Electromechanical Devices of Adaptive and Control-Tracking Systems

Kerimzade G.S., Vishal Jain, Farhana Mahjabeen, Munir Ahmad, Dipak P. Patil, Auwal Garba, Vinod Shantaram Mahajan

Abstract


In the presented work, some characteristics of devices of adaptive and control-tracking control systems are considered. The characteristic features of angle sensors, methods of converting analog signals with high accuracy (for example, sine-cosine transformers) occupies a leading position among the development and research of tracking systems. The modern electronic element base opens up new possibilities - the creation of tracking digital angle converters (TDAC) using the principles of digital tracking and adaptive control in them. Stability, efficiency, load form determines the reliability, accuracy, economy, service life of electromechanical automation devices, test equipment, etc. Determining the characteristics, establishing analytical relationships between the initial data and output parameters is one of the stages of the algorithm for solving the problems of designing equipment parameters for monitoring and tracking control systems, which in turn contributes to the development of a mathematical model from a system of equations, the joint solution of which allows you to establish analytical relationships between the initial data and settings.

Keywords


electromechanical device; adaptive system; tracking system; control;

Full Text:

PDF

References


A.S, A. (2019). Electric drive control systems. Textbook for universities. M.

A.V, Y. (2016). Adjustable asynchronous electric drive. Tutorial.

Abdullaev Ya.R., Kerimzade G.S., M. G. V. (2021). Tracking system for tension stabilization small section wires (Volume 23.). News of Azerbaijan High Technical Edicational Institutions.

Abdullaev Ya.R., K. G. S. (2018). Calculation and analysis of the operation of tracking systems of devices for stabilizing the tension of wires of small cross sections (Volume 20.). News of Azerbaijan High Technical Edicational Institutions.

Alme, J., Andres, Y., Appelshäuser, H., Bablok, S., Bialas, N., Bolgen, R., Bonnes, U., Bramm, R., Braun-Munzinger, P., Campagnolo, R., & others. (2010). The ALICE TPC, a large 3-dimensional tracking device with fast readout for ultra-high multiplicity events. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 622(1), 316–367.

C.Mervert. (2014). Hybrid-synchronous machine of new vehicles. Group, Wokshop University Lund.

G.S., K. (2010). Differential servo system with movable screens. News of Azerbaijan High Technical Edicational Institutions.

Hasibuan, A., Isa, M., Yusoff, M. I., Rahim, S. R. A., & Nrartha, I. (2021). Effect of installation of distributed generation at different points in the distribution system on voltage drops and power losses. AIP Conference Proceedings, 2339(1).

Kerimzade, G. S. (2023). High Precision Precision Current Stabilizers with Induction Levitation Effect. Journal of Renewable Energy, Electrical, and Computer Engineering, 3(1), 26–31.

Kerimzade G.S., G. J. S. (2023). Characteristics of electromechanical devices of control and tracking systems (Volume 30.). News of Azerbaijan High Technical Edicational Institutions. https://doi.org/10.36962/PAHTEI 30072023-295

Kerimzade G.S., H. J. I. (2023). Characteristics of adaptive tracking control system devices (Volume 30.). News of Azerbaijan High Technical Edicational Institutions.

N.F, İ. (2017). Electric drive fundamentals. Tutorial.

Rohde, U. L., Rubiola, E., & Whitaker, J. C. (2021). Microwave and wireless synthesizers: theory and design. John Wiley & Sons.

S, S. V. A. (2016). Electric drive control systems. Tutorial.

Seborg, D. E., Edgar, T. F., Mellichamp, D. A., & Doyle III, F. J. (2016). Process dynamics and control. John Wiley & Sons.

Ueyd P., K. U. B. (2011). Energy Efficiency Opportunities for Drive Systems. Parij.

V.V, M. (2018). Automated control systems for electric drives. Tutorial. M.: İnfra-M.

Voldek A.İ., P. V. . (2007). Current Consumption Machines. Sankt Peterburq.

Wei, H.-L., Billings, S. A., & Liu, J. (2004). Term and variable selection for non-linear system identification. International Journal of Control, 77(1), 86–110.

Y.M, F. (2018). Adjustable asynchronous electric drive. Tutorial.




DOI: https://doi.org/10.29103/jreece.v3i2.11537

Article Metrics

 Abstract Views : 172 times
 PDF Downloaded : 65 times

Refbacks

  • There are currently no refbacks.


Copyright (c) 2023 Kerimzade G. S, Vishal Jain, Farhana Mahjabeen, Munir Ahmad, Dipak P. Patil, Auwal Garba, Vinod Shantaram Mahajan

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.