The Photovoltaics reliability group at ISFH develops innovative measurement techniques and testing methods. These tools are used to assess the reliability and performance of PV modules, components, and materials both in the lab and under real outdoor conditions.
We support industry with:
- Development of new measurement and testing methods for PV modules in laboratory and field settings
- Technical services and expert evaluations of PV modules and materials
- Performance and electroluminescence measurements of PV modules in the lab
- Electroluminescence imaging of PV modules in solar parks using methods that do not require rewiring or nighttime work—unlike conventional techniques
Our work contributes to development projects, certification processes, and custom reliability assessments of photovoltaic products.
With our extensive experience, we provide sound, application-oriented evaluations of new PV technologies—practical, precise, and reliable.
Our testing methods at a glance
- Humidity
- Field measurements & monitoring
- UV exposure
- Temperature cycling
- Mechanical stress
- Insulation testing
- Bending test, load frame
- Material interaction
- Weather cycles (real operation)
- Climate chamber tests
- EL/PL measurement (electroluminescence/photoluminescence)
Projects
ZUPER
Zuverlässigkeit und Performance von PV-Modulen, Systemen und Anwendungen
AUTAGDRONE
Cost-effective inspection of industrial PV systems using self-sufficient, daylight-enabled drone electroluminescence measurements
LongLife
Cost-efficient reliability of PV power plants and inverter technology – Clarification and prediction of aging & failure processes for device development and predictive maintenance as well as realization of practical solutions
LIEL
Ultra-fast PV park inspection using flexible, contactless light-induced electroluminescence
ProVe
Processes and components for high active area fractions in PV modules
Task13-3
Management and collaboration in Task 13 ‘Performance, Operation and Reliability of Photovoltaic Systems’ Phase 2018 – 2021 within the Photovoltaic Power Systems (PVPS) Programme of the International Energy Agency (IEA)