Photovoltaic systems - Fundamentals with laboratory course (PVS-F-L)7.5 ECTS
(englische Bezeichnung: Photovoltaic systems - Fundamentals with laboratory course)
(Prüfungsordnungsmodul: Photovoltaic systems - Fundamentals with laboratory course)

Lehrveranstaltungen:

• • Advanced Semiconductor Technologies - Photovoltaic Systems for Power Generation - Design Implementation and Characterization
    (Vorlesung mit Übung, 2 SWS, Christoph J. Brabec et al., Di, 08:15 - 09:45, 3.71; Wenn online, dann Videos im StudOn / If ZOOM meeting, then videos in StudOn, Preliminary meeting: 18.10.2021, 9:00 - 10:00, Zoom meeting)
  • Lab Work Characterization and Advanced Defect Imaging of PV Modules and Systems
    (Praktikum, 3 SWS, Andres Osvet et al., Zeit n. V., Labore LS i-MEET und HIERN)
  • Excercises Photovoltaic systems – Fundamentals (CEP) (Ex-PVS-F)
    (Übung, 3 SWS, Karen Forberich et al., Mi, 14:45 - 16:15, 3.71; rooms and labs at i-MEET und HiErN)

Empfohlene Voraussetzungen:

Bachelor in Material Science, Nanotechnology, Energy Technology, Electronic Engineering, Computer Science, Physics, Chemistry, Chemical Engineering, Nanotechnologie, Energietechnik, Elektrotechnik, Physik, Chemie or comparable

Inhalt:

The lecture will introduce the fundamentals of photovoltaic energy conversion. The conversion of light into electricity is one of the most efficient power technologies of today and is expected to transform our energy system towards a renewable scenario. The limits of photovoltaic energy conversion, the materials and architectures of major PV technologies and advanced characterization methods for modules as well as solar fields will be introduced theoretically and experimentally during the lecture, exercices and the lab works.

Lernziele und Kompetenzen:

• The students will learn the concept of black body radiation and the radiation laws and the limits of light – energy conversion. The fundamental semiconductor junctions (p-n, M-i-M, Shottky and Hetero Junction are repeated. The one diode and two diodes replacement circuits are explained. Electrical, optical, recombination and extraction loss mechanisms are discussed separately and demonstrated at the hand of numerical drift-diffusion equation solvers. The most important solar cell concepts (Si, CIGS, CdTe, GaAs, Perovksites, Organics) are introduced, and the strengths and weaknesses of each technology are analysed.

• Characterization of Photovoltaic Modules will be trained by flashed measurements in the lab. Defect imaging methods like DLIT, EL or PL imaging will be trained at the hand of module installations in Erlangen.
  

Literatur:

Will be provided via StudOn

Verwendbarkeit des Moduls / Einpassung in den Musterstudienplan:

1. Clean Energy Processes (Master of Science)
   (Po-Vers. 2021w | Gesamtkonto | Specialisation Energy technologies | Specialisation modules with laboratory course 1-2 | Photovoltaic systems - Fundamentals with laboratory course)

Studien-/Prüfungsleistungen:

Laboratory course: Photovoltaic systems - Fundamentals (Prüfungsnummer: 29062)

Studienleistung, Praktikumsleistung, unbenotet

weitere Erläuterungen:
Lab protocol - max. 10 pages

Prüfungssprache: Englisch

Erstablegung: WS 2022/2023, 1. Wdh.: SS 2023

1. Prüfer:

Christoph J. Brabec

Photovoltaic systems - Fundamentals (Prüfungsnummer: 29061)

Prüfungsleistung, mündliche Prüfung, Dauer (in Minuten): 20, benotet

Anteil an der Berechnung der Modulnote: 100.0 %

Prüfungssprache: Englisch

Erstablegung: WS 2022/2023, 1. Wdh.: SS 2023

1. Prüfer:

Christoph J. Brabec