Description
Article no.: 28327
The NiSi CPL Circular Polarizer Pro Nano Huc 49mm reduces reflections and glare from non-metallic surfaces while increasing color and tonal saturation. It uses a polarizing element and advanced coatings to deliver clearer skies, richer foliage and reduced haze in landscape images.
Sunlight becomes partially polarized when it scatters in the atmosphere and when it reflects from surfaces. This directional polarization can produce visible haze and unwanted reflections. The NiSi CPL arranges and filters this directionally polarized light perpendicular to the reflected light, allowing much of that polarized component to be absorbed. As a result, you see less glare and clearer details on non-metallic surfaces.
Use this circular polarizer to control reflections on water, glass and wet surfaces, and to deepen blue skies and improve contrast in foliage. Because of its slim frame, it helps reduce vignetting on wide-angle lenses while maintaining a low profile on the lens front.
| Specification | Value |
|---|---|
| Product | NiSi Filter CPL Circular Polarizer Pro Nano Huc |
| Filter thread size | 49mm |
| Frame thickness | 4.9mm |
| Coating | Waterproof, Nano Coating |
| Optical quality | Ultra High Definition |
Question: What reflections does this filter reduce?
Answer: The NiSi CPL reduces reflections and glare caused by polarized light from non-metallic surfaces such as water, glass and wet foliage, improving clarity and contrast.
Question: Is the filter suitable for landscape photography?
Answer: Yes. It reduces haze, increases color and tonal saturation, and deepens skies and foliage—features that are particularly useful in landscape photography.
Question: Will the slim frame help on wide-angle lenses?
Answer: The ultra slim 4.9mm frame helps minimize vignetting on wide-angle lenses while keeping the filter profile low on the lens.
Question: Are the coatings durable and weather-resistant?
Answer: The filter features a waterproof nano coating designed to repel water and help protect the optical surface during use in damp conditions.