EXCERPT page containing first few paragraphs. 2020-07-15 04:28:55
UA_SEARCH_BOT_null @ 126.96.36.199
The reader is strongly advised to read the lens evaluation notes.
The Nikon 85mm f/2.8D PC-Micro-Nikkor is the older version of Nikon’s 85mm tilt/shift lens. The newer version has electronic operation of lens diaphragm, and somewhat improved lens coatings, but as far as the author knows, the same optical design.
Unshifted results (only) are shown on this page.
The Nikon 85mm f/2.8D PC-Micro-Nikkor offers very good but unexciting performance over most of the frame when stopped down. At f/2.8 and f/4, it shows fair to poor results as the edges and corners are approached, requiring at f/5.6 - f/8 to resolve.
Article continues for subscribers...
Diglloyd Advanced DSLR is by yearly subscription. Subscribe now for about 16 cents a day ($60/year).
BEST DEAL: get full access to ALL 8 PUBLICATIONS for only 68 cents a day ($249.95)!
Diglloyd DAP is DSLR-oriented, but also contains workflow and other topics. Much of the focus is on Canon and Nikon but also Pentax and Pentax medium format.
Special emphasis is placed on lens evaluation, focusing on Canon and Nikon and Sigma lenses, but with a few others like Rokinon/Samyang.
- Make better images by learning how to get the best results right away.
- Save money by choosing the right lens for your needs the first time, particularly some of the new Sigma Art lenses vs Nikon and Canon.
- Workflow discusses image organization, raw conversion and post processing. Many examples show processing parameters for direct insight into how the image was converted.
- Jaw-dropping image quality found nowhere else utilizing Retina-grade images up to full camera resolution, plus large crops [past 2 years or so].
- Real world examples with insights found nowhere else. Make sharper images just by understanding lens behavior you won’t read about elsewhere.
- Aperture series from wide open through stopped down, showing the full range of lens performance and bokeh.
- Optical quality analysis of field curvature, focus shift, sharpness, flare, distortion, and performance in the field.