Boxer prototype for Lithuania being tested

In December 2015 the Lithuanian Ministry of Defence announced, that they were favouring the Dutch-German Boxer multi-role armored vehicle (MRAV) over numerous other offers from international armored vehicle manufacturers such as General Dynamics (offering a version of the ex-MOWAG Piranha/Stryker), Patria (which offered a version of the AMV), Nexter (offering the VBCI), Iveco, Otokar, and FNSS. Subsequently they ordered the Boxer in an infantry fighting vehicle (IFV) configuration.

However the Lithuanian Army did not go for the original offered Boxer variant, which mounted the unmanned turret of the German Puma IFV on a special Boxer mission module. Instead the Lithuanian Army prefered to fit a Samson Mk II remote weapon station (RWS) from the Israeli company Rafael. A number of photographs from the trials of a Boxer with the Samson Mk II RWS have been released by the Lithuanian MoD.

Compared to the Puma's turret, the Samson Mk II RWS is in many aspects a downgrade. It is understood that the choice to opt for the Israeli weapon station is related to the high costs of the German offer. The Boxer with Puma turret was criticized by the Lithuanian government for being considerable more expensive than all other offers.

The Puma turret however offers a much higher level of protection to begin with: The Samson Mk II RWS is not protected at all, but can be fitted with additional armor modules for protection in accordance to the STANAG 4569 levels 1 to 4, which essentially means protection from assault rifles to 14.5 mm armor-piercing (AP) ammunition from heavy machine guns (HMGs) depending on armor package. The Puma´s turret offers the same STANAG 4569 level 4 protection in it's basic configuration, but can be fitted with additional armor for an even higher level of protection (protection against 30 mm ammunition). This armor package also includes hedgehog armor against anti-tank bomblets from artillery and mortar shells aswell as an armored flap to protect the gunner's main optics.

Furthermore the Puma's turret has the option to fit the German MUSS softkill active protection system (APS), which has already been fully integrated into the turret for the German Army. This system offers protection against anti-tank guided missiles (ATGMs), by using jammers and multi-spectral countermeasures.

The Puma's turret offers better optics and for the commander's sight, there is a fibre-optical channel to directly guide the image to the commander's oculars, instead of only providing a digitized (and thus pixelated) image at the display.

While in theory able to accept other guns, the Samson Mk 2 RWS on the Boxer module for the Lithuanian Army has apparently been fitted with the very common Mk 44 Bushmaster II gun from ATK (chambered in the same 30 x 173 mm calibre as the Puma's MK 30-2/ABM). This gun has two drawbacks compared to the MK 30-2/ABM originally offered on the Boxer with Puma turret: the dispersion of the Bushmaster gun is higher (at least when firing APFSDS ammunition from NAMMO) and it has no or only limited air-burst capabilities. The MK 30-2/ABM is fitted with a magnetic coil to measure the ammunition's velocity at the muzzle and to then program the fuze of airburst ammunition accordingly. The Mk 44 Bushmaster II lacks such a coil, instead airburst capability is only optional (and this has not been chosen by a customer to this day) with programming being done at the chamber - this system is less accurate, as it has to rely on estimated (or pre-programmed) data for the muzzle velocity.

The Samson Mk 2 RWS has a weight of about 1.5 metric tons. It includes two MINIPOP optics (one each for commander and gunner) from IAI with daylight camera, laser rangefinder, and thermal imager; it thus can be used in a hunter/killer mode of operation. Ammunition storage is provided for 200 rounds of 30 x 173 mm ammunition and 230 rounds of 7.62 mm machine gun ammo. The RWS also includes a retractable dual-launcher for the Spike ATGM. Gun depression up to 20° and elevation up to 70° are possible with the Samson Mk 2 RWS.

A benefit of the Samson Mk 2 RWS is the ability to reload the turret from inside of the vehicle. This can be beneficial when the gun runs out of ammo during combat - under other circumstances reloading form the exterior is better, because one does not have to move through the rather cramped exterior of the vehicle, which enables faster restocking of ammunition.

The Boxer's modular design allows a faster and easier integration of new systems and mission modules compared to other vehicles. By separating the mission module (which here includes the RWS and seats for the gunner, commander, and dismounts) from the chassis, engine and driver's place, only a new mission module has to be developed. The mission module just needs to have the same interfaces as required by the chassis. This allowed testing the new module for the Lithuanian Boxers on an already existing German Boxer.

Bigger guns are not always better

When it comes to armored fighting vehicles, there is always a tradeoff between vehicle size, weight, ammunition, gun calibre and armor protection.
This is really important when it comes to medium calibre guns and infantry fighting vehicles (IFVs): armor penetration, lethality against infantry, rate of fire, ammunition load and the availability of a large amount of ammunition at the gun are indispensable factors for a well performing IFV.

Balancing all these factors is critical, but hard to achieve. Different countries have come to different solutions in accordance with their doctrines. Increasing the gun calibre will lead to a higher lethality against infantrymen and most likely increase armor penetration (although the actual pressure, penetrator design and barrel length matter here too). However the rate of fire and the ammunition stowage will most likely be reduced. Using an anti-tank missile launcher will increase costs and weight of the vehicle, but allows the usage of an autocannon with lower penetration.
In the end choosing the main armament of an armored fighting vehicle (AFV) should be considered as an optimization problem: How can one make the AFV most lethal for a given weight and size (and cost)?

In order to take the different effectivness of the different calibres into account, the amount of "stowed kills" is measured or estimated. The idea behind this is rather simple: one compares the lethality (using different metrics like armor penetration, after armor effects or the amount and spread of fragments) to the amount of ammunition stored inside the vehicle and at the gun.

The Combat Vehicle 90 (CV90) is a great example for the positive and negative impacts of larger calibre ammunition, due to the larger amount of different guns adopted on it.
The CV9040 uses the 40 milimetre Bofors L70 gun, the CV9035 the 35 milimetre Bushmaster III autocannon, the CV9030 the 30 mm Bushmaster II autocanon, the CV90105 prototype light tank a M68E tank gun and the CV90120 with a 120 mm Compact Tank Gun from RUAG.

Dutch CV9035

In case of the CV90 the ammunition available at the gun varies:

• The CV9040 has a total of  24 rounds available at the gun (three rows of eight rounds) with a further 24 rounds being located in a carousel magazine used as ready racks.
• The CV9035 has a total of 70 rounds available at the gun, consisting of two belts a 35 rounds.
• The CV9030 has a total of 160 rounds available at the Bushmaster II gun.

This clearly shows the benefit of utilizing smaller calibres in combat vehicles. While the CV9040 has only 24 rounds directly available at the gun, just by using the slightly less powerful 35 x 228 milimetres calibre the amount of rounds available at the gun is nearly tripled. The 30 x 173 mm calibre still more than doubles the ready ammunition compared to the 35 mm calibre! Given that the 40 mm Bofors gun currently does not offer more armor penetration possibilities, the Bofors compares unfavourably to the Bushmaster guns. While the actual armor penetration of the 40 mm Bofors with APFSDS ammunition is higher, the added armor penetration does not allow engaging heavier armored targets: all three claibres can defeat current generation IFVs frontally and MBTs from the side - the only advantage gained by the larger calibres is additional ranges, which only matters under limited circumstances.  
In a similar manner the total ammunition load is affected by the calibre of the main gun:

• Including the 48 rounds stored in the turret, a CV9040B has a total combat load of 234 rounds of 40 mm Bofors ammunition.
• A CV9035 has storage options for a total of 203 rounds of 35 mm ammunition. The lower number compared to the version armed with the Bofors gun is the result of the less optimal ammunition storage and the belted ammunition.
• The most ammunition is stored in a CV9030: up to 400 rounds of ammunition, nearly twice as much as on the other versions, can be stored inside the vehicle.
• The CV90105 TML carries 40 rounds of 105mm ammunition inside the vehicle.
• The CV90120-T carries 45 rounds of 120mm ammunition.

The CV90105 TML and the CV90120-T however require a larger crew of 4 soldiers and have lost all infantry carrying capactity, so the ammunition load for an IFV version with 105/120mm gun would have been drastically lowered.

While the total ammunition stowage of a CV9040 is actually higher than that of a CV9035, this is related to the different gun design: a dual-belt fed externally powered gun loaded with belts of 35 rounds is larger but also a lot more capable than a 40 mm Bofors L/70 gun.
Above is a graphic from CTA International showing the advantages of their "space efficient" 40 mm Cased Telescopic Armament Systems (CTAS) gun. This graphic illustrates nicely how the gun size is affected by larger calibre ammunition, albeit it is a bit "unfair" and biased. The 40 mm CTAS is not fitted with any sort of gun mantlet protection, whereas the Bushmaster III gun at least is fitted with one. The Bushmaster guns are all externally powered guns and are including parts of the ammunition feed mechanism, whereas the 40 mm CT(AS) gun's external powered motor and feed mechanism are not shown completely. The CTAS gun is at least quite larger and heavier than the 30 mm RARDEN and 30 mm Mauser MK30 guns, which are/were used in the original versions of the Warrior and ASCOD vehicles to be equipped with the CTAS gun in British service.  
In general larger calibre ammunition has the following negative impacts on vehicles, which need to be taken into account by the vehicle designers and manufacturers:

• weight
• size
• gun overhang
• internal space
• costs

Different medium calibres used by IFVs

For further reference here is a small listing of AFVs and stored ammunition:

• Schützenpanzer Lang HS.30 - 2000 x 20 mm rounds
• Marder 1A3 - 1250 x 20 mm rounds (503 rounds ready to use), 4 MILAN ATGMs (1 ready to use)
• Marder 2 prototype - 287 x 35 mm rounds (177 available at gun)
• Bradley - 900 x 25 mm rounds (300 available at gun), 7 TOW ATGMs (2 ready to use)
• Warrior - 300 x 30 mm rounds (2 clips of 3 rounds at the gun)
• Puma - 400 x 30 mm rounds (200 available at the gun), unkown number of missiles (2 ready to use)
• BMP-1 - 40 x 73 mm rounds, 4 missiles (1 ready to use)
• BMP-2 - 300 x 30 mm rounds, 4 missiles (1 ready to use)
• BMP-3 - 500 x 30 mm rounds, 40 x 100 mm rounds/missiles
• AMX-10P - 760 x 20 mm rounds (325 ready at gun), 10 MILAN ATGMs (1 ready to use)

The Canadian Army and the US Army both did reject upgunning their LAV IIIs and Bradley IFVs respectively to a higher calibre, because of the lowered amount of "stored kills". The Canadian military also pointed out that a larger gun due to the limited amount of ammunition has to be used differently - the 25 mm Bushmaster gun of the LAV III was "used like a machine gun" by firing short salvos. This is not really possible with larger calibres due to the increased size and therefore reduced combat load.

Figures from the US Army Research Laboratoy on investigating the adoption of a 35 mm gun on the Bradley come to the results pictured above: While a standard 35 mm point-detonating high explosive (HE) round has a higher lethality per round than a 25 mm HE round, the actually amount of stowed kills is considered to be worse at short to medium combat ranges, where the smaller fragmenting effect of the 25 mm HE round doesn't matter as much, because the accuracy is still very respectable. Only at longer ranges - i.e. above 1500 metres/one mile - the 35 mm point-detonating HE ammunition is favourable. Depending on terrain and combat scenario this can be satisifactory or not - during the Cold War the average combat distance in Central Europe was considered to be less than 1500 m, which means that a 35 mm Oerlikon or Bushmaster gun does not offer more lethality against infantry in this situation.

There seem however to be two major factors speaking for the adoption of autocannons of larger calibres on infantry fighting vehicles:

1. programmable ammunition
2. armor penetration

As the figures from the test and simulations made by the US Army Research Laboraty show, programmable ammunition can greatly increase the lethaliy against infantry. Programmable ammunition also can provide considerable better results when used against aircrafts, main battle tanks (by damaging all optics) and infantry hidden in structures (by exploding within the building).
As the current electronics and fuzes required for programmable ammunition cannot be fitted into small calibres such as 20 mm and 25 mm ammunition without reducing the payload beyond to an unreasonable small amount, calibres of 30 mm and above have gained popularity.

As far as armor penetration is considered, this is always a trade-off depending on the user's doctrine: it mostly comes down to a simple design decision: For what targets will the main gun of the vehicle be utilized and against which targets are other (and better) weapon systems available?

The CV9040 was designed with rather specific requirements, which are not shared by many other countries. The 40 mm Bofors gun was chosen for a number of reasons:the same calibre was already in use with the Swedish Navy and was used for anti-aircraft weapon systems (including the CV9040AAV self-propelled anti-air gun later developed, based on the CV90 chassis). A major factor however was the demand to penetrate the side armor of (ex-)Soviet main battle tanks such as the T-55 and T-72: these tanks have 80-90 mm thick steel armor over the sides of turret and hull, penetrating this with a 20-30 mm gun at medium ranges and certain angles of impact is not possible. The Swedish requirements however saw no adoption of an anti-tank missile system on the CV90; the main gun was intended as sole weapon to engage enemy armor and thus the demand for armor penetration was high.
Other infantry fighting vehicles like the M2 Bradley, AMX-10 and Marder are designed with less emphasis on main gun penetration, as the autocannons were only intended to defeat infantry units, APCs and IFVs. For heavier armored targets these vehicles were equipped with anti-tank missile launchers that offer greatly improved penetration even over a 40 mm gun and can be effectively used against a wider variety of targets (thanks to the availability of multi-purpose warheads for modern ATGMs).

In a presentation on the 40 mm CTAS gun, the manufacuters implies with a graphic, that three rounds of the new 40 mm case telescopic ammunition have the same lethality as 21 rounds of 20 mm or 30 mm ammunition. Unfortunately the resolution of the image is poor and it seems to be the result of photoshop work. However the total combat load of vehicles fitted with the CTAS gun is really poor, which means despite being optimized for being "small", the stowed kills of a Warrior or Scout-SV with CTAS are still limited compared to other IFVs with smaller guns and missile launchers. This shows that bigger guns are not always better.

UK's defence modernization advances

Apparently the British army modernization programme is running quite well - after already ordering the required MTU engines (which will be licence-made by Rolls Royce), two further milestone have been made.

The UK has ordered a total of 515 40 mm autocanons for use with telescopic case ammunition from CTA International. 245 of these will be used for the Warrior CSP upgrade, while 245 will be used for the Scout SV. 25 guns are used for trials and testing. The costs are a £150 million ($236 million),
delivery of the CTAS cannons is to start in 2015 and last seven years.

Furthermore a study is reviewing the possibility to produce the Scout SV chassis and turret in the UK, after an initial batch of 100 vehicles would have been manufactured in Spain.

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Author's opinion: The British army modernization as part of the former FRES programme is getting along well. That is good news for the British army and for the NATO.
Still I have a few troubles with the British implementation of a vehicle armed with the 40 mm Case Telescoped Armament System, it seems one of the problems of the British military to always favor "exotic" calibres nobody else uses.
The MICV-80 Warrior already used the horrendous RARDEN gun, which not only suffered from being cumbersome to use (and being manually loaden), but it also used the rare 30x170 mm catridge, while the rest of the world settled for the 30x173 mm catrige (most NATO members) or the 30x165 mm catridge (Eastern block).
The CTA gun might have a similar fate as the RARDEN gun, as the development partner France still utilizes the 25 mm autocannon on their wheeled VBCI infantry fighting vehicle.

The low ammunition load of the Warrior WSCP is also not a decision I would agree with.

The Scout SV (pictured) is based on the ASCOD 2 from GDELS

The attempt to locally produce a part of the Scout SV in the UK is, frankly, a stupid idea. It's just going to increase the cost and delay the production.

Here are the original reports from Jane's IHS:

Sources: Jane's on CTAS 40 mm cannon , Jane's on possible local production of Scout SV