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Comparison Nikon Prostaff 5 10x50 vs BRESSER Hunter 10x50

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Nikon Prostaff 5 10x50
BRESSER Hunter 10x50
Nikon Prostaff 5 10x50BRESSER Hunter 10x50
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Product typebinocularsbinoculars
Magnification10 x10 x
Optical characteristics
Field of view 1 km away98 m119 m
Apparent angular field52.1 °
Real angle of view5.6 °
Min. focus distance5 m5 m
Twilight factor22.422.4
Relative brightness2525
Diopter adjustment
Design
Lens diameter50 mm50 mm
Exit pupil diameter5 mm5 mm
Eye relief15.2 mm
Focuscentralcentral
Anti reflective coatingmultilayermultilayer
PrismRoofPorro
Prism materialBK-7
Interpupillary adjustment
Interpupillary distance56 – 72 mm
Nitrogen filled
General
Dustproof, water resistant
Case
Tripod adapter
Bodyrubberized polycarbonaterubberized plastic
Size187x140 mm192x60x165 mm
Weight815 g705 g
Color
Added to E-Catalogseptember 2014july 2014

Field of view 1 km away

The diameter of the area visible through binoculars / monoculars from a distance of 1 km — in other words, the largest distance between two points at which they can be seen simultaneously from this distance. It is also called "linear field of view". Along with the angular field of view (see below), this parameter characterizes the space covered by the optics; at the same time, it describes the capabilities of a particular model more clearly than data on viewing angles. Models with magnification adjustment (see above) usually indicate the maximum field of view — at the lowest magnification and the widest angle of view. This information is often supplemented by data on the minimum value.

Apparent angular field

The angle of view provided by binoculars/monoculars and available to the eye of the observer. This parameter can be described as the angle between the lines connecting the two extreme points of the image visible in the eyepiece with the eye of the observer; in other words, this is the sector actually observed through binoculars (as opposed to the actual angular field of view described below). The greater the value of this parameter, the greater part of the observed space can be seen without turning the instrument. On the other hand, a wide field of view reduces the magnification factor (see above) — or significantly increases the cost of the device compared to more focused ones.

Real angle of view

The section of the panorama that can be viewed through the eyepieces of binoculars. The higher the actual angular field of view, the wider the visibility of the optics. Note that the angular field of view has an inverse relationship with magnification. That is, the higher the magnification, the narrower the visibility (the smaller the real angular field of view). The actual angular field of view is calculated as follows: you need to divide the angular field of view (in degrees °) by the magnification factor. In comparison, the human eye has an angular field of view of 60 arcseconds (“). In terms of degrees, you get 150 °. Good binoculars provide a real field of view somewhere within 10 arcseconds. But it does not always make sense to chase after large indicators of the real angular field of view. The fact is that when viewing a large section of the panorama, the edges of the image receive noticeable distortion.

Eye relief

The offset is the distance between the eyepiece lens and the exit pupil of an optical instrument (see "Exit Pupil Diameter"). Optimum image quality is achieved when the exit pupil is projected directly into the observer's eye; so from a practical point of view, offset is the distance from the eye to the eyepiece lens that provides the best visibility and does not darken the edges (vignetting). A large offset is especially important if the binoculars / monoculars are planned to be used simultaneously with glasses — because in such cases it is not possible to bring the eyepiece close to the eye.

Prism

A type of prism used in binocular/monocular construction. A prism is one of the key elements of an optical system: it is a glass polyhedron through which light passes on its way from the lens to the eyepiece. The need to use such polyhedra is associated with the peculiarities of the creation of optical devices of high multiplicity. In other models, there are two main options:

Porro. A distinctive feature of binoculars with such prisms is that the optical axes of the eyepieces are offset relative to the lenses — in other words, the distance between the eyepieces differs from the distance between the output lenses. This makes the design somewhat more cumbersome than with Roof prisms; on the other hand, the lenses can be spread over a long distance, which provides a better sense of the volume of the observed picture — especially at long distances. In addition, binoculars with Porro prisms are easier to equip with interpupillary distance adjustment (see below).

Roof. In models with prisms of this type, the eyepiece and the objective are on the same optical axis — the binoculars look as if the light in it goes from "input" to "exit" directly, without any prism at all (although in reality this, of course, is not So). Such devices are smaller and lighter than Porro systems, but more complex and more expensive.

Prism material

Material used for prisms found in binoculars and monoculars.

- BK-7. A type of borosilicate optical glass (6LR61), a relatively inexpensive and at the same time quite functional material that provides, although not outstanding, quite acceptable image quality. Used in entry-level and mid-level models.

—BaK-4. Barium optical glass, noticeably superior to BK7 in brightness and image clarity, is however also more expensive. Accordingly, it is found mainly in the premium segment.

Interpupillary distance

Interpupillary distance adjustment range provided in binoculars with the corresponding function.

Recall that, ideally, the interpupillary distance of the device should correspond to the distance between the centers of the pupils of the user himself. With this calculation, it is worth choosing binoculars according to this parameter; and if the device will be used by several people, it is worth making sure that they all “fit” into the adjustment range of the selected model. However, not every person knows exactly their interpupillary distance, especially since it changes with age; and the circle of users can be indefinite — for example, if we are talking about "rolling" binoculars in the hunting industry. In such cases, it is worth proceeding from the following.

In adults of more or less standard physique, the interpupillary distance is in the range from 60 to 66 mm. Modern binoculars cover this range with a margin — even the most modest models support values from 60 to 70 mm, and in most cases the lower limit of the range lies in the region of 54 – 57 mm, and the upper one — 72 – 75 mm. This is quite enough for most adults, including those with a non-standard physique — miniature, or vice versa, large. So a wider range may come in handy only in special cases. For example, if a child will use binoculars, it is desirable that the lower adjustment limit be lower than the standard 50 – 55 mm (in some models, this limit is at the level of 38 mm, or even 34 mm).

Nitrogen filled

The presence of a special gas in the body of binoculars / monoculars — usually nitrogen or argon. Due to its chemical inertness, such a gas does not oxidize internal parts (unlike the oxygen contained in the air). In addition, this function assumes the tightness of the case, which allows most of these binoculars to endure even diving under water (for more details, see "Dust and water protection"), and also protects the optics from the harmful effects of fog. All this has a positive effect on the reliability and service life of the device. In turn, the gas filler itself contains practically no water vapor — thanks to this, the lenses do not fog up from the inside, as happens with conventional models during temperature changes.

Dustproof, water resistant

The body of the binocular / monocular is protected from dust and moisture. You should pay attention to such models if you plan to use the device in nature — while hiking, hunting, fishing, etc. The degree of such protection can vary, from splash resistance to water immersion; this point should be clarified according to the official characteristics. Also note here that most of the "waterfowl" models usually have gas filling (see above), and the absence of such filling, usually, indicates low moisture resistance.
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