V. S. Kalinovskii, E. V. Kontrosh, A. V. Andreeva, V. M. Andreev, V. V. Malyutina-Bronskaya, V. B. Zalesskiy, A. M. Lemeshevskaya, V. I. Kuzoro, V. I. Khalimanovich, M. K. Zayceva, “Hybrid solar cells with a sunlight concentrator system”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 2019, Volume 45, Issue 16,Pages <nobr>52

This article is cited in 6 papers

Hybrid solar cells with a sunlight concentrator system

V. S. Kalinovskii^a, E. V. Kontrosh^a, A. V. Andreeva^a, V. M. Andreev^a, V. V. Malyutina-Bronskaya^b, V. B. Zalesskiy^b, A. M. Lemeshevskaya^c, V. I. Kuzoro^d, V. I. Khalimanovich^d, M. K. Zayceva^e

^a Ioffe Institute, St. Petersburg
^b State Scientific and Production Association "Optics, Optoelectronics and Laser Technology", National Academy of Sciences of Belarus, Minsk
^c R&D Company Belmicrosystems, JSC Integral, Minsk, Belarus
^d JSC "Information Satelline Systems Reshetnev Company", Zheleznogorsk
^e A.A. Maksimov Institute of Space Systems, Department of M.V. Khrunichev State R&D Space Center, Moscow oblast, Russia

Abstract: Hybrid solar cells based on InGaP/Ga(In)As/Ge multijunction structures integrated into crystalline Si heat-removal base and provided with sunlight concentrator system based on linear Fresnel lenses and carboplastic mount structure have been developed and investigated. The hybrid solar cells with sunlight concentrators in the photovoltaic module provide a specific electric power of 390 W/m$^2$ (AM0, 1367 W/m$^2$) at a photoconverter unit specific weight reduced to 1.0 kg/m$^2$. Improved photovoltaic characteristics and high radiation resistance allow using the proposed hybrid solar modules with sunlight concentrators in space solar batteries and autonomous power supply facilities.

Keywords: multijunction photovoltaic cell, hybrid solar cell, linear Fresnel lens, concentrator photovoltaic module, solar battery.

Received: 07.05.2019
Revised: 07.05.2019
Accepted: 13.05.2019

DOI: 10.21883/PJTF.2019.16.48159.17868