Article represents using theoretical analysis and experimental studies of nonlinear resistive circuits and it was developed that it is important to use such circuits as power contactless switching devices to ensure a quality power supply for consumers. The paper deals with the problems of designing lightweight, reliable, high-speed contactless optoelectronic voltage relays with extended service life, combining a responsive device and a strong executive body with a sinusoidal form of the load voltage curve. Theoretical studies of transients in nonlinear dynamic circuits result in the solution of differential condition equations by a computational method built on the basis of optoelectronic pressure relays with time delay. Experimental investigations and the operating theory of this relay are addressed.
Article represents using theoretical analysis and experimental studies of nonlinear resistive circuits and it was developed that it is important to use such circuits as power contactless switching devices to ensure a quality power supply for consumers. The paper deals with the problems of designing lightweight, reliable, high-speed contactless optoelectronic voltage relays with extended service life, combining a responsive device and a strong executive body with a sinusoidal form of the load voltage curve. Theoretical studies of transients in nonlinear dynamic circuits result in the solution of differential condition equations by a computational method built on the basis of optoelectronic pressure relays with time delay. Experimental investigations and the operating theory of this relay are addressed.
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1 | 1. Abduraimov E.Kh., Halmanov D.Kh. Theoretical analysis of semiconductor circuits. Eurasian Union of Scientists No. 3, 2019. Russia. Pages 60-63. |
2 | 2. Abduraimov E.Kh., Khamidova N.E. Analysis of nonlinear resistive circuits. Theory and practice of modern science. //XX International Scientific and Practical Conference. Moscow, 2017. Pages 62-64. |
3 | 3. Usmanov E.G., Abduraimov E.Kh. - Contactless timers. - Problems of energy and resource conservation, TSTU. - Tashkent, 2016. No. 3-4. Pages 84-87. |
4 | 4. Usmanov E.G., Abduraimov E.Kh., Karimov R.Ch. Optoelectronic proximity voltage relay Patent No. IAP 05122 // the State Patent Office of republic of Uzbekistan. Official Journal. - Tashkent, 2015. № 12.34./ Р |
5 | 5. Abduraimov E.Kh. Optoelectronic contactless switching devices. Bulletin of Tashkent State Technical University.No. 3, 2016, Pages 73-78. |
6 | 6. Abduraimov E.Kh., Halmanov D.Kh. Development of a non-contact optoelectronic switching device. Problems of energy and resource conservation, TSTU. - Tashkent, 2018. № 3-4. Pages 145-149. |
7 | 7. Usmanov E.G., Abduraimov E.K., Halmanov D.Kh., Karimov R.Ch., Optoelectronic reloading with high-speed. Republic of Uzbekistan. Official Bulletin of the Intellectual Property Agency, - Tashkent, 2018.No. 11 (211). - 29 p. |
8 | 8. Abduraimov E.K., Shamsutdinov X.F., AsamutdinovI.F., Non-contact voltage relay for autOhmatic switching of capacitor units. //Journal of Technical Science and Innovation TSTU, 2019. №1. Pages 84-89. |
9 | 9. Abduraimov E.Kh., Halmanov D.Kh., Khamidova N.E. Highly efficient and reliable contactless switching devices // Materials of the Republican Scientific and Technical Conference "Integration of science, education and production is the most important factor in the implementation of investment projects" Tashkent -2019. Pages 247-249. |
10 | 10. Abduraimov E.Kh., Halmanov D.Kh. Energy-saving contactless switching devices //International Conference “Problems of Improving the Efficiency of Using Electric Energy in the Agro-Industrial Complexes”- Tashkent. November 28, 2018 Pages 134-138. |
11 | 11. Abduraimov E.Kh., Karimov R.Ch., Mukhiddinov Sh.S. Optoelectronic Resistive Circuits IV// International Scientific and Practical Conference "Science and Modern Society: Interaction and Development" - Ufa, December 15-16, 2017. Pages 72-75. |
12 | 12. Bobojanov M.K., Usmanov E.G., Abduraimov E.Kh., Karimov R.Ch. Resistive time delay swishes Scientific journal “European Science Review” Austria, Vienna, 2018. №1-2. Pages 210-212. |
13 | 13. John Bird. Electrical and Electronic Principles and Technology- LONDON AND NEW YORK, 2014 - 455 p. |
14 | 14. Châtenier G., Boe M., Bui D., Vayan J., Verkinder D. The textbook on general electrical engineering. Technosphere, 2009. Translation from French. - 620 p. |
15 | 15. Rizzoni Giorgio. Principles and applications of electrical engineering / Richard D. Irwin, a Times Mirror Higher Education Group, Inc. company, 2013. |