ANALYSIS OF THE GENERALIZED STRUCTURAL SCHEME OF THE ITERATIVELY INTEGRATING MEASUREMENT CONVERTER

Authors

  • I. Yu. Sergeyev National Aviation University

DOI:

https://doi.org/10.18372/1990-5548.52.11868

Keywords:

Generalized structural scheme, iteratively integrating conversion method, conversion equation, integrator, iterative additive correction of errors, dynamics of the iterative process, steady state.

Abstract

A significant place among structural methods to increase the accuracy of measuring converters  occupy iterative methods of error correction based on a well-developed in mathematics the theory of iterative methods. At the same time, the measurement technique is very widely used various integrating converters, due to their advantages such as high accuracy, noise immunity and sensitivity, simplicity, reliability, low cost, etc. Combining methods of integrating conversion and additive iterative correction of errors has generated a method called by the author iteratively integrating conversion method and devices using this 
method – iteratively integrating converters. Many of iteratively integrating converters possess high metrological parameters. Generalized structural scheme of the measurement converter which uses iteratively integrating conversion method is described. Analysis of its conversion equation and errors for two cases: first one – where the output value Y = Y (t) is not a constant, while the input values X, Z1, Z2 are constant and second one – where the input value X = X(t) and output value Y=Y(t) are not constant, while the input values Z1, Z2 are constant, were produced. Basic expressions for the calculation are listed. 

Author Biography

I. Yu. Sergeyev, National Aviation University

Educational & Research Institute of Information and Diagnostic Systems

Candidate of Science (Engineering). Assosiate Professor.

References

Yu. Tuz, Structural Methodsof Impruving Accuracy of Measuring Devices, manual, Kyiv. Vyshcha Shkola, 1976. (in Russian).

I. Sergeyev, ”Research and Development of Integrating Measurement Converters with the Iterative Additive Correction of Errors,” Ph. D.

(Engineering) Thesis, Kyiv Politechnical Institute, Kyiv, Ukraine, 1978. (in Russian).

Yu. Tuz, and I. Sergeyev, “An iterative converter of time interval to the voltage,” Measurement Equipment, no. 7, pp. 15–17, 1976. (in Russian).

I. Sergeyev, “Analysis of the ADC with a dynamic integrator,” Measurement Equipment, no. 6, pp. 38–40, 1976. (in Russian).

I. Sergeyev, “Analysis of the Potentiation Digital-to-Analog Converter Without Accounting of Imperfection its Blocks,” Electronics and Control

Systems, no. 4(46), Kyiv: NAU, 2015. pp. 52–57.

I. Sergeyev, “Measurement Converter which Uses an Iteratively Integrating Conversion Method,” XIII Int. Conf. AVIA-2017, 19–21 April 2017: Kyiv, 2017.

pp. 3.18–3.23.

Patent 603,912 USSR, Yu. Tuz, and I. Sergeyev, G 06 G, 7/26, 05.12.78. bull. 15 (in Russian)

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AUTOMATIC CONTROL SYSTEMS