Wot coated optics or stereo tube. Mesh, box, pipe and that's it

Every World of Tanks player must remember that the strengths of a tank can and should be strengthened. Weak sides, accordingly, needs to be eradicated. It is possible to achieve technical balance in a vehicle with the help of the crew (its skills and abilities), equipment and gear..

The reserve pocket does not fit

After purchasing the first tanks of levels 2-3, purchase equipment. At least it's removable. It includes: a camouflage net, a stereo tube and a toolbox. They are transferred from equipment to equipment without the need for dismantling, paid for in gold. Therefore, you should not purchase a dozen camouflage nets or stereo pipes. A couple of copies are enough.

Camouflage network(MS) reduces the visibility of a stationary vehicle. The action is activated 3 seconds after stopping. MS adds: 15% stealth for anti-tank self-propelled guns; 10% for light tanks (LT) and medium tanks; 5% for artillery and heavy tanks. The MS is useful for covert and positional combat, inherent in tank destroyers, as well as passive reconnaissance of armored vehicles. The mass of the MS is 100 kg, and the price is 100,000 credits.

Stereoscopic telescope adds 25% to the view from a stationary vehicle (no more than 445 meters). It allows you to detect the enemy before he detects you. Having the first shot is an important advantage in the game. The stereo tube, like the MC, is suitable for playing tank destroyers or tank destroyers. It is also good because it eliminates the shortcoming of many tanks - a low viewing radius. It's a pity, the properties of this useful item are not combined with coated optics. The mass of the stereo tube is 50 kg, the price is 500,000 credits.

Toolbox increases damage repair speed by 25%. Often it is installed while the crew’s repair skills are being upgraded, and then removed. The weight of the box is considerable - 100 kg, and the cost is even more so - 500,000.

Complex equipment

It can be removed from the vehicle only for 10 units of game gold or after destruction. For this reason, experienced tankers keep a handful of gold in reserve. In the name of economy, carefully consider the need for a particular module on your favorite tank. It's not rubber.

Springs are divided into many types as listed in the Wot Wiki. Their main tasks are to increase the load-carrying capacity of the chassis and mitigate damage when falling, so springs are useful in two cases. Firstly, they allow you to install a (heavier) cannon or turret if you lack the experience to research the chassis. Secondly, they insure a light and fast tank from severe damage when falling from hills and elevations. The cost of springs varies from 20,000 to 600,000 credits. Not to say that this is the most useful equipment in World of Tanks, but sometimes it makes sense to install them on a temporary basis.

Anti-fragmentation lining- another type of equipment that is not particularly popular. It increases the tank's protection against high-explosive artillery shells and reduces the risk of concussion of crew members by 20/25/30/50%, depending on the type of lining. The cost ranges from 50,000 to 750,000. It is reasonable to buy such a thing only for massive vehicles that often suffer from intense artillery fire. However, save space for more useful accessories.

Improved ventilation(Class 1-3) adds 5% to all crew skills. An excellent choice for those who want to gain an advantage in battle. The equipment is not available only for machines with an open cabin. The cost varies from 50,000 to 600,000 credits, and the weight is 100/150/200 kilograms. Improved ventilation should be installed on any tank, regardless of play style. For what? Because reloading is faster, visibility is better, and movements are more maneuverable. In combination with the Battle Brotherhood skill, commander bonus and premium equipment, you can increase the standard characteristics of the vehicle by 32%.

Wet ammunition rack adds 50% strength to... ammo rack. It's simple. This is not the most necessary equipment in the game, but in isolated cases it can help.

Rammer There are howitzer and gun, being divided into medium and large calibers. It reduces the gun reload time by 10%. It’s a pity that drum-loading tanks won’t have a useful device. Exceptions are: 59-16, Type 5 Chi-Ri and Spahpanzer SP I C. And because these vehicles have an alternative gun with a standard reload. The cost of the rammer varies from 200,000 to 600,000 credits and you shouldn’t skimp on them. Faster reloading - more shots - higher amount of damage - greater contribution to victory.

Additional lugs in most cases a waste of 250,000 credits. One of the most useless and rarely used types of equipment. Increases cross-country ability on soft and medium soils, but has strict restrictions on types of equipment. Grousers are installed on only 12 vehicles, and then mostly German ones. Use the Off-Road King driver skill instead.

Filling CO2 tanks adds 50% strength to tanks, also reducing the risk of fire. Becomes available from vehicle level VI. The equipment shares “honorable” place due to its uselessness with lugs and the “Cyclone” filter. It is useful for those whose tank burns in every battle like a witch at the stake of the Inquisition. The rest are recommended to use the “Cleanliness and Order” skill.

Coated optics- a very useful item that adds 10% to the viewing radius and works in motion, unlike a stereo tube. It is possible to install optics on any tank. Blind cars need it for obvious reasons. “Zorkim” will elevate the ability to detect the enemy to the absolute level. Typically, optics are installed on medium and light tanks, whose task is to search for the enemy. It costs 500,000 credits.

Vertical stabilizer installed on light, medium and heavy tanks of Tier VIII-X, as well as some vehicles of a lower rank. The module reduces the dispersion of the gun when moving and turning the turret, i.e. Increases accuracy on the move. It costs from 500,000 to 600,000 credits. Its purchase is strictly recommended for fans of Soviet and American ST or TT.

Reinforced aiming drives- a necessary thing for any tanker. Unfortunately, most guns are slow to engage, and drives reduce this disadvantage by 10%. For some cars, this equipment turns from a panacea into a dope, increasing the already rapid reduction to indecent speeds. It’s not worth half a kingdom, but it’s definitely worth half a million.

Filter "Cyclone" increases engine strength by 50% with a limitation on Soviet tanks and is infinitely far from the “Best Seller” status. So he’s not worth his 500,000 credits.

Summing up and distributing advice

Not all equipment is equally useful or effective. The most important thing for the player is to choose the ideal kit for a specific car, revealing its full potential. Let’s take, for example, an “American” of level X without obvious disadvantages - T110E5. Good stabilization of the gun is complemented by a vertical stabilizer. Fast reloading is accelerated by the gun rammer. Crew skills increase after installing improved ventilation. As a result, the T110E5 becomes even more accurate, faster and more dangerous for the enemy. The Soviet Tier VIII heavyweight IS-3, on the contrary, has disadvantages. However, the slow aiming of the gun is offset by aiming drives, poor shooting on the move by a stabilizer, and slow reloading by a large-caliber rammer.

Final advice: don't waste great amount credits for the purchase of modules, and try to wait for holiday promotions from Wargaming. Discounts on equipment will allow you to replenish your own warehouse, saving significantly on purchases.

A coated lens requires careful handling, since the films applied to the surface of the lenses are easily damaged. In addition, the thinnest films of contaminants (grease, oil) on the surface of the antireflective coating disrupt its operation and sharply increase the reflection of light from the contaminated surface. It should be remembered that fingerprints over time destroy not only the coating, but also the surface of the glass itself. According to the application method and composition of the antireflective coating, antireflection can be physical (spraying) or chemical (etching).

Single layer coating

The thickness of the antireflection layer (for example, silicic acid) is equal to 1/4 of the light wavelength. In this case, the rays reflected from its outer and inner sides will be extinguished due to interference and their intensity will become zero. For the best effect, the refractive index of the antireflective film should be equal to the square root of the refractive index of the optical glass of the lens. The most suitable material for antireflection film is barium fluoride, which has a very low (n=1.38) refractive index. However, barium fluoride is soluble in water and requires a protective coating.

The reflectivity of glass coated in this way strongly depends on the wavelength, which is the main disadvantage of single-layer coating. The minimum reflectivity corresponds to the wavelength λ = 4d n, where d is the thickness of the film, n is its refractive index. In the first coated lenses, they achieved a decrease in the reflectivity for rays of the green part of the spectrum (555 nm is the region of greatest sensitivity of the human eye), therefore, reflection, the glass of such lenses had a blue-violet or bluish-green color (“blue optics”). On the contrary, the transmission of light by such a lens is maximum at this wavelength, which led to noticeable coloration of the image.

Currently, single-layer coating is often used for laser optics designed to operate in a narrow spectral range. By using glasses with a relatively high refractive index and sputtering a film of barium fluoride, it is possible to achieve a minimum reflectivity of about 1%. The main advantage of such enlightenment is its low cost.

Multilayer coating

Multi-coated lens

A multilayer antireflective coating is a sequence of alternating layers (their number reaches 15 or more) of two (or more) materials with different refractive indices. Multilayer antireflective coatings are characterized by low reflection losses (narrowband coatings for laser optics with a reflectivity of about 0.3% or less, broadband coatings - up to 0.5%). The main advantage of multilayer coating in relation to photographic and observational optics is the insignificant dependence of reflectivity on wavelength within the visible spectrum (on the graph of reflectivity versus wavelength, two or more minima are observed, separated by small maxima, and outside the working band there is a strong increase in reflectivity ), which significantly reduces color distortion. Reflections from the surface of lenses with multi-layer coating, depending on the quality, have various shades of green and violet, up to very weak gray-greenish for lenses recent years release. Optics with multilayer coating were previously marked with the letters MS (for example, MS Mir-47M 2.5/20). Nowadays, the special designation for multi-coating is rare, as its use has become standard. Sometimes there are “branded” designations for its special varieties: SMC (Pentax), Super Integrated Coating, Nano (Nikon) and others. The composition of a multilayer antireflective coating, in addition to the antireflection layers themselves, usually includes auxiliary layers - improving adhesion to glass, protective, hydrophobic, etc.

Infrared optics

Some optical materials used in the infrared range have a very high refractive index. For example, germanium has a refractive index close to 4.1. Such materials require mandatory clarification.

Textured coatings

Reflection can be reduced by texturing the surface, that is, creating an array of cone-shaped diffusers or two-dimensional grooves on it. This method was first discovered when studying the structure of the eyes of some species of moths. The outer surface of the cornea of ​​the eye of such moths, which plays the role of a lens, is covered with a network of cone-shaped pimples called corneal nipples, usually no more than 300 nm in height and approximately the same distance between them. Since the wavelength of visible light is larger than the size of the pimples, their optical properties can be described using the effective medium approximation. According to this approximation, light propagates through them in the same way as if it propagated through a medium with a continuously varying effective dielectric constant. This in turn leads to a decrease in reflectivity, which allows the moths to see well in the dark and also remain undetected by predators due to the decrease in reflectivity from the eyes.

A textured surface also has anti-reflective properties in the short-wave limit, at wavelengths much shorter than the characteristic size of the texture. This is due to the fact that rays initially reflected from a textured surface still have a chance to penetrate the medium during subsequent re-reflections. In this case, surface texturing creates conditions under which the transmitted beam can deviate from the normal, which leads to the effect of entangling transmitted light (English - light trapping), used, for example, in solar cells.

In the long-wavelength limit (wavelengths greater than the texture size), the effective medium approximation can be used to calculate reflection. In the short wavelength limit (wavelengths smaller than the texture size), the ray tracing method can be used to calculate reflection. In the case where the wavelength is comparable to the texture size, reflection can only be calculated by numerically solving Maxwell's equations. The anti-reflection properties of textured coatings have been well studied in the literature over a wide range of wavelengths. .

see also

Sources

Literature

Yashtold-Govorko V. A. Photography and processing. Photography, formulas, terms, recipes. Ed. 4th, abbr. M., “Iskusstvo”, 1977.

Wikimedia Foundation. 2010.

See what “Optics enlightenment” is in other dictionaries:

Reducing the reflection coefficients of optical surfaces. parts by applying non-absorbing films on them, the thickness of which is commensurate with the optical wavelength. radiation. Without anti-reflective films, even at normal conditions. incidence of rays, reflection losses... ... Physical encyclopedia

An increase in the transparency of optical parts and a decrease in reflection from their surfaces when covering them with thin films (due to interference phenomena). Used to reduce light loss in optical systems (for example, in complex... ... Big encyclopedic Dictionary

OPTICS CLEARING- special treatment of each glass surface of a complex optical system (lenses, objectives, etc.) in order to increase their light transmission and eliminate the undesirable phenomenon of multiple reflection of light from refractive surfaces and ... Big Polytechnic Encyclopedia

Reducing the reflection coefficients of the surfaces of optical parts by applying one or more non-absorbing films to them. Without such (anti-reflective) films, losses due to light reflection can be significant; so in visible... ... Great Soviet Encyclopedia

Optics coating- - reducing the reflection coefficients of the surfaces of optical parts by applying one or more non-absorbing films to them. Without such (anti-reflective) films, light reflection losses can be significant; so in the visible region... ... Encyclopedic Dictionary of Media

Increasing the transparency of optical parts by reducing reflection from their surfaces by covering them with thin films (due to interference phenomena). Used to reduce light loss in optical systems (for example... ... encyclopedic Dictionary

Increased optical transparency parts by reducing reflection from their surfaces by covering them with thin films (due to interference phenomena). Used to reduce light loss in optical applications. systems (for example, in complex... ... Natural science. encyclopedic Dictionary

Alexander Alekseevich Lebedev Alexander Alekseevich Lebedev. 1930s Date ... Wikipedia

Binocular diagram 1 Lens 2 3 Porro prisms 4 Eyepiece Binoculars are an optical device consisting of two parallel telescopes connected together ... Wikipedia

A branch of optics that studies the passage of light through one or successively through several layers of a weakly absorbing substance, the thickness of which is commensurate with the light wavelength λ. The most important application of thin-layer optics is the reduction... ... encyclopedic Dictionary

Coating of optics is the application of the thinnest film or several films one on top of the other to the surface of lenses bordering on air. This is necessary to increase the light transmission of the optical system. The refractive index of such films is less than the refractive index of lens glass.

Antireflection films reduce light scattering and reflection of incident light from the surface of the optical element, accordingly improving the light transmission of the system and the contrast of the optical image. A coated lens requires careful handling, since the films applied to the surface of the lenses are easily damaged. In addition, the thinnest films of contaminants (grease, oil) on the surface of the antireflective coating disrupt its operation and sharply increase the reflection of light from the contaminated surface. It should be remembered that fingerprints over time destroy not only the coating, but also the surface of the glass itself. According to the application method and composition of the antireflective coating, antireflection can be physical (spraying) or chemical (etching).

Single layer coating

(Interference in quarter-wave anti-glare coating)

The thickness of the antireflective layer (for example, silicic acid) equals 1/4 light wavelength. In this case, the rays reflected from its outer and inner sides, will be extinguished due to interference and their intensity will become zero. For best effect refractive index of the antireflective film should be equal to the square root of the refractive index of the optical glass of the lens. The most suitable material for antireflective film is barium fluoride, with very low (n=1.38) refractive index. However, barium fluoride is soluble in water and requires a protective coating.

The reflectivity of glass coated in this way strongly depends on the wavelength, which is the main disadvantage of single-layer coating. The minimum reflectivity corresponds to the wavelength λ = 4d n, where d is the thickness of the film, n is its refractive index. In the first coated lenses, they achieved a decrease in the reflectance coefficient for rays of the green part of the spectrum (555 nm- the area of ​​greatest sensitivity of the human eye), therefore, in reflection, the glass of such lenses had a blue-violet or bluish-green color (“blue optics”). On the contrary, the transmission of light by such a lens is maximum at this wavelength, which led to noticeable coloration of the image.

Currently, single-layer coating is often used for laser optics designed to operate in a narrow spectral range. By using glasses with a relatively high refractive index and sputtering a film of barium fluoride, it is possible to achieve a minimum reflectivity of about 1%. The main advantage of such enlightenment is its low cost.

Multilayer coating

(Multi-coated lens)

A multilayer antireflective coating is a sequence of alternating layers (their number reaches 15 or more) of two (or more) materials with different refractive indices. Multilayer antireflective coatings are characterized by low reflection losses (narrowband coatings for laser optics with a reflectivity of about 0.3% or less, broadband coatings - up to 0.5%). The main advantage of multilayer coating in relation to photographic and observational optics is the insignificant dependence of reflectivity on wavelength within the visible spectrum (on the graph of reflectivity versus wavelength, two or more minima are observed, separated by small maxima, and outside the working band there is a strong increase in reflectivity ), which significantly reduces color distortion. Reflections from the surface of lenses with multilayer coating, depending on the quality, have various shades of green and violet, up to very weak gray-greenish in lenses of recent years of production. Optics with multilayer coating were previously marked with the letters MC (for example, MS Mir-47M 2.5/20). Nowadays, the special designation for multi-coating is rare, as its use has become standard. Sometimes there are “branded” designations for its special varieties: SMC (Pentax), Super Integrated Coating, Nano (Nikon) and others. The composition of a multilayer antireflective coating, in addition to the antireflection layers themselves, usually includes auxiliary layers - improving adhesion to glass, protective, hydrophobic, etc.

Equipment- an important element of gameplay World of Tanks, which is needed to enhance the advantages and combat the disadvantages of individual tanks. The equipment can be combined in the most different ways, in order to end up with a build that is ideally suited to your play style and, accordingly, increase your combat effectiveness.

Let's look at each type of equipment separately, and then look at the most popular and effective builds.

(Note: since it is impossible to find out what equipment is installed on it in the game client before purchasing any tank, I recommend usingthis site . Select the tank you need, and in the window that opens, click the “Modules” button. Another option is to look at the compatible equipment on the tank page in "tank wiki ».)

Removable equipment

Due to the fact that you don’t have to spend gold to remove equipment from this category, it is often used by beginners. It is usually placed on a tank if the player has not yet really decided on the tactics of the game.

Toolbox

Effect: +25% to the repair speed of tank modules (from base)

A good choice for players who have not upgraded the “Repair” skill (which gives a 100% increase in repair speed), or have not accumulated silver/gold to purchase/remove expensive complex equipment. As silver accumulates, it becomes irrelevant for more serious modules. When used simultaneously with a skill being upgraded, the effects stack.

Camouflage network

Effect: -25% to the visibility of a stationary tank

Previously, it was effective on vehicles with a low silhouette (StuG III, JagdPanzer IV) and practically useless on armored sheds (SU-14, Object 212, SU-100Y, Maus), but in update 0.8.6 the effect will change from multiplying to folding. This means that the mesh will have a noticeable effect on all machines. Begins to take effect 3 seconds after the tank has come to a complete stop; it is active when the turret rotates, but not when the body turns. Also during battle, a special indicator appears showing the network status.

Network is inactive

Network active

Stereoscopic telescope

Effect: +25% to the viewing radius from a stationary tank, but not more than 500 meters*

It is most often used on low- and medium-level low-blind vehicles; it is also quite widely used on tank destroyers. The mechanics of action are similar to the mask net: it is activated three seconds after the tank has completely stopped, and continues to work when the turret rotates.

Stereo tube is inactive

Stereo tube active

*In fact, the maximum viewing range in the game is 445 meters along the coordinate axes of the map, and 500 only diagonally. This is due to engine limitations. In the event that, when using a stereo scope, optics and corresponding skills, the viewing radius exceeds 445-500 meters, the excess goes to neutralize the camouflage of enemies.

Complex equipment

Equipment from this category without its destruction can only be removed for 10 gold or sold along with the tank.

Rammer

Effect: -10% to charging time

Perhaps the most useful equipment in the game. The faster we shoot, the faster we destroy the enemy, preventing him from causing us a lot of damage. There are several types of rammers:

• medium-caliber gun rammer - installed on all light and medium tanks, heavy tanks up to level 6 inclusive and tank destroyers up to level 6-7 inclusive
• large-caliber gun rammer - all heavy tanks from level 7, tank destroyers from level 7-8
• medium-caliber howitzer rammer - all self-propelled guns with top guns caliber up to 155 millimeters
• large-caliber howitzer rammer - all self-propelled guns with top guns with a caliber of over 203 millimeters

The rammer is not installed on tanks above level 6 with a drum loading mechanism (except for the Chinese LT 59-16).

Reinforced aiming drives

Effect: +10% to convergence speed

Second most useful equipment. Reduces aiming time. It performs best on vehicles that take a long time to aim, such as Soviet, Chinese and German tanks, as well as on all self-propelled guns without exception. It is recommended to install a vertical stabilizer on all other tanks (more on that below).

Vertical stabilizer

Effect: -20% to dispersion when moving and turning the turret

Reduces the sight circle by 20% when moving and turning the turret. Installed on heavy and medium tanks of tier 8-10, as well as on Type 62, M24 Chaffee, T21, M4A3E2 Sherman Jumbo, M4A3E8 Sherman, T20, T71, T29. Recommended for installation on all of the above tanks, except in cases where you are going to play the role of passive light (on the M24 Chaffee) or anti-tank gun - in short, do not move much. More details about the influence of the stabilizer and drives on the sight and the speed of its aiming are shown in this video.

Improved ventilation

Effect: +5% to all skills of the entire crew

All performance characteristics of the tank for which the crew is responsible are improved (rate of fire, aiming speed, accuracy, visibility, acceleration from a standstill, turret and tank traverse speed, communication range), as well as all crew skills (repair, camouflage, etc.). However, this is a rather controversial type of equipment. And all because 5% to the crew’s skills, when converted to the performance characteristics of the tank, turns into 2.5 percent. Is it a lot or a little - decide for yourself. However, it makes sense to install ventilation on tanks with loading drums (due to the lack of a rammer), as well as on Soviet self-propelled guns SU-14 and Object 212.

Coated optics

Effect: +10% to viewing radius

It gives a smaller increase in visibility than a stereo tube, but it works on a moving tank. When using optics and a pipe together, the bonuses do not stack, that is, if you stand, the pipe works, if you move, the optics works. Recommended for installation on vehicles with a viewing radius of 380-390 meters.

Anti-fragmentation lining

Effect: +15% to damage absorption from explosions and rams

Reduces damage from ramming and hits from high-explosive fragmentation shells. Overall, not a very popular type of equipment. Most often it is installed on German tanks with thick armor, for example, on the Maus and E-100 (for protection against landmines), as well as the E50 and E50M (to improve ramming). Since the lining has a fairly large mass, it is not worth installing it on medium and light tanks; you will lose acceleration dynamics.

Reinforced springs

Effect: +10% to the chassis' carrying capacity and + 30% to its durability

Reinforced springs/torsion bars/suspension/balancers/springs/Belleville washers are all essentially the same type of equipment. It happens that the top chassis has not yet been opened, but you want to install heavier modules or equipment. This is where reinforced springs come to the rescue. One occupied slot for equipment and 10 gold for removing springs are worth it to immediately install decent weapons, an engine, and so on on your tank.

Wet ammunition rack

Effect: +50% to ammo rack strength

Increases the HP of the ammunition rack. Accordingly, more shots will be required to damage or detonate it. The probability of damage does not change. May be useful for tanks with vulnerable ammunition, such as T-54, T110E5, T-44, Type 59, IS-3, IS-7.

Filling CO2 tanks

Effect: +50% to the strength of fuel tanks

A very highly specialized and therefore practically unnecessary type of equipment. Although the T-54 and its Soviet and Chinese descendants may be of some benefit, more important equipment will have to be abandoned. It is best to carry a fire extinguisher with you, because two fires in a battle are a very rare event.

Filter "Cyclone"

Effect: +50% to engine strength

Installed only on Soviet tanks. Theoretically, it would be good in conjunction with a tightened engine speed regulator on Soviet LT, but, as measurements show, the regulator does not remove HP, but percentages of health. Therefore, the “Cyclone” filter only helps against engine crits from projectiles, which would be useful only on Germans with a front-mounted transmission.

Additional lugs

Effect: +10% permeability on soft soils, +5% permeability on medium soils

Perhaps the most useless equipment. Installed only on Hummel, JagdPz IV, PzKpfw III, PzKpfw III/IV, PzKpfw III Ausf. A, PzKpfw IV, PzKpfw IV Hydraulic, StuG III, VK 3001 (H), Sturmpanzer II, SU-85I. It’s better to upgrade your driver’s “Off-Road King” skill.

The most popular and effective equipment bundles

Rammer-stabilizer-optics

A gentleman's set for heavy and medium tanks, level 8-10 tanks. We shoot more often, converge faster, see further. For high-level tank destroyers, due to the lack of a stabilizer, we install aiming drives. On tanks with drums, instead of the missing rammer, ventilation or aiming drives are installed.

Rammer-stabilizer-aiming drives/rammer-stabilizer-fan

Alternative options for top tanks. The first option speeds up the convergence of the tank almost to the maximum. The second option slightly improves all the characteristics, but it would be nice to have a pumped-up “Combat Brotherhood” for the crew.

Rammer - aiming drives - stereo tube

Option for medium and medium tanks and tank destroyers high levels with insufficient visibility, such as KV-1S, T-150, IS-3, ISU-152, Ferdinand, etc.

Rammer-ventilation-optics

Option for tanks with fast aiming and high visibility (Tortoise, JagdTiger 8.8, Comet)

Rammer - aiming drives - mask network

Assembly for self-propelled guns. On the SU-14 and Object 212 it is recommended to install ventilation instead of a network; for all others, the network can be replaced with anti-fragmentation lining.

Stereo tube-optics-ventilation

Assembly for light tanks dealing with active and passive light. When focusing on passive light, ventilation can be replaced with a mask network.

Aiming drives - stereo tube - mask network

Assembly for “sand benders”. To some extent, the main disadvantages of low-level machines are leveled out - low visibility and long convergence.

Filter Cyclone-optics-reinforced springs

“Exclusive” assembly for Soviet fireflies, which ride with a tightened engine speed controller.

Let us separately recall that with new system camouflage mask network becomes much more effective on large vehicles, which makes it mandatory equipment for artillery and, at a minimum, useful for vehicles that primarily conduct ambush combat.

That's all. Good luck on the battlefield!

Effect: +25% to the viewing radius from a stationary tank.

Description

One of the most useful types of equipment. A 25% review bonus is very impressive and sometimes decisive. A tank or self-propelled gun that spots the enemy first has a huge tactical advantage.

As a rule, this is the right to the first shot or the opportunity for various maneuvers (change of position, retreat, turning to the enemy with armor).

Besides, good review beneficial in financial terms: if a tank sees further, then it is less likely to shoot at someone else’s light, on the contrary, it shines on its allies, thereby earning credits - as a result, all the income from its own shots and part of the income from the shots of allies goes into the piggy bank.

The stereo tube only works in a stationary position, so amateurs active play usually they prefer an alternative - coated optics.

However, in fact, even fast tanks can benefit greatly from the use of a stereo tube.

This can be a passive light for allies or a careful advance from cover to cover: when we reach a bush, we look around, if there is no danger, we move on.

Of course, the greatest benefit from the stereo scope will be felt by blind-sighted tank destroyers, such as Ferdinand, ISU-152, Jagdpanther and others. The pipe will allow them to detect the enemy at the limit of visibility first, shoot and reverse into cover to reload.

For blind vehicles with 260-330 vision (Hetzer, SU-152, SAu-40 and others), the stereo tube can become a real lifesaver, especially at the end of the battle, when you need to drag.

With a stereo tube, even a weak tank is able to fight off several enemies who come under fire one at a time, or direct friendly artillery fire at them.

The pipe should not be used on close combat tanks such as Maus, E-100, IS-7, KV-5 and others. In addition, on equipment with a field of view of 390+, the effect of the pipe will be excessive at a visibility limit of 445 meters.

Of course, in this case the tank receives a bonus to uncloaking enemies, but it is still more rational to use optics on such vehicles.

Verdict

The stereo tube is of little use on howitzer self-propelled guns and close combat vehicles. For combat vehicles with a field of view of 390 and more, it is more rational to use coated optics.

For all others, this type of equipment is recommended for use. For most ambush snipers and fans of passive light tactics, installing it is a must.