KUPO Optic's advanced Air Mass (AM) filters are designed to enhance solar simulators by accurately adjusting the spectral output of xenon arc lamps to closely replicate natural sunlight conditions. These filters are critical for applications that require precise simulation of the solar spectrum, providing consistent and reliable performance. Air Mass filters can simulate different atmospheric conditions, such as AM 0, AM 1.0, AM 1.5, and AM 2.0, making them versatile tools for various solar energy and research purposes.
The Air Mass filters offered by KUPO Optic are made to ensure perfect piece-to-piece and batch-to-batch consistency, meaning that users can rely on uniform results across multiple experiments or manufacturing processes. The filters are tailored to meet specific spectral requirements, ensuring a highly accurate reproduction of natural sunlight, which is crucial for testing solar cells, photovoltaic systems, and other solar-related technologies. With different models available to match the desired Air Mass spectrum, these filters enable fine-tuning of solar simulators to meet the most demanding specifications.
Each filter is built with durability in mind, capable of withstanding harsh environmental conditions such as humidity and abrasion while adhering to the MIL-M-13508C military standard for adhesion and humidity. These robust filters are ideal for environments that demand both precision and resilience, such as research labs, solar testing facilities, and manufacturing plants involved in solar technology development.
Features
Perfect piece-to-piece, batch-to-batch consistency
Adjusts the spectral output of xenon arc lamps to match solar conditions
Applications
Solar Simulators - Solar simulators are essential for replicating natural sunlight in controlled environments, allowing researchers and manufacturers to test solar cells and other materials under consistent and reproducible conditions. KUPO's advanced Air Mass filters enhance the accuracy of these simulators by adjusting the spectral output of xenon arc lamps to match specific solar conditions like AM 0, AM 1.5, and AM 2.0. This precision ensures that testing and development processes for solar technologies are both reliable and representative of real-world sunlight exposure.