Next Generation Sunbrick
Next Generation Sunbrick™ Large Area A+A+A+ LED Solar Simulator for Research & Solar Testing
Accurate and repeatable testing requires light that is stable, predictable, and spectrally precise. For many applications, the closer the illumination matches the solar spectrum, the higher the confidence in your measurements. Traditional light sources may enable testing, but often at the cost of frequent calibration, replacement cycles, warm‑up times, and ongoing maintenance.
Filter adjustments, lamp replacements, system shutdowns, and recalibration procedures consume valuable research time—especially in large‑area testing environments where consistency is critical. Even after these efforts, achieving the desired spectral change is not always guaranteed.
Modern LED‑based solar simulation offers a fundamentally different approach. Spectral conditions such as AM1.5G and AM0 can be selected digitally, without physical filters, long warm‑up periods, or recurring lamp validation. Performance remains stable over extended operating periods while maintaining A+A+A+ classification.
This enables continuous, high‑confidence testing for hours, days, or longer—without interruption—allowing engineers and researchers to focus fully on development and innovation.
High‑end A+A+A+ LED solar simulators, such as the G2V SunBrick™, are setting a new standard for scalable, reliable solar simulation.
Reliable Solar Simulation Without Compromise.
Description
Reliable Solar Simulation Without Compromise
Accurate and repeatable testing requires illumination that is stable, spectrally precise, and consistent over time. For many applications, a close match to the solar spectrum is essential to ensure confidence in measurement results. Conventional light sources may support testing requirements, but often introduce operational challenges such as frequent recalibration, lamp replacement, warm-up times, and ongoing maintenance.
Large-area testing environments are particularly affected, where filter changes, bulb swaps, and system downtime can significantly reduce productivity—without guaranteeing the desired spectral outcome.
Modern LED-based solar simulators eliminate these constraints. Spectral conditions such as AM1.5G and AM0 can be selected digitally, without physical filters, long warm-up periods, or recurring lamp validation. Performance remains stable over extended operating periods, while maintaining Class A+A+A+ compliance.
Next-Generation LED Solar Simulation
The SunBrick™ LED solar simulator has achieved Class A+A+A+ classification. Building on years of development, close collaboration with customers, and input from experts across multiple STEM disciplines, this platform represents the next generation of tunable LED solar simulators designed to overcome the limitations of traditional Xenon-based systems.
- Standard illumination area: 15 cm × 15 cm (larger and custom illumination areas available)
- Wavelength range: 350 nm – 1200 nm, supporting applications requiring both UV and IR coverage
- 32 independently tunable spectral channels for targeted investigation of specific wavelength regions
- Modern graphical user interface with integrated Keithley 2600/2640 data acquisition support
- Python API integration for automated testing and integration with third-party laboratory instrumentation
- LED lifetime: up to 25,000 operating hours
- Warranty: 2 years
High-end A+A+A+ LED solar simulators such as the SunBrick™ enable continuous, high-confidence testing for hours, days, or longer—allowing researchers and engineers to focus fully on development and innovation.
