Scorpion missile: Difference between revisions
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{{infobox weapon | {{Region_icon_Ajax}}{{infobox weapon | ||
| name = Scorpion | | name = Scorpion | ||
| image = File:Scorpion Missiles.jpg|300px | | image = File:Scorpion Missiles.jpg|300px | ||
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| designer = | | designer = | ||
| design_date = | | design_date = | ||
| manufacturer = [[ | | manufacturer = [[Aegium Defence Consortium]] | ||
| unit_cost = | | unit_cost = | ||
| production_date = | | production_date = | ||
| Line 27: | Line 27: | ||
<!-- General specifications --> | <!-- General specifications --> | ||
| spec_label = | | spec_label = | ||
| weight = {{convert| | | weight = {{convert|50|kg|lb|abbr=on}} | ||
| length = {{convert|1. | | length = {{convert|1.8|m|ft|abbr=on}} | ||
| part_length = | | part_length = | ||
| width = | | width = | ||
| height = | | height = | ||
| diameter = {{convert|0. | | diameter = {{convert|0.18|m|in|abbr=on}} | ||
| crew = | | crew = | ||
| passengers = | | passengers = | ||
| Line 60: | Line 60: | ||
| haft_type = | | haft_type = | ||
<!-- Explosive specifications --> | <!-- Explosive specifications --> | ||
| filling = | | filling = Tandem shaped-charge, fragmentation, or AP | ||
| filling_weight = | | filling_weight = | ||
| detonation = | | detonation = | ||
| yield = | | yield = | ||
<!-- Vehicle/missile specifications --> | <!-- Vehicle/missile specifications --> | ||
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| clearance = | | clearance = | ||
| fuel_capacity = | | fuel_capacity = | ||
| vehicle_range = 12+ mi | | vehicle_range = | ||
7.5 mi | Scorpion I/II, 20+ km (12+ mi) from fixed wing, 12 km (7.5 mi) from rotor wing | ||
| speed = | <br>Scorpion III, 60+ km (37+ mi) from fixed wing, 40+ km (25+ mi) from rotor wing | ||
| guidance = | | speed = Supersonic, ~450 m/s (~ Mach 1.3) | ||
| guidance = tri-mode seeker; millimeter-wave radar, laser, IR | |||
| steering = | | steering = | ||
<!-- Missiles only --> | <!-- Missiles only --> | ||
| Line 93: | Line 94: | ||
}} | }} | ||
The '''Scorpion''' is a versatile, | The '''Scorpion Missile''' is a highly versatile, precision-guided missile developed for use by the [[Belfrasian Armed Forces]]. Designed to engage a wide range of targets, including armored vehicles, fast-moving targets, and small maritime vessels, the Scorpion has become a cornerstone of the Federation’s tactical strike capabilities. First introduced in the early 2000s, it remains a vital tool for close air support, deep strike missions, and naval operations. | ||
The Scorpion’s development was spearheaded by the Federation to provide a multi-role missile capable of delivering precision strikes in complex combat environments. Unlike earlier systems, the Scorpion was engineered to be deployed from both aerial and ground platforms, offering unmatched operational flexibility. Its ability to engage targets with pinpoint accuracy while minimizing collateral damage made it a favored choice for urban and asymmetric warfare scenarios. | |||
One of the missile’s standout features is its tri-mode seeker, which combines millimeter-wave radar, semi-active laser homing, and an uncooled infrared imaging sensor. This combination allows the Scorpion to engage targets autonomously or with guidance from an operator, making it highly effective in environments where GPS or communications may be degraded. Its seeker also enables the missile to track and engage moving targets, such as high-speed vehicles or small boats. | |||
The Scorpion was initially deployed aboard the [[UFC Tempest]] multirole fighter, leveraging the aircraft’s advanced targeting systems to deliver precision strikes against hardened and mobile targets. Over time, its deployment expanded to include rotary-wing aircraft, unmanned aerial vehicles (UAVs), and ground-based platforms. This adaptability has ensured the missile’s relevance across a variety of combat scenarios, from close air support to deep penetration missions. | |||
One of the Scorpion’s key advantages is its modularity. The missile’s design allows for multiple configurations, including tandem warheads for armored targets, fragmentation warheads for personnel and light vehicles, and a specialized anti-shipping variant. This modularity ensures the Scorpion can be tailored to meet the demands of specific missions, enhancing its operational effectiveness. | |||
The missile’s propulsion system is another critical element of its design. Utilizing a solid-fuel rocket motor, the Scorpion achieves supersonic speeds, allowing it to reach targets quickly while maintaining low visibility to enemy air defenses. Its compact size and lightweight construction also make it compatible with a variety of launch systems, including rail-mounted launchers on aircraft and rotary-wing platforms. | |||
== Design == | == Design == | ||
[[File:Tornado_GR4_Targetting_Libyan_Tank_MOD_45155738.jpg|250px|thumbnail|left|Scorpion Missile destroying a static target.]] | [[File:Tornado_GR4_Targetting_Libyan_Tank_MOD_45155738.jpg|250px|thumbnail|left|Scorpion Missile destroying a static target.]] | ||
The Scorpion | The Scorpion Missile System’s design emphasizes versatility, precision, and survivability. At its core is a lightweight, compact airframe constructed from advanced composite materials. These materials provide the missile with durability in adverse conditions while reducing its overall weight, enabling deployment from a wide range of platforms, including fixed-wing aircraft, helicopters, and ground-based systems. | ||
One of the missile’s defining features is its tri-mode seeker. This advanced guidance system integrates millimeter-wave radar, semi-active laser homing, and infrared imaging. The millimeter-wave radar enables the Scorpion to operate in all-weather conditions, detecting and engaging targets even through smoke, dust, or other visual obstructions. The semi-active laser homing system provides precision targeting with support from ground or aerial designators, while the infrared imaging mode allows the missile to autonomously identify and track targets based on heat signatures. | |||
The Scorpion’s warhead options further enhance its versatility. The standard configuration includes a tandem shaped-charge warhead, specifically designed to penetrate explosive reactive armor (ERA) on modern tanks. For missions involving light vehicles or personnel, the missile can be equipped with a fragmentation warhead, delivering a high-explosive payload optimized for area effects. An anti-shipping variant features an armor-piercing warhead designed to disable small to medium-sized naval vessels. | |||
Propulsion for the Scorpion is provided by a solid-fuel rocket motor, delivering supersonic speeds with a low thermal signature. This propulsion system ensures rapid engagement while minimizing the missile’s detectability by enemy infrared-guided defenses. The motor’s efficiency also extends the missile’s operational range, allowing it to engage targets beyond visual range when deployed from aerial platforms. | |||
The missile’s guidance and targeting systems are complemented by an advanced autopilot, which enables precise mid-course corrections and terminal-phase maneuvers. These capabilities ensure that the Scorpion remains accurate even in contested environments where GPS signals may be jammed or degraded. Real-time data links allow for in-flight retargeting, giving operators the flexibility to respond to dynamic battlefield conditions. | |||
The Scorpion’s compact size and modular construction make it highly adaptable. At 1.8 meters (5.9 feet) in length and weighing approximately 50 kilograms (110 pounds), the missile can be deployed in large quantities on rail-mounted launchers, rotary-wing pylons, or ground-based systems. This flexibility ensures that the missile can be integrated across a wide range of platforms without extensive modifications. | |||
Another key feature is the missile’s resistance to electronic warfare (EW). Its guidance systems are hardened against jamming and spoofing attempts, ensuring reliable performance in environments with advanced electronic countermeasures. This resilience makes the Scorpion particularly effective in modern battlefields, where EW capabilities are increasingly sophisticated. | |||
The Scorpion’s modularity extends to its software, which can be upgraded to integrate next-generation technologies. Planned enhancements include AI-driven target identification, which will allow the missile to autonomously prioritize targets based on their threat level or strategic value. This capability is expected to significantly improve the missile’s effectiveness in complex, multi-target scenarios. | |||
Maintenance and logistical support for the Scorpion have been streamlined to ensure high availability. The missile’s modular construction simplifies repairs and upgrades, while its compatibility with existing transport and storage systems reduces logistical complexity. These features contribute to the Scorpion’s reputation as a reliable and cost-effective weapon system. | |||
The Scorpion Missile System’s design embodies a balance of precision, adaptability, and survivability. Its combination of advanced guidance systems, versatile warhead options, and robust construction ensures that it remains a critical asset for the Belfrasian Armed Forces and partner forces, capable of addressing the challenges of modern warfare. | |||
== Variants == | |||
;Scorpion I | |||
: Original production model, designed for anti-armor operations with a tandem shaped-charge warhead. | |||
;Scorpion II | |||
: Upgraded seeker with enhanced infrared imaging and improved resistance to electronic warfare | |||
;Scorpion III | |||
: Extended-ranged variant with a lighter aiframe and more efficient propulsion system | |||
;Scorpion AS | |||
: Anti-shipping variant with an armor-piercing warhead optimized for small to medium naval targets | |||
;Scorpion CM | |||
: Variant for counter-material operations with a fragmentation warhead | |||
== Operators == | == Operators == | ||
{{flag|Belfras}} | {{flag|Belfras}} | ||
* [[Belfrasian Navy| | * [[Belfrasian Army]] | ||
* [[Belfrasian | * [[Belfrasian Navy|Federation Navy]] | ||
* [[Belfrasian Air Force]] | |||
{{flag|Arthurista}} | {{flag|Arthurista}} | ||
Revision as of 21:26, 19 December 2024
| Scorpion | |
|---|---|
 | |
| Type | Air-to-surface missile Surface-to-Surface missile |
| Service history | |
| In service | 2005 |
| Used by |  Belfrassee operators |
| Production history | |
| Manufacturer | Aegium Defence Consortium |
| Specifications | |
| Weight | 50 kg (110 lb) |
| Length | 1.8 m (5.9 ft) |
| Diameter | 0.18 m (7.1 in) |
| Warhead | Tandem shaped-charge, fragmentation, or AP |
Operational range | Scorpion I/II, 20+ km (12+ mi) from fixed wing, 12 km (7.5 mi) from rotor wing
Scorpion III, 60+ km (37+ mi) from fixed wing, 40+ km (25+ mi) from rotor wing |
| Speed | Supersonic, ~450 m/s (~ Mach 1.3) |
Guidance system | tri-mode seeker; millimeter-wave radar, laser, IR |
Launch platform | Fixed-wing aircraft Rotor-wing aircraft Ship-launched Vehicle-launched (mounted) |
The Scorpion Missile is a highly versatile, precision-guided missile developed for use by the Belfrasian Armed Forces. Designed to engage a wide range of targets, including armored vehicles, fast-moving targets, and small maritime vessels, the Scorpion has become a cornerstone of the Federation’s tactical strike capabilities. First introduced in the early 2000s, it remains a vital tool for close air support, deep strike missions, and naval operations.
The Scorpion’s development was spearheaded by the Federation to provide a multi-role missile capable of delivering precision strikes in complex combat environments. Unlike earlier systems, the Scorpion was engineered to be deployed from both aerial and ground platforms, offering unmatched operational flexibility. Its ability to engage targets with pinpoint accuracy while minimizing collateral damage made it a favored choice for urban and asymmetric warfare scenarios.
One of the missile’s standout features is its tri-mode seeker, which combines millimeter-wave radar, semi-active laser homing, and an uncooled infrared imaging sensor. This combination allows the Scorpion to engage targets autonomously or with guidance from an operator, making it highly effective in environments where GPS or communications may be degraded. Its seeker also enables the missile to track and engage moving targets, such as high-speed vehicles or small boats.
The Scorpion was initially deployed aboard the UFC Tempest multirole fighter, leveraging the aircraft’s advanced targeting systems to deliver precision strikes against hardened and mobile targets. Over time, its deployment expanded to include rotary-wing aircraft, unmanned aerial vehicles (UAVs), and ground-based platforms. This adaptability has ensured the missile’s relevance across a variety of combat scenarios, from close air support to deep penetration missions.
One of the Scorpion’s key advantages is its modularity. The missile’s design allows for multiple configurations, including tandem warheads for armored targets, fragmentation warheads for personnel and light vehicles, and a specialized anti-shipping variant. This modularity ensures the Scorpion can be tailored to meet the demands of specific missions, enhancing its operational effectiveness.
The missile’s propulsion system is another critical element of its design. Utilizing a solid-fuel rocket motor, the Scorpion achieves supersonic speeds, allowing it to reach targets quickly while maintaining low visibility to enemy air defenses. Its compact size and lightweight construction also make it compatible with a variety of launch systems, including rail-mounted launchers on aircraft and rotary-wing platforms.
Design
The Scorpion Missile System’s design emphasizes versatility, precision, and survivability. At its core is a lightweight, compact airframe constructed from advanced composite materials. These materials provide the missile with durability in adverse conditions while reducing its overall weight, enabling deployment from a wide range of platforms, including fixed-wing aircraft, helicopters, and ground-based systems.
One of the missile’s defining features is its tri-mode seeker. This advanced guidance system integrates millimeter-wave radar, semi-active laser homing, and infrared imaging. The millimeter-wave radar enables the Scorpion to operate in all-weather conditions, detecting and engaging targets even through smoke, dust, or other visual obstructions. The semi-active laser homing system provides precision targeting with support from ground or aerial designators, while the infrared imaging mode allows the missile to autonomously identify and track targets based on heat signatures.
The Scorpion’s warhead options further enhance its versatility. The standard configuration includes a tandem shaped-charge warhead, specifically designed to penetrate explosive reactive armor (ERA) on modern tanks. For missions involving light vehicles or personnel, the missile can be equipped with a fragmentation warhead, delivering a high-explosive payload optimized for area effects. An anti-shipping variant features an armor-piercing warhead designed to disable small to medium-sized naval vessels.
Propulsion for the Scorpion is provided by a solid-fuel rocket motor, delivering supersonic speeds with a low thermal signature. This propulsion system ensures rapid engagement while minimizing the missile’s detectability by enemy infrared-guided defenses. The motor’s efficiency also extends the missile’s operational range, allowing it to engage targets beyond visual range when deployed from aerial platforms.
The missile’s guidance and targeting systems are complemented by an advanced autopilot, which enables precise mid-course corrections and terminal-phase maneuvers. These capabilities ensure that the Scorpion remains accurate even in contested environments where GPS signals may be jammed or degraded. Real-time data links allow for in-flight retargeting, giving operators the flexibility to respond to dynamic battlefield conditions.
The Scorpion’s compact size and modular construction make it highly adaptable. At 1.8 meters (5.9 feet) in length and weighing approximately 50 kilograms (110 pounds), the missile can be deployed in large quantities on rail-mounted launchers, rotary-wing pylons, or ground-based systems. This flexibility ensures that the missile can be integrated across a wide range of platforms without extensive modifications.
Another key feature is the missile’s resistance to electronic warfare (EW). Its guidance systems are hardened against jamming and spoofing attempts, ensuring reliable performance in environments with advanced electronic countermeasures. This resilience makes the Scorpion particularly effective in modern battlefields, where EW capabilities are increasingly sophisticated.
The Scorpion’s modularity extends to its software, which can be upgraded to integrate next-generation technologies. Planned enhancements include AI-driven target identification, which will allow the missile to autonomously prioritize targets based on their threat level or strategic value. This capability is expected to significantly improve the missile’s effectiveness in complex, multi-target scenarios.
Maintenance and logistical support for the Scorpion have been streamlined to ensure high availability. The missile’s modular construction simplifies repairs and upgrades, while its compatibility with existing transport and storage systems reduces logistical complexity. These features contribute to the Scorpion’s reputation as a reliable and cost-effective weapon system.
The Scorpion Missile System’s design embodies a balance of precision, adaptability, and survivability. Its combination of advanced guidance systems, versatile warhead options, and robust construction ensures that it remains a critical asset for the Belfrasian Armed Forces and partner forces, capable of addressing the challenges of modern warfare.
Variants
- Scorpion I
- Original production model, designed for anti-armor operations with a tandem shaped-charge warhead.
- Scorpion II
- Upgraded seeker with enhanced infrared imaging and improved resistance to electronic warfare
- Scorpion III
- Extended-ranged variant with a lighter aiframe and more efficient propulsion system
- Scorpion AS
- Anti-shipping variant with an armor-piercing warhead optimized for small to medium naval targets
- Scorpion CM
- Variant for counter-material operations with a fragmentation warhead
