SU1156092A1 - Device for digital determination of average value of signal - Google Patents

Abstract

A DEVICE FOR DIGITAL DETERMINATION OF AVERAGE VALUES OF SIGNALS, containing voltage converter - code, pulse generator, AND, counters, trigger, maximum value determination unit, minimum value determination unit, first delay element, element block, recording unit, frequency divider, first converter the code is the number of pulses, the control and information inputs of which are connected respectively to the outputs of the first element of the delay. and the first counter, the input of which is set to zero is combined with the input of the first delay element, the counting input of the second counter, the control input of the voltage converter — the code that controls the input of the frequency divider and is connected to the output of the And element whose inputs are connected to the outputs of the pulse generator and a trigger, the installation input to the unit of which is combined with the reset inputs of the second and third counters and connected to the output of the minimum value determination unit, the input of which is combined with the input of the maximum definition unit values and information input of the voltage converter is a code and is connected to the input of the device, the input of the zero setting of the trigger is connected to the output of the maximum value determination unit connected to the first input of the And block, the second input of which is connected to the output of the third counter, whose counting input is connected to output de (L frequency unit, the first input of which is connected to the output of the second counter, the second input of the frequency divider is connected to the output of the first converter code - the number and mykov, the output of the element block in and connected to the input of the registration unit, distinguished by the fact that, with the purpose of: expanding the functionality by increasing the smoothing interval, a second ND delay element and a second converter code are introduced — the number of pulses, the reset input of which is connected to the output of the second the delay element, the input of which is connected to the output of the element I, the information input of the second converter code - the number of pulses connected to the output of the third counter, the output of the second converter code - the number of pulses connected to subtract yuschemu input of the first counter.

Description

1 The invention relates to digital measurement technology and can be used to measure and promptly monitor current average values of signals. In the proposed device, the current average value of the signal x (t) is determined by the method of smoothing using a digital, analogue of integral, current smoothing operator. ,, ... / (i. –G–, t (i – nTj. .0) The number of pulses proportional to the transformed values of the signal under study S Sx (i 1 T)) accumulates in the first -io counter, as a result of which it may overflow , especially with a constant polarity of the signal x (i). The purpose of the invention is to expand the functionality by increasing the smoothing interval of the signals. The drawing shows a block diagram of the proposed device. The device contains a transforming gel 1 voltage - code, the first counter 2, 3 pulse generator, element 4, first element 5 delays, the first converter 6 code the number of pulses, the second counter 7, the frequency divider 8, the third counter block 10 elements And, the registration block 11, the second delay element 12, the second converter 13 code - the number. contains, for example, the minimum value determination unit 14, the maximum value determination unit 15 and the trigger 16. The device operates as follows: The current average value of the signal xCt) is determined by the method of smoothing using the digital analogue of the integral operator of the current smoothing Ani TSGL is divided into both polling and modifier polling intervals. The T-algorithm of calculating the average value corresponding to the current smoothing operator is 9 l 4-7Ti | (-Tr-vTc -V Hi o -vt). This algorithm makes it possible not to accumulate the sum of the transformed values of the signal under study. The length of the smoothing interval Tcg / is determined by the current characteristics of the signal and is chosen to be equal, for example, to the time intervals between the moments of reaching the minimum and the moments of reaching the maximum of the signal. The average value of the signal in this smoothing interval is measured by the method of discrete samples, the number of which is variable and equal to KI - 1, where K is the content of the second counter 7. When the signal x (t) reaches the minimum value, block 1A generates a smoothing start pulse to the inputs of the installation zero. the second counter 7 and the third counter 9 and resets them to the zero state. At the same time, a smoothing start pulse is applied to the input of the trigger 16 and sets it to a state where the AND 4 element opens. When this impulse sample with. generator 3 pulses start to flow to converter 1 voltage - code, first pulse counter 2, first delay element 5, second pulse counter 7, frequency divider 8 and second delay element 12. Each impulse sample, having hit the inputs of the zero-setting of counter 2 and frequency divider 8, resets them to the zero state. At the same time, at the moment of occurrence of each sampling pulse at the control input of converter 1, it starts up, and the voltage of the signal under study x (t) is converted into code, which. entered into the counter 2. After entering the input of the second counter 7, the sampling pulses are counted by it, as a result of which the counter 7 accumulates the number of sampling pulses k. Thereby a code corresponding to the current smoothing interval and the divider division factor are formed at its output 8 31 frequencies with controllable division factor. Pulse samples delayed by delay element 12 at the time of signal conversion x (t) in converter 1 start the second converter 13 code - the number of pulses, Converter 13 converts the code of the number recorded in the third counter 9 into proportional number of pulses that arrive at the second subtracting input of counter 2 is subtracted from its contents. The sampling pulses, delayed by the first delay element 5, the total signal conversion time in converters 1 and 13, trigger the first converter, 6 code - the number of pulses. Converter 6 converts the code of the number received in counter 2 into a proportional number of pulses, which is divided by a frequency divider by a factor of K and accumulated in counter 9. Thus, after passing the first pulse-sample, when K 1 the divider factor of 8 is often equal to one , the counter 9 is tentatively reset to zero condition 924, and its contents become random o4 (t OTJ-o i J x (tMX) .i, u), after passing the second sampling pulse proportional to Mt)), H) i if {oiU 5 iV and after passing (((j- -O-ro pulse-sample about proportioned (; y.) (iV ", w. Consequently, the contents of counter 9 at any time of the smoothing interval is proportional to the average value of the signal under study x (t) over the past part of this interval. When the signal x (t) reaches the maximum value the pulse of the end of smoothing, which, through the trigger 16, prohibits the passage of pulse pulses through the element 4 and thereby completes the averaging cycle of the signal x (i). Simultaneously, the smoothing end pulse triggers block 10, and the average value of the signal x (1) during the smoothing time is fixed in block 11.

Claims (1)

DEVICE FOR DIGITAL DETERMINATION OF AVERAGE SIGNAL VALUES, containing voltage converter - code, pulse generator, And element, counters, trigger, maximum value determination unit, minimum value determination unit, first delay element, And element unit, recording unit, frequency divider, first converter code is the number of pulses, the control and information inputs of which are connected respectively to the outputs of the first delay element and the first counter, the input of which is set to zero, is connected to the input of the first delay element, the counting input of the second counter, the control input of the voltage converter — a code that controls the input of the frequency divider and is connected to the output of the And element, whose inputs are connected to the outputs of the pulse generator and trigger, the unit input of which is combined with the reset inputs of the second and of the third counters and connected to the output of the unit for determining the minimum values, the input of which is combined with the input of the unit for determining the maximum values and the information input of the voltage converter - code and connections is connected with the input of the device, the trigger zero setting is connected to the output of the maximum value determination unit connected to the first input of the AND block, the second input of which is connected to the output of the third counter, the counting input of which is connected to the output of the frequency divider, the first input of which is connected to the output of the second counter, the second input of the frequency divider is connected to the output of the first converter code is the number of pulses, the output of the block of elements And is connected to the input of the registration unit, characterized in that, in order to expand the function by increasing the smoothing interval, a second delay element and a second code converter are introduced into it - the number of pulses, the reset input of which is connected to the output of the second delay element, the input of which is connected to the output of the And element, the information input of the second code converter - the number of pulses is connected to the output of the third counter, the output of the second converter code - the number of pulses is connected to the subtracting input of the first counter. SU <,., 1156092