Unfortunately, the prism is a single piece, and a beam splitter cube does not work here (the bino viewer is tilted upwards).Pau wrote:If you were able to exchange the second position prism (or mirror) for a beamsplitter you would have a simpler typical trino configuration
tube lens comparison
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Olympus Tube Lenses
1] There is a 4-page brochure for the Olympus SWTLU-C Tube lens for system builders, which, as its designation implies, is intended to be used up to a field number of 26.5mm.
http://photos.labwrench.com/equipmentMa ... 2-9877.pdf
Just as with the contemporary Nikon CFI60 objectives, some Olympus Plan Fluor objectives can produce larger usable images than this field number implies, and with a more common 200mm tube lens the extra magnification will cover a 35mm full frame sensor.
2] Enrico Savazzi is correct to suggest that the super-widefield head uses a different tube lens. The Olympus service manual for their standard head shows a three element tube lens and a four element tube lens for their super-widefield head.
3] In the earlierst Olympus patent I know of which describes a tube lens design for their UIS system, US Patent 5 394 271 to Takaaki Tanake, Toshinobu Suzuki and Chikara Nagano filed 22 Oct 1992, both three and four element designs are disclosed. I suspect that it is almost certain that this design has been refined more than once because of the environmentally-driven contraction in the range of commercially produced optical glasses in the intervening 26 years.
4] Olympus have routinely used a 4-element tube lens to illustrate their patents for many subsequent infinity objectives. but when Kurvits and others, https://arxiv.org/pdf/1507.04037.pdf dismantled a U-TLU they found that it did not match the design used in the patents. Whether this means that it has a three-element design or a differeent four element design they did not say.
Henry
1] There is a 4-page brochure for the Olympus SWTLU-C Tube lens for system builders, which, as its designation implies, is intended to be used up to a field number of 26.5mm.
http://photos.labwrench.com/equipmentMa ... 2-9877.pdf
Just as with the contemporary Nikon CFI60 objectives, some Olympus Plan Fluor objectives can produce larger usable images than this field number implies, and with a more common 200mm tube lens the extra magnification will cover a 35mm full frame sensor.
2] Enrico Savazzi is correct to suggest that the super-widefield head uses a different tube lens. The Olympus service manual for their standard head shows a three element tube lens and a four element tube lens for their super-widefield head.
3] In the earlierst Olympus patent I know of which describes a tube lens design for their UIS system, US Patent 5 394 271 to Takaaki Tanake, Toshinobu Suzuki and Chikara Nagano filed 22 Oct 1992, both three and four element designs are disclosed. I suspect that it is almost certain that this design has been refined more than once because of the environmentally-driven contraction in the range of commercially produced optical glasses in the intervening 26 years.
4] Olympus have routinely used a 4-element tube lens to illustrate their patents for many subsequent infinity objectives. but when Kurvits and others, https://arxiv.org/pdf/1507.04037.pdf dismantled a U-TLU they found that it did not match the design used in the patents. Whether this means that it has a three-element design or a differeent four element design they did not say.
Henry
Feel free to edit my images.