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Zeiss Z-Point (Sauer 303)

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Zeiss Z-Point (Sauer 303) Details

Zeiss Z-Point (Sauer 303)
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Zeiss Z-Point (Sauer 303) Specifications

Dot Sight TypeSmall tube sight
Variable magnification

Variable magnification

Optical products with variable magnification are more versatile as they're designed with a wider range of magnification and larger viewing angle. For example, an 8x56 rifle scope has a fixed magnification of 8x and a fixed field of view of 5 meters at 100 meters. For comparison, a rifle scope with variable magnification 3-12x56 has a more versatile magnification range for observing the whole surroundings due to the big field of view (at 3 times magnification) and in the same time a detailed evaluation of the observed object (at 12 times magnification).

With their high number of lenses in housing, optics with variable magnification are larger, heavier and have a lower permeability of light. Variable magnification is rarely present in binoculars, but it's mostly used in rifle scopes and spotting scopes. Advantages of the variable magnification regarding usability with rifle scopes and spotting scopes outweigh disadvantages – in short, one fits all. High-quality variable binoculars are very rare.

Maximal magnification1x
Lens diameter

Lens diameter


Lens diameter represents the second value in product’s name/designation. For example, 10x42 optics have 42 mm diameter of the lens at the front (those that are closer to the viewing object). It is known that the bigger the lens, the more light goes through and the image we see is brighter. All of this, however, depends on the magnification and quality of a certain optical product. Although the bigger lens diameter in binoculars is better, the size adds up on the weight, making it more heavy and difficult to handle. With riflescopes, bigger size of a lens diameter also means more problems with mounting.

The most common lens diameters are 24 mm, 42 mm, 50 mm and 56 mm.

Lens diameter

Source: ZEISS

21 mm
Field of view

Field of view


Field of view is an area you see when looking through the optical product. Although it primarily depends on the build of the eyepiece, it is hugely affected by magnification. If you look through two binoculars of the same model but with different magnification, you can see that the one with lower magnification factor will have a wider field of view. So when comparing binoculars, you must compare the ones with the same magnification. With riflescopes the field of view is being measured at 100 m, while with binoculars, spotting scopes and other optical products it's measured at 1000 m.

With binoculars a field of view with more than 140 m at 1000 m distance is considered a wide angle, while with riflescopes it is with a field of view over 38 m at 100 m. Wide angle is particularly useful in bird-watching.

It is also important to mention that the size and lens diameter of optical products are not indicators of their field of view - bigger housing doesn’t automatically mean wider field of view.

Field of view can be expressed in two values – degrees or meters.


One degree is 17.5 m at 1000 m / 1.75 m at 100 m.

If you divide the field of view given in meters by 17.5 you get the field of view in degrees.


If you multiply degrees with 17.5 you get the field of view at 1000m.

Field of view meters

Source: Lovec

Twilight Factor

Twilight Factor


In the past, twilight factor was an important value in determining the brightness of the optics. The manufacturers were using the same kind of technology and materials of the lenses therefore the optics were comparable. Nowadays, they use different types of lenses and modern coatings so the twilight factor has lost its meaning, because the brightness of the optics depends more on the quality of the coatings than on the twilight factor.

Twilight factor is calculated by the square root of multiplying magnification and lens diameter.

Twilight factor of 8x42 binoculars is a square root of 336, meaning 18.33. All the binoculars with this kind of magnification and lens diameter have the same twilight factor, but not the same brightness. If you look through an old pair of binoculars made in 1950s and a new pair with the same magnification and lens diameter you could see the difference in brightness even though they share the same twilight factor. The new pair is significantly brighter due to better lens materials and coatings.

Though manufacturers still specify the twilight factor, we recommend you to ignore it as it’s not important.

Relative Brightness

Relative Brightness


Relative brightness is a calculation of how bright the image should be when viewed through binoculars. It is presented as a square value of the exit pupil. 10x50 binoculars have an exit pupil value of 5.0 (dividing lens diameter with magnification). Square of 5.0 gives us a value of relative brightness which is 25.0. As the relative brightness value increases, we have a brighter image. On the opposite the lower the value, the darker the image.

In the past, relative brightness was an important value in determining the brightness of the optics. The manufacturers were using the same kind of technology and materials of the lenses, therefore, the optics were comparable. Nowadays, they use different types of lenses and modern coatings so the relative brightness has lost its meaning because the brightness of the optics depends more on the quality of the coatings than on the relative brightness.

Light transmission

Light transmission


Light transmission specifies an amount of light that is let through the build of optical product. Every crossing through each lens means a certain loss of light (0.1% with best coatings, up to 5% without coatings). Higher light transmission rate is very important when using optics at dawn or twilight. Good optics normally have light transmission up to 90%, whereas top-notch ones have even 95% and more light let through.

Although the quantity of light reaching the eye depends on the size of an exit pupil, light transmission determines transparency of the lenses, whether the image is dark and cloudy or bright and clear.

Light transmission can be increased with applying different coatings on the glass surfaces. However, it depends on the coating type and number of layers. Multi-layered coatings mean higher light transmission.

Light transmission

Uncoated glass reflects about 5% of the light (entry-level price range), single coating reduces the reflectivity to approx. 1.5% (middle price range), multi coating reduces the reflectivity to approx. 0.1 to 0.2 % (premium price range)
Source: ZEISS

Lens coating

Lens coating

Optical products have many lenses in their housing. With each lens about 5% of the light passing through is lost. This can be solved with an application of coatings on the glass surfaces. With years the technology of coatings changed. At first they used only one layer, where the reduction of the loss was to 2% per surface. Today they use multiple layers of coatings where there’s minimal loss of light - 0.1% per surface. The best binoculars have even 95% of the light transmitted to the eye, through all their lenses.

With increasing transmission of the light, the coating is also important as a protectant of the optical glass and to ensure the true color fidelity, so the colors when entering are the same when exiting binoculars/riflescope. Above all, coatings also increase the image quality because all the light bouncing around on the inside can cover up detail and blur colors.

Lens Coating

Source: ZEISS

The process of applying coatings has to be precise, otherwise it can contribute to hazy and blurred image. They must be spread evenly and thinly to ensure the best quality. The better the coatings, the more expensive the optical product.

Lens coatings are as important as the quality of the lenses themselves. You can easily check whether your optical product has coatings – if you look at the reflection and it shows multiple colors such as purple, green or yellow the lenses are definitely coated. On the opposite, lenses with no coatings have a clear reflection without showing any colors.

There are many different ways of applying lens coatings:

  • Coated: where one or more glass surfaces are coated with one thin anti-reflective layer.

  • Fully coated: where all glass surfaces are coated in one thin anti-reflective layer.

  • Multicoated: where one or more glass surfaces are coated in multiple layers. Light transmission is more than 75%.

  • Fully multicoated: where all glass surfaces are coated in multiple layers. Light transmission is more than 85%.

  • Outer surface coating: coating on the outer glass surface which protects the lens from external dew (especially in the winter), partially from dirt and other impurities. They can have different names, depending on the manufacturer (LotuTec, Swarodur, AquaDura)

LocuTec coating

Source: ZEISS

Fully Multicoated
Dot size3.5 MOA
Adjustment per click

Adjustment per click

Adjustment per click is, how many centimeters/millimeters will move on the target at 100 m when you make one click on the turrets for elevation or a point of impact windage on the rifle scope. Clicks are usually specified in MRAD (1 mrad is 10 cm / 100 m) or MOA (1 MOA is 2.9 cm / 100 m). Some manufacturers designate MRADs with acronym MIL.

Practically all newer rifle scopes have the possibility to adjust reticle left or right (windage) and up or down (elevation). This process is known as zeroing. The upper turret on the rifle scope is for elevation adjustment of the reticle and the side turret on the rifle scope is for windage adjustment of the reticle. Hunting rifle scopes have the mechanism of both turrets protected with caps that protect the turrets from water, damage or any other outside impacts. Turrets are in other words rotatable buttons which you can spin left or right.

Every single movement made with the turret produces a »click« sound. Usually, 1 click on European rifle scopes moves hit on a target for 1 cm at 100 m range (0.1 MRAD / MIL). On American, Japanese and Chinese scopes 1 click moves the hit on the target for ¼ MOA (minute of angle) which is 7 mm at 100 m range. On Benchrest rifle scopes, where corrections have to be very small, the clicks are either 1/8 MOA (3,5 mm / 100 m) or 0,05 MRAD (5 mm / 100 m).


1cm/100m - 0.1mrad


Elevation is how much up and down you can adjust reticle. For example, if you see in rifle scope specifications elevation is 3.5 m, this means that you can adjust reticle maximal 1.75 m up and maximal 1.75 m down for hits on your target at 100 m. Elevation range is usually specified in MRAD (1 mrad is 10 cm / 100 m) or MOA (1 MOA is 2.9 cm / 100 m). Some manufacturers designate MRADs with an acronym MIL.

Practically all newer rifle scopes have the possibility to adjust reticle left or right (windage) and up or down (elevation). This process is known as zeroing. Upper turret on rifle scope is for elevation adjustment of reticle and side turret on rifle scope is for windage adjustment of reticle. Hunter rifle scopes has the mechanism of both turrets protected with caps which protect turret from water, damage or any other outside impacts. Turrets are easily said a rotatable buttons which you can spin in left or right way.

Every single movement made with the turret produces a »click« sound. Usually 1 click on European rifle scopes moves hit on target for 1 cm at 100 m range (0.1 MRAD / MIL). On American, Japanese and Chinese scopes 1 click moves the hit on the target for ¼ MOA (minute of angle) which is 7 mm at 100 m range.

For long range shooting elevation of at least 2.6 m / 100 m (26 MRAD or 89 MOA) is needed.

Elevation turret

Source: Revija Lovec


Reticle illumination

Reticle illumination

Reticle illumination is the possibility to illuminate the rifle scope reticle with light. Some rifle scopes use reticle with illumination possibilities. There are two main types of reticle illumination on the market:

- illuminated point in the middle of the reticle,

- illumination option to light up the whole reticle.

For hunting, the reticle with central light point (dot) is more recommended. Rifle scopes that use illumination of the whole reticle are more recommended for tactical and sports use. The power of illumination light can be either day strong or visible only in the lowest light situations (in dark). For the driven hunts, IPSC or tactical CQB daytime strong illumination is more usable. Illumination option only visible in low light conditions is better for hunting in low light conditions or even in the dark. Rifle scopes that use as many different intensity levels as possible are better because they offer more possibilities to find a perfect view of the reticle in different lighting conditions.

The most advanced rifle scopes use optical fibers built in the middle of the reticle as a light dot. In high quality rifle scopes, these illuminated dots are of the smallest size. For example, if the illumination is set to OFF, you don`t see this illuminated dot at all and when you turn the illumination ON, the light dot is visible. High quality rifle scopes enable the user to fine tune illumination intensity. This way the reticle is always illuminated just right in accordance with the ambient light condition. Very dim in low light and extremely bright in the daytime. Newer rifle scopes have built in automatic turn off electronics that turns off illumination of the reticle when you don’t use your rifle scope for some time the illumination of reticle goes automatically to OFF. Such scopes have built in motion sensor to determine when the scope is not in use. This preserves battery life.

Reticle illumination option provides you a better accuracy at night and in low light situations. With non-illuminated reticles, you could have problems in low light situations, when you can see the target but not the reticle. The type of illumination for low light usage only is mostly meant for raised hide hunting.

Daytime bright illumination is the best option for driven hunting, IPSC and tactical shooting.

reticle illumination

Source: Nikon


Day time usable illumination

Day time usable illumination

Daytime illumination of the rifle scope reticle serves a different purpose than twilight illumination, and in such rifle scopes, high intensity levels are a necessity. The illumination of the reticle is meant for rapid target acquisition, since a bright red dot is the best possible aiming point. Shooters’ eyes are instinctively drawn to a bright red dot in the center of the field of view. Such strong illumination is feasible only in rifle scopes with magnification lower than 1.5x or ideally 1.0x. Such wide-angle rifle scopes with a real 1.0x magnification and daytime bright illumination of the reticle can even be used with both eyes open, similar to reflex/red dot sights.

Rifle scopes with daytime illumination are the best choice for IPSC, CQB, tactical shooting and driven hunting in bright daylight.

Day time illumination

Source: Zeiss

Illumination colorRed
Parallax setting

Parallax setting

Parallax can be adjustable or fixed and parallax setting tells you if parallax is fixed, on which distance.

Adjustable parallax setting allows you to line up your reticle with your target objective in a proper plane, what brings you a proper focus, better sight image and better accuracy.

Easy explanation about parallax meaning. When your rifle with rifle scope is fixed on a bench and you are looking through the rifle scope. Your reticle is perfectly in line with the center of the target. Now you move your head around und you see also the reticle moves a little bit in relation to the target. This is parallax error. It happens when the target is not perfectly focused. When you adjust the parallax, so that the target is in perfect focus, then there is no parallax error. You can move your eye from the optical axis and the reticle will still stay in line with the center.

Traditionally, rifle scopes had a fixed parallax set at 100 meters or 100 yards; however, with the advance of shooting sports, such approach was not adequate anymore. Scopes with fixed parallax offered best resolution only at one distance (100 meters/yards) at which the target was in focus. At all other distances, the picture was less sharp or even blurry. An even bigger problem with this type of scope was the fact that, when shooting at the target not at the same distance as the scope parallax setting, the shooter had to be very careful about his eye alignment with the optical axis. If the eye is moved away from the optical axis, the reticle on the target will move, which will worsen the accuracy. Since these errors are small, the fixed parallax option is still considered accurate enough for traditional hunting. For sport shooting, though, such small error leads to poor results. Parallax errors become more pronounced with magnifications higher than 12x, and that means the majority of scopes with magnification range under this value need no parallax adjustment.

With the ability of parallax adjustment, accuracy of the riflescope is greatly enhanced at all distances. The shooter, however, has to adjust the parallax setting before making the first shot. Such scopes usually have AO – Adjustable Objective or SF – Side focus acronym in their name. 

parallax setting

Source: Revija Lovec


Diopter range

Diopter range in optics with one ocular (riflescopes, spotting scopes, NV optics, …)


Diopter range is an adjustment on optical products which can correct the prescription on each of your eyes. That way you can see a sharp image without wearing glasses. The diopter ring is normally located on the eyepiece and by turning it your image appears sharper.

Every optical product has different diopter range, from positive (+) to negative (-).

Diopter range in binoculars


The diopter ring is present in central focusing system on each of the barrels near the eyepiece, where you can correct the difference in the prescription of the left and right eye individually. Once you have set the right value, you can focus the image with using just the central focusing ring. If you’re wearing glasses, the diopter value should be set to 0, because the differences in your eyes are already corrected in your glasses.

To see a sharp image without wearing glasses you can easily set the diopter by looking with bare eye, turning the ring and adjusting sharpness. So when looking with both eyes your image should appear sharp. If you have astigmatism the diopter adjustment cannot correct it – you’ll still need your glasses and diopter set to 0 to see sharp images.

Diopter Range


Optics Trade debate about Diopter settings on binoculars


Fast focus eyepiece

Fast focus eyepiece

The eyepiece is that part of the rifle scope where you look in.

Fast focus eyepiece is a type of an eyepiece that enables fast diopter settings. With fast focus eyepiece you can adjust with rotation of the diopter setting to suite your eyes, reticle and even the target (image) at the same time.

All the newer rifle scopes have fast a focus eyepiece. There are not many rifle scopes without a fast focus eyepiece nowadays.

Older rifle scopes without fast focus had their whole eyepiece rotatable and a counter locking nut.

fast focus eyepiece

Source: oculus




The waterproof feature is made to keep the optical products sealed and protected from water or dust. Such products are suitable for marine, hunting, hiking or in extreme humidity. Even if you’re not planning on using them in this kind of situations, it is a good feature to have in case of heavy rain or dust. Waterproof optical products are typically sealed with O-rings.

All optical products that are fogproof are also waterproof because they have to be properly sealed to keep the dry gas inside. Yet not all waterproof products are also fogproof as the air inside the product is not necessarily replaced with dry nitrogen or argon.

You should be careful not to confuse waterproof with weather-resistant as they’re designed to protect only against light rain and are not fully sealed.

Slightly better waterproofing of binoculars can also be ensured with an individual eye focusing mechanism, due to less moving parts than with the central focusing system.



Fogging in optical products can occur when you move them from the warm insides of your house to the cold outdoors. To prevent the formation of inside fogging they’re often filled with dry gas – either nitrogen or argon which contain no moisture.

To keep the gas intact on the inside, the optics have to be properly sealed, which is why all fogproof optical products are also waterproof.

It’s important to keep in mind that fogproof means that it’s to prevent fogging on the inside of the optics, not on the outside. If your outside surface of the lenses fogs up due to temperature differences or humidity just allow them to adjust back – do not wipe the condensation off as it can be damaging to the glass surface and its coatings.


Temperature rangeNo
Filled with

Filled with


Optical products are often filled with dry gas to prevent the condensation on the inside of the housing when exposing them to temperature extremes. If there is even a slight sign of air inside, there is a certain % of moisture present. Usually they’re filled with either argon or nitrogen gas, which have the same effect – to prevent the moisture and internal fogging without affecting the optical properties. In addition, these gases also prevent the formation of fungus which would destroy the optics. Internal dewing was the biggest problem in older binoculars when exposed to lower temperatures, because they weren’t watertight and contained air. Newer binoculars are therefore all airtight and filled with dry nitrogen or argon.


Length64 mm
Tube diameter

Tube diameter

Tube diameter is that diameter on the rifle scope, where mounts are clamped on (see the picture below).
This parameter is an important information when buying proper mounting rings for your rifle scope. Most common mounts have a diameter of 1 inch, 30 mm and 34 mm, but in the last years, manufacturers started to produce rifle scopes with a tube diameter of 35 mm, 36 mm and even 40 mm to increase windage and elevation travel range.
Lower price ranking and older rifle scopes have a 1 inch (25.4 mm) main tube.
Common for hunting rifle scopes is a tube diameter of 30 mm, which is very tough for hunting use and for rifle scopes with a BDC turret the scope has enough elevation and windage travel range.

Most tactical and some sport rifle scopes have the tube diameter of 34 mm, because of a thicker wall (of the tube) for a more reliable use in a harsh environment or an extended elevation range against 30 mm main tube rifle scopes.
Some of the new rifle scopes (for example Zeiss victory V8) have an unusual 36 mm tube diameter, also some IOR or the new Swarovski DS rifle scope stands out with a 40 mm tube diameter. European hunting rifle scopes have often rails, where mounts clamp on these rails and not around the tube. This ensures a tension free mounting, without any marks on the rifle scope itself.

tube diameter

Objective diameter

Objective diameter

Objective diameter is outside (housing) diameter of front side (objective) on rifle scope.

On most rifle scopes objective diameter is bigger than tube diameter. Keep in mind, the last number in the description of rifle scope tells you the size of the objective lens diameter (example: 2 – 7 x 32). Objective diameter is always bigger then lens diameter.

Objective diameter is important to know, when buying ring mounts. The bigger the objective diameter the higher mount you will need.

This information is also important for all users of clip-on devices.

objective diameter

Source: Revija Lovec

Eyepiece diameter

Eyepiece diameter

Eyepiece (or ocular) diameter is outside (housing) diameter of rear side on rifle scope.

Maybe someone is thinking “ouh, so the bigger the eyepiece diameter the bigger image you get and you don’t need to look exactly in the middle to get a perfect picture…” Well, this is not correct. Eyepiece diameter can have different sizes - quality of the inner eyepiece parts and quality of rifle scope in general tells you how big the image will be and how far you can look from the middle point of eyepiece lens and you still get a perfect or good image.

eyepiece diameter 1

Source: Revija Lovec

Mount length

Mount length

Mount length is a length of rifle scope tube where ring mounts can be clamped on (see the picture below).

Mount lengths of the tube on rifle scopes are different due to the length of objective and ocular length and sizes. Wide angle type rifle scopes have longer mount length, due to the front side of the rifle scope has a tube till the end.

mounth length

Source: Optics Trade


Mount rail

Mount rail

Telescopic sights with a mounting rail under their main tube are almost always made by European producers and meant for hunting. Rail mounting brings these advantages:

- Less tensions on the scope

- More reliable mounting

- Mounting without marks on the scope

Mounting of such scopes with modern rail systems is easy and can be done by less experienced gunsmiths or even by the users. Selection of mounts is limited to premium European manufacturers, and such mounts are usually more expensive than ring alternatives.

Most common mount rail systems are:

- LM rail: a traditional prism rail under the scope. This standard was used in the past by all major European manufacturers and is commonly found on old hunting scopes. It is still used in limited production by S&B, Docter, and Kaps on their Classic lines of scopes. Mounting of scopes with LM rail is the most demanding of all rail systems since is demands drilling through the rail. Mounts made for LM rail have screws that go through the rail’s cross section.

- Zeiss ZM/VM rail: a modern standard used by the biggest number of producers. The companies that use it also call this rail standard: 45° rail, Zeiss M rail, Docter Z rail, Meopta MR rail, Minox is rail, Leica rail, or S&B LMZ. There is no drilling needed when mounting such scopes and usually 2 or 3 internal elements are inserted into the rail.

- Swarovski SR rail: the main feature of this rail system are small ribs (recoil stoppers) that prevent movements of the scope during recoil. The system is used on Swarovski and Kahles scopes, and 2 or 3 inserts in the rail are needed when mounting. All high-quality mounts made for SR rail have only one point, where small ribs are fixed, usually on the front mounting element.

- S&B Convex rail: this rail system is used exclusively by Schmidt & Bender on their hunting lines of riflescopes. The basic principle of internal parts of the rail and outer parts is the same as with Zeiss ZM/VM rail standard; however, the shape of rail is convective and not made of straight lines.

Mount rail

Source: Swarovski

Mount typeSauer
Power SupplyNo

Auto –TurnOff

Some of the red dots and rifle scopes with reticle illumination have Auto – TurnOff function. This means, in case that you forget to turn off illumination or when you leave your firearms on table (you don’t do any movements with rifle scope), illumination automatically turns off. The time when illumination turns off is different from rifle scopes to rifles scopes.

Many of the expensive and high quality rifle scopes with illuminated reticle have an Auto-TurnOff smart motion sensor that detects different angles and automatically turns OFF or even ON the illumination of the reticle, based on the rifle scope position.

This is a nice feature to have, because this increases the battery life. 

auto turn-off

Source: Swarovski

Weight160 g
In production since
Warranty10 years
Made inGermany
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