SINUS-3000 ADVANCED
Unmatched accuracy, flexibility, and power
The SINUS-3000 ADVANCED is the ultimate I-V testing solution for solar modules that meets calibration lab level requirements.
Exceeding class A+A+A+, it is designed to output very stable, homogeneous, high spectral quality light, making it the ideal solar simulator for characterizing solar modules based on high efficiency and tandem cell technology.
LED’s present the new benchmark!
LED’S MAKE THE ULTIMATE SIMULATOR
The SINUS-3000 ADVANCED:
Unmatched accuracy, flexibility, and power
The SINUS-3000 ADVANCED is the ultimate I-V testing solution for solar modules that meets calibration lab level requirements.
Exceeding class A+A+A+, it is designed to output very stable, homogeneous, high spectral quality light, making it the ideal solar simulator for characterizing solar modules based on high efficiency and tandem cell technology.
LED’s present the new benchmark!
The LED Advantage
Industry leading spectrum quality and spectral match to AM1.5G
World-Class Light Engine
Class A+A+A+ (IEC 60904-9), for spectral match, non-uniformity and temporal stability
Optional PL/EL camera
To display material defects and document degradation effects
Uniformity in every color
ensures that every cell in the module receives the same spectrum at the same intensity
Wide range of exposure times
Pulsed or continuous illumination
Optional fully integrated climate chamber
As an option, to control the sample temperature at STC or to determine performance as function of temperature
THE SINUS-3000 ADVANCED
Setting a new standard for the standard setters
When the world’s leading photovoltaic institutions conduct research or carry out certification services, they require extreme accuracy.
The standard test conditions used by renowned organizations such as Fraunhofer ISE, IMEC, and PTB must match AM 1.5 as closely as possible.
Consistency from one project to the next is also essential. This is where the groundbreaking spectral accuracy and long-term stability of the SINUS-3000 ADVANCED truly shine.
Capable of evenly illuminating large area modules, this powerful simulator lets researchers create user-defined spectra and set up long exposure times.
As a result, levelized cost of energy results can be easily calculated for any region on earth. With SINUS-3000 ADVANCED researchers can simulate the spectral changes of sunlight continuously throughout the day.
No-holds-barred solar simulation
The unique parachute-shaped design makes it possible to keep the individual light engines at a constant distance from the module. An optimized water cooling system is provided to dissipate heat from the system, allowing exposure times of as much as several hours or more.
A fully featured tester
The SINUS-3000 ADVANCED can perform Voc, Isc, FF, Pmpp and I/V curve measurements to cover a broad range of research, certification, and production applications. Outstanding reliability, accuracy, and stability are what WAVELABS LED systems are known for.
The SINUS-3000 ADVANCED can be enhanced by EL cameras, additional light engine for bifacial modules and temperature chamber.
A+ spectral accuracy and stability
Class A+ spectral match and long-term stability combined with Class A+ uniformity and short-term stability give you exceptionally accurate, repeatable results. This is a pioneering achievement among full-sized module testers.
The next best thing to teleportation
Never before have PV experts had the ability to simulate the unique characteristics of solar irradiance in every corner of the globe, for entire PV modules, under continuous illumination. What will a module yield at noon in the middle of a Californian summer? How about a New Zealand winter at dusk? Just set up your SINUS-3000 ADVANCED and find out.