Cost: $220,000 NSD per unit. $20 Billion NSD for DPR.
Crew: 6 + 1.
Caliber: 125 mm.
Weight: 3,200 kg.
Length (travel): 5.6 m.
Barrel Length: 4.7 m.
Elevation: -7° to 70°.
Rate of Fire: Maximum: 10-12 rpm, Sustained: 5-6 rpm.
Effective Firing Range: 16 - 22.3 km depending on munition. 32 km using special guided munitions.
Electronics: Crossbow HFCS.
The 'Crossbow' Towed Howitzer is a lightweight one-hundred and twenty-five millimeter towed howitzer designed by Wolf Armaments in 2010. In need of a reliable mobile howitzer, the TECT Armed Forces put in a bid to Wolf Armaments seeking a new howitzer system designed to be operated by ground troops with the special condition that said howitzer was highly mobile and reliable. Intended mostly for use by lighter gun batteries, airborne forces, mobile marines, and quick moving infantry - Crossbow, as the project was soon titled, was to serve as a highly mobile howitzer for quick moving forces. Prior to Crossbow, one-hundred and five millimeter howitzers made up the TECT stockpile of lightweight mobile howitzers. Issues from too low of firepower and over complication made these howitzers less effective on the battlefield; their low projectile power, less capable firing ability, and usually complicated operation made their use cumbersome. The TECT military wanted a more powerful and simple system that could be used in the lightweight howitzer role. And so began the search for a new system.
Although the Crossbow Program sought to replace current one-hundred and five millimeter howitzers, Project designers originally looked into said cannon size as the replacement. This idea was scrapped quickly as projectile damage was not consistent to the Armed Force's desires - the projectile had to be larger for more powerful impacts and reach longer ranges for long range accurate artillery support. The first prototype tested was a one-hundred and twenty millimeter design that resembled the Soviet D-20 and some larger 105mm howitzers. This design had positive results but was eventually cut based on the body design; the recoil system, mount, and towing system didn't consist with the military's criteria for the project. In an effort to make the heaviest mobile howitzer possible, for both infantry and vehicle mounts, Project designers eventually decided on a one-hundred and twenty-five millimeter gun caliber. This cannon would be mounted on a reliable mount that once set up was an high-rate firing cannon that could lob moderately heavy projectiles longer ranges to support ground forces. After taking inspiration from the more popular Soviet D-30 design, Project designers decided it best to take example of its success and bring it to the Crossbow. Founded on a trunnion system, the high-powered gun could turn in any direction in order to fire - which would prove useful to its crew under intense situations. A three legged mount platform balanced the system totally once deployed - the legs were separated 120° apart and were designed to absorb the produced force from firing - balancing the gun system for firing was the central idea to the leg system being used instead of a wheel carrier. To reduce the massive force produced, designers placed a high-bleed three holed muzzle break for high-powered guns and a top-mounted recoil mechanism system. The 'Crossbow', as it was later classified officially, passed testing in early 2010 and was approved for production once modification fixes were made; military testing conducted throughout the next month produced positive reviews and won favor over military commanders. The TECT Armed Forces has since made orders and fielded the weapon system on its original mount and various vehicle mounts; it is now used in multiple vehicle systems as self-propelled howitzers, and is used throughout the Armed Forces.
Constructed of lightweight titanium alloy as the primary material, the Crossbow is lighter then its similar competitors; weight reduction is key but so is balancing weight, which is why weight is dispersed once deployed to its legs and center block, and centered when being transported. The forty-caliber gun is rifled, features a unique muzzle break that greatly absorbs recoil, and is chrome-lined to improve longevity and endurance while also extending firing sessions. Mounted atop the barrel is the recoil system that uses turn-mechanisms to absorb recoil force - combined together with the other recoil reduction properties, more then half the recoil force is absorbed. This strategic placement of the recoil system allows for the gun to be mounted lower to the ground onto the trunnion system, a cylindrical protrusion used as a mounting and/or pivoting point for the cannon. At the rear is the sliding block breech; this breech operates via a large block that locks the high-powered launch forces in the barrel. It is manually locked into place via a lever forcing the block to slide up, and automatically ejects any material present forcing the block down (otherwise just opening for the next projectile). To lower the three legs onto the ground, a hydraulics jack is used to gradually lower the legs until tightly secure onto the ground chosen; once deployed, ground jacks are placed in open slots at the end and hammered into the ground to secure the legs into position - these jacks have a dual function by acting as tie-points for transport via helicopter. This design feature is vitally important for the balance of the gun, which keeps it secure when firing; unlike a wheeled platform, the legs keep the howitzer in position without affecting its aim or position thanks to these legs. The Crossbow can be deployed and ready to fire within minutes using only wrenches and large hammers - one of many design intentions that make the howitzer system easy to use. Another simplification is the firing cycle; crew need to load shells with the projectile into the chamber and lock the hatch, then they're ready to fire, eject the casing, and repeat the cycle - a simple process that makes firing sessions much quicker improving firing rates. Towing done on the ground can be done by most vehicles using the barrel mounted tow hinge; towing is done with the legs folded around the body with wheels down for traversing, which also allow for aircraft to lift the howitzer through multiple hitch points. Crossbow howitzers can be towed at speeds of 60 km/h on the road. Deploying the system involves lowering the legs onto the ground; once ready and spread out, use the wheels to fashion where you want each leg and once chosen, lower the legs until firmly on the ground and the wheels are latched upwards in firing position.
Crossbow uses a standard sighting mount near the barrel (or can be done from a separate position); this mount can be removed at will by the commander and slid back on at any time. As a dual purpose position, the sighting mounts can also utilize a direct-fire telescope for anti-tank uses. Using these tools, a commander can accurately aim the barrel to fire onto the position they want; aiming is then directed to the crew who use turn-wheels to move the cannon onto target. A twenty-first century innovation has given Crossbow a faster operation time through the use of battlespace networking and servo motors; allowing the howitzer to automatically align to a submitted fire support request from front line troops. Crossbow aiming mechanisms can be linked to state-of-the-art command control and communication systems to achieve quick response automatic operation. The Crossbow's automatic system takes target acquisition data that provides range, bearing, position and other data from an observation point and transmits it directly to the commander and the artillery piece itself; once a support request is made, the gun barrel is then automatically adjusted to the exact traverse and elevation angle and is ready for firing by the crew. This complex targeting system is the Howitzer Fire Control System (HFCS), which utilizes modern technology to improve firing accuracy and operation speed. The HFCS utilizes elements of the Eisen-Schloss Combat Networking System and Frauns FCS, which could utilize a mobile interaction platform plug-in (such as laptop) for combat networking/communications etc., navigation, pointing and self-location, Indirect Fire Control Software Suite (IFCSS), and sensor modules for firing. The HFCS allows the Crossbow to accurately target long distance enemies with speedy precision and keep directly connected to commanders and mobile units on the modern battlefield.
125 mm Ammunition
In accordance with the TECT Armed Forces' 2008 "New Munitions Project", newer age ammunition has been in development and manufacturing of said approved munitions has commenced since the project was officially announced. Projects like 'Faerber' were part of this grand plan; in this case, 'Faerber' Project has replaced all small and larger arms with new age telescoped or caseless ammunition. The 'Baggage Compartment Project' was founded by one of the lead munitions developers that focused on artillery munitions. BCP, lightheartedly named, was the design idea that combined both Western and Soviet munition ideas for a new design to all artillery projectiles fired by field guns and howitzers. The revolutionary idea took the principle of adjusted propulsion fuel management that soviet artillery shells utilized with shell casings, and Western ideas on projectile construction. Soviet casing munitions (like D-30) were shipped in crates containing the projectile, a shell casing, propulsion fuel, and other basic parts to the system (such as fuze cap and basic upgrade materials) - ammunition was loaded similar, however, to Western counterparts by first loading the projectile and then the shell via a rammer. Once detonated the shell would be automatically discharged by the system. Western ideas, which Soviets also used, included a projectile and added propulsion charges that were added after the artillery projectile; these charges often look like small sacks with printed distance enhancement. BCP designers decided to bring together ideas from both Blocs into a whole new artillery projectile firing setup.
BCP soon produced several prototypes that eventually got grinded down, combined, or removed to eventually come out with the 'BCP-Series' - which has since referred to the style of artillery ammunition that is produced from this style. The projectile itself is similar to Western and Soviet projectiles in design and inspiration - it contains a larger warhead body, modifications to the construction in accordance to the projectile's intended role, and the absence of a metal casing. The change begins with the rear portion of the munition, the so-called 'baggage compartment'. Made of a moderately hard-skinned material, the 'BC' is made up of 'twist-on' compartment with a twist-on rear cap; these two pieces twist onto existing grooves located on the projectile/BC, forming an airtight seal. This material is designed to be totally combustible in the detonation of the propulsion material, literally burning away in milliseconds from the heat, blast, and expanding gas - it is made to withstand the weather and elements long enough to be used inside a cannon. Internally a secondary compartment holds the primer, a tiny compartment holding the projectile's detonation explosive (Silver azide) that sets off the propellant that launches the projectile; said primer extends through the cap and can be seen on the outside and interior of the cap, making it easier to strike, replace, and twist into place. This material is weak enough to be easily pierced by firing pins or other ignition system trying to ignite the primer - this means common artillery pieces, like D-30 or M777's for example, can fire BCP ammunition with ease.
BCP ammunition is shipped in lighter, smaller, carrying cases - or often pre-prepared in tube holders. Inside is the projectile, the two twist-on attachments, the twist-on primer cap (which twists-on into position inside the BC, similar to the other pieces), the fuze, and is often accompanied by chosen propellant; in the TECT Armed Forces, a modular (combustible) casing holds an energetic explosive labeled as 'NNN', which is named after the explosive material it consists of (Nitrocellulose, Nitroglycerin, Nitroguanidine) - each package is color-coded and labeled to show the distant enhancement. In a standard artillery unit preparing for firing missions or going into combat, the crew would begin by unboxing and combining the projectile. The BC is twisted onto the projectile in preparation to add the propellant; once ready, the propellant is added (once again, in the TECT Armed Forces, NNN is added in usually four or seven cases) and the cap locked firmly. Once the fuze is twisted on and programmed - if needed to be - the projectile is ready to fire. Next is the projectile being loaded by the team and firing - simple as that. Once done so, the projectile launches out leaving the BC to disintegrate as it combusts.
This ammunition's intended purpose is to improve artillery units through the enhancement of field operation and artillery unit management. The speed of reloading is cut due to the simplification of ammunition - it no longer takes a man to load charges into breaches or to remove casings. The simplification eliminates crew positions that were required for quick operation, eliminating up to one or two crew persons at the gun. Barrel health is increased with the manageable propellant, allowing for smaller charges or standard large charges that wear the barrel less; the ingredients used, depending on the users, can also have better affects on barrel health. Storage cases are now smaller and less lengthy, decreasing weight, which improves handling of ammunition cases and the larger storage of said ammunition.
HS-125-HE: The High Explosive is a one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, high explosive Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a four-and-a-half kilogram IMX-101 explosive mixture and weighs a total of twenty-three kilograms. A very common and universal artillery projectile design - the 125-HE is designed to eliminate infantry, vehicles, and structures using both explosive force and shrapnel. The fuze can be custom timed to explode at set times rather then simply on impact - such settings allow projectiles to explode before landing or above targets for specific types of attacks. There is approximately six thousand fragments produced in the explosion and a blast radius of twelve meters; fragmentation is estimated to travel about forty meters.
HS-125-RAHE: The Rocket Assisted High Explosive is a one-hundred and twenty-five artillery projectile that is custom fuzed, spin-stabilized, rocket boosted high explosive Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a four-and-a-half kilogram IMX-101 explosive mixture and weighs a total of twenty-four kilograms; it uses three kilograms of threaded synthetic fuel for its booster. A very common and universal artillery projectile design - the 125-RAHE is designed to eliminate infantry, vehicles, and structures using both explosive force and shrapnel at extended ranges. It achieves these ranges by the use of an attached rocket cap that burns once ignited (moments after leaving barrel the fuze portion of the fuel is ignited starting the chain), spinning the projectile while also boosting speed; the result is increased spin accuracy and extended ranges. The fuze can be custom timed to explode at set times rather then simply on impact - such settings allow projectiles to explode before landing or above targets for specific types of attacks. There is approximately six thousand fragments produced in the explosion and a blast radius of twelve meters; fragmentation is estimated to travel about forty meters. The extended range capability allows RAHE projectiles to travel up to twenty-two kilometers.
HS-125-SP: The Shrapnel Projectile one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, high explosive/shrapnel Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a four-and-a-half kilogram IMX-101 explosive mixture and weighs a total of twenty-four kilograms. Designed simply for the mass dispersion of fragmenting shrapnel - 125-SP projectiles are lined with additional sheets of steel and contain a large lining of steel balls which maximize fragmentation and shrapnel. The minimal increase in weight is due to this increase in steel. The timed fuze is often set to go off high above enemy infantry where the maximum amount of fragmentation spread is possible as it rains down like meteors onto infantry units and lite vehicles; though the warhead can be set to blast upon impact where damage is more lethal. Instead of a highly flashy explosive blast like conventional high explosive rounds - a concentrated high explosive blast is used, which is very brief in a quick but intense flash with very little smoke. There is approximately eight thousand fragments produced and five thousand steel balls that are spread out in the explosion - a blast radius of over twelve meters and a fragmentation/shrapnel range of forty meters.
HS-125-WP: The White Phosphorous one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, incendiary Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a four-and-a-half kilogram IMX-101 explosive mixture and weighs a total of twenty-four kilograms; white phosphorus makes up the remaining mixture/weight (three kilograms [3.8]). Designed for incendiary purposes - 125-WP projectiles are intended to kill or maim infantry as well as to burn though many metals, which would destroy structures, equipment, and vehicles. The timed fuze is often set to go off high above enemy infantry where the maximum amount of WP dispersal is possible, or, on impact where it can destroy enemy positions and equipment; instead of a highly explosive blast, a concentrated high explosive blast is very brief but leaves an intense flash. The blast disperses the mixture in a forty meter range.
HS-125-SM: The Sub-Munitions one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, sub-munition dispensing Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a IMX-101 explosive mixture for its bomblet fillers. Designed with the intention of spreading an even amount of munitions randomly - 125-SM projectiles carry twenty sub-munitions that are dual-purpose anti-tank/anti-personnel weapons. The sub-munition in question is a high explosive weapon capable of armor penetration and fragmentation damage to infantry units. To counter the issue of duds, 125-SM's are designed to detonate fifteen seconds after hitting the ground - usually the munitions explode upon impact if the trigger is not set differently. In case the munition duds anyways, the electric trigger dies after thirty seconds on the ground, making the bomb inert. The sub-munitions deploy in a sixty meter area, exploding into several hundred fragments in a kill radius of eight meters and effective range of twenty-five meters. Additionally. Mine munitions can be used with this projectile, deploying bombs which can detonate upon their sensing movement nearby.
HS-125-AT: The Anti-Tank one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, anti-tank Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a IMX-101 explosive mixture for its sub-munition filler. Designed to find and destroy armored vehicles and tanks - 125-AT projectiles deploys one sub-munition unit that use a EEP warhead. These sub-munitions use infrared and millimeter-radar to spot their intended target - an armored vehicle or main battle tank - as it corkscrews down to the ground. The bomb ignites a separation explosion high above an intended target area, it will then float down looking for its target; once the target is spotted, the munition floats until it is close enough above the vehicle and detonates - launching its made warhead onto the target's rooftop. This top-down attack targets top armor of vehicles, which is weaker, and finds its target individually rather then with manned assistance.
HS-125-HEAT: The High Explosive Anti-Tank is a one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, high explosive anti-tank artillery projectile. It uses a two kilogram IMX-101 explosive warhead and weighs a total of eighteen kilograms. A standard anti-tank cannon projectile design - the 125-HEAT is designed to eliminate vehicles like armored personnel carriers and main battle tanks. The shaped charge warhead is used against tanks in a tank destroyer role - this allows the howitzer using this projectile to also become an anti-tank gun. 125 HEAT projectiles have been proven to penetrate between four-hundred and ninety millimeters of RHA or six-hundred millimeters.
HS-125-APFSDS: The Armour-Piercing Fin-Stabilized Discarding-Sabot (Discarding Sabot for short) is a one-hundred and twenty-five millimeter anti-tank projectile that is custom fuzed, spin-stabilized, kinetic energy penetrator Course Correcting artillery projectile. It uses a two-and-a-half kilogram warhead and weighs a total of twenty-two kilograms. An advanced anti-tank artillery projectile design - the 125-APFSDS is designed to eliminate heavy vehicle armor, like main battle tanks. The penetrator is designed to penetrate heavy vehicle armor and explosive-reaction armor defenses using a long dart made from tungsten carbide - effectively putting the howitzer firing this projectile a tank destroyer role. 125 APFSDS projectiles have been proven to penetrate between six-hundred and seven-hundred millimeters of RHA.
HS-125-IL: The Illumination one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, illumination Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a pyrotechnic mixture to illuminate the ground bellow it and weighs twenty-four kilograms. Designed to lite up the night sky - 125-IL projectiles are deployed at about six hundred meters where the projectile ignites its mixture, separating from the main portion of the projectile and leaving only the warhead area left. Once ignited, a flame-proof parachute deploys and the projectile slowly falls to the ground. The ground is highly illuminated for about one minute and twenty seconds underneath the illuminating shell.
HS-125-SMK-Mk. 1 & 2: The Smoke one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, smoke dispensing Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a white phosphorus mixture for smoke creation. Mk.1 and Mk. 2 projectiles are intended to produce large sums of smoke at varied rates; Mk. 1 rounds are hot burning gray smoke rounds that produce a smokescreen that blinds enemies while Mk. 2's are slow cold burning signal smokes used for many purposes and they can come in a variety of colors. A Mk. 1 can cover a forty meter area in smoke (with no wind conditions) and a Mk. 2 can continue to burn for fourteen minutes.
HS-125-GMU: The Guided Munition Unit is a one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, GPS guided Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. Essentially - 125-GMU projectiles are upgraded high-explosive one-hundred and twenty-five millimeter projectiles that utilize GPS guidance and extended range technology to accurately engage targets within close ranges of friendly troops (150–75 meters). In addition to a CCF package, the 125-GMU has a miniature GPS guidance computer that utilizes two sets of fins to make course corrections (in addition to assistance provided by CCF); this accuracy has increased the CEP to five meters and doubled the range to thirty-two kilometers.
HS-125-LGP: The Laser Guided Projectile is a one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, laser guided Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a IMX-101 eighteen kilogram explosive mixture for its filler with a shaped charge warhead. The 125-LGP, essentially, is a laser guided howitzer launched anti-tank weapon designed for high-angled top-down attacks. Once launched, the guidance system on-board detects the laser and uses its deployed two-set fins to guide the munition onto a lit-up target. The shaped charge is designed to destroy most armored vehicles and modern main battle tanks by landing on the weakest portions of the vehicle - its turret roof or the top of its engine compartment (which is also sometimes near ammunition storage). The 125-LGP is capable of gliding or using a ballistic trajectory in order to increase range of operation and avoid cloud levels that would block its laser detection. Weight and length of the overall projectile is increased due to the added equipment and warhead.
HS-125-CHM: The Chemical Munition is a one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, chemical Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses various amounts of possible chemical fillers for its three kilogram (3.6) warhead space; such example include lethal mixtures like mustard gas and non-lethal tear gas. 125-CHM is essentially a chemical weapon artillery projectile intended to deliver a mix of chemicals for their intended purposes - killing infantry or controlling areas with tear gas, for example. Rounds can cover a forty meter area in the chemical agent at minimum (with no wind conditions) in a hot-burning process.
HS-125-Spatz: The Spatz variant of a previous submunition dispenser is a special carrying bus for Sptaz submunitions. Stacked together in a special bus system, six Spatz submunitions are fired and deploy at optimal altitude high above intended targets where they independently engage enemy targets.
HS-125-PTD: The Practice Training Dummy is a simple one-hundred and twenty-five millimeter artillery projectile that is custom fuzed, spin-stabilized, practice Course Correcting Fuze (CCF) artillery projectile; the CCF is a two-directional course adjusting GPS-based fuze that adjusts trajectory during flight, which dramatically improves the effectiveness of existing cannon artillery ammunition - it provides near-precision accuracy that is critical in combat environments. It uses a smaller warhead and plastic shell construction to miniaturize the detonation and produce zero fragmentation - thereby being less lethal than traditional high explosives. 125-PTD are used in training for crews learning to use the system, and during practice to keep accustomed to howitzer gun operations while lessening the financial costs. The projectile will launch and operate like normal high-explosive projectiles and will even work with fuzes (for airburst detonation, for example).
Export
The Crossbow Howitzer can be purchased from the Wolf Armaments main storefront page for $220,000 NSD per unit and $20 Billion NSD for DPR rights to Longbow and its one-sixty ammunition. Ammunition prices are listed as the following:
HS-125-HE: $420 NSD per case (single round case).
HS-125-RAHE: $620 NSD per case (single round case).
HS-125-SP: $480 NSD per case (single round case).
HS-125-WP: $900 NSD per case (single round case).
HS-125-SM: $1,500 NSD per case (single round case).
HS-125-AT: $2,200 NSD per case (single round case).
HS-125-HEAT: $420 NSD per case (single round case).
HS-125-APFSDS: $620 NSD per case (single round case).
HS-125-IL: $380 NSD per case (single round case).
HS-125-SMK-Mk. 1 & 2: $400 NSD per case (single round case).
HS-125-GMU: $28,000 NSD per upgrade unit (single round case).
HS-125-LGP: $17,000 NSD per case (single round case).
HS-125-CHM: $350 NSD per case (single round case).
HS-125-Spatz: $1,600 NSD per case (single round case).
HS-125-PTD: $270 NSD per case (single round case).
DPR for all shells: $1.5 Billion NSD.