SUSAT
The Sight Unit Small Arms Trilux (SUSAT) is a 4× magnification telescopic optical sight designed for use with the British Army's L85A1 individual service rifle and related 5.56 mm weapons, incorporating a tritium-powered illumination system for the reticle to enable targeting in low-light conditions such as dusk or dawn.[1][2] Developed in the 1980s by United Scientific Instruments plc as part of the Enfield Weapon System project to fully realize the capabilities of the SA80 bullpup rifle family, the SUSAT features a pressure diecast aluminum body with an anodized black finish, a vertical post reticle, and screw adjustments for windage and elevation mounted on an aluminum dovetailed sight base.[1][2] It includes auxiliary fixed iron sights for emergency use and a brightness control knob for the tritium lamp, which provides a reddish glow on the aiming pointer without requiring external batteries, though the tritium source requires periodic replacement due to radioactive decay.[2] The sight offers a 10-degree field of view and range settings from 300 to 800 meters in 100-meter increments, making it suitable for infantry engagements at medium ranges.[2] Introduced in 1988, the SUSAT served as the primary sighting system for the British Army's SA80 series, including the L85 rifle, L86 light support weapon, and L110 light machine gun, and saw operational use in conflicts such as the Gulf War (1990–1991) and the Iraq War (2003–2013).[1] By 2025, the UK military maintained an inventory of over 100,000 SUSAT units alongside approximately 30,000 Laser Detector Sights (LDS), reflecting its widespread adoption across the armed forces despite the rifles' total numbering around 150,000.[3] Although robust and integrated as standard equipment, the SUSAT's fixed 4× magnification and limited night vision capabilities have prompted phased replacements with advanced optics; non-infantry units continue to use it, while frontline forces transition to systems like the Elcan SpecterOS and the TALON Fused Weapon Sight, which combines optical and thermal imaging for detection up to 1 km, under initiatives such as Project Upham and a £120 million contract for 10,000 TALON units rolling out in 2025.[3][4]History and Development
Origins and Design Phase
The development of the SUSAT (Sight Unit, Small Arms, Trilux) began in 1970 as an integral component of the Enfield Weapon System (EWS) project, which sought to modernize British infantry small arms, including the bullpup-configured SA80 rifle.[5] This initiative addressed the limitations of traditional iron sights on compact bullpup designs, where shortened sight bases reduced aiming accuracy.[6] The project originated from a 1970 study by the Royal Small Arms Factory (RSAF) Enfield, which defined requirements for a future weapon system, leading to the production of initial prototypes by 1972.[7] Led by the Royal Armament Research and Development Establishment (RARDE) in the United Kingdom, the design phase emphasized creating a compact 4× telescopic sight optimized for integration with bullpup rifles chambered in 5.56×45mm NATO ammunition.[5] RARDE's efforts focused on producing a general-purpose infantry optic rather than a high-precision sniper sight, prioritizing fixed magnification to balance close- to medium-range engagement needs without adjustable complexity.[7] Key challenges included ensuring compatibility with the SA80's ergonomics and overcoming alignment issues in early mockups, such as loose mounting screws that affected zero retention.[6] Innovations during this phase included a robust one-piece pressure die-cast aluminum body to enhance durability under field conditions, and tritium-based illumination for low-light visibility without reliance on batteries.[5] Prototypes emerged in the late 1970s, with the XL9E1 variant tested during NATO trials in 1978–1979, incorporating refinements like a non-inverted reticle post.[6] By the early 1980s, the design was finalized as the L9A1 model, ready for production by United Scientific Instruments Ltd., marking the culmination of over a decade of iterative development tied to the SA80's evolution.[7]Adoption and Early Deployment
The SUSAT (Sight Unit Small Arms Trilux) was officially adopted by the British Army in 1985 as the standard optical sight for the SA80 family of weapons, entering service alongside the L85A1 individual rifle to replace the aging L1A1 Self-Loading Rifle and its associated sighting systems.[8] Developed at the Royal Armament Research and Development Establishment (RARDE) in the late 1970s, it marked a significant advancement in providing every infantryman with a dedicated optic, moving beyond the limited issuance of earlier sights.[9] Initial deployment focused on integrating the SUSAT with core SA80 variants, equipping the L85A1 rifle and L86A1 light support weapon as standard issue for frontline units, while later extending to the L110A1 light machine gun to enhance squad-level fire support accuracy.[10] This rollout emphasized seamless incorporation into individual weapon systems, with the SUSAT's robust aluminum construction and quick-detach mount allowing for reliable field use without compromising the bullpup design's compactness. By the late 1980s, it had fully superseded traditional iron sights on these platforms and replaced the predecessor L2A2 SUIT (Sight Unit Infantry Trilux), which had been limited to section-level distribution on the L1A1 rifle since the mid-1970s.[11] Early performance evaluations in the 1980s and 1990s highlighted the SUSAT's strengths in simplicity and low-light operation, with its tritium-illuminated reticle enabling effective aiming at dusk or dawn without batteries, a feature praised for reducing training complexity and logistical demands compared to more intricate optics.[11] However, feedback from pre-2000s trials noted limitations due to its fixed 4× magnification, which hindered rapid target acquisition in close-quarters scenarios, often requiring troops to rely on backup iron sights for engagements under 50 meters.[11] Beyond British forces, the SUSAT saw early export and allied adoption in the 1980s-1990s.Design and Components
Optical System
The SUSAT features a fixed 4× magnification, optimized for medium-range infantry engagements extending up to 800 meters, providing a balance between target identification and situational awareness in combat scenarios.[12] This magnification level allows for effective aiming on man-sized targets at typical assault rifle distances without excessive narrowing of the visual field.[13] The optical system delivers a field of view of 10 degrees (equivalent to 175-177 mils at 100 meters), achieved through an objective lens diameter of 25.5 mm, which captures sufficient light for clear imaging.[12] The exit pupil measures 6 mm, ensuring a bright image, while the eye relief of 25 mm accommodates comfortable positioning behind the eyepiece during rifle handling, particularly with the SA80's bullpup configuration.[12] Light transmission exceeds 80%, supporting reliable performance in daylight conditions with minimal veiling glare limited to 2 degrees maximum.[12] Diopter adjustment at the eyepiece is set to -1 dioptre for user eye correction, maintaining focus across a flat field of 0.25 dioptres to ensure sharp reticle alignment.[12] The design incorporates multi-element lenses and prisms to fold the light path, enabling a compact form factor suitable for integration with bullpup rifles while preserving optical clarity.Reticle and Illumination
The reticle of the SUSAT features a slotted obelisk-shaped post, referred to as a pointer, extending upward from the bottom edge of the field of view in a design akin to the German Post style. This post appears as a dark pillar with a clear center during daylight for precise aiming, while the tip provides the primary holdover point for bullet drop compensation. The design represents an evolution from the L2A2 SUIT's inverted top-down post reticle, offering improved visibility and faster target acquisition in combat scenarios. The post height is calibrated to facilitate range estimation for 5.56mm ballistics, particularly at distances between 300 and 800 meters, by comparing it to the apparent size of a target. Illumination for the reticle is provided by a Trilux lamp containing tritium gas, a radioactive isotope that enables self-luminous glow without batteries, ensuring visibility in low-light conditions such as dusk or dawn. At night, the tritium illuminates the pointer tip with a reddish gleam reflected into the reticle. Brightness is controlled by rotating a knurled knob on the right rear of the sight body, adjustable from off to full intensity. The tritium source typically lasts 8 to 12 years before significant dimming occurs, after which the lamp must be replaced to maintain functionality.Mounting and Durability
The SUSAT employs a rail-less direct attachment system, utilizing side clamps and a spring-retained lever to secure it to the integral dovetail rail on the SA80 rifle, with screw adjustments for windage and elevation zeroing.[13] This mounting method ensures a stable, low-profile integration without the need for additional rails, positioning the sight optimally over the receiver. For compatibility with other British service weapons, such as the L86 Light Support Weapon and the L108A1 FN Minimi light machine gun, the SUSAT can be fitted using dedicated adapters like the L108A1/A2 variants, which provide the necessary dovetail interface.[14] Constructed from a one-piece pressure die-cast aluminum alloy body, the SUSAT offers enhanced impact resistance suitable for frontline military use, with the eyepiece, objective lens, and prisms fitted as sealed assemblies within the housing.[1] This robust design contributes to its overall durability, allowing it to withstand the rigors of field operations while maintaining optical alignment under stress. Anodized in black for corrosion resistance, the body also incorporates an integral auxiliary iron sight—a fixed front post and rear aperture—mounted atop the unit as a reliable fallback should the primary optics fail.[15] As a fully sealed unit, the SUSAT requires minimal user maintenance, with no internal components accessible for routine servicing to preserve its environmental integrity. Field protocols focus primarily on external care, such as gently cleaning the lenses with a soft, lint-free cloth and approved optical solution to remove dust or residue, avoiding abrasive materials that could scratch the surfaces.[1]Operational Use
Primary Military Applications
The SUSAT (Sight Unit, Small Arms, Trilux) served as the standard issue optical sight for the British Army's SA80 family of weapons, including the L85A1 and L85A2 infantry rifles, L86A1 light support weapon, L110A1 light machine gun, and L92A1 carbine variants.[1][16] This integration enhanced aiming precision for 5.56×45mm NATO-caliber small arms, providing 4× magnification with a fixed-focus reticle optimized for infantry engagements.[17] In combat operations, the SUSAT-equipped SA80 saw extensive use across multiple conflicts, including the Gulf War (1990–1991), Balkan deployments (1990s), and operations in Iraq (2003–2013) and Afghanistan (2000s).[1] It proved effective for mid-range engagements between 200 and 400 meters, where its magnification and chevron-style reticle allowed for rapid target acquisition and improved hit probability in open terrain typical of those theaters.[18] However, the fixed 4× magnification limited its utility in close-quarters battle (CQB), as soldiers often resorted to backup iron sights for urban or room-clearing scenarios. Early models also exhibited parallax errors, particularly when eye relief was inconsistent, which affected accuracy beyond 200 meters under dynamic conditions.[19] These limitations contributed to the SUSAT's gradual replacement starting in the mid-2000s. Urgent operational requirements during Afghanistan led to the adoption of Trijicon ACOG sights for better low-light performance and variable magnification options, while the ELCAN SpecterOS 4× (Lightweight Day Sight, LDS) became the standard replacement by 2011 for its improved durability and eye relief.[20][21] In 2025, frontline units began transitioning to the TALON Fused Weapon Sight, with 10,000 units procured under a £120 million contract for enhanced thermal and optical capabilities.[4] As of 2025, the SUSAT has been phased out from frontline active forces but remains in service with UK reserves, training establishments, and cadet programs due to ongoing inventory needs and budgetary constraints; unverified reports suggest limited continued use on L7 and L111 general-purpose machine guns.[3] Internationally, the SUSAT found applications on select assault rifles, including the Spanish CETME Model LV for marine special forces, the Swedish Ak 5B designated marksman variant, and Bolivian SA80-equipped units.[22][23]Variants and Adaptations
The SUSAT L9A1 represents the standard model issued to British forces, featuring range markings calibrated from 100 to 600 meters to support typical infantry engagements with the 5.56mm SA80 rifle.[11] This variant entered service in 1987 following trials of prototypes like the XL9E1, with mass production handled by United Scientific Instruments Ltd., and it became the primary optic for frontline troops due to its integration with the SA80 platform.[5] A specialized variant, the L12A1, extends the effective range settings to 300-800 meters in 100-meter increments, enabling longer-distance aiming for designated marksman roles or adapted weapon systems.[24] Designated under NATO Stock Number 1240-99-967-0947, the L12A1 incorporates the same 4x magnification and tritium illumination as the L9A1 but is often fitted within a dedicated mount that enhances stability for sustained fire applications.[24] This model addresses limitations in the base design for scenarios requiring elevated zeroing and eye relief adjustments.[2] The SUSAT series evolved from the earlier L2A2 SUIT sight, retaining the inverted post reticle concept while introducing greater compactness to accommodate the bullpup configuration of the SA80, reducing overall length without sacrificing optical clarity.[5] Illumination was refined through a higher-output tritium source (4.7 GBq), providing brighter low-light performance compared to the SUIT's dusk-dawn limitations, alongside fixes for zero retention via added lock nuts and washers.[5] Adaptations of the SUSAT extended its utility beyond the SA80 to other British weapons via specialized mounting kits, such as side brackets for the 7.62mm L7 General Purpose Machine Gun (GPMG).[25] Similar kits, including the L108 series, facilitated integration with light machine guns like the L110 Minimi and L111, allowing the optic's illuminated reticle to support suppressive fire roles while maintaining compatibility with the sight's dovetailed shoe and adjustment mechanisms.[26] Export variants of the SUSAT were customized for select 5.56mm platforms without fundamental redesigns, primarily involving mounting adaptations and minor calibration tweaks. In Spain, the CETME LV model incorporated the SUSAT for elite marine forces, featuring a raised rear sight block for the optic's integration alongside backup irons.[22] Sweden adopted it for the Ak 5B designated marksman rifle, pairing the 4x sight with a cheek rest for enhanced precision in cold-weather operations.[23] Limited exports also reached Bolivia for SA80-equipped units, emphasizing the sight's versatility across NATO-standard rifles.[5]Production and Specifications
Manufacturing Process
The SUSAT sight was primarily manufactured in the United Kingdom by United Scientific Instruments (USI) and Avimo, which later became Thales Optics, under the oversight of the Royal Armament Research and Development Establishment (RARDE).[27] The production process involved constructing the sight's body from a one-piece aluminum alloy housing to ensure lightweight durability and structural integrity, with optical components including lenses and prisms requiring precision grinding and multi-layer coatings for clarity and environmental resistance.[28] Tritium, sourced from atomic energy facilities, was integrated into the illumination system within controlled environments to power the low-light reticle without batteries.[3] Quality control adhered to stringent military standards, focusing on nitrogen purging for sealing against moisture and dust, precise optical alignment, and environmental testing to meet operational demands. Batch production peaked in the 1980s to support the SA80 rifle program, with main manufacturing runs from 1985 to 1994.[29] Maintenance since 1994 has been limited to spares and reserves for ongoing inventory support.[3] Over 100,000 units were produced for British forces, reflecting the scale of the SA80 deployment, while export production remained on a smaller scale for select allies.[3]Technical Specifications
The SUSAT sight features fixed 4× magnification, providing a balance of target acquisition and detail for small arms applications.[16][1] Its field of view measures 10 degrees, equivalent to 177 mils at 100 meters, enabling effective situational awareness within typical engagement distances.[2] Key physical and performance characteristics are summarized in the following table:| Attribute | Specification | Notes/Source |
|---|---|---|
| Dimensions | 145 × 60 × 55 mm | Overall (L × W × H).[16] |
| Weight | 417 g (0.417 kg) unmounted | Core optical body. |
| Magnification | 4× fixed | Standard for L9A1 variant.[16][1] |
| Field of view | 10° | Angular measurement.[2] |
| Reticle | Vertical post with illuminated pointer | Daylight visible; tritium-illuminated for low light.[1][2] |
| Illumination | Tritium (Trilux) | Adjustable brightness via control knob; ampoule sealed in glass.[2] |
| Range settings | 300–800 m (in 100 m increments) | For L12A1 variant; drum marked 3–8. L9A1 variant adjusted to 100–600 m.[2] |
| Environmental tolerance | Water-resistant | Eyepiece rubber seal and objective hood prevent moisture ingress.[2] |
| Mounting | Dovetail bracket with clamping nuts | Includes locating plunger for consistent eye relief.[2] |
| Emergency sight | Integrated blade foresight and aperture backsight | Non-adjustable backup aligned to optical axis.[2] |