The Stryker is based on the
LAV III light armored vehicle, which was based on the
LAV-25 series. The vehicle comes in several variants with a common engine, transmission, hydraulics, wheels, tires, differentials and transfer case. The
M1130 command vehicle and
M1133 medical evacuation vehicle have an air conditioning unit mounted on the back. The medical vehicle has a higher-capacity generator. A recent upgrade program provided a field retrofit kit to add air conditioning units to all variants. Production started in 2005 on the Mobile Gun System, mounting an overhead General Dynamics Land Systems (GDLS) 105 mm automatic gun called the
M1128 mobile gun system.
Engine and mechanical features For its
powerpack the Stryker uses a
Caterpillar diesel engine common in U.S. Army medium-lift trucks, eliminating additional training for maintenance crews and allowing the use of common parts. Because of obsolescence concerns, the
Caterpillar 3126 engine was recently replaced by a Caterpillar C7 engine and the Allison 3200SP transmission. Pneumatic or hydraulic systems drive almost all of the vehicle's mechanical features. For example, a pneumatic system switches between 8×4 and 8×8 drive. Designers strove to ease the maintainer's job, equipping most cables, hoses, and mechanical systems with quick-disconnecting mechanisms. The engine and transmission can be removed and reinstalled in approximately two hours, allowing repairs to the turbocharger and many other components to be done outside the vehicle.
Command, control, and targeting screen Extensive computer support helps soldiers fight the enemy while reducing
friendly fire incidents. Each vehicle can track friendly vehicles in the field as well as detected enemies. The driver and the vehicle commander, who also serves as the gunner, have
periscopes that allow them to see outside the vehicle without exposing themselves to outside dangers. The vehicle commander has access to a day-night
thermal imaging camera which allows the vehicle commander to see what the driver sees. The vehicle commander has an almost 360-degree field of vision. The Stryker vehicle is equipped with advanced camera systems to enhance driver visibility in various conditions. The AN/VAS–5 Driver’s Vision Enhancer (DVE), a compact thermal camera with a high-resolution infrared sensor, provides a 50-degree field of view for effective navigation in low-visibility environments such as fog, smoke, and dust. On the
M1296 Infantry Carrier Vehicle Dragoon (ICV-D), this system has been replaced by the DVE-Wide, which provides a 107-degree horizontal field of view. The DVE-Wide cameras are mounted around the hull, collectively enabling a full 360-degree view for the crew, significantly improving situational awareness. Both systems feature image stabilization to counteract shock and vibration, while their ruggedized displays ensure reliability in demanding tactical environments. The
U.S. Army is also working to integrate the DVE-Wide cameras on the Stryker with the
Integrated Visual Augmentation System (IVAS) to give the crew and dismounts a 360-degree view around the vehicle with all doors and hatches closed. Soldiers can practice training with the vehicles from computer training modules inside the vehicle. File:Stryker vehicle during a situational training exercise at the 7th Army Training Command's Grafenwöhr Training Area, May 5, 2022 (7178338).jpg|M1296 ICV-D equipped with DVE-Wide thermal cameras on the front and sides File:Stryker ICV with DVE-Wide cameras.jpg|Stryker ICV with DVE-Wide cameras mounted on the rear and sides File:IVAS in Stryker.jpg|Soldiers equipped with IVAS inside a Stryker General Dynamics Land Systems is developing a new Power and Data Management Architecture to handle computer upgrades. The Stryker's thermal sights can see out to , compared to for night vision sights used by dismounted soldiers. This capability allows the vehicle to warn dismounted soldiers of threats which lie beyond the range of their night vision sights.
Protection The Stryker's hull is constructed from high-hardness steel which offers a basic level of protection against
14.5 mm rounds on the frontal arc. It has all-around protection against 7.62 mm ball ammunition. Strykers are equipped with bolt-on ceramic armor which offers all-around protection against 14.5 mm armor-piercing ammunition, and artillery fragments from 155 mm rounds. Problems were encountered with the initial batch of ceramic armor when it was found that a number of panels failed in tests against 14.5 mm ammunition. Army officials determined that this was due to changes in the composition and size of the panels introduced by their manufacturer,
IBD Deisenroth. A stopgap solution of adding another 3 mm of steel armor was introduced until a permanent solution could be found. The issue was resolved in 2003 when DEW Engineering was selected as the new, exclusive supplier for the ceramic armor. In addition to the integral ceramic armor, optional packages have been developed. These include
slat armor and Stryker
reactive armor tiles (SRAT) for protection against rocket propelled grenades and other projectiles, the hull protection kit (HPK), armored skirts for additional protection against improvised explosive devices, and a ballistic shield to protect the commander's hatch. The Army began sending reactive armor tiles to Strykers in Iraq in 2004, as well as tiles for Abrams tanks and Bradley Fighting Vehicles. Tiles have to be specifically crafted for each vehicle type they are fitted to. Insurgents attempted to counter reactive armor by having teams fire multiple RPGs at once, but at close range these groups could be engaged and broken up. Reactive armor can be defeated by tandem-charge weapons like the
RPG-29 or by
explosively formed penetrators, although the Bradley's tiles can withstand EFPs. In 2005, slat armor for the Stryker vehicles was designed and developed by the
Army Research Laboratory and the Aberdeen Test Center in Maryland to further protect them from RPGs. The cage is placed 50 cm ahead around the vehicle to provide adequate protection. The slat armor on the Stryker vehicles is effective against HEAT rounds. In May 2009, General Dynamics and
Rafael won a contract to provide SRAT tiles to replace slat armor on Strykers. The additional weight of the two systems is comparable, but reactive armor tiles offer greater vehicle stability and maneuverability and "assured" rather than "statistical" protection. The Stryker incorporates an
automatic fire-extinguishing system with
sensors in the engine and troop compartments that activate one or more
halon fire bottles, which can also be activated by the driver, externally mounted fuel tanks, and a
CBRN (Chemical, Biological, Radiological, Nuclear) Warfare system which will keep the crew compartment airtight and positively pressurized. Reports from military personnel and analysts state that the Stryker's is better able to survive IEDs than other light military vehicles. In spring 2016, a Stryker regiment deployed to Europe with the
Saab mobile camouflage system (MCS), which both changes its physical appearance to better blend into the environment and incorporates properties that improve signature management against long-wave and mid-wave thermal sensors, near-wave and short-wave infrared, and radar. Further tests will influence the Army to decide whether to pursue acquiring the camouflage system through a
Program of Record. In 2016,
Artis LLC's
Iron Curtain active protection system was selected for integration onto the Stryker as an interim system, until the Army develops the Modular Active Protection System (MAPS). Iron Curtain differs from other APS by defeating projectiles just inches away from the vehicle, rather than intercepting them several meters out. In August 2018 the Army decided not to continue qualifying Iron Curtain onto the Stryker due to maturity issues with the system.
Armament with an
M2 heavy machine gun on an
M1126 Stryker ICV variant With the exception of some specialized variants, the primary armament of the Stryker is a
Protector M151 Remote Weapon Station with
12.7 mm (.50 in)
M2 machine gun,
7.62 mm M240B machine gun, or
40 mm Mk 19 grenade launcher. The choice of armament was driven by many factors. The US Army wanted a vehicle that could rapidly transport and protect infantry to and around battlefields. In September 2017,
Raytheon fired
Stinger missiles it had integrated into a Stryker-mounted
Common Remotely Operated Weapon Station (CROWS) to intercept airborne targets in a demonstration, turning the vehicle into a short-range air defense system. By early 2024, the Army had deployed three battalions of Stinger-equipped Strykers. In August 2018, 86 Strykers began fielding with a CROWS turret adapted to be able to fit a
FGM-148 Javelin tube, allowing the vehicle to fire the weapon instead of needing dismounted troops to use it.
30 mm cannon While the Stryker MGS gives medium brigades heavy firepower, the baseline infantry carrier vehicle has a light armament. Stryker program officials pursued mounting a 30 mm cannon to the ICV's remote weapons station. With the number of MGS vehicles per brigade being reduced, individual ICVs are to be upgunned. The cannon will give greater firepower without needing to add a turret. The plan was to purchase and test a company set of 30 mm cannons and determine if they should be issued for every Stryker or have one per company. The Army planned to test stabilized 30 mm cannons in early 2014, including
Kongsberg Protech Systems' Medium Caliber Remote Weapons Station (RWS). Kongsberg, which makes the Stryker's M151 RWS joined with Stryker manufacturer, General Dynamics for the MCRWS in 2008. The MCRWS is not a true turret, which would extend into the crew compartment and take up space. It can be loaded from inside the vehicle, but does eliminate one of the four roof hatches. The autocannon is fed by two magazines holding armor piercing and high explosive ammunition. Each carries 78 rounds. Another 264 rounds are stored in the hull. Test firings of a 30 mm cannon in the Kongsberg MCRWS occurred on a Stryker demonstrator vehicle in February 2014. The cannon showed increased lethality and accuracy over the standard 0.50 in (12.7 mm) machine gun, at ranges of . Four rounds in five-round bursts hit the targets. After comparative testing of the Kongsberg MCRWS mounted to Stryker vehicles, the U.S. Army approved in April 2015 the equipping of 81 of the
2nd Cavalry Regiment's Strykers with 30 mm cannons after the unit requested the upgrade. Reviews of the effectiveness of these new turrets in Stryker companies informed decisions regarding the upgrade of more Strykers across the nine Stryker Brigades. The remote turret requires a modification of the hull roof, and adds two tons of weight with an upgraded suspension and wider tires. Outfitting the first Strykers with
Mk44 Bushmaster II cannons was planned to occur during the next two years, it was stated in 2015. The cannon, which can engage light armored vehicles out to . and can defend against
unmanned aerial vehicles. The Kongsberg turret and
Orbital ATK XM813 variant of the Mk44 Bushmaster were officially selected in December 2015. Kongsberg later renamed the turret system the
RT40 (
Remote Turret). The first upgraded Stryker, designated
XM1296 "Dragoon", was delivered for testing in October 2016, with fielding to begin in May 2018. The first Infantry Carrier Vehicle – Dragoon (ICVD) was delivered to the 2CR in Germany in December 2017. In April 2019, the Army decided to add cannon armament to Stryker DVH
ICVVA1 vehicles in three brigades. The first is planned to be equipped in 2022. In June 2021, the Army chose
Oshkosh Defense to supply its Medium Caliber Weapon System (MCWS). The previous GDLS/Kongsberg team which supplied turrets to the 2nd Cavalry Regiment competed in the full-and-open competition but was not chosen to deliver more. The June contract award is worth up to $942 million over six years. As of the award date, the Army had approved plans to outfit three brigades with 83 Medium Caliber Weapon Systems (MCWSs) each. The contract covers up to six brigades worth of vehicles if the service decides that is how it wants to proceed. The Oshkosh team provides a turret based on Rafael's
Samson family of turrets but customized for the Army.
Mobility Strategic and operational One of the key objectives outlined as part of the Army transformation plan was the ability to deploy a brigade anywhere in the world within 96 hours, a division in 120 hours, and five divisions within 30 days. Operational mobility requirements dictated that the vehicle be transportable by
C-130 aircraft and that it would be able to roll-off manned and ready to fight. In a demonstration conducted in April 2003, a Stryker infantry company with 21 Stryker vehicles was transported by C-130s to another airport 70 miles away. The Stryker is too heavy, 19–26 tons, depending on variant and add-on features, to be lifted by existing helicopters. In August 2004, testing was conducted to determine if the Stryker MGS could be airdropped. This testing started with a series of 12-foot drop tests, followed by the
US Air Force successfully airdropping an up-weighted Stryker Engineering Support Vehicle from a
C-17. Even though this test was a success, none of the Stryker variants have been certified for airdrop. As of 2013 work continues in this area with the capability assumed for the Unified Quest war game.
Tactical The Stryker can alter the pressure in all eight tires to suit terrain conditions: highway, cross-country, mud/sand/snow, and emergency. The system warns the driver if the vehicle exceeds the recommended speed for its tire pressure, then automatically inflates the tires to the next higher pressure setting. The system can warn the driver of a flat tire. The Stryker is equipped with
run-flat tire inserts that also serve as
bead-locks, allowing the vehicle to move at reduced speeds for several miles before the tire completely deteriorates. troops with a Stryker IFV during a bilateral training exercise Some criticism of the Stryker continues a decades-long ongoing debate concerning whether tracked or wheeled vehicles are more effective. Conventional tracks have superior off-road mobility, greater load capacity, can pivot a vehicle in place, and are more resistant to battle damage. Wheeled vehicles are easier to maintain, and have higher road speeds. The US Army chose the Stryker over tracked vehicles due to these advantages.
Rollover is a greater risk with the Stryker relative to other transport vehicles, due to its higher
center of gravity. The Stryker's high
ground clearance, however, is likely to reduce the damage caused by land mines and
IEDs on the vehicle. While not amphibious, the Stryker has watertight combat hatch seals to allow
fording water up to the tops of its wheels.
Cost The unit cost to purchase the initial Stryker ICVs, without add-ons, including the slat armor, was US$3 million in April 2002. By May 2003, the regular production cost per vehicle was US$1.42 million. In February 2012, the cost had risen to US$4.9 million.
Mission A standard Stryker Brigade typically consists of: 130 Infantry Carrier Vehicles; 9 Anti-Tank Guided Missile Vehicles; 27 Medical Evacuation Vehicles; 12 Engineer Squad Vehicles; 32 Commander's Vehicles; 36 120 mm Mounted Mortar Carriers; 56 Reconnaissance Vehicles; 13 Fire Support Vehicles; three NBC Reconnaissance Vehicles; and 12 105 mm Mobile Gun Systems. ==Service history==