114

The article develops a heliotechnical device for obtaining an electrostatic field
and an optoelectronic source with an autonomous type of optical light that does not depend
on energy. The device is based on the transformation of infrared radiation in the color of
light. The system of equations of functional converters of the signal in the device is also
shown in the schemes of direct connection of optrons and the principles of operation of other
developed circuits

  • Ссылка в интернете
  • DOI
  • Дата создание в систему UzSCI 07-09-2022
  • Количество прочтений 114
  • Дата публикации 30-08-2022
  • Язык статьиIngliz
  • Страницы140-145
English

The article develops a heliotechnical device for obtaining an electrostatic field
and an optoelectronic source with an autonomous type of optical light that does not depend
on energy. The device is based on the transformation of infrared radiation in the color of
light. The system of equations of functional converters of the signal in the device is also
shown in the schemes of direct connection of optrons and the principles of operation of other
developed circuits

Имя автора Должность Наименование организации
1 Akhunov K.H. teacher Fergana Polytechnic Institute
2 Khomidov A.K. teacher Fergana Polytechnic Institute
Название ссылки
1 E.I. Adirovich. “In microelectronics and radio electronics”, 1968. 75
2 A.M. Kasymakhunova., R.A. Naimanboev., K.H. Akhunov., M.K. Tokhirov., A.K. Khomidov. “Fast-acting optoelectronic shutter”, 2020
3 A.M. Kasymakhunova., R.A. Naimanboev., K.Kh. Akhunov., M.K., A.K. Khomidov. “Optoelectronic heliotechnical device for producing electric fields”, 2020
4 N.R. Rakhimov., R.J. Tojiev., O. Tilavoldiev., K.Kh. Akhunov. Optoelectronic colorimeter for control of color differences of oil products. “Uzbek journal of oil and gas”, 2003. 39
5 K.Kh. Akhunov. Floating solar refrigerator with h-complete metal heat recovery. “Proceedings of the Osh university of technology”, 2019. 201
6 R. Naimanboev., K.Kh. Akhunov. Optoelectronic method for determining the microparameters of photodetectors of oscillator type. “Actual science”, 2019. 16
7 K.Kh. Akhunov., A.Kh. Khomidov, O.K. Khomidov. Floating solar desalination with zigzag heat receiver. “Actual science”, 2018. 22
8 A. M. Kasimakhunova., R. Naimanbaev, K. Kh. Akhunov., A. Kh. Khomidov, Development and research of optoelectronic secondary energy transformer. “PalArch's Journal of Archaeology of Egypt”, 2017. 3602
9 K.Kh. Akhunov. Optoelectronic methods of nondestructive quality control of products and materials. “Actual science”, 2020. 6
10 K.Kh. Akhunov., A.Kh. Khomidov., F.N. Nasretdinova., O.K. Khomidov. Solar desalination plant. “Actual science”, 2019. 12
11 R. Naimanboev, K.H. Kambarali. Faradey effect AFN-planks. “Scientifik Bulletin of Namangan State University”, 2019. 8
12 R. Naimanboev. “The study of photoelectric properties of CdTe and Sb AFN-films2 Se3 and development on their basis the optoelectronic devices”, 1977
13 R. Naymanboev, S. Irmatov. “Semiconductor photoreceptor”, 2011. 110
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