Gruening F5M Lynx: Difference between revisions

Jump to navigation Jump to search
No edit summary
No edit summary
Line 31: Line 31:
Originally designed and optimized for long-range air to air interception  of cruise missiles, bombers, and fighter aircraft, a need for long-range strike capabilities on naval aircraft became apparent, which saw later variants upgraded to become capable of precision bombing and reconnaissance via the Tactical Aircraft Navigation and Designation Module (TANDEM) pod. Following the collapse of the Air Force's Air Supremacy Initiative in the 1980s, the F5M was introduced as an interim solution to fill a gap in the air superiority field. Collaboration with the Navy and Air Forces in the 90s saw the introduction of the "Super Lynx", an enhanced design featuring leading edge extensions, integrated targeting and navigation systems, enhanced avionics and airframe construction, and a substantial enhancement in its mission profile with the ability to launch standoff air-to-ground munitions.
Originally designed and optimized for long-range air to air interception  of cruise missiles, bombers, and fighter aircraft, a need for long-range strike capabilities on naval aircraft became apparent, which saw later variants upgraded to become capable of precision bombing and reconnaissance via the Tactical Aircraft Navigation and Designation Module (TANDEM) pod. Following the collapse of the Air Force's Air Supremacy Initiative in the 1980s, the F5M was introduced as an interim solution to fill a gap in the air superiority field. Collaboration with the Navy and Air Forces in the 90s saw the introduction of the "Super Lynx", an enhanced design featuring leading edge extensions, integrated targeting and navigation systems, enhanced avionics and airframe construction, and a substantial enhancement in its mission profile with the ability to launch standoff air-to-ground munitions.


Currently, it serves as one of the mainline fighter aircraft of both services alongside the {{wpl|Boeing F/A-18E/F Super Hornet|F6M2 Wasp}}, where it remains ideally suited for air combat missions. Built around the {{wpl|AIM-54 Phoenix|MUA-55 Phoenix}} long-range air-to-air missile as its primary armament, it remains one of the most potent long-range interceptors in service, though it has been upgraded to be able to field the {{wpl|AIM-120 AMRAAM|MUA-120 SAIMS}} alongside the Wasp.
Currently, it serves as one of the mainline fighter aircraft of both services alongside the {{wpl|Boeing F/A-18E/F Super Hornet|F6M2 Wasp}}, where it remains ideally suited for air combat missions. Built around the {{wpl|AIM-54 Phoenix|MUA-55 Phoenix}} long-range air-to-air missile as its primary armament, it remains one of the most potent long-range interceptors in service, though it has been upgraded to be able to field the {{wpl|AIM-120 AMRAAM|MUA-120 CAIMS}} alongside the Wasp.




Line 39: Line 39:


==Design==
==Design==
[[File:CRAFDrago2005.jpg|thumb|left|250px|A Cacertian AFASF-12A inflight with engines on full afterburner.]]
 
[[File:F14 pancake.jpg|thumb|left|250px|Rear view of an F5M2 Lynx circa 1987, showing the area between the engine mounts.]]
 
The F5M was designed based both on experience flying the F4M Spectre as a naval fighter, and on perceived needs of the carrier air wing in conducting force projection and self-defense operations. Seeing the threat of missile-armed bomber flights as an emerging threat towards the carrier group, the F5M was designed with long range and an air-to-air focus in mind while ground attack missions would be relegated to the F4, a role in which it had proved itself more than capable of performing. Like the F4M, the F5M was designed around a two-crew design with a pilot and radar intercept officer deemed better able to manage air intercepts.
 
A number of emerging technologies were included in its design, chief among those its variable geometry wings, which move forward for slower flight and move rearward for faster supersonic flight. It included a number of innovative control surfaces to improve its low-speed handling, which was necessary for carrier operations. Originally it was powered by a pair Altern MG-410 afterburning turbofan engines, which proved to be prone to compressor stall incidents at high angles of attack, and was later replaced by Hollon FT80 engines, which provided a substantial increase in both reliability and performance. Both engines are supplied with rectangular intakes equipped with movable ramps, bleed doors and other such functions. Landing gear is provided in a tricycle arrangement, and is reinforced for carrier landings.
 
The Lynx's weapons system was based around the utilization of the TAI-81 X band pulse-doppler radar, the first in use capable of launching using {{wpl|track while scan}}; and the {{wpl|AIM-54 Phoenix|MUA-55 Phoenix}} missile, a very long range air to air missile intended for intercepting targets at ranges in excess of 100 nautical miles. Utilizing the Phoenix for long-range intercepts and the {{wpl|AIM-7 Sparrow|MUA-7 Falcon}} for escort and air intercept missions. From the outset it was armed with the {{wpl|M61 Vulcan|Mark 40 20mm cannon}} in a nose mount with 600 rounds of ammunition. The Lynx carries a radar warning receiver, chaff, flare, and models from the F5M4 and later are integrated with electronics countermeasures systems to defend against incoming missiles.
 
The Lynx was a pioneering development in pilot interface in Meridonian fighter craft, including the first multi-function HUD, hands-on throttle and stick (HOTAS), early multifunction displays,
 
Lynx models from the F5M6 and later improve multiple structural and


The AFASF-12 has an all-metal semi-monocoque fuselage possessing broad aerodynamic similarities to the earlier [[NSF-12 Albatro Strike Fighter|NSF-12 ''Albatro'']]. It has mid-mounted swept wings with blended leading-edge root extensions swept at approximately 40°. A pair of tailplanes and vertical fins are mounted on booms outboard of the engines. Automatic, five-segmented slates are mounted on the leading of the wings with maneuvering flaps and wingtip ailerons mounted on the trailing edges. The boron-composite skin used in the construction of the Drago gives the aircraft very high heat resistance as well as exceptionally thin wing edges.
The AFASF-12 has an all-metal semi-monocoque fuselage possessing broad aerodynamic similarities to the earlier [[NSF-12 Albatro Strike Fighter|NSF-12 ''Albatro'']]. It has mid-mounted swept wings with blended leading-edge root extensions swept at approximately 40°. A pair of tailplanes and vertical fins are mounted on booms outboard of the engines. Automatic, five-segmented slates are mounted on the leading of the wings with maneuvering flaps and wingtip ailerons mounted on the trailing edges. The boron-composite skin used in the construction of the Drago gives the aircraft very high heat resistance as well as exceptionally thin wing edges.
Line 60: Line 71:


==Operational History==
==Operational History==
[[File:RIAFDrago2009.jpg|thumb|right|250px|A Ruvelkan AFASF-12K during the Zemplen War.]]
[[File:F5M7_1.png|thumb|left|250px|A pair of Navy Super Lynxes conducting a mission in Cerdania, armed with GUB-15 guided bombs and MUA-120 CAIMS air-to-air missiles.]]
 
Dragos have been involved in several modern conflicts since their introduction, first seeing action in [[Knichus]] during the [[FedCom Civil War]] primarily serving as combat escorts for Cacertian ground attack aircraft—they did not engage in direct air-to-air dogfights.
 
The first major deployment of Dragos in their intended combat role was during the short, six-day [[Imerti Conflict]] in which [[Ruvelkan Imperial Air Force]] Dragos fought several—though inconclusive—skirmishes against Syaran Zephyr fighters.
 
The [[Zemplen War]] saw Ruvelka’s air force pitted directly against the [[Commonality Air Force]] in the [[Aerial warfare of the Zemplen War|largest air-to-air conflict in modern history]]. As the main fighter aircraft of Ruvelka, the Drago's primary competition was the Syaran [[Zephyr]].
 
While the Drago's maneuverability, especially within visual range, and higher speed gave it an edge in dog-fighting, early efforts at air-to-air combat were hampered by Ruvelkan reliance on pilot guidance by ground controllers. As Ruvelkan forces were forced to fall back throughout 2008, the loss of forward airbases and radar stations resulted in the Ruvelkan air force abandoning the ground guidance element and focusing on aerial command and control.


Taking advantage of their numerical superiority (although the CAF outnumbered the RIAF in total aircraft, the Ruvelkans fielded more fighters) Ruvelkan Drago Squadrons began employing a tactic called "kürt fészek" (hornet nest), avoiding one-on-one engagements with Syaran Zephyrs and forcing combat at close range to maximize their maneuverability. The Ruvelkans continuously refined and expanded their Drago fleet during the war, and their heavy usage of complex, rapid maneuvers earned the aircraft the nickname of "балерина" (ballerina) by Syaran pilots.


During the [[Arzell Crisis]], the [[Imperial Shalumite Air Force]] placed their Dragos on standby although the resolution to the conflict came before they were sortied.
The Drago entered serialized production in Cacerta in 1983 and has remained in continuous production ever since. The original variant of the AFASF-12 ceased production in the mid-1990s, but the newer and upgraded variants for both Cacerta and its clients continues. With over 2,300 units produced between Cacerta and licensed nations, the Drago is one of the most produced air-superiority fighters in the region.


==Variants==
==Variants==
;AFASF-12
;F5M
:The initial production version that entered service with the Royal Air Fleet in 1983. Following an upgrade and refit program (which resulted in the AFASF-12A) in the mid-1990s, only a handful of examples of the original version of the Drago currently exist, most of which are listed in the Air Fleet’s reserve or are preserved in museums.
:The initial production version that entered service with the Royal Air Fleet in 1983. Following an upgrade and refit program (which resulted in the AFASF-12A) in the mid-1990s, only a handful of examples of the original version of the Drago currently exist, most of which are listed in the Air Fleet’s reserve or are preserved in museums.


;AFASF-12E
;F5M2
:The AFASF-12E ('''''E'''''sportazione) is the export variant of the original Drago. Many of the features remain the same between the original and the export, the only differences being a commercial variant, and not the Air Fleet standard, radar and electronic suite.
:The AFASF-12E ('''''E'''''sportazione) is the export variant of the original Drago. Many of the features remain the same between the original and the export, the only differences being a commercial variant, and not the Air Fleet standard, radar and electronic suite.


;AFASF-12A
;F5M3
:In 1993, Ersilia began a program designed to upgrade the systems of the Drago to modern standards and equipment; the final product was designated as the AFASF-12A ('''''A'''''ggiornamento). A number of flight control improvements provided better stability and controllability as well as an improved mechanical-hydraulic flight control system. The package also included a new radar and ECM system as well as the ability for the Drago to carry underwing and centerline drop tanks for increased range. The AFASF-12A was the first of the Drago family capable of engaging ground targets, although its overall focus was still air-to-air dominance.
:In 1993, Ersilia began a program designed to upgrade the systems of the Drago to modern standards and equipment; the final product was designated as the AFASF-12A ('''''A'''''ggiornamento). A number of flight control improvements provided better stability and controllability as well as an improved mechanical-hydraulic flight control system. The package also included a new radar and ECM system as well as the ability for the Drago to carry underwing and centerline drop tanks for increased range. The AFASF-12A was the first of the Drago family capable of engaging ground targets, although its overall focus was still air-to-air dominance.


;AFASF-12EA
;F5M4
:Ersilia offered a limited upgrade program to its export customers in 1998 following the success and release of the AFASF-12A designated as the AFASF-12EA ('''''E'''''sportazione '''''A'''''ggiornata). Many of the improvements that were installed on the As were included in the package, however the radar and electronic suits were once again commercial and not the Air Fleet’s standard.
:Ersilia offered a limited upgrade program to its export customers in 1998 following the success and release of the AFASF-12A designated as the AFASF-12EA ('''''E'''''sportazione '''''A'''''ggiornata). Many of the improvements that were installed on the As were included in the package, however the radar and electronic suits were once again commercial and not the Air Fleet’s standard.


;AFASF-12NG
;F5M5
:The lack of air-to-air engagements in the modern era resulted in the creation of the newer AFASF-12NG ('''''N'''''uova '''''G'''''enerazione).  Originally, the NGs (later nicknamed Drago IIs) were simply further upgraded AFASF-12As with expanded ground attack capabilities. As of 2008, however, the AFASF-12NG entered its own serialized production and NGs that are now entering service are considered brand new aircraft.
:The lack of air-to-air engagements in the modern era resulted in the creation of the newer AFASF-12NG ('''''N'''''uova '''''G'''''enerazione).  Originally, the NGs (later nicknamed Drago IIs) were simply further upgraded AFASF-12As with expanded ground attack capabilities. As of 2008, however, the AFASF-12NG entered its own serialized production and NGs that are now entering service are considered brand new aircraft.


;AFASF-12K
;F5M6
:The AFASF-12K ('''''K'''''orszerűsített) is a Ruvelkan-developed variant improving on the original AFASF-12EAs purchased from Cacerta. The aircrafts' performance during the [[Zemplen War]] affected further development of Ruvelka's air-superiority program and the native Ruvelkan design began deployment in late 2008. New precision-guided targeting capabilities and a uniquely designed optical locator system relieves the Ruvelkan AFASF-12EAs from their reliance on ground-control interception systems. These systems allow the AFASF-12K to conduct its missions independently.
:The AFASF-12K ('''''K'''''orszerűsített) is a Ruvelkan-developed variant improving on the original AFASF-12EAs purchased from Cacerta. The aircrafts' performance during the [[Zemplen War]] affected further development of Ruvelka's air-superiority program and the native Ruvelkan design began deployment in late 2008. New precision-guided targeting capabilities and a uniquely designed optical locator system relieves the Ruvelkan AFASF-12EAs from their reliance on ground-control interception systems. These systems allow the AFASF-12K to conduct its missions independently.
;F5M7


==Operators==
==Operators==
===Current Operators===
===Current Operators===
* {{flag|Meridon}}; [[Cacertian Royal Air Fleet]]—776 in service as of September 2018. The Drago and newer Drago IIs form the backbone of the Air Fleet’s fighter inventory.
* {{flag|Meridon}}- 662 in service of F5M6 and F5M7 variants across both Air Forces and Navy.




Line 103: Line 104:




==Specifications (AFASF-12NG)==
==Specifications (F5M7)==
[[File:AFASF12DragoBlueprint.png|thumb|right|300px|Ersilia AFASF-12 line drawing.]]
[[File:F14 Schematics.jpg|thumb|right|300px|F5M, F5M2, F5M3, F5M4, and F5M5 Lynx model airframe.]]
[[File:F5M7_schematic.png|thumb|right|300px|F5M6 and F5M7 Lynx airframe.]]


===General Characteristics===
===General Characteristics===
* '''Crew:''' 1
* '''Crew:''' 2
* '''Length:''' 17.37 m (57 ft)
* '''Length:''' 62 ft 9 in (19.13m)
* '''Wingspan:''' 11.4 m (37 ft 5 in)
* '''Wingspan:''' 64 ft 1.5 in (19.545 m)
* '''Height:''' 4.73 m (15 ft 6 in)
* '''Swept wingspan:''' 38 ft 2.5 in (11.646 m) swept
* '''Wing Area:''' 38 m² (409 ft²)
* '''Height:''' 16 ft (4.9 m)
* '''Empty Weight:''' 13,380 kg (29,500 lbs)
* '''Wing Area:''' 565 sq ft (52.5 m2) wings only
* '''Loaded Weight:''' 19,200 kg (42,330 lbs)
* '''Empty Weight:''' 45,624 lb (20,694 kg)
* '''Max Takeoff Weight:''' 26,500 kg (58,420 lbs)
* '''Max Takeoff Weight:''' 76,820 lb (34,844 kg)
* '''Powerplant:''' 2 × EDA-2010 afterburning turbofans
* '''Powerplant:''' 2 × Hollon FT80E afterburning turbofans
* '''Fuel Capacity:''' 6,400 kg (14,109 lbs)
* '''Fuel Capacity:''' 17,000lb internal, 2x optional 267gal (1,756lb/797kg) external tanks


===Performance===
===Performance===
* '''Maximum Speed:''' Mach 2.25 (2,100 km/h, 1,310 mph) at altitude
* '''Maximum Speed:''' Mach 2.41 (2,975 km/h, 1,849 mph) at altitude
* '''Cruise Speed:''' 1,960 km/h (1,220 mph)
* '''Service Ceiling:''' 55,000 ft (16,764 m) +
* '''Service Ceiling:''' 16,200 m (>53,000 ft)
* '''Rate of Climb:''' 45,000 ft/min plus (230 m/s)
* '''Rate of Climb:''' 330 m/s (65,000 ft/min)
* '''Wing Loading:''' 96 lb/sq ft (470 kg/m2)
* '''Wing Loading:''' 442 kg/(90.5 lb/ft²)
* '''Thrust/Weight:''' 1.14, clean configuration, 50*
* '''Thrust/Weight:''' 1.02


===Armament===
===Armament===
* '''Guns:''' 1 × 30 mm cannon with 150 rounds
* '''Guns:''' 1 × {{wpl|M61 Vulcan| Mark 40 20mm cannon}} with 600 rounds
* '''Payload:''' 5,500 kg (12,100 lb) on 8 external hardpoints (8 underwing)
* '''Payload:''' 10 hardpoints total: 4 between engine fairing, 2 under engine nacelle, 2 per wing glove (1 wing glove per wing) with capacity of 15,000lbs (6,803 kg) of munition to carry the following:


==See Also==
==See Also==

Revision as of 20:09, 17 January 2023

Gruening F5M Lynx
ST21.png
A pair of Meridonian Navy F5M7s of the High Spades conducting an overhead break at MNAS Marin Bay.
Role Air superiority fighter
Multirole fighter
National origin  Meridon
Manufacturer Gruening Defense Aerospace
First flight 14 August 1970
Introduction 2 February 1974
Status In active service
Primary user MNFlag.png Meridonian Navy
Produced 1969-present
Number built 924
Unit cost
86.2 million MD (F5M7)

The Gruening F5M Lynx is a Meridonian carrier-capable, supersonic, twin engine, two seat, twin tail, variable sweep jet fighter. Originally designed for the Meridonian Navy to supplement and eventually replace the F4M Spectre in an air superiority fighter and interceptor role, it has been significantly developed and upgraded since its initial introduction to compose a major part of the tactical aircraft of both the Navy and the Template:Meridonian Air Forces, where it has been made capable of multirole missions.

Originally designed and optimized for long-range air to air interception of cruise missiles, bombers, and fighter aircraft, a need for long-range strike capabilities on naval aircraft became apparent, which saw later variants upgraded to become capable of precision bombing and reconnaissance via the Tactical Aircraft Navigation and Designation Module (TANDEM) pod. Following the collapse of the Air Force's Air Supremacy Initiative in the 1980s, the F5M was introduced as an interim solution to fill a gap in the air superiority field. Collaboration with the Navy and Air Forces in the 90s saw the introduction of the "Super Lynx", an enhanced design featuring leading edge extensions, integrated targeting and navigation systems, enhanced avionics and airframe construction, and a substantial enhancement in its mission profile with the ability to launch standoff air-to-ground munitions.

Currently, it serves as one of the mainline fighter aircraft of both services alongside the F6M2 Wasp, where it remains ideally suited for air combat missions. Built around the MUA-55 Phoenix long-range air-to-air missile as its primary armament, it remains one of the most potent long-range interceptors in service, though it has been upgraded to be able to field the MUA-120 CAIMS alongside the Wasp.


Development

Design

Rear view of an F5M2 Lynx circa 1987, showing the area between the engine mounts.

The F5M was designed based both on experience flying the F4M Spectre as a naval fighter, and on perceived needs of the carrier air wing in conducting force projection and self-defense operations. Seeing the threat of missile-armed bomber flights as an emerging threat towards the carrier group, the F5M was designed with long range and an air-to-air focus in mind while ground attack missions would be relegated to the F4, a role in which it had proved itself more than capable of performing. Like the F4M, the F5M was designed around a two-crew design with a pilot and radar intercept officer deemed better able to manage air intercepts.

A number of emerging technologies were included in its design, chief among those its variable geometry wings, which move forward for slower flight and move rearward for faster supersonic flight. It included a number of innovative control surfaces to improve its low-speed handling, which was necessary for carrier operations. Originally it was powered by a pair Altern MG-410 afterburning turbofan engines, which proved to be prone to compressor stall incidents at high angles of attack, and was later replaced by Hollon FT80 engines, which provided a substantial increase in both reliability and performance. Both engines are supplied with rectangular intakes equipped with movable ramps, bleed doors and other such functions. Landing gear is provided in a tricycle arrangement, and is reinforced for carrier landings.

The Lynx's weapons system was based around the utilization of the TAI-81 X band pulse-doppler radar, the first in use capable of launching using track while scan; and the MUA-55 Phoenix missile, a very long range air to air missile intended for intercepting targets at ranges in excess of 100 nautical miles. Utilizing the Phoenix for long-range intercepts and the MUA-7 Falcon for escort and air intercept missions. From the outset it was armed with the Mark 40 20mm cannon in a nose mount with 600 rounds of ammunition. The Lynx carries a radar warning receiver, chaff, flare, and models from the F5M4 and later are integrated with electronics countermeasures systems to defend against incoming missiles.

The Lynx was a pioneering development in pilot interface in Meridonian fighter craft, including the first multi-function HUD, hands-on throttle and stick (HOTAS), early multifunction displays,

Lynx models from the F5M6 and later improve multiple structural and

The AFASF-12 has an all-metal semi-monocoque fuselage possessing broad aerodynamic similarities to the earlier NSF-12 Albatro. It has mid-mounted swept wings with blended leading-edge root extensions swept at approximately 40°. A pair of tailplanes and vertical fins are mounted on booms outboard of the engines. Automatic, five-segmented slates are mounted on the leading of the wings with maneuvering flaps and wingtip ailerons mounted on the trailing edges. The boron-composite skin used in the construction of the Drago gives the aircraft very high heat resistance as well as exceptionally thin wing edges.

It was originally powered by a pair of EDA-78 turbofan engines with afterburners which are widely in comparison to its contemporaries; the space between the engines generates lift, reducing wing loading and improving maneuverability. Since 2010, most Dragos in Cacertian service have been upgraded to newer and significantly more fuel-efficient EDA-2010 turbofan engines. Both engines are fed by rectangular inlets equipped with variable intake ramps and, as an adaptation for rough-field operations, these ramps can be closed completely to prevent ingestion of ground debris. When the main intake ramps are closed, louvers on the upper fuselage are automatically opened and allow the engines to receive air through their auxiliary inlets.

The cockpit of the Drago is high-mounted and equipped with a bubble canopy that gives it increased visibility in comparison to previous Cacertian-designed fighters. The avionics systems includes a heads-up display, advanced radar, inertial guidance system, flight instruments, ultra high frequency communications, an advanced air navigation system, and instrument landing receivers.

An integrated helmet mounted display projects all essential fight information gathered by the integrated avionics and is visible to the pilot in any light condition. This allows operators to track and destroy enemy aircraft without the necessity of looking down at cockpit instruments.

Gylian Air Self-Defense Force AFASF-12EA.

The Drago is equipped with an advanced pulse-doppler radar that allows the aircraft to look up at high-flying targets as well as look-down at low-flying targets without confusing ground clutter. Despite the fact the Drago was more purposefully designed as a low-to-mid altitude dogfighter, it is equipped with radars capable of tracking targets beyond visual range.

The armament for a Drago often varies depending on its mission profile. As a dedicated air superiority fighter, this primarily focused on medium range air-to-air missiles, but as newer variants of the Drago were developed, this would later expand to also include multi-mission munitions. The Drago is equipped with eight external pylons, four under each wing. A single 30mm cannon with a 150-round magazine is located in the port wing root.

Since their introduction in 1983, the Drago has undergone a number of upgrades to improve performance and expand its capabilities. As of 2008, the majority of Dragos in service with the Cacertian Royal Air Fleet have been overhauled with newer hardware and sensors, which greatly increased a pilot’s situational awareness, as well as a new radar capable of provided instantaneous updates and enhanced multitarget tracking.

Dragos in Ruvelkan service saw extensive modifications and upgrades during their action in the Zemplen War. Designated AFASF-12Ks, the domestically developed Ruvelkan Dragos possess precision-guided targeting and an enhanced optical locator system that allows Ruvelkan Dragos to operate independently of ground-control interception. Among other upgrades, several Ruvelkan Dragos were later equipped with low-drag conformal fuel tanks which greatly increased their operational range for increased aerodynamic drag.

Operational History

A pair of Navy Super Lynxes conducting a mission in Cerdania, armed with GUB-15 guided bombs and MUA-120 CAIMS air-to-air missiles.


Variants

F5M
The initial production version that entered service with the Royal Air Fleet in 1983. Following an upgrade and refit program (which resulted in the AFASF-12A) in the mid-1990s, only a handful of examples of the original version of the Drago currently exist, most of which are listed in the Air Fleet’s reserve or are preserved in museums.
F5M2
The AFASF-12E (Esportazione) is the export variant of the original Drago. Many of the features remain the same between the original and the export, the only differences being a commercial variant, and not the Air Fleet standard, radar and electronic suite.
F5M3
In 1993, Ersilia began a program designed to upgrade the systems of the Drago to modern standards and equipment; the final product was designated as the AFASF-12A (Aggiornamento). A number of flight control improvements provided better stability and controllability as well as an improved mechanical-hydraulic flight control system. The package also included a new radar and ECM system as well as the ability for the Drago to carry underwing and centerline drop tanks for increased range. The AFASF-12A was the first of the Drago family capable of engaging ground targets, although its overall focus was still air-to-air dominance.
F5M4
Ersilia offered a limited upgrade program to its export customers in 1998 following the success and release of the AFASF-12A designated as the AFASF-12EA (Esportazione Aggiornata). Many of the improvements that were installed on the As were included in the package, however the radar and electronic suits were once again commercial and not the Air Fleet’s standard.
F5M5
The lack of air-to-air engagements in the modern era resulted in the creation of the newer AFASF-12NG (Nuova Generazione). Originally, the NGs (later nicknamed Drago IIs) were simply further upgraded AFASF-12As with expanded ground attack capabilities. As of 2008, however, the AFASF-12NG entered its own serialized production and NGs that are now entering service are considered brand new aircraft.
F5M6
The AFASF-12K (Korszerűsített) is a Ruvelkan-developed variant improving on the original AFASF-12EAs purchased from Cacerta. The aircrafts' performance during the Zemplen War affected further development of Ruvelka's air-superiority program and the native Ruvelkan design began deployment in late 2008. New precision-guided targeting capabilities and a uniquely designed optical locator system relieves the Ruvelkan AFASF-12EAs from their reliance on ground-control interception systems. These systems allow the AFASF-12K to conduct its missions independently.
F5M7

Operators

Current Operators

  •  Meridon- 662 in service of F5M6 and F5M7 variants across both Air Forces and Navy.


Former Operators

Specifications (F5M7)

F5M, F5M2, F5M3, F5M4, and F5M5 Lynx model airframe.
F5M6 and F5M7 Lynx airframe.

General Characteristics

  • Crew: 2
  • Length: 62 ft 9 in (19.13m)
  • Wingspan: 64 ft 1.5 in (19.545 m)
  • Swept wingspan: 38 ft 2.5 in (11.646 m) swept
  • Height: 16 ft (4.9 m)
  • Wing Area: 565 sq ft (52.5 m2) wings only
  • Empty Weight: 45,624 lb (20,694 kg)
  • Max Takeoff Weight: 76,820 lb (34,844 kg)
  • Powerplant: 2 × Hollon FT80E afterburning turbofans
  • Fuel Capacity: 17,000lb internal, 2x optional 267gal (1,756lb/797kg) external tanks

Performance

  • Maximum Speed: Mach 2.41 (2,975 km/h, 1,849 mph) at altitude
  • Service Ceiling: 55,000 ft (16,764 m) +
  • Rate of Climb: 45,000 ft/min plus (230 m/s)
  • Wing Loading: 96 lb/sq ft (470 kg/m2)
  • Thrust/Weight: 1.14, clean configuration, 50*

Armament

  • Guns: 1 × Mark 40 20mm cannon with 600 rounds
  • Payload: 10 hardpoints total: 4 between engine fairing, 2 under engine nacelle, 2 per wing glove (1 wing glove per wing) with capacity of 15,000lbs (6,803 kg) of munition to carry the following:

See Also

Retrieved from "https://iiwiki.us/mediawiki/index.php?title=Gruening_F5M_Lynx&oldid=603337"