Topogon

Design

According to Richter, the Topogon was developed from the Goerz Hypergon (1900), one of the first super-wide-angle lenses. A new computation of a "fast" Hypergon was made by limiting the angle of view to 90°, which allowed an increased maximum aperture of 6.3.

The Topogon was derived from the "fast" Hypergon by adding a second, symmetric set of strongly curved meniscus elements inside the larger spherical elements to correct longitudinal spherical aberration. The initial design patented by Richter was for a f=66mm 6.3 lens covering 100°, although the patent also contains two other refinements to the basic design, including one that used parallel elements to minimize vignetting. As the name suggests, the Topogon was intended to be used for topographical surveys and photogrammetry.

The Topogon was later developed into the Pleon fisheye lens (1938) and Pleogon lens by Richter and Friedrich Koch in 1956. The Pleon was used for aerial surveillance during World War II, and was equipped with a large negative meniscus cemented group ahead of the Topogon core as an early example of an inverted telephoto design; a special projector was required to display an undistorted image. The Pleogon, used for photogrammetry, used a cemented achromatic lens just ahead of the central stop and added two meniscus groups on either side to maintain lens symmetry.

Topogon lenses have been produced with maximum apertures ranging from f/3.5 to f/15 in various focal lengths.

File:Goerz Hypergon (1900).svg|Goerz Hypergon by von Höegh (1900), from US 706,650 File:Richter-Zeiss Topogon (1933).svg|Zeiss Topogon by Richter (1933), from US 2,031,792 File:Richter-Zeiss Pleon (1938).svg|Zeiss Pleon by Richter (1938), from US 2,247,068 File:Richter & Koch - Zeiss Pleogon (1956).svg|Zeiss Pleogon by Richter & Koch (1956), from DE 1,097,710

Influence

Goerz was merged into the Zeiss Ikon company in 1926. An independent branch of Goerz in America, which had been established in 1895, licensed the Topogon design to Bausch & Lomb, who produced it as the Metrogon for the United States, citing the same US patent as the Topogon. The Metrogon was introduced in the early 1940s at the same cost "as a light automobile", limiting its market to aerial surveillance cameras for the United States Army Air Corps. A later patent by Wilbur B. Rayton, assigned to Bausch & Lomb in 1943, separated one of the outer positive meniscus lenses into two air-spaced positive menisci, similar to an earlier patent issued in 1938 to Hasselkus & Richmond.

Although the main market for the Topogon similarly was aerial photography and mapping for military and government applications, a consumer version was produced for the pre-war Zeiss Ikon Contax 35mm rangefinder cameras and produced in small numbers as the Topogon 2.5 cm . Lenses using similar designs also were produced by Canon (25mm , 1956), KMZ (Oриoн-15/Orion-15 28mm , 1964), and Nikon (W-NIKKOR·C 2.5cm , 1954) for their rangefinder systems after World War II.

Hybrid designs

The front meniscus elements of the Topogon were paired with the rear half of a double Gauss by Albrecht Tronnier and released as the Voigtlander Ultragon, a wide angle lens for large format cameras.

As the opposite hybrid asymmetric design, the rear meniscus elements of the Topogon, forming a Gauss lens, have been paired with the front elements from a Planar-type double Gauss lens, resulting in the designs shared by the Schneider Kreuznach Xenotar (1952) and Zeiss Planar (1953) & Biometar (1959). The Xenotar and Planar were fitted to Rolleiflex TLR cameras as an upgrade over Tessar/Xenar types, and the Biometar was the standard lens for the Pentacon Six (aka Praktisix / Exakta 66) SLRs, with a Xenotar available for the same camera.

File:Hasselkus & Richmond US2116264A (Topogon-5, 1936).svg|Topogon derivative by Hasselkus & Richmond (1936), from US 2,116,264 File:Rayton US2325275A (Metrogon, 1942).svg|Bausch & Lomb Metrogon by Rayton (1942), from US 2,325,275 File:Tronnier US2670659A (Ultragon, 1951).svg|Voigtländer Ultragon by Tronnier (1951), from US 2,670,659 File:Klemt & Macher US2683398A (Xenotar, 1952).svg|Schneider Xenotar by Klemt & Macher (1952), from US 2,683,398 File:Lange US2724994A (Planar, 1953).svg|Zeiss Planar by Lange (1953), from US 2,724,994 File:Zöllner US2968221A (Biometar, 1959).svg|Zeiss Biometar by Zöllner (1959), from US 2,968,221

References

References

1. "Anastigmatic objective for photography and projection".
2. "Astigmatically-corrected wide-angle objective".
3. Richter credits the mathematician [[Emil von Höegh]], who had designed the ''Dagor'' [[anastigmat]] (1892), with designing the ''Hypergon'' for Goerz. Although the ''Hypergon'' covered a wide [[angle of view]] (140°) and had good flatness of field and [[distortion (optics). distortion]] characteristics, the [[lens speed. maximum aperture]] was limited to {{f/22 to control longitudinal [[spherical aberration]] and [[chromatic aberration]].{{Kingslake-lens-history
4. Richter, Robert. (December 1956). "Development and Perfection of the Topogon Lens". Photogrammetric Engineering & Remote Sensing.
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