Protector RWS
The Protector RWS (Remote Weapon Station) is a family of modular, remotely operated weapon systems developed and manufactured by Kongsberg Defence & Aerospace, a Norwegian defense company, for mounting on land vehicles, naval vessels, and stationary platforms.[1] It enables operators to control a wide range of payloads—from 5.56 mm light machine guns and coaxial weapons to 40 mm cannons and anti-tank guided missiles—using electro-optical sensors, joysticks, and displays from protected positions inside vehicles or shelters, thereby improving crew safety and operational effectiveness in combat environments.[2] First introduced for operational use by the Norwegian Armed Forces in 1999, the Protector RWS entered full-scale production shortly thereafter and has since evolved through continuous improvements based on user feedback from global militaries.[3] By 2020, Kongsberg had delivered its 20,000th unit—a milestone system integrated on the U.S. Army's M1A2 Abrams tank variant—accumulating millions of operational hours worldwide.[3] As of June 2025, the system family serves 31 nations, with over 29,000 units delivered worldwide, including over 17,000 to the United States as part of its Common Remotely Operated Weapon Station (CROWS) program, underscoring its role in enhancing force protection during missions in diverse terrains and conditions.[4][5] Key variants include the Protector RS4 and RS6, which support small- to medium-caliber weapons (up to 40 mm) for light and medium vehicles; the low-profile RS4 for reduced detectability; and remote turrets like the RT20 and RT60 for heavier 30 mm to 40 mm cannons on armored platforms.[1][6] These systems feature advanced stabilization, day/night vision capabilities, and compatibility with missile launchers, making them versatile for surveillance, detection, and precision fire support in both land and maritime operations.[7]History
Development
The Protector Remote Weapon Station (RWS) originated in the late 1990s as a response to the need for enhanced crew protection during operations on armored vehicles, particularly for Norwegian and emerging US military requirements. Developed by Kongsberg Defence & Aerospace in collaboration with Norway's Defence Research Establishment, the system was initially conceived to allow gunners to neutralize threats, such as airport mines, without exposing themselves to direct fire. This focus on remote operation addressed vulnerabilities observed in traditional turret designs, enabling safer engagement from inside the vehicle. Early efforts emphasized integration with existing armored platforms for Norwegian forces, marking Kongsberg's entry into advanced remote weapon technologies.[8][9] Key milestones in the initial phase included the development of the NM 221 prototype around 2000, a 450-kilogram system featuring internal ammunition feed and electro-optical sights for remote control. This prototype, produced in partnership with Vinghøg, underwent testing and led to the delivery of 32 units for evaluation by Norwegian units. By 1999, early versions were already in limited use with the Norwegian Armed Forces, including deployments in KFOR operations in Kosovo, providing real-world feedback on system reliability. The pivotal breakthrough came in 2001 with Kongsberg's first major contract: a framework agreement with the US Army for 1,734 Protector units to integrate with Stryker vehicles, valued at approximately $293 million for the initial order. This deal validated the technology and spurred further refinements.[8][9] Early technical challenges centered on achieving effective stabilization and seamless remote fire control integration to maintain accuracy during vehicle movement. Engineers addressed issues like turret rotation stability and ballistic adjustments for super-elevation and drift, incorporating a detached line-of-sight system to keep sights on target independently of the weapon's bore. These solutions ensured continuous firing accuracy across varied terrains and speeds. Additionally, the initial design prioritized light machine guns, such as 5.56mm and 7.62mm calibers (e.g., M249), but evolved to accommodate medium calibers like 12.7mm (M2) based on user feedback from Norwegian and US trials, enhancing lethality without compromising the system's lightweight profile.[8][9]Production and milestones
Full-scale production of the Protector RWS commenced in December 2001 by Kongsberg Defence & Aerospace, following initial operational use by the Norwegian Armed Forces from 1999.[3][10] A significant milestone was reached in October 2020 when Kongsberg delivered the 20,000th Protector RWS unit to the US Army, specifically a low-profile variant for integration on the M1A2 Abrams main battle tank.[3][11] Major production contracts have underscored the system's global adoption, including extensive integration into the US Army's Stryker program, with multiple orders from General Dynamics Land Systems totaling thousands of units by the early 2020s to enhance vehicle lethality and protection.[12][13] In 2021, Estonia selected the Protector RS4 variant as part of its CV90 infantry fighting vehicle upgrade program, marking it as the 28th nation to adopt the system.[14] Further expanding production, Kongsberg secured a NOK 1.2 billion contract in March 2024 to supply over 300 Protector RS4 units to Sweden and Finland for integration on Patria's Common Armoured Vehicle Systems platforms, with deliveries scheduled to begin in 2025.[15][16] Production has evolved through iterative upgrades incorporating operational feedback, including the transition to the modular RS4 variant with enhanced digital interfaces, wireless control options, and counter-unmanned aerial system capabilities to meet emerging threats.[14][17] In August 2025, Kongsberg was awarded a full-rate production contract valued at up to $330 million by the United States Marine Corps for Protector remote turrets on the Amphibious Combat Vehicle 30 (ACV-30) platform.[18] As of 2025, more than 29,000 Protector RWS units have been delivered to 31 countries, reflecting its status as the world's leading remote weapon station family.[4]Design
Components
The Protector RWS features a stabilized gimbal platform that serves as the core mounting structure, providing four-axis stabilization (2+2 axis for detached line-of-sight) to maintain precise targeting regardless of the host vehicle's motion. This platform enables independent line-of-sight for the operator, separating sensor viewing from weapon aiming to enhance accuracy during dynamic operations.[2][9] Electro-optical and infrared sensors form the primary targeting suite, including daylight color cameras, thermal imagers for night operations, and an eye-safe laser rangefinder for distance measurement. These sensors deliver real-time video feeds to the operator's display, supporting day/night targeting with fields of view optimized for identification and engagement at various ranges. The joystick control interface, typically mounted inside the vehicle, allows intuitive remote operation via a compact control unit with switches for weapon selection and firing.[2][9] The fire-control system integrates a ballistic computer that processes sensor data, environmental factors, and platform movement to compute firing solutions automatically. This includes compensation for pitch, roll, and target lead angles, ensuring accurate aiming for both static and moving targets.[9] Weapon mounting employs a modular cradle design compatible with a range of armaments, such as the M2 Browning machine gun, MK19 grenade launcher, or Javelin anti-tank guided missiles, allowing quick reconfiguration for mission-specific needs. Coaxial mounting options support secondary weapons alongside primaries. The modular design also supports integration of counter-unmanned aerial systems (CUAS) effectors and sensors for addressing modern threats, as of 2024.[2][9][19] The system draws power directly from the host vehicle and interfaces with NATO-standard command, control, communications, computers, and intelligence (C4I) systems via open architecture protocols, facilitating integration with battle management software and other vehicle subsystems. Safety is prioritized through fully remote operation, enabling crew members to engage threats from within armored compartments, thereby minimizing exposure to enemy fire.[1][9]Technical specifications
The Protector RWS base system, exemplified by variants such as the M151 and M153 models, has a weight ranging from 135 kg to 190 kg depending on configuration, excluding weapons and ammunition.[9][20] Key dimensions include a height of 505–765 mm excluding weapons and ammunition, enabling compact integration on various vehicle platforms.[9][20] The system provides full 360° azimuth coverage with a rotation speed of 90 degrees per second, and elevation ranges from -20° to +60° at 70 degrees per second, supporting rapid target acquisition and stabilized firing on the move.[9][20] The Protector RWS operates in extreme environmental conditions, with an operating temperature range of -46°C to +65°C and storage temperature tolerance from -51°C to +71°C, ensuring reliability in diverse climates from arctic to desert operations.[9][7] It supports a wide array of weapon calibers, from 5.56 mm machine guns like the M249 to 40 mm grenade launchers such as the MK19, including medium calibers up to 30 mm in compatible setups.[9][20] Ammunition capacity varies by configuration but reaches up to 400 rounds for 12.7 mm weapons in the M153 variant, with coaxial options for 7.62 mm providing additional sustained fire capability.[9] The integrated sensor suite offers 360° azimuth coverage through modular electro-optical components, including daylight video cameras with magnification of more than 30x and thermal imagers for night operations, complemented by laser rangefinders for precise targeting.[9][20][21]| Specification | Details |
|---|---|
| Weight | 135–190 kg (excluding weapon and ammunition; varies by configuration) |
| Height | 505–765 mm (excluding weapon and ammunition) |
| Azimuth Coverage and Speed | 360° unlimited; 90°/second |
| Elevation Range and Speed | -20° to +60°; 70°/second |
| Operating Temperature | -46°C to +65°C |
| Storage Temperature | -51°C to +71°C |
| Weapon Calibers | 5.56 mm to 40 mm (e.g., M2 12.7 mm, MK19 40 mm grenade) |
| Ammunition Capacity (12.7 mm) | Up to 400 rounds (M153 configuration) |
| Sensors | Modular EO/IR suite; 360° azimuth; magnification more than 30x; laser rangefinder |
Variants
Land-based variants
The land-based variants of the Protector Remote Weapon System (RWS) are engineered for integration on ground vehicles such as infantry fighting vehicles (IFVs), armored personnel carriers, and mine-resistant ambush-protected (MRAP) platforms, prioritizing crew protection through remote operation while enabling precise engagement against personnel, light armor, and anti-tank threats. These systems feature stabilized gimbals, advanced electro-optical sensors, and modular architectures compatible with vehicle battle management systems, allowing for on-the-move firing and networked operations. Developed by Kongsberg Defence & Aerospace, they emphasize modularity to support a spectrum of calibers and effectors, from machine guns to guided missiles, with high operational readiness rates exceeding 99%.[1] The M151 Protector serves as the foundational land-based model, originally integrated on the U.S. Army's Stryker wheeled armored vehicle under the Common Remotely Operated Weapon Station (CROWS) program. Weighing approximately 135 kg (excluding weapons and ammunition), it accommodates small to medium calibers, including the 12.7 mm M2 machine gun and 40 mm Mk 19 grenade launcher, providing stabilized fire control for suppressive and area-denial roles. This variant enhances vehicle lethality without exposing crew members, supporting up to 900 rounds of .50 caliber ammunition in integrated configurations.[22][1] An evolution of the M151, the M153 Protector variant addresses requirements for heavier payloads and anti-armor capabilities, as seen in CROWS II integrations on platforms like the Stryker, HMMWV, and MRAP vehicles. At around 172 kg (excluding weapons), it incorporates support for tube-launched, optically tracked, wire-guided (TOW) missiles alongside machine guns such as the 7.62 mm M240 or 12.7 mm M2, enabling engagement of armored threats at ranges up to 4 km. This upgrade maintains the core stabilized platform while adding modular interfaces for missile launchers, improving versatility for mechanized infantry units.[22][1] The RS4 represents a highly modular land-based iteration, optimized for small- and medium-caliber weapons ranging from 5.56 mm to 12.7 mm, including coaxial machine guns and anti-tank guided missiles (ATGMs) like the Javelin. Its open-architecture design facilitates integration with IFVs such as the CV90, where it has been selected for upgrades in nations including Estonia, and the Boxer 8x8 wheeled vehicle, as demonstrated in German Bundeswehr prototypes and British Army trials. The system features a detached line-of-sight for independent sensor targeting, advanced day/night imagers, and compatibility with active protection systems, supporting manned-unmanned teaming on ground platforms.[2][14][23] For enhanced anti-armor performance, the RS6 and its LW30 extension focus on medium-caliber applications, accommodating low-recoil cannons up to 30 mm, such as the M230 LF, in single-, dual-, or triple-weapon configurations that pair the cannon with 7.62 mm coaxial machine guns and ATGMs. These variants are tailored for IFVs and MRAPs requiring greater penetration against light vehicles and infantry, with full stabilization for firing on the move and integration into vehicle networks for shared situational awareness. The LW30 specifically leverages the RS6 baseline to incorporate the 30 mm x 113 mm cannon, boosting firepower for mechanized forces while maintaining the family's lightweight, platform-agnostic design.[24][1] The Super Lite variant prioritizes portability for land-based static or temporary mounts, weighing under 50 kg to enable man-portable deployment on tripods or light vehicles for perimeter defense and rapid setup. It supports low-recoil weapons like 5.56 mm or 7.62 mm machine guns, operable remotely or manually, and is suited for protecting convoys, artillery positions, or forward operating bases without permanent vehicle integration. This configuration extends the Protector family's utility to dismounted or expeditionary operations, emphasizing ease of transport and quick employment in dynamic ground environments.[8][1]Naval and other variants
The Sea Protector is the primary naval adaptation of the Protector RWS family, designed specifically for maritime platforms such as patrol boats and frigates to enhance force protection while allowing operators to remain inside the vessel.[7] It features a lightweight construction weighing 135 kg, enabling installation on small vessels, and supports small-caliber weapons including the 12.7 mm M2 Browning machine gun for engaging surface threats.[7] The system is fully stabilized with a 360° continuous azimuth traverse and elevation from -20° to +60°, providing precise targeting in rough sea conditions despite platform motion.[7] The Mark 50 variant was selected by the U.S. Navy for combatant craft, but units were decommissioned starting in 2023 as part of fleet modernization efforts.[25] For larger naval vessels requiring heavier firepower, the Protector family includes remote turret variants such as the RT20, RT40, and RT60, which are stabilized systems adaptable for shipboard mounting to counter surface and asymmetric threats.[1] These turrets support medium-caliber autocannons, with the RT20 accommodating 30 mm or 40 mm weapons such as the Bushmaster chain gun, the RT40 handling 30 mm or 40 mm systems like the Bushmaster chain gun, and the RT60 designed for 30 mm to 40 mm calibers including options for anti-tank guided missiles. In August 2025, Kongsberg was awarded a contract to supply RT20 turrets for the U.S. Marine Corps' Amphibious Combat Vehicle (ACV-30).[26][27] Their modular design incorporates advanced fire control that compensates for ship roll, pitch, and cant angles, ensuring accuracy in marine environments.[28] The Protector Lite represents a compact variant optimized for lighter naval or auxiliary platforms, including unmanned surface vessels and special operations craft, where space and weight constraints are critical.[21] Weighing approximately 74 kg, it is tailored for low-recoil weapons such as 7.62 mm machine guns but can integrate .50 caliber systems in stabilized configurations for enhanced versatility in dynamic maritime scenarios.[9] Its fully stabilized gimbal supports remote operation from protected positions, making it suitable for rapid deployment on small boats or integrated into special forces missions requiring minimal footprint.[21] Recent upgrades to the Protector RWS family, including naval variants, have incorporated counter-unmanned aerial system (C-UAS) capabilities to address evolving drone threats in maritime domains, with integrations demonstrated post-2023.[5] These enhancements leverage sensor fusion and rapid-reaction fire control, enabling detection and engagement of small UAS using existing weapon mounts or specialized effectors, as seen in collaborations for U.S. and allied naval forces.[29]Operational history
Deployments in conflicts
The Protector RWS saw its earliest operational deployment with Norwegian forces in Kosovo starting in 1999, prior to full production, where it was integrated on armored personnel carriers during multinational Kosovo Force (KFOR) operations. Norwegian soldiers utilized the system for force protection in peacekeeping patrols, noting its ability to provide stabilized remote fire support while minimizing exposure to small-arms fire and ambushes in urban and rural environments. This early use generated significant interest among NATO allies, highlighting the system's reliability in low-intensity conflict scenarios and influencing subsequent adoptions for similar missions.[8] During the Iraq War from 2003 to 2011, the Protector RWS, designated as the M151 variant, was extensively fielded on U.S. Army Stryker vehicles, with the first Stryker brigades deploying to Iraq in October 2003. Over 10,000 units were integrated across Stryker brigades and other platforms by the mid-2000s, enabling urban patrols and convoy security by allowing gunners to operate from inside the vehicle, thereby reducing crew exposure to enemy fire and improvised explosive devices (IEDs). Tactical impacts included enhanced situational awareness through stabilized optics and remote operation, which contributed to lower casualty rates during close-quarters engagements in cities like Baghdad and Mosul; lessons learned emphasized the need for improved thermal imaging in dusty conditions to maintain effectiveness against insurgent threats. By 2020, cumulative deliveries to the U.S. Army had reached over 17,000 units, contributing to the global total of 20,000 units.[30][11] In the Afghanistan conflict from 2001 to 2021, the Protector RWS was integrated on Mine-Resistant Ambush Protected (MRAP) vehicles such as the Cougar 4x4, supporting convoy protection and route clearance against IEDs and ambushes in rugged terrain. The system's remote firing capability allowed crews to engage threats like Taliban fighters without exposing personnel through hatches, proving crucial during peak insurgency periods in provinces like Helmand and Kandahar. Key tactical benefits included rapid target acquisition via day/night sights, which improved response times to roadside attacks; operational lessons focused on the importance of modular weapon mounts for adapting to varying threat levels, from small arms to rocket-propelled grenades, and the value of network integration for shared battlefield data.[31] Since the onset of the Ukraine conflict in 2022, the Protector RWS—particularly the RS4 variant—has been donated by the United States for integration on Stryker platforms, aiding Ukrainian defensive operations against Russian advances. U.S. aid packages delivered over 90 Stryker infantry carrier vehicles equipped with the system by early 2023, enhancing mobility and fire support in counteroffensives around Kharkiv and Kherson. Canada donated LAV-series vehicles to Ukraine in 2023, which typically feature the Protector RWS in Canadian service and share lineage with the Stryker, supporting urban defense and border patrols. In combat, the RWS has provided standoff engagement capabilities against drones and artillery spotters, with lessons learned highlighting its role in reducing operator vulnerability amid electronic warfare disruptions and the need for anti-jamming features in peer conflicts.[32] Beyond these major operations, the Protector RWS has featured in recent NATO exercises, such as demonstrations during multinational training in Europe, where it showcased interoperability on allied platforms like the CV90 for simulated defensive scenarios. These uses have reinforced its tactical value in coalition environments, with evaluations emphasizing seamless integration and minimal maintenance in austere conditions.[33] As of November 2025, ongoing deliveries and integrations continue, with reports of additional units supplied to NATO allies amid heightened European security concerns, though specific operational details remain classified.[34]Notable integrations and uses
The Protector RWS has been integrated into several modern armored vehicle platforms to enhance their defensive capabilities in various operational environments. In 2020, Kongsberg Defence & Aerospace signed a contract valued at approximately 1,030 MNOK (around $118 million) with Thales UK to supply the Protector RS4 variant for the British Army's Mechanised Infantry Vehicle (MIV) program, specifically for integration onto up to 500 Boxer 8x8 wheeled armored personnel carriers. Thales UK is responsible for the full assembly and integration of these systems, which include advanced stabilization and fire control features to support the vehicle's modular mission roles. Similarly, in 2023, the U.S. Defense Security Cooperation Agency approved a potential Foreign Military Sale to Bulgaria for up to 183 Stryker armored vehicles, with reports indicating that a portion—particularly around 90 XM1296 Dragoon variants—will be equipped with Protector RS4 and RS6 remote weapon stations armed with .50 caliber machine guns or 30mm cannons for enhanced firepower. Testing milestones have underscored the system's reliability and adaptability. In 2018, NIMR Automotive demonstrated the Protector RWS integrated on its Ajban 440A 4x4 tactical vehicle during exhibitions such as BSDA in Bulgaria and evaluations in Lithuania, showcasing its compatibility with light patrol platforms for rapid deployment scenarios. More recently, at the DSEI 2025 exhibition in London, the Protector RS4 was featured on the NMS UK Dragon vehicle as part of a mobile counter-unmanned aerial system (C-UAS) platform, where it served as the hard-kill effector in a layered defense chain using the Sky Warden system manager to neutralize small drones. Beyond combat evaluations, the Protector RWS supports non-conflict security applications through vehicle upgrades. Following Estonia's 2021 acquisition of the Protector RS4 as part of its CV90 infantry fighting vehicle modernization program—making it the 28th nation to adopt the system—the upgraded platforms have bolstered national defense postures, including enhanced border surveillance and territorial integrity measures along eastern frontiers. Recent advancements emphasize the system's evolution toward networked operations. In 2024, Kongsberg conducted demonstrations of its Integrated Combat Solution (ICS) incorporating the Protector family, focusing on manned-unmanned teaming scenarios that integrate remote weapon stations with autonomous combat vehicles like the Type-X robotic platform and CV90 for coordinated tactical engagements.Operators
The Protector RWS family is in service with 28 nations as of August 2025.[35]Current operators
- Australia: Mounted on ASLAV PC vehicles.
- United States: Over 17,000 units delivered as part of the CROWS program, used across all branches.[3]
- Norway: Primary user and developer, in service since 1999.[1]
- Canada: Installed on RG-31 and TAPV fleets; contract worth 500 MNOK.[36]
- Denmark: Used on various vehicles; contract worth 270 MNOK.[37]
- Australia
- Canada
- Croatia: On Patria AMV (175 units).
- Czech Republic: On LMV.
- Denmark
- Estonia: 28th nation, on CV90 upgrade.[14]
- Finland: Recent contract for Patria vehicles.[38]
- France
- Indonesia: Sea Protector on patrol boats.
- Ireland
- Lithuania: Recent delivery.[39]
- Norway
- Portugal: On Pandur vehicles.
- Qatar
- Sweden: Recent contract for Patria vehicles, deliveries from 2025.[38]
- Ukraine: On Stryker vehicles.[40]
- United Kingdom
- United States