Orders placed after 4PM on weekdays will not ship until the next business day. Orders placed after 12pm Fridays will not ship until the following Monday.
Faster shipping methods may be available; just upgrade during checkout.
*Some exclusions apply.
Enter new zip code to refresh estimated delivery time.
The Tiffen 4 x 5.65" Black Satin 5 Filter can be applied to purposely reduce the appearance of blemishes and wrinkles while providing an intentional warming effect with granularity over an entire image. This can be useful for creating a more flattering result of a subject while highlights are softened, contrast is reduced, and textures are given a smoother appearance. Additionally, halations around highlights are created which can further enhance a subject's appearance or produce a desired effect while overall sharpness is maintained.
This filter has a grade of 5. Grades of 1/8, 1/4, 1/2, 1, 2, 3, and 4 are also available where this filter type's effect becomes approximately twice as strong with each grade number increase.
This filter is constructed from water white glass for increased clarity as well as color fidelity. It is made using ColorCore technology, a process that involves laminating the filter substrate between 2 pieces of optical glass and grinding flat to a tolerance of 1/10,000th of an inch.
Softens contrast and highlights
Reduces the appearance of blemishes and wrinkles
Provides a smoother appearance of textures while maintaining overall sharpness
Creates halation effect around highlights
Intentional warming effect with granularity over an entire image
Constructed from water white glass for optical clarity
Padded pouch included for storage and transport
In the Box
Tiffen 4 x 5.65" Black Satin 5 Filter
Limited 10-Year Warranty
Table of Contents
Soft focus and diffusion
4 x 5.65" (101.6 x 143.5 mm)
0.2" (4.0 mm)
Reduces the appearance of blemishes and wrinkles; softens contrast, highlights, and textures; maintains overall sharpness, creates halation around highlights along with intentional warming effect with granularity over an entire image