SU1117663A1 - Device for determining root-mean-square value of signal - Google Patents

Abstract

A DEVICE FOR DETERMINING A SECONDARY SECONDARY AVERAGE VALUE, containing an adder, the first subtraction unit, two amplifiers and two scaling units, whose inputs are combined and are the device input, the output of each scaling unit is connected to the input of the corresponding amplifier, the output of the first amplifier is connected to the first inputs of the adder and The subtraction unit, the second inputs are connected and connected to the output of the second amplifier, characterized in that, in order to improve accuracy, a second calculation unit is inserted into it filter, a recorder and two quadratic detectors, with the output of the adder through the first quadratic detector connected to the first input of the second subtractor, the output of the first block S. the subtraction through the second quadratic detector is connected to the second input of the second subtraction unit, the output of which is connected via a filter to the recorder input.

Description

Od 00 The invention relates to measurement technology and can be used to build the information part of systems for various technological purposes. A device is known for measuring the rms value of the magnitude of the indications of several electrical measuring instruments. However, the device has a low accuracy of measurement results due to the uncompensated effect of random noise. Closest to the invention is a device containing a sum of matrices and subtraction blocks with integrators and switches providing a cyclic time delay of the signal, in addition, the device contains serially connected converters and amplifiers connected to adders 2. A disadvantage of the known devices is low accuracy. The aim of the invention is to improve the accuracy of determining the average value of the signal. The goal is achieved by the fact that in the device containing the adder, the first subtraction unit, two amplifiers and two scaling units, whose inputs are combined and the device input, the output of each scaling unit is connected to the input of the amplifier, the first amplifier is connected to the first inputs of the adder and the first subtraction unit, the second inputs of which are connected and connected to the output of the second amplifier, the second subtraction unit, filter, recorder and two quadratic detectors are introduced, with the output of the accumulator over first quadratic detector is connected to a first input of the second subtracting unit, the first output unit via the second Comput Tani quadratic detector is connected to a second input of the subtractor unit cerned Mo, kotorog output through a filter connected to the input regi operators. The drawing shows a block diagram of the proposed device. The device contains input 1, scaling unit 2, amplifiers 3, summator 4, subtracting unit 5, quadratic detectors 6 and 7, subtracting unit 8, filter 9 and recorder 10. The inputs of scaling units 2 are combined and are the device input, each output scaling unit 2 through the corresponding amplifier 3 is connected to the inputs of the adder 4 and subtraction unit 5, the outputs of which through quadratic detectors 6 and 7 are connected to the inputs of the subtractor 8 and the output of which through filter 9 is connected to the registrar 10. The device works as follows at once. Simultaneously with the arrival of the input signal 5 on each block 2, they are affected by different random interferences, which are characterized by interference signals and Xj attached to the inputs. As a result, two signals A, -K (f ((. F. After passing these signals via adder 4 with a transmission coefficient K and detector 6 the signal at the output of the latter is (,) 2, where ML is the symbol of the operation of finding the expectation of an expression enclosed in square brackets. - After passing the signals A and A "through block 5 and the detector 7 on you Before the latter, the signal is: DZ-- KK (() -: Random noise x and x are independent} and centered, therefore the condition that the mathematical expectations of this noise are zero: From the above it follows that of block 8, the signal has the following form,.,. M.., where LUC and f are the variance, respectively, and the constant component of the measured signal S. From the output of the filter to the register- and recorder input, the signal,. The scale of the registrar reference is based on the formula —Ju, and therefore the readings ot at the recorder output correspond to the average square value of the signal 5.

311176634

Thus, the proposed fixing on the measuring channels of a non-single allows to determine the average and independent from one another case of the quadratic value of signal interference, which provides an increase with complete elimination of the separate accuracy of the device.

Claims (1)

DEVICE FOR DETERMINING RMS SIGNAL VALUE, containing an adder, a first subtraction unit, two amplifiers and two scaling units, the inputs of which are combined and are the input of the device,. the output of each scaling unit is connected to the input of the corresponding amplifier, the output of the first amplifier is connected to the first inputs of the adder and the first subtraction unit, the second inputs of which are connected and connected to the output of the second amplifier, characterized in that, in order to improve accuracy, a second subtraction unit is introduced into it , a filter, a recorder and two quadratic detectors, the adder output through the first quadratic detector connected to the first input of the second subtraction block, the output of the first block ф, subtraction through the second quad -particle detector connected to the second input of the second subtractor, the output of which is coupled through a filter to the input registratorag>