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What is Electroluminescence Diagnostics for Solar Modules?

Short definition: Imaging diagnostic method for detecting cell defects in solar modules

Electroluminescence (EL) is an imaging diagnostic method in which solar modules are forward-biased with current, causing them to emit infrared radiation (approx. 1,150 nm). Defective cell areas appear dark because they conduct little or no current.

Electroluminescence — Measurement Principle Current SourceIsc x 0.1–1.0 PV Moduleemits IR (1,150 nm) InGaAs CameraExposure 5–30 s Finding: Dark spots =Cracks, PID, delamination Classification per IEC TS 60904-13: Class A (intact) → B (cracks < 10% cell area) → C (critical, > 10%) Measurement conditions: darkness required | Outdoor EL with differential method possible

What defects are revealed by EL?

EL images reveal: cell fractures (micro-cracks to macro-cracks), PID-affected cells, inactive cell areas, solder joint defects, finger interruptions, and degradation patterns. The method is standardized per IEC 60904-13.

When does PV-BESS-Assessor use electroluminescence?

EL is the standard method for defect assessments, warranty disputes, and damage evaluations. In combination with IV curve measurements and thermography, it provides a complete defect profile at the cell level.

Frequently Asked Questions

Can EL also be performed in the field?

Yes, outdoor EL is possible in darkness. PV-BESS-Assessor performs field EL measurements using specialized InGaAs cameras. For large systems, the combination of drone thermography (daytime) and sample-based EL (nighttime) is the most efficient method.

Related Terms

PID EffectIV Curve Measurement for Photovoltaic ModulesHotspots in Solar Modules

Case Studies

Documented Case Study:

Electroluminescence: 847 Hidden Cell Cracks After Hailstorm

Real anonymized investigation case with measurement data, timeline, and economic evaluation.