshold elements 19 and 20, triggers 21 and 22, with the first input of the ADC 1, 25 input of the synchronizer 2, the first inputs of the keys 3, 4, 11 and 12, the first inputs of the elements Subtraction 17 and 18 are connected to the input signal bus, the second and third ADC inputs 1 are connected to bto-jq by the inputs of the subtraction elements 17 and 18 ', respectively and outputs of switches 9 and 10, respectively, the first input of switch 9 through a series-connected averaging element 7 and memory element 5 is connected to the output of key 3, and the second input is connected to the output of trigger 21, the first input of which is connected to the output of threshold element 19 and second ₄ θ the input of the key 11, the input of the threshold element 19 is connected to the output of the subtraction element 17, the third input of the switch 9 is connected through the series-averaging element 15, the memory element 13 is connected to the output of the key 11, the first output of the synchronizer 2 is with the second input of the key 3 and. the second input of the trigger 21, the first input of the switch 10 through a series-connected averaging element 8, the storage element 6 is connected to the output of the key 4, and the second input is the output of the trigger 22, the first input of which is connected to the output of the threshold element 20 and the second input of the key 12, the input of the threshold element 20 is connected to the output of the subtraction element 18, the third input of the switch 10 is connected through an averaging element 16 in series, the memory element 14 is connected to the output of the key 12, the second output of the synchronizer 2 is connected to the second input of the switch 4 and a second input of the flip-flop 22.

The device operates as follows.

A mixed stream of information and, for example, two calibration signals corresponding to the minimum and maximum values of information signals is fed to the inputs of the ADC 1, synchronizer 2, keys 3,4,11 and 12 and subtraction elements 17 and 18. At the output of the ADC 1, a digital code is generated for each input pulse corresponding to the amplitude of the input signal. In synchronizer 2, the pulses are selected corresponding to the moments of transmission of calibration signals, according to which the keys 3 and 4 are opened, and the triggers 21 and 22 are set to zero; at the same time through the switches 9 and 10 on the ADC 1 in quality. reference voltages are received calibration signals stored with the help of memory elements 5 and 6 and averaged with the help of element 7 and 8. During the transmission of information signals at the output of the subtraction element 17, the difference between the input signal and the signal at the input of the upper reference voltage of the ADC 1 (U _sx ^_ U _MaKC ) is formed. If this difference exceeds a threshold

I of the triggering of the threshold element 19, then a signal appears at its output, which opens the key 11 and sets the trigger .21 to a single state, thereby switching the switch 9 to the state when the stored memory element 13 and the averaged averaging element arrive at the input of the upper reference voltage of the ADC 1 15 input signal corresponding to the zone of maximum reference voltage. At the output of element 18 is formed by subtracting the difference between the input signal and the signal at the input of the lower reference voltage the ADC 1 and the input signal (u _uu -U _6X).

If this difference exceeds the threshold of the threshold element 20, then by. a signal appears at its output, opening the key 12 and setting the trigger 22 to a single state, thereby switching comm4

1453332 Tatorey 10 in a state where the input of the lower reference voltage the ADC 1 enters the stored memory element 14 and averaged usrednyayu- b _with conductive element 16 an input signal. In this case, the values of the reference reference voltages are adjusted in the time interval between the transmission of calibration signals. 10

Claims (1)

SUMMARY OF THE INVENTION A device for measuring the amplitude of pulsed signals, comprising an analog-to-digital converter, 15 information input of which is the input of the device and connected to the input of the synchronizer and to the first inputs of the first and second keys, the outputs of which are respectively connected through the first and second memory elements to the inputs of the first and the second averaging elements, the outputs of the synchronizer are connected to the second inputs of the first and second keys, respectively, resulting in that, in order to To improve measurement accuracy, two switches, the third and fourth keys, the third and fourth storage elements, the third and fourth averaging elements, two subtraction elements, two threshold elements, two triggers are additionally introduced into it, and the first inputs of the first and second subtraction elements are connected to the first the inputs of the third and fourth keys and with the input of the device, and the second inputs with the outputs of the first and second switches, respectively, and with the corresponding inputs of the reference voltage of the analog-to-digital converter, the strokes of the first and second subtraction elements are connected respectively through the first and second threshold elements with the second inputs of the third and fourth keys, respectively, and with the first inputs of the first and second triggers, respectively, whose outputs are connected to the first inputs of the first and second switches, the second inputs of which are connected to outputs respectively; Accordingly, of the first and second averaging elements, the outputs of the third and fourth keys are connected through the corresponding series-connected third memory and averaging elements and fourth memory and averaging elements with the third inputs of the first and second switches, respectively, the first and second outputs of the synchronizer are connected to the second inputs of the first and second triggers.