Computer-measuring system of the induction motor’s dynamical torque-speed characteristics

Kucheruk, V. Yu.; Kurytnik, I.; Oshanov, Ye.Z.; Кулаков, Павло Ігорович; Семенов, А. А.; Karabekova, D.Zh.; Khassenov, A.К.

doi:10.31489/2019ph2/92-100

Cited by 2 publications

(2 citation statements)

References 13 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…To estimate the measurement error, the simulation of the microwave hyperspectrometer operation is performed [23,24]. The simulation results are obtained for given typical parameters of the microwave frontend: thermostat temperature accuracy is ±1 K, dynamic range value of measured antennas noise temperature is 0...300 K, value of insertion loss of directional coupler is 0.01 to 0.2, accuracy of active reference noise generator temperature is ±1,5 K. The results of modeling the measurement error of the microwave hyperspectrometer taking into account various parameters are presented in Figure 6.…”

Section: Measurement Errors Analysismentioning

confidence: 99%

Laboratory model of microwave hyperspectrometer for internal radiation researches of layered natural mediums

Ubaychin¹,

Суржиков²,

Stary³

et al. 2020

Self Cite

View full text Add to dashboard Cite

This paper describes an achieved result in designing of the four-receiver microwave hyperspectrometer based on zero measurement method and the multi-receiver concept of realization. The block diagrams of the microwave front-end with operating frequency band from 18 to 26.5 GHz, the radiometric receiver, and the frequency transmission module are shown. The technical implementation of every described blocks of the microwave hyperspectrometer are described. Presented technical implementation includes a list of modern components are used to designing of laboratory model of hyperspectrometer. The detailed block diagram of the microwave front-end is presented. Description of main technical characteristics of parts of the microwave front-end is also presented. The analysis of a technical characteristics influence to measurement errors is shown. The mathematical model of a measurement error calculation in hyperspectral modeis described. The influence of the active reference noise generator temperature accuracy, the directional coupler insertion loss and the passive reference noise generator temperature accuracy to a measurement errors are described. A numerical experimental results of designed mathematical model are presented. The dependence of the minimum value of measurement errors form the temperature of passive noise generator is presented.

show abstract

Section: Measurement Errors Analysismentioning

confidence: 99%

Laboratory model of microwave hyperspectrometer for internal radiation researches of layered natural mediums

Ubaychin¹,

Суржиков²,

Stary³

et al. 2020

Self Cite

View full text Add to dashboard Cite

show abstract

“…Recently, non-standard methods of analyzing processes in electric circuits and networks have been actively developed [13,14]. Non-Euclidean geometry in the theory of electric circuits is a non-standard method of analysis, it is used for the analysis of multi-port electric circuits [15,16], its application in electromechanics [17,18] is promising, as well as for calculating load modes, determining the parameters of load mode regulators of power electric circuits [19,20]. Вестник Карагандинского университета…”

Section: Introductionmentioning

confidence: 99%

Application of non-Euclidean metric in the electric power industry for reduction of measurement uncertainty

Katsyv,

Kukharchuk,

Madyarov

et al. 2024

View full text Add to dashboard Cite

The paper proposes the use of the non-Euclidean metric to reduce the uncertainty that occurs when measuring voltage for the tasks of ongoing continuous control of electric power consumption in large, branched high-voltage electric networks. The problem is that for continuous control of electric power consumption, it is necessary to install the active and reactive power measuring equipment in each node of the electric network (at each substation) and to ensure the transmission of measurement information to dispatching control centers. For countries with large electric networks, long distances between electric grid nodes and dispatch control centers, this requires huge capital costs. Therefore, it is advisable to place equipment for measuring electric power and voltage only in individual nodes of the electrical network, and then calculate the parameters of the remaining nodes based on Kirchhoff's laws. But at the same time, there is a significant measurement uncertainty, because the complex value of the voltage is usually not measured, only the modulus of the voltage values is used for the calculation. The use of non-Euclidean metrics provides the reduction of the input data uncertainty, which are necessary to control the consumption of electric power in each node of the electric network.

show abstract

Computer-measuring system of the induction motor’s dynamical torque-speed characteristics

Cited by 2 publications

References 13 publications

Laboratory model of microwave hyperspectrometer for internal radiation researches of layered natural mediums

Laboratory model of microwave hyperspectrometer for internal radiation researches of layered natural mediums

Application of non-Euclidean metric in the electric power industry for reduction of measurement uncertainty

Contact Info

Product

Resources

About