DEVELOPMENT AND RESEARCH OF SOLAR OPTOELECTRONIC DEVICES TO CREATE A HIGHLY EFFICIENT HIGH-PERFORMANCE GENERATOR-TYPE PHOTODETECTORS (HGTP)

132

A heliotechnical system for electrostatic field acquisition and an optoelectronic source with an autonomous form of non-volatile optical light were created in this paper. The system depends on the turning of infrared radiation into a light hue. The equation method for practical signal converters in the unit is also seen in the optron direct link schemes and the operating principles of the other developed schemes. It is also mentioned that new types of solar optoelectronic devices are the main advantages of solar optoelectronics, the interaction of light and the light receivers that serve as its elements, the conversion of electrical and optical signals and the use of sunlight as a light source in semiconductor solar technology. Theoretical requirements for the manufacture of high-performance generator-type photodetectors (HGTP) are specified, namely: maximum operating time, device design meets optimal parameters, p-p - transition recombination, photon energy hυ˂ΔΕ should be approximately 1.5÷1.6 eV. In the proposed device, the light source in the circuit and the power source in the light receiver are based on solar energy, allowing remote contactless control of the optoelectronic device, which indicates that the sensitivity of the device is several times higher.

Name of journalTechnical science and innovation
Number of edition2020,№4(06)
View count132

Web Address

DOI

Date of creation in the UzSCI system06-05-2021

Read count131

Date of publication19-11-2020

Main LanguageIngliz

Pages175-180

Tags

capacitance

energy

LED

optoelectron

photodetector

photovoltage

sunbeam

electric signal

APhV-films

light guide

heliotechnical devices

English

A heliotechnical system for electrostatic field acquisition and an optoelectronic source with an autonomous form of non-volatile optical light were created in this paper. The system depends on the turning of infrared radiation into a light hue. The equation method for practical signal converters in the unit is also seen in the optron direct link schemes and the operating principles of the other developed schemes. It is also mentioned that new types of solar optoelectronic devices are the main advantages of solar optoelectronics, the interaction of light and the light receivers that serve as its elements, the conversion of electrical and optical signals and the use of sunlight as a light source in semiconductor solar technology. Theoretical requirements for the manufacture of high-performance generator-type photodetectors (HGTP) are specified, namely: maximum operating time, device design meets optimal parameters, p-p - transition recombination, photon energy hυ˂ΔΕ should be approximately 1.5÷1.6 eV. In the proposed device, the light source in the circuit and the power source in the light receiver are based on solar energy, allowing remote contactless control of the optoelectronic device, which indicates that the sensitivity of the device is several times higher.

Tags

capacitance

energy

LED

optoelectron

photodetector

photovoltage

sunbeam

electric signal

APhV-films

light guide

heliotechnical devices

№ Author name position Name of organisation

1 Naymanbaev P..

2 Akhunov K.K.

№ Name of reference

1 1. E. I. Adirovich, V. Microelectronics collection, M, 1967.1. pp. 75. Higher education institution, ser. Radioelectronics, 11, No. 7 679 (1968).

2 2. F.I. Alferov, V.M. Andreev, V.D. Rumentsev HGTP, 2004, Vol.38, issue 8, p.937.

3 3. M.R.Bavim, dissertation for a Candidate of Technical Sciences degree, Moscow, 2014.

4 4. E.I.Adirovich et al., Aut. CF. №546936, 25.10.76.

5 5. Kasymakhunova A. M., Naymanboev R., Akhunov K. H., Tokhirov M. Қ.,KhomidovA.K.- Optoelectronic fast shutter, "Author's work No. EU-01-002677", 10, 2020.

6 6. Kasymakhunova A. M., Naymanboev R., Akhunov K. H., Khomidov A. Қ - Optoelectronic heliotechnology device for obtaining electric fields, "Author's work No. EU-01-002678", February 10, 2020.

7 7. R. Nymanboev et al., German Patent, No. EC-01-001725, 18 May, 2018.

8 8. Certificate of authorship. USSR, No. 381156, to 3/28, 1973.

9 9. R. Nymanboev et al., German Patent, No. EC-01-002505, October 9, 2019.

10 10. R. Pulatov, "Development and Research of Pulsed Optoelectronic Transformers", PhD in Technical Sciences, Moscow, 1975.

11 11. A. M. Kasimakhunova et al., Computational nanotechnology, Jur-Vak Publishing House, Moscow, No. 2, 2018, pp. 72-76, (01.00.00, No. 60).

12 12. N.P. Udalov, R. Pulatov, "Optoelectronic Pulse Transformers, New Electronic Devices and Instruments" Collection, 1974.

13 13. V.L. Kozlov, Optoelectronic Sensors, Minsk, BSU, 2005.

14 14. A. M. Қасимахунова, R. A. Nuriddinova, 2017, Vol.19, No. 5, p. 302-306.

15 15. R. Naymanboev et al., Uzbek Journal of Physics, 2012, Vol.12 (№5-6), 311-315 (01.00.00, №5).

16 16. R. Naymanboev, Research of Photovoltaic Properties of CdTe and Sb2Se3 Photovoltaic Films and Development of Optoelectronic Devices on Their Basis, Candidate of Sciences degree in Physics, Toshkent, 1977.

17 17. R. Naymanboev, S. Irmatov, Semiconductor Photographic Receiver, Publishing Department. FerPI, Fargana, 2011, p.110.

Waiting

№	Name of reference
1	1. E. I. Adirovich, V. Microelectronics collection, M, 1967.1. pp. 75. Higher education institution, ser. Radioelectronics, 11, No. 7 679 (1968).
2	2. F.I. Alferov, V.M. Andreev, V.D. Rumentsev HGTP, 2004, Vol.38, issue 8, p.937.
3	3. M.R.Bavim, dissertation for a Candidate of Technical Sciences degree, Moscow, 2014.
4	4. E.I.Adirovich et al., Aut. CF. №546936, 25.10.76.
5	5. Kasymakhunova A. M., Naymanboev R., Akhunov K. H., Tokhirov M. Қ.,KhomidovA.K.- Optoelectronic fast shutter, "Author's work No. EU-01-002677", 10, 2020.
6	6. Kasymakhunova A. M., Naymanboev R., Akhunov K. H., Khomidov A. Қ - Optoelectronic heliotechnology device for obtaining electric fields, "Author's work No. EU-01-002678", February 10, 2020.
7	7. R. Nymanboev et al., German Patent, No. EC-01-001725, 18 May, 2018.
8	8. Certificate of authorship. USSR, No. 381156, to 3/28, 1973.
9	9. R. Nymanboev et al., German Patent, No. EC-01-002505, October 9, 2019.
10	10. R. Pulatov, "Development and Research of Pulsed Optoelectronic Transformers", PhD in Technical Sciences, Moscow, 1975.
11	11. A. M. Kasimakhunova et al., Computational nanotechnology, Jur-Vak Publishing House, Moscow, No. 2, 2018, pp. 72-76, (01.00.00, No. 60).
12	12. N.P. Udalov, R. Pulatov, "Optoelectronic Pulse Transformers, New Electronic Devices and Instruments" Collection, 1974.
13	13. V.L. Kozlov, Optoelectronic Sensors, Minsk, BSU, 2005.
14	14. A. M. Қасимахунова, R. A. Nuriddinova, 2017, Vol.19, No. 5, p. 302-306.
15	15. R. Naymanboev et al., Uzbek Journal of Physics, 2012, Vol.12 (№5-6), 311-315 (01.00.00, №5).
16	16. R. Naymanboev, Research of Photovoltaic Properties of CdTe and Sb2Se3 Photovoltaic Films and Development of Optoelectronic Devices on Their Basis, Candidate of Sciences degree in Physics, Toshkent, 1977.
17	17. R. Naymanboev, S. Irmatov, Semiconductor Photographic Receiver, Publishing Department. FerPI, Fargana, 2011, p.110.