Title:	CPVMatch - Concentrating Photovoltaic Modules Using Advanced Technologies and Cells for Highest Efficiencies
Author(s):	S.P. Philipps, M. Baudrit, K. Hillerich, V. Moreau, R. Parmesani, E. Román Medina, G. Sala, B. Schineller, G. Timò, A.W. Bett
Topic:	Concentrator and Space Applications
Subtopic:	III-V-based Devices for Terrestrial and Space Applications
Event:	32nd European Photovoltaic Solar Energy Conference and Exhibition
Session:	4CV.1.4
Pages:	1393 - 1398
ISBN:	3-936338-41-8
Paper DOI:	10.4229/EUPVSEC20162016-4CV.1.4
Price:	0,00 EUR
Document(s):	paper

Abstract/Summary:

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This paper presents the project Concentrating Photovoltaic modules using advanced technologies and cells for highest efficiencies (CPVMatch), which has received funding from the European Union’s Horizon 2020 research and innovation program. The aim of CPVMatch is to bring practical performance of HCPV closer to its theoretical limits with research and development in the field of III-V multi-junction solar cells and CPV modules. Concerning cells, novel wafer bonded four-junction solar cells made of GaInP/GaAs//GaInAs/Ge are optimized with the target of reaching 48% efficiency under concentration. Moreover, multi-junction solar cell technologies with advanced materials - like ternary IV element mixtures (i.e. SiGeSn) and nanostructured anti-reflective coatings - are investigated. Concerning CPV modules the project focuses on both Fresnel-based and mirror-based technologies with a target efficiency of 40% under high concentrations beyond 800x. Achromatic Fresnel lenses for improved light management without secondary optics are investigated. In addition, smart, mirror-based HCPV modules are developed, which include a new mirror-based design, the integration of DC/DC converters and an intelligent tracking sensor (PSD sensor) at module level. A profound life-cycle and environmental assessment and the development of adapted characterization methods of new multi-junction solar cells and HCPV modules complete the work plan of CPVMatch.