This is a very good medium to low power (depending on the focal length of your telescope) eyepiece for lunar observing, viewing emission and reflection nebulas in their entirety, etc. It has a rubber grip ring for comfort in cold weather. It provides a big 5.55mm exit pupil with an f/4.5 Dobsonian reflector for rich field scanning of the Milky Way star clouds in Sagittarius from a dark sky site.

Eyepieces for telescopes

Fisheye Lenses with 180°+ Field of View do not always provide 180° FoV if used with a smaller sensor.For example, a Fisheye with Full Coverage can provide much smaller fields of view such as 160° Diagonal, where they act as a "Wide Angle" Lens.The reason for this is the "Fisheye Fill Factor" which has six different general categories.

Distortion changes the scale of objects at different parts of the field of view. Additionally, the scale changes both radially and tangentially, causing object deformation.CNN-based methods should ideally be trained on data that has the distortion profile used by your embedded vision system. Otherwise, activations will occur in incorrect locations.

Plossllens

Therefore, a Fisheye Lens can be a Wide Angle Lens when an image sensor smaller than the image circle is used. A Wide Angle Lens is not necessarily a Fisheye Lens.GoPro's marketing team was stuck with "Fisheye" because the first product used a cropped Fisheye lens. The newer GoPros use Wide Angle lenses which are not Fisheye lenses.

Optical distortion is a third order transverse aberration. The simple explanation is that distortion is the change in magnification (angular resolution) versus image height.Distortion is present in all fisheye lenses and most wide-angle lenses.Additionally, distortion is a function of field angle, and usually increases as field increases.Rule of Thumb 1: A lens with greater distortion has greater field of view than another lens which has the same Effective Focal Length.Rule of Thumb 2: The smaller the field of view, the less apparent optical distortion is.The distortion profile of a lens dramatically changes the field of view output from a camera system. In the below charts you can see that a 1.9mm lens can provide anywhere from 106° Field of View to 180°+ Field of View at 5.0mm image circle.

Yes, there is a difference between a fisheye and a wide-angle lens. A definition from the Smith's Modern Optical Engineering, Fourth Edition, page 718, is:

Plossl eyepiecedesign

An excellent choice to replace the so-so 26mm eyepiece that comes with many moderately-priced scopes. The 25mm TeleVue Plössl was top-rated in a recent test report of 31 eyepieces in Sky & Telescope magazine as being the best in its focal length.

Pei, et. al. "Effects of Image Degradations to CNN-based Image Classification" Li, et.al. 2020, “ULSD: Unified Line Segment Detection across Pinhole, Fisheye, and Spherical Cameras”​

Plossl eyepiecevs Kellner

Distortion is the change in magnification and angular resolution as a function of field angle in an image.Optical Distortion, Wide Angle, and Fisheye are used when discussing lenses that provide a large field of view.

Optical distortion is a third order transverse aberration. The simple explanation is that distortion is the change in magnification (angular resolution) versus image height.Distortion is present in all fisheye lenses and most wide-angle lenses.Rule of Thumb 1: A lens with greater distortion has greater field of view than another lens which has the same Effective Focal Length.Rule of Thumb 2: The smaller the field of view, the less apparent optical distortion is.