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Saab 37 Viggen

January 01, 1970

"Viggen" and "Saab Viggen" redirect here. For the car, see Saab 9-3 § Saab 9-3 Viggen.

The Saab 37 Viggen (The Tufted Duck, ambiguous with The Thunderbolt)[3] is a single-seat, single-engine multirole combat aircraft designed and produced by the Swedish aircraft manufacturer Saab.[1] It was the first canard-equipped aircraft to be produced in quantity[4] and the first to carry an airborne digital central computer with integrated circuits for its avionics, arguably making it the most modern/advanced combat aircraft in Europe at the time of introduction. The digital central computer was the first of its kind in the world, automating and taking over tasks previously requiring a navigator/copilot, facilitating handling in tactical situations where, among other things, high speeds and short decision times determined whether attacks would be successful or not, a system not surpassed until the introduction of the Panavia Tornado into operational service in 1981.[5]

Saab 37 Viggen
A SK 37 Viggen in flight
Role Multirole combat aircraft[1]
National origin Sweden
Manufacturer Saab AB
First flight 8 February 1967
Introduction 21 June 1971 (AJ 37)
Retired 26 June 2007 (SK 37E)
Primary user Swedish Air Force
Produced 1970–1990[2]
Number built 329[2]

Development work begun during the early 1950s to develop a successor to the Saab 32 Lansen in the attack role, as well as to the Saab 35 Draken as a fighter. Saab's design team opted for a relatively radical delta wing configuration, as well as to produce the aircraft as a integrated weapon system that operated in conjunction with Sweden's STRIL-6 national electronic air defense system. It was also designed to be operated from runways as short as 500 meters. Work was aided by the "37-annex" under which Sweden could access advanced U.S. aeronautical technology to accelerate both design and production.[6] The aircraft's aerodynamic design was finalised in 1963. The prototype performed its maiden flight on 8 February 1967 and the following year the Swedish government ordered an initial batch of 175 Viggens. The first of these entered service with the Swedish Air Force on 21 June 1971.

Even as the initial AJ 37 model entered service, Saab was actively working on further variants of the Viggen. Accordingly, several distinct variants of the Viggen would be produced to perform the roles of fighter bomber/strike fighter (AJ 37), aerial reconnaissance (SF 37), maritime patrol/anti-surface (SH 37) and a two-seat trainer (Sk 37). During the late 1970s, the all-weather interceptor/strike fighter JA 37 variant was introduced. Attempts to export the Viggen to other nations were made, but ultimately proved unsuccessful. In November 2005, the last Viggens were withdrawn from service by the Swedish Air Force, its only operator; by this point, it had been replaced by the newer and more advanced Saab JAS 39 Gripen.

Name edit

Viggen is the definite form of the Swedish word vigg, which has two meanings. According to Saab, the aircraft's name alluded to both.

The first meaning refers to the Swedish name for the tufted duck, a small diving duck common in Sweden. In this sense, it serves as a reference to the aircraft's canard configuration, as "canard" is French for duck.

Vigg is also åskvigg, or "thunderbolt" (thunder wedge), stemming from the thunderstones of Nordic folklore, called "åskviggar", said to come from the lightning strikes of Norse god Thor when he hunted giants with his war hammer, Mjölnir.[7]

Development edit

Origins edit

The Viggen was initially developed as an intended replacement for the Saab 32 Lansen in the attack role and later the Saab 35 Draken as a fighter.[8][9] In 1955, as Saab's prototype Draken, the most aerodynamically advanced fighter in the world at that point, performed its first flight, the Swedish Air Force was already forming a series of requirements for the next generation of combat aircraft; due to the challenging nature of these requirements, a lengthy development time was anticipated, with the first flight intended to be no earlier than the middle of the next decade.[10][11] Between 1952 and 1957, the first studies towards what would become the Viggen were carried out, involving the Finnish aircraft designer Aarne Lakomaa. Over 100 different concepts were examined in these studies, involving both single- and twin engine configurations, both traditional and double delta wings, and canard wings. Even VTOL designs were considered, with separate lift engines, but were soon identified as being unacceptable.[8][11][12]

From the onset, the Viggen was planned as an integrated weapon system, to be operated in conjunction with the newest revision of Sweden's national electronic air defense system, STRIL-60. It was used as the nation's standard platform, capable of being efficiently adapted to perform all tactical mission roles.[10] Other requirements included supersonic ability at low level, Mach 2 performance at altitude, and the ability to make short landings at low angles of attack (to avoid damaging improvised runways). The aircraft was also designed from the beginning to be easy to repair and service, even for personnel without much training.[13][14]

One radical requirement of the proposed aircraft was the ability for it to be operated from relatively short runways only 500 meters long; this was part of the Bas 60 air base system that had been introduced by the Swedish Air Force in the late 1950s. Bas 60 revolved around force dispersal of aircraft across many wartime air bases, including road runways acting as backup runways.[15][16][17] Utilizing partially destroyed runways was another factor that motivated STOL capability. Bas 60 was developed into Bas 90 in the 1970s and 1980s, and included short runways only 800 meters in length.[18] Enabling such operations imposed several critical demands upon the design, including a modest landing speed, no-flare touchdown, powerful post-landing deceleration, accurate steering even in crosswinds on icy surfaces, and high acceleration on take-off.[10]

In 1960, the U.S. National Security Council, led by President Eisenhower, formulated a security guarantee for Sweden, promising U.S. military help in the event of a Soviet attack against Sweden; both countries signed a military-technology agreement. In what was known as the "37-annex", Sweden was allowed access to advanced U.S. aeronautical technology that made it possible to design and produce the Viggen much faster and more cheaply than would otherwise have been possible.[6] According to research by Nils Bruzelius at the Swedish National Defence College, the reason for this officially unexplained U.S. support was to protect U.S. Polaris submarines deployed just outside the Swedish east coast against the threat of Soviet anti-submarine aircraft.[6] However, Bruzelius' theory has been discredited by Simon Moores and Jerker Widén.[19] The connection also appears doubtful due to the time scale – the Viggen's strike version only became operational in 1971, and the fighter version in 1978, by which time Polaris had already been retired.[citation needed]

Project launch edit

In December 1961, the Swedish government gave its approval for the development of Aircraft System 37, which would ultimately become the Viggen.[9] By 1962, all elements for the project either existed or were close to fully developed; these included the aircraft itself, the powerplant, ejector seat, armaments, reconnaissance systems, ground servicing equipment, and training equipment such as simulators.[10] In February 1962, approval of the overall configuration was given and was followed by a development contract in October 1962.[11] According to aviation authors Bill Gunston and Peter Gilchrist, the project was "by far the largest industrial development task ever attempted in Sweden".[20] During the 1960s, the Viggen accounted for 10 per cent of all Swedish R&D funding.[21]

In 1963, Saab finalized the aerodynamic design of the aircraft; the aerodynamic configuration was radical: it combined an aft-mounted double delta wing with a small, high-set canard foreplane, equipped with powered trailing flaps mounted ahead of and slightly above the main wing; this would be judged to be the best means to satisfy the conflicting demands for STOL performance, supersonic speed, low turbulence sensitivity at low level flight, and efficient lift for subsonic flight.[9][22] Canard aircraft have since become common in fighter aircraft, notably with the Eurofighter Typhoon, Dassault Rafale, Saab JAS 39 Gripen and the IAI Kfir, but principally for the purposes of providing agility during flight rather than for its STOL capabilities.[12][23] Further aerodynamic refinements during the later stage of development included the addition of dog-tooth patterns upon the main wing to generate vortices, allowing for the elimination of blown flaps from the canard. The use of a thrust reverser enabled the sought short landing performance.[22][24]

 
AJS 37 Viggen on display at the Swedish Air Force Museum, Linköping

During development, Saab had opted to power the type using a single large turbofan engine. Originally, the British Rolls-Royce Medway engine had been selected to power the Viggen, which was then considered to be ideal for the basis for a supersonic engine equipped with a fully modulated afterburner; however, development of the Medway engine was cancelled due to the intended launch aircraft, the de Havilland Trident, being downsized during development.[22] In place of the Medway, Saab chose to adopt a licence-production version of the American Pratt & Whitney JT8D engine, the Volvo RM8, instead. The RM8 was heavily redesigned, using new materials to accommodate flight at Mach-2 speeds, a Swedish-built afterburner, and a fully variable nozzle.[22]

During 1964, construction of the first prototype aircraft commenced; on 8 February 1967, the first of an eventual seven prototypes conducted its maiden flight, which had occurred as per the established development schedule.[25][26][27] This first flight, which lasted for 43 minutes, was flown by Erik Dahlström, Saab's chief test pilot, who reported the prototype to have been easy to handle throughout. Writing at the time, aerospace publication Flight International described the flight as having been "Sweden's astonishing unilateral stand in the front rank of advanced aircraft-building nations..."[26]

Each of the seven prototypes were assigned different roles, although the initial aircraft were focused on supporting the development of the initial production variant, the AJ37.[28] In 1967, the Swedish Government concluded that the in-development AJ 37 Viggen would be both cheaper than and superior to the McDonnell Douglas F-4 Phantom II.[29] In April 1968, the Swedish government formally issued the authorization for manufacturing of the Viggen to proceed, issuing an order for 175 Viggens that year.[30][31] Also in 1968, Saab began work on the Viggen's maritime reconnaissance and photo reconnaissance variants.[31] In May 1969, the Viggen made its first public appearance outside of Sweden at the Paris Air Show.[32] On 23 February 1971, the first production aircraft, an AJ37 model, conducted its first flight.[2] In July 1971, the first production aircraft was delivered to the Swedish Air Force.[30][33]

Further development edit

 
An SF 37 Viggen in flight, 1977

As the initial AJ 37 Viggen was being introduced to service, further variants of the Viggen proceeded to complete development and enter production.[34] In 1972, the first SK 37, an operational trainer variant with a staggered second canopy for an instructor, was delivered to the Swedish Air Force.[4][35] On 21 May 1973, the first prototype of SF 37 Viggen, a tactical reconnaissance variant featuring a modified nose to accommodate seven sensors, conducted its first flight.[36]

While other variants entered production during the 1960s, Saab continued the development of the more capable all-weather interceptor version of the aircraft, the JA 37. In 1970, Sweden's air defenses had been closely inspected and it was determined that the prospective JA 37 Viggen was highly suited to the role.[29] In 1972, the Swedish government authorized the development of the fighter-interceptor variant to proceed, which was followed by several major contracts for the JA 37's further development.[31] A total of five prototypes would be produced, four of which being modified AJ 37s and one being a sole pre-production JA 37 model, to test the control systems, engine, avionics, and armaments respectively.[29] In June 1974, the first of these prototypes conducted its maiden flight; later that year, an initial order for 30 JA 37s was issued by the Swedish government.[29]

The JA 37 Viggen featured various changes from its predecessor, including revisions to the design of the airframe, the use of the more powerful RM8B powerplant, a new generation of electronics being adopted, and a revised armament configuration employed; the principal externally visible changes from most earlier variants were a taller tailfin and the underfuselage gunpack arrangement.[4][12][37] The JA 37, in addition to its principal aerial combat mission, also retained a secondary ground-attack capability, and was better suited to low-level operations.[29][38] In November 1977, the first production JA 37 Viggen conducted its maiden flight.[39] Operational trials for the new variant were conducted between January and December 1979, which resulted in the type being introduced to operational service that year.[39][40] According to Flight International, at the time of the JA 37's introduction, it was the most advanced European fighter then in service.[12]

 
JA 37 Viggen at the Royal International Air Tattoo 1993

In April 1964, the Swedish government revealed its budget proposal for the Swedish Air Force, in which it had been envisioned that 800 or more Viggens would be produced, which was in turn intended to allow all other combat aircraft then in service with the Swedish Air Force to be replaced with this single type.[41] However, a combination of inflation and other factors eventually reduced the total number of aircraft manufactured to 329.[2] By 1980, up to 149 JA 37 Viggens were projected to be built, and the line to be closed within the decade as the Swedish aerospace industry changed focus to the impending Saab JAS 39 Gripen, the Viggen's eventual replacement.[12] Over time, advances in computing, such as the microprocessor, had enabled greater flexibility than the physical configuration of the Viggen, so further development of the Viggen platform was not viewed as cost-effective.[42] In 1990, production of the Viggen ceased and the final aircraft was delivered.[43][44]

In May 1991, a SEK 300-million program to upgrade 11 AJ37, SF37 and SH37 Viggens to a common multirole variant, designated AJS37, was announced. Amongst the changes involved, interchangeable armaments and sensor payloads were implemented in addition to the adoption of new mission planning and threat analysis computer systems. The onboard ECM systems were also improved.[2] Specifically, the implementation of a new stores management system and MIL-STD-1553 serial data bus, similar to that used on the newer JAS 39 Gripen, allowed for the integration of the AIM-120 AMRAAM air-to-air missile; an upgraded Ericsson PS-46A radar was installed, and a new tactical radio. On 4 June 1996, the first upgraded prototype JA37 Viggen performed its first flight.[45]

In 1996, according to Swedish air force material-department chief General Steffan Nasstrom, the various upgrades performed to the Viggen since its introduction had "doubled the effectiveness of the overall system".[45]

Design edit

Propulsion edit

 
Closeup view of the cockpit and air intake of a JA 37 Viggen

The Viggen was powered by a single Volvo RM8 turbofan. This was essentially a heavily modified licence-built variant of the Pratt & Whitney JT8D engine that powered commercial airliners of the 1960s, with an afterburner added for the Viggen. The airframe also incorporated a thrust reverser to use during landings and land manoeuvres, which, combined with the aircraft having flight capabilities approaching a limited STOL-like performance, enabled operations from 500 m airstrips with minimal support.[22] The thrust reverser could be pre-selected in the air to engage when the nose-wheel strut was compressed after touchdown via a pneumatic trigger.[29][46]

The requirements from the Swedish Air Force dictated Mach 2 capability at high altitude and Mach 1 at low altitude. At the same time, short-field take-off and landing performance was also required. Since the Viggen was developed initially as an attack aircraft instead of an interceptor (the Saab 35 Draken fulfilled this role), some emphasis was given to low fuel consumption at high subsonic speeds at low level for good range. With turbofan engines just emerging and indicating better fuel economy for cruise than turbojet engines, the former was favoured, since the latter were mainly limited by metallurgy development resulting from limitations in turbine temperature.[citation needed] Mechanical simplicity was also favoured, so the air intakes were simple D-section types with boundary layer splitter plates, while the fixed inlet had no adjustable geometry for improved pressure recovery. The disadvantage was that the required engine would be very large.[22] In fact, at the time of introduction, it was the second-largest fighter engine, with a length of 6.1 m and 1.35 m diameter; only the Tumansky R-15 was bigger.[citation needed]

 
Volvo RM8 on display, 2014

Saab had originally wanted the Rolls-Royce Medway as the Viggen's powerplant.[22] Owing to the cancellation of the Medway, the JT8D was instead chosen as the basis for modification. The RM8 became the second operational afterburning turbofan in the world, and also the first equipped with a thrust reverser. According to aviation author Christopher Chant, the RM8 has the distinction of being the first engine to be fitted with both an afterburner and a thrust reverser.[38] It had a bypass ratio of around 1.07:1 in the RM8A, which reduced to 0.97:1 in the RM8B.[47][page needed] The RM8A was the most powerful fighter engine in the late 1960s.[12]

The AJ, SF, SH and SK 37 models of the Viggen had the first version of the RM8A engine with uprated internal components from the JT8D that it was based on. Thrust was 65.6 kN dry and 115.6 kN with afterburner.[48] For the JA 37, the RM8A was developed into the RM8B, achieved by adding a third low-pressure compressor stage over the preceding model, increasing the turbine inlet temperature and fuel diffusion within the combustion chamber.[49] Thrust is 72.1 kN dry and 125.0 kN with afterburner.[48] Owing to the increased length and weight of the RM8B engine over its predecessor, the airframe of the JA 37 was stretched in order to accommodate it.[49] Onboard electrical power was provided by a 60 kVA generator. In the event of an in-flight engine failure, emergency power was provided by an automatically deploying ram air turbine (RAT), capable of generating 6 kVA.[28]

Avionics edit

 
The CK 37 computer

In the early 1960s, it was decided that the Viggen should be a single seat aircraft, Saab having recognized that advanced avionics such as a digital central computer and a head-up display could perform the workload of a human navigator and entirely replace the need for a second crew member.[22] A use of a digital computer would reduce or entirely replace analogue systems, which had proven to be expensive to maintain and alter, as had been the case of the earlier Draken, in addition to accuracy issues.[50] The computer, called CK 37 [sv] (short for Centralkalkylator 37, "central calculator 37"), was the world's first airborne computer to use integrated circuits. Developed by Datasaab, the CK 37 was the integrating unit for all electronic equipment to support the pilot, performing functions such as navigation, flight control, and weapon-aiming calculations.[28][50][51] In practice, the CK 37 proved to be more reliable than predicted.[50]

On later variants of the Viggen, from the JA37 onwards, it was decided to adopt a newer and more powerful Singer-Kearfott SKC-2037 digital central processor, license-manufactured and further developed by Saab as the CD 107.[50][52][53] The computing techniques and concepts, such as distributed computing, went beyond use of the Viggen, in addition to civil-orientated derivatives, it directly contributed to the computers used on board the Viggen's replacement, the Saab JAS 39 Gripen.[50][54] Various electronic countermeasures (ECM) were installed upon the Viggen, these were typically provided by Satt Elektronik.[28] The ECM systems consisted of a Satt Elektronik radar warning receiver system in the wings and the tail,[55] an optional Ericsson Erijammer pod and BOZ-100 chaff/flare pod. Infrared warning receivers were also later installed. In total, the electronics weighed 600 kg, a substantial amount for a single-engine fighter of the era.[28]

The aircraft's principal sensor was an Ericsson PS 37 X-band monopulse radar, which used a mechanically steered parabolic reflector housed in a radome.[28] This radar performed several functions, including air-to-ground and air-to-air telemetry, search, track, terrain-avoidance and cartography.[31] On the JA 37 fighter-interceptor model, the PS 37 radar was replaced by the more capable Ericsson PS 46 X-band pulse repetition frequency, which had an all-weather look-down/shoot-down capability reportedly in excess of 50 kilometers and continuous-wave illumination for the Skyflash missiles as well as the ability to track two targets while scanning.[29] According to Ericsson, it had a 50 per cent chance of spotting a low-flying McDonnell Douglas F-4 Phantom II within a single scan and possessed a high level of resistance to interference from ECM.[29]

Saab and Honeywell co-developed an automatic digital flight control system for the JA 37 Viggen, which has been claimed to be the first such system in a production aircraft.[29] To assist low altitude flight, a Honeywell radar altimeter with transmitter and receiver in the canard wings was used.[28] The aircraft was also fitted with a Decca Type 72 Doppler navigation radar. TILS (Tactical Instrument Landing System), a landing-aid system made by Cutler-Hammer AIL, improved landing accuracy to 30 m from the threshold on the short highway airbase system.[56] In order to effectively enforce Sweden's air space, the Viggen was integrated with STRIL 60 national defence system.[10] The JA 37 Viggen was also equipped with a Garrett AiResearch digital Central Air Data Computer, modified from the unit used upon the Grumman F-14 Tomcat.[29]

Initially, only a single reconnaissance (S) variant was considered, but fitting cameras as well as a radar proved to be impossible. The SH 37 maritime strike and reconnaissance variant was very similar to the AJ 37 and differed mainly in a maritime-optimized PS 371/A radar with longer range, a cockpit air-data camera and tape recorder for mission analysis. "Red Baron" and a SKa 24D 600 mm LOROP camera pods were usually carried on the fuselage pylons.[38] The centreline fuel tank was converted for a short period of time to a camera pod with two Recon/Optical CA-200 1676 mm cameras. In addition to the reconnaissance equipment, the SH 37 could also use all weapons for the AJ 37.[citation needed] For the photographic SF version, the radar in the nose was omitted in favour of four SKa 24C 120 mm and two SKa 31 570 mm photographic cameras as well as one 57 mm VKa 702 Infrared linescan camera and air-data camera; all of which were integrated with and controlled by the aircraft's central computer.[38] Additional equipment, such as more camera pods, fuel tanks, ECM pods, and self-defense air-to-air missiles could also be carried upon the fuselage pylons.[38]

The fighter-interceptor version of the Viggen, the JA 37, featured various avionics changes, including the extensive use of digital electronics alongside mechanical technology.[57] In 1985, the "fighter link" went into service, permitting encrypted data communication between four fighters; this enabled one fighter to "paint" an airborne enemy with guidance radar for the Skyflash missiles of the three other fighters in a group while they had their search and guidance radar switched off. This system was operational ten years before any other country's.[58] The autopilot was also slaved to the radar control to obtain better precision firing the cannon.[59] Once in service, the Viggen's software was regularly updated every 18 months.[60] In 1983, the mean time between failures (MTBF) was reported as 100 hours, a very high reliability level for the generation of avionics systems involved.[61][page needed]

Cockpit edit

 
Cockpit of an AJSF 37 Viggen

The displays in the original cockpit were all of the traditional analogue/mechanical type with the exception of an electronic head-up display (HUD), which Saab has claimed makes the Viggen easier to fly, especially at low altitudes during air-to-ground strike missions.[62] Unusually for a 1970s fighter, the JA 37 variant of the Viggen featured three multi-purpose cathode-ray tube (CRT) display screens were fitted within the cockpit, in a system called AP-12, developed by Saab and Ericsson.[47] These displays would be used to display processed radar information, computer-generated maps, flight and weapons data, along with steering cues during precision landings.[40]

 
A two-seat SK 37 Viggen on display

Between 1989 and 1992, the AP-12 display system was subject to a substantial upgrade. In 1999, a new tactical liquid-crystal display (LCD) system derived from the Saab JAS 39 Gripen, which replaced the CRT-based AP-12 system, began flight tests with the Swedish Air Force.[63] On the twin-seat SK 37 trainer, the rear cockpit used by the instructor is only fitted with conventional instrumentation and lacks a HUD, computer controls and other features.[64]

The ejection seat was the Raketstol 37 (literally; Rocket chair 37) and was the last Saab designed seat in service. A derivative of the Saab 105 trainer seat, the seat was optimized for low altitude, high speed ejections.[28] Once activated by the pilot via triggers built into the armrests (on twin-seat models, the occupant of the forward cockpit position is able to initiate the ejection of both seats), the ejection sequence is automated, including the removal of the canopy; in the event of a malfunction, a reserve trigger can be activated.[65] A combined parachute and seat harness is used, which features a barometric interlock to appropriately release the occupant and harness from the seat during the ejection sequence, a manual override handle is also provided for this function.[65]

There were dedicated warning caption panels each side of the pilot's legs. On the right console panel were numerous dedicated controls and indicators, including weapons and missile controls, nav panel, oxygen on/off, windshield de-fogging, IFF control, lighting controls. Situated on the left console panel were radar controls, canopy handle, landing gear handle, radio controls and the cabin pressure indicator.[66][67] As per then-standard practice within the Swedish Air Force, all cockpit instrumentation and labeling were in Swedish.[65][68][page needed][69]

Wings and airframe edit

With the performance requirements to a large extent dictating the choice of the engine, the airframe turned out to be quite bulky compared to contemporary slimmer designs with turbojet engines. The first prototypes had a straight midsection fuselage that was later improved with a "hump" on the dorsal spine for reduced drag according to the area rule.[70] The wing had the shape of a double delta with a dogtooth added to improve longitudinal stability at high incidence angles.[71][page needed]

 
Vertical stabilizer

A consequence of a tailless delta design, such as in the Viggen, is that the elevons, which replace more conventional control surfaces, operate with a small effective moment arm; their use adds substantial weight to the aircraft at takeoff and landing. Hinged leading edge surfaces can help counteract this, but an even more effective tool is the canard. The canard surfaces were positioned behind the inlets and placed slightly higher than the main wing, with a higher stall angle than the wing, and were equipped with flaps. The lifting canard surfaces act as a vortex generator for the main wing and therefore provide more lift. An added benefit was that they also improved roll stability in the transonic region.[72] The canard flaps were deployed in conjunction with the landing gear to provide even more lift for takeoff and landing.[22][73]

To withstand the stresses of no-flare landings, Saab made extensive use of aluminium in the airframe of the Viggen, which was constructed using a bonded metal honeycomb structure; the entire rear section of the fuselage, downstream of the engine nozzle, formed a heat-resistant ring composed of titanium.[28][74] The main landing gear, manufactured by Motala Verkstad, was highly strengthened as well; each leg held two small wheels fitted with anti-skid brakes placed in a tandem arrangement. The design requirements imposed by the large anti-ship missiles employed upon the Viggen necessitated that both the undercarriage and vertical stabilizer be quite tall.[29] To accommodate this, and to allow the main landing gear to be stowed outside of the wing root, the undercarriage legs shortened during retraction.[28] The vertical stabilizer could also be folded via an actuator in order that the aircraft could be stored in smaller hangars, hardened aircraft shelters, and underground hangars, the latter of which were employed by the Swedish military to limit the damage of preemptive attacks.[28]

The six tanks in the fuselage and wings held approximately 5,000 litres of fuel with an additional 1,500 litres in an external drop tank. The specific fuel consumption was only 0.63 for cruise speeds[28][47][page needed] (fuel consumption was rated 18 mg/Ns dry and 71 with afterburner).[47][page needed] The Viggen's consumption was around 15 kg/s at maximum afterburner.[47][page needed] A pair of inlets placed alongside the cockpit feed air to the engine; simple fixed-geometry inlets were adopted, similar to the Draken, except for being larger and standing clear of the fuselage.[75]

Armament edit

 
Underside of a Viggen, 1985. The empty weapons pylons are visible.

A weapons load of up to 7,000 kg could be accommodated on nine hardpoints: one centreline pylon, two fuselage pylons, two inner and two outer wing pylons and two pylons behind the wing landing gear. The centreline pylon was the only pylon plumbed for carrying an external fuel tank, and was usually so occupied. A pair of air-to-air missiles were intended to be placed on the outboard wing pylons, which were more lightweight than the other attachment points.[76] The pylons behind the landing gear were not used until the JA 37D modification when BOL countermeasure dispensers were fitted to them.[77] Ground crew would enter the munitions fitted into the aircraft's central computer using a load-selector panel, which would automatically choose the correct values for fire control, fuel consumption, and other calculations.[76]

AJ 37 edit

The AJ 37 was typically equipped with a total of seven hardpoints, three underneath the fuselage and two under each wing, a further two wing-mounted hardpoints could be optionally fitted but this facility was rarely used. Various munitions could be carried, such as several types of rockets: the 135 mm M56GP 4 kg armour-piercing, the M56B with 6.9 kg of high explosives, and the M70 with a 4.7 kg HEAT warhead.[47][page needed][78]

The AJ 37 was designed to carry two RB 04E anti-ship missiles on the inboard wing pylons with an optional third missile on the centreline pylon.[79] The RB-04 was a relatively simple cruise missile that was further developed to become the more capable RBS-15, also integrated on the Viggen.[2] An optional load consisted of two RB 05 air-to-surface missiles on the fuselage pylons. The RB 05 was later replaced by AGM-65 Maverick (Swedish designation "RB 75") television-guided missiles. In a ground-attack role, a combination of unguided 135 mm rockets in sextuple pods and 120 kg fragmentation bombs on quadruple-mounts could be used. Other armaments include explosive mines, and 30 mm ADEN cannon pods[80] with 150 rounds of ammunition on the inboard wing pylons.[2][81]

Self-defence measures included various ECM systems, as well as either the AIM-4 Falcon (Swedish designation "RB 28") or AIM-9 Sidewinder (Swedish designation "RB 24") air-to-air missiles.[2] At one point, the AJ 37 Viggen was under consideration as a carrier of both a Swedish nuclear weapon and chemical weapons, although no nuclear or chemical weapons were ultimately adopted by Sweden.[82]

JA 37 edit

The JA 37 fighter interceptor, introduced in 1979, featured the Ericsson PS 46/A radar which was capable of guiding the medium-range semi-active radar homing RB 71 Skyflash air-to-air missiles. Both the RB 71 and the PS 46/A radar were designed to provide the Viggen with a look-down/shoot-down capability and to engage targets at beyond visual range distances.[49] The JA 37 could carry up to two RB 71s on the inner wing pylons; in a typical air defense loadout, these would typically have been combined with four RB 24J air-to-air missiles, a more capable and newer version of the Sidewinder missile than employed on earlier Viggen variants.[49]

Following the evaluation of several alternative cannons, including the British ADEN cannon, the American M61 Vulcan, and French DEFA cannon, an Oerlikon KCA 30mm cannon was selected for the JA 37. The KCA was carried, along with 126 rounds of ammunition, in a conformal pod under the fuselage.[49] The firing rate of the cannon was selectable at 22 or 11 rounds per second. It fired the same cartridge as the GAU-8, reportedly 50% heavier shells at a higher velocity than the ADEN cannon, resulting in six and a half times the kinetic energy on impact, and was effective up to 2,000 meters.[83][84] This, in conjunction with the fire control system, allowed air-to-air engagements at longer range than other fighters.[40][85]

Perhaps the most important improvement was the expanded STRIL datalink which entered service in 1982-1985. It allowed not only ground control-aircraft communication, but also between up to four aircraft simultaneously regardless if airborne or on the ground, . Datalink information was displayed on the Horizontal Situation Display and a tactical display, the latter using link symbology that could be overlaid with an electronic map on a multifunction display.[86] [87]

Operational history edit

 
The first production JA 37 Viggen at the Swedish Air Force Museum
 
This AJS 37 was painted red in 1999 for the last years of Viggen sorties at F 10 Ängelholm.

In July 1971, the first production AJ 37 Viggen was delivered to the Swedish Air Force.[30] The Skaraborg Wing (F 7) became the first wing to receive deliveries of both the single-seat AJ 37 attack model and the twin-seat SK 37 training model of the Viggen, where upon the type began to replace their existing Lansen aircraft.[88] Conversion training to pilot the Viggen involved a minimum of 450 flight hours performed on an initial mixture of the Saab 105, the Lansen, and finally the Viggen itself; dedicated Viggen simulators were also used, the latter of which was seen as a decisive factor in the ease of conversion to the type.[11][89]

In October 1973, Skaraborg Wing was reportedly close to achieving full operational effectiveness;[35] by May 1974, the Swedish Air Force had two operational squadrons using the Viggen along with a third squadron in the final process of achieving that status.[11] By 1974, the safety and reliability levels of the Viggen were reportedly above expectations, despite the overall complexity and relative newness of the aircraft.[90] In practice, one of the most significant issues encountered with the Viggen during low-level flight, as extensively performed during a typical attack mission profile, was the threat posed by birds; as such, the Swedish Air Force paid close attention to their migratory patterns.[91]

During the later half of the 1970s and into the 1980s, the introduction of various variants of the Viggen proceeded; these included the SK 37, a two-seat operational-conversion trainer, introduced in 1972, the SF 37, an overland reconnaissance model, introduced in 1977, and the SH 37, a maritime reconnaissance version, introduced in 1975.[4][38] By September 1980, the JA 37 fighter-interceptor model of the Viggen was introduced, Bråvalla Wing (F 13) being the first wing of the Swedish Air Force to convert to the new type.[12] The Viggen went on to become Sweden's primary air defense platform for many years.[92]

The Viggen was designed to be simple to maintain, even by conscripted flight line mechanics with limited technical training.[93] A single Viggen could be maintained by a team of five conscripts under the supervision of a single chief mechanic.[40][94] Standard turnaround, including refueling and rearming, took less than ten minutes to perform; while an engine replacement took four hours. Over the long term, the Viggen required 22-man hours per flight hour of maintenance work at the depot level, and nine-man hours per flight hour at the front line.[40]

By the mid-1980s, Swedish Viggen fighter pilots, using the predictable patterns of Lockheed SR-71 Blackbird routine flights over the Baltic Sea, had managed to achieve radar lock-on with radar on the SR-71 on numerous occasions. Despite heavy jamming from the SR-71, target illumination was maintained by feeding target location from ground-based radars to the fire-control computer in the Viggen. The most common site for the lock-on to occur was the thin stretch of international airspace between Öland and Gotland that the SR-71 used on the return flight.[95][96][97] The Viggen is the only aircraft to get an acknowledged radar lock on the SR-71.[98]

Retirement edit

By 1994, the replacement of the Viggen by the later and more advanced Saab JAS 39 Gripen was in progress, the type being progressively phased out as greater numbers of Gripen aircraft were delivered.[4][99] On 25 November 2005, the last front line Viggen was formally retired by the Swedish Air Force.[93] A few aircraft were kept in an operational condition for electronic warfare training against the Gripen at F 17M in Linköping; the last of these Viggen flights took place in June 2007.[100]

Overseas sales efforts edit

Although Saab offered the Viggen for sale worldwide, and was the subject of a heavy marketing campaign in both European and developing countries during the 1970s, ultimately no export sales were made.[101]

During the 1970s, Saab proposed a new variant of the Viggen, designated the Saab 37E Eurofighter (unrelated to the later Eurofighter Typhoon), for the United States Air Force Air Combat Fighter competition to find a replacement for the Lockheed F-104 Starfighter. The 37E Eurofighter competed against Dassault-Breguet's proposed Mirage F1M-53, the SEPECAT Jaguar, Northrop's P-530 Cobra (on which the YF-17 was based), and General Dynamics's YF-16;[102][103] on 13 January 1975, United States Secretary of the Air Force John L. McLucas announced the YF-16 had been selected as the winner of the ACF competition.[104]

In 1978, the United States blocked a major prospective sale to India, which would have involved selling a number of Swedish-built Viggens in addition to a licensed production agreement under which the Viggen would also have been built in India, by not issuing an export license for the RM8/JT8D engine and other American technologies used.[105][106] India later opted to procure the SEPECAT Jaguar in its place.[107] According to leaked United States diplomatic cables, India's interest in the Viggen was reported to be entirely due to Rajiv Gandhi's influence, and had alleged have been without any input from the Indian Air Force.[105][108] According to author Chris Smith, the Viggen had been the favoured candidate for the Indian Air Force prior to the deal being blocked by the US.[109]

Variants edit

AJ 37
Primarily a single-seat ground-attack fighter aircraft (AJ: Attack-Jakt), with a secondary fighter role.[110] RM8A powerplant. PS 37A radar.[111] First delivery in mid-1971,[112] 108 built, with serial numbers 37001-37108.[113] 48 airframes upgraded to AJS 37.[114] Partially decommissioned in 1998.
SK 37
Two-seat trainer aircraft (Sk: Skol) with no radar and reduced fuel.[115] First flight on 2 July 1970.[116] 17 built, with delivery from June 1972, serial numbers 37801-37817.[113] Decommissioned in 2003, 10 airframes converted to SK 37E.
SF 37
Single-seat photographic reconnaissance aircraft (SF: Spaning Foto), with radar replaced by battery of cameras in nose, with provision for additional reconnaissance pods.[117] It made its first flight on 21 May 1973.[118] 28 built, with deliveries from April 1977, serial numbers 37950-37977.[113] 25 airframes upgraded to AJSF 37.[114] Partially decommissioned in 1998.
SH 37
(SH- Spaning Hav, reconnaissance sea) Single-seat maritime reconnaissance and strike aircraft,[118] equipped with PS-371A radar.[119] 27 built, with delivery from June 1975, serial numbers 37901-37927.[113] 25 airframes upgraded to AJSH 37.[114] Partially decommissioned in 1998.
Saab 37E Eurofighter
Proposed NATO replacement of F-104 Starfighter in 1975, none built.[120]
Saab 37X
Proposed export version offered to Norway in 1967–68, none built.[121]
JA 37
Primarily a single-seat all-weather interceptor fighter, with a secondary attack role. Its first flight was on 27 September 1974[122] with the first deliveries starting in 1979,[122] serial numbers 37301-37449. A 10 cm (4 in) stretch in the shape of a wedge wider at the bottom than on the top of AJ 37 fuselage between canard and main wing. PS 46A LD/SD radar. Partially decommissioned in 1998, some upgraded to JA 37D.
AJS/AJSF/AJSH 37
Upgrade of some AJ/SF/SH 37 between 1993 and 1998. Avionics and software upgrade. 48 AJ 37 airframes modified. 25 SH 37 airframes modified. 25 SF 37 airframes modified. Decommissioned in 2005.
JA 37C
Upgrade of older JA 37, avionics and software upgrade as well as the integration of countermeasures.
JA 37D
Upgrade of older JA 37 between 1993 and 1998, avionics and software upgrade. Rb99 air-to-air missile (AIM-120 in Swedish service) integrated. 35 airframes modified.
JA 37DI
JA 37D with avionics and software modified for international duties. Instruments labeled in English and feet/knots instead of meter/kmh. 20 airframes modified.
SK 37E
Electronic warfare trainer, conversion of 10 obsolete SK 37 trainers from 1998 to 2000, serial numbers 37807-37811 & 37813-37817, decommissioned in 2007.

Operators edit

 
Saab 37 Viggen being serviced on the ground, April 1982
 
Viggen landing at Prestwick, Scotland, 2015
External videos
  Swedish documentary on the Viggen
  Viggen display flight at an air show
  Multiple Viggens performing a mock dogfight
  Sweden

Operational units edit

  • F 4 Frösön
    • 2 squadrons JA 37 1983–2003
    • 1 squadron SK 37 1999–2003
    • 1 squadron SK 37E 1999–2003
  • F 6 Karlsborg
    • 2 squadrons AJ 37 1978–1993
  • F 7 Såtenäs
    • 3 squadrons AJ 37 1972–1998
    • 1 squadron SK 37 1972–1974
  • F 10 Ängelholm
    • 1 squadron AJ/SF/SH 37 (combined) 1993–2001
  • F 13 Norrköping
    • 1 squadron SF/SH 37 (combined) 1977–1993
    • 1 squadron JA 37 1980–1993
  • F 15 Söderhamn
    • 2 squadrons AJ 37 1974–1998
    • 1 squadron SK 37 1974–1998
  • F 16 Uppsala
    • 2 squadrons JA 37 1986–2003
  • F 17 Kallinge
    • 1 squadron JA 37 1981–2002
    • 1 squadron SF/SH 37 (combined) 1979–1993
    • 1 squadron JA 37 1993–2002
  • F 21 Luleå
    • 2 squadrons JA 37 1983–2004
    • 1 squadron SF/SH 37 1979–2002
    • 1 squadron SK 37E (combined) 2003–2007

Accident and incidents edit

Very little is publicized about Sweden's military air accidents and incidents, however, an incident resulting in a fatality of a Saab 37 pilot during a reconnaissance fly-by of Russian nuclear-powered battlecruiser Pyotr Velikiy occurred on 16 October 1996,[123] and is the last known operational fatality of 19 total known fatalities (in over 50 accidents) involving the Saab 37 Viggen in its almost-40 years operational history.[124]

Surviving aircraft edit

 
Viggen 37098 landing after displaying at Leuchars, 2013
  • An AJS 37 Viggen (s/n 37098) with the code F 7–52 has been retained and went through a long period of restoration and maintenance to be airworthy again. This Viggen was built in 1977 and served all its active duty in F 15 Wing at Söderhamn. It was transferred into civil registry with the registration number SE-DXN. It undertook its maiden flight after having been approved by the authorities on 27 March 2012 from the F 7 Wing at Såtenäs.[125] The Viggen is unpainted to represent the first delivered Viggens as they looked in the early 1970s.[126]
  • An SK 37 Viggen (two seat trainer) (s/n 37809) with the code F 15-61 has been retained and went through a period of restoration and maintenance to be airworthy again. This Viggen was built in 1973 and served its first activities in F 7 Wing at Såtenäs, later in F 15 Wing at Söderhamn and finally in FMV Prov at Linköping until 2007. It was transferred into civil registry with the registration number SE-DXO. It undertook its maiden flight 15 May 2018 from the F 7 Wing at Såtenäs after having been approved by the authorities on 21 March 2018[127] The Viggen is painted in the unique four colour camouflage as all Viggens were painted from the late 1970s.
  • An SK 37E Viggen (s/n 37898) is preserved at the Musée de l’air et de l’espace located at the former Paris–Le Bourget Airport in France.[128]
  • An JA 37 Viggen (sn: 37429) is preserved at Estonian Aviation Museum near Tartu, Estonia. The aircraft was obtained from Swedish Air Force Museum, and flew from Sweden to Tartu in 2004.[129]
  • A AJSF 37 Viggen (s/n 37954) is on display of Polish Aviation Museum in Kraków.[130]
  • Two Viggens as well as the nose parts of some JA-37s can be found at the Aeroseum near Gothenburg. An AJ-37 (s/n 37094/57) and an AJSH-37 (s/n 37911/55).[131]
  • Two Viggens can be found at Söderhamn Aviation Museum at the former F 15 wing in Söderhamn, Sweden. One is an AJS 37 and the other is an SK 37 trainer aircraft.[132]
  • An AJ 37 Viggen is on display at the Västerås Aviation Museum in Västerås, Sweden.[133]
  • An AJS 37 Viggen is on display at the Swedish Airforce Museum in Linköping, Sweden.[134]
  • An AJSH 37 Viggen (s/n 373918) is on display at Newark Air Museum, Newark, Nottinghamshire, UK.
  • The front section of an SF 37 Viggen is on display at the Swedish Aerial Reconnaissance Museum located at the old F 11 wing in Nyköping, Sweden.[135]
  • An AJSF 37 Viggen is on display at Prague Aviation Museum, Kbely, Czech Republic. s/n 37957 c/n 56-21.
  • An AJSH 37 Viggen (s/n 37901) is on display at the Aviodrome museum at Lelystad Airport in the Netherlands.
  • An AJSF 37 Viggen (s/n 374974) is on display at the Flugausstellung Hermeskeil museum in Hermeskeil, Germany.
  • Five Ja 37 Viggens, of which one is JA37Di standard preserved at Jämtlands Flyg och Lottamuseum, Jämtland, Sweden.[136]
  • One AJ 37 Viggen preserved at Jämtlands Flyg och Lottamuseum, Jämtland, Sweden.[136]
  • Front half of one AJS 37 Viggen preserved at Jämtlands Flyg och Lottamuseum, Jämtland, Sweden.[137]
  • One SK 37 Viggen preserved at Jämtlands Flyg och Lottamuseum, Jämtland, Sweden.[137]
  • One AJ 37 Viggen is on display in Luleå, Norrbotten, Sweden.[138]

Specifications (JA 37 Viggen) edit

 
Saab JA 37 Viggen 3-view drawings

Data from Combat Aircraft since 1945[139]

General characteristics

  • Crew: 1
  • Length: 16.4 m (53 ft 10 in)
  • Wingspan: 10.6 m (34 ft 9 in)
  • Height: 5.9 m (19 ft 4 in)
  • Wing area: 46 m2 (500 sq ft)
  • Empty weight: 9,500 kg (20,944 lb)
  • Gross weight: 16,439 kg (36,242 lb) (AJ37 17,000 kg (37,479 lb))[140]
  • Max takeoff weight: 19,274 kg (42,492 lb)
  • Powerplant: 1 × Volvo RM8B afterburning turbofan, 72.1 kN (16,200 lbf) thrust dry, 125 kN (28,000 lbf) with afterburner

Performance

  • Maximum speed: 2,231 km/h (1,386 mph, 1,205 kn) at 36,100 ft (11,003 m)
  • Maximum speed: Mach 2.1
  • Ferry range: 1,820 km (1,130 mi, 980 nmi) internal fuel only
  • Service ceiling: 18,000 m (59,000 ft)
  • Rate of climb: 203 m/s (40,000 ft/min) [140]

Armament

  • Guns: 1 × 30 mm Oerlikon KCA cannon with 125 rounds [141]
  • Hardpoints: 9 (three hardpoints under fuselage and three under each wing) with a capacity of 7,000 kg (15,000 lb), with provisions to carry combinations of:

See also edit

Aircraft of comparable role, configuration, and era

Related lists

Notes edit

References edit

  1. ^ a b "iggen - ryggraden i det svenska flygvapnet under tre decennier". saab.com. Saab AB. Retrieved 8 March 2023.
  2. ^ a b c d e f g h Gunston and Gilchrist 1993, p. 247.
  3. ^ Nilsson, Axel (13 January 2012). . Projects. Swedish Defence Materiel Administration. Archived from the original on 22 February 2014. Retrieved 12 February 2014. Swedish naming of aircraft
  4. ^ a b c d e Fredriksen 2001, p. 279.
  5. ^ Zorro, Mario H. (8 May 2016), "Saab S37 Viggen", Plane Encyclopedia.
  6. ^ a b c "Hemliga atomubåtar gav Sverige säkerhetsgaranti" [Secret nuclear submarines gave Sweden security guarantee] (PDF), Framsyn (in Swedish), no. 1, SE: The Swedish Defence Research Agency, 2005 [permanent dead link]
  7. ^ . history.saab.com. 13 October 2020. Archived from the original on 24 September 2020. Retrieved 13 October 2020.
  8. ^ a b Karling, Krister (2002), Saab 37 Viggen – utvecklingen av ett Nytt Enhetsflygplan för det Svenska Flygvapnet 1952–1971: Sett ur en Aerodynamikers Perspektiv [Saab 37 Viggen – Development of a New Unitary aircraft for the Swedish Air Force 1952–1971: From an Aerodynamicist's View], Småskrift (in Swedish), Stockholm: Svenska mekanisters riksfören, ISBN 91-631-2395-9, ISSN 1652-3563
  9. ^ a b c "1960s." Company History, Saab. Retrieved 6 March 2016.
  10. ^ a b c d e Gunston and Gilchrist 1993, p. 243.
  11. ^ a b c d e Field 1974, p. 707.
  12. ^ a b c d e f g Warwick 1980, p. 1260.
  13. ^ Nowotny, Anders; Ekedahl, Sten, , Aircraft resource center, archived from the original on 20 February 2007, retrieved 23 April 2007
  14. ^ Bitzinger 1991, p. 18.
  15. ^ Rystedt, Jörgen (1 October 2005). "Flygbassystem 60" (PDF). FHT. NU. (PDF) from the original on 24 September 2015.
  16. ^ Törnell, Bernt (5 February 2007). "Svenska militära flygbaser" (PDF). Forsvarsmakten. SE. (PDF) from the original on 3 June 2017.
  17. ^ Andersson, Lennart (23 November 2006). "Svenska reservvägbaser" (PDF). Forsvarsmakten. SE. (PDF) from the original on 4 June 2017.
  18. ^ Rystedt, Jörgen (20 April 2009). "Flygbassystem 90" (PDF). FHT. NU. (PDF) from the original on 14 May 2016.
  19. ^ "En djärv tes utan empiriskt stöd" [A bold claim without empirical support] (PDF), KKrVAHT (in Swedish) (4), SE, 2007, (PDF) from the original on 21 March 2012
  20. ^ Gunston and Gilchrist 1993, pp. 243–44.
  21. ^ Larsson, Letell and Thörn 2012, p. 47.
  22. ^ a b c d e f g h i Gunston and Gilchrist 1993, p. 244.
  23. ^ Roskam 2002, p. 206.
  24. ^ Roskam 2002, p. 376.
  25. ^ Donald 1996, p. 366.
  26. ^ a b "The Viggen Airborne." Flight International, 16 February 1967, p. 270.
  27. ^ Eliasson 2010, pp. 81–82.
  28. ^ a b c d e f g h i j k l Gunston and Gilchrist 1993, p. 245.
  29. ^ a b c d e f g h i j k Warwick 1980, p. 1261.
  30. ^ a b c "1970s." Company history, Saab. Retrieved 6 March 2016.
  31. ^ a b c d Ford 1973. p. 617.
  32. ^ "Paris Airshow..." Flight International, 29 May 1969, p. 880.
  33. ^ Eliasson 2010, p. 87.
  34. ^ Wagner 2009, p. 125.
  35. ^ a b Ford 1973. p. 616.
  36. ^ Wagner 2009, pp. 125–26.
  37. ^ Chant 2014, pp. 458–59.
  38. ^ a b c d e f Chant 2014, p. 458.
  39. ^ a b Chant 2014, p. 459.
  40. ^ a b c d e Warwick 1980, p. 1265.
  41. ^ "World News: Over 800 Viggens." Flight International, 23 April 1964, p. 630.
  42. ^ Eliasson 2010, pp. 87, 229.
  43. ^ Forsberg 1994, p. 220.
  44. ^ Eliasson 2010, p. 82.
  45. ^ a b Jeziorski, Andrzej. "Saab flies upgraded Viggen fighter." Flight International, 19 June 1996.
  46. ^ Ahren, B. "Viggen Thrust Reverser", AIAA Journal of Aircraft, vol. 18, no. 5, 1981.
  47. ^ a b c d e f Nativi 1993
  48. ^ a b Taylor 1988, p. 702.
  49. ^ a b c d e Warwick 1980, p. 1264.
  50. ^ a b c d e [ViggenCK37 with photos] (PDF), Sweden: Data Saab, archived from the original (PDF) on 30 October 2008, retrieved 1 December 2007
  51. ^ "INDUSTRY International." Flight International, 13 February 1969. p. 262.
  52. ^ Goebel, Greg (1 December 2021). "SAAB 37 Viggen". Retrieved 26 June 2023. The rest of the JA 37's avionics suite included...[a] more powerful Singer-Kearfott SKC-2037 digital central processor, built by SAAB as the CD 107.
  53. ^ "Saab 37 Viggen". Global Aircraft. Retrieved 26 June 2023. The avionics suite of the JA was a major improvement over the other variants designed a decade earlier. The onboard computer was a Singer-Kearfott SKC-2037 built under license by Saab as CD 107....
  54. ^ Eliasson 2010, p. 38.
  55. ^ "ECM contract for MSDS" (PDF), Flight International, Flight global, p. 762, 1 November 1973, Satt Elektronik in Sweden provides active and passive equipment for the Saab 105XT, Viggen and Lansen.
  56. ^ Battle, EH et al. "Some Early Achievements in Landing Guidance using Mechanically Scanned Pulse-encoded Beams", IEEE Transactions on Aerospace and Electronic Systems, Vol. 25, no. 5, 1989, pp. 775–81.
  57. ^ Eliasson 2010, p. 115.
  58. ^ (PDF), SE: Militar tekniska, April 2001, archived from the original (PDF) on 26 September 2007
  59. ^ Forsling, G. and Järmark, B. "Optimal Fuselage Aiming." AIAA Paper 85-1961.
  60. ^ Eliasson 2010, p. 125.
  61. ^ Gunston, Bill Modern Combat Aircraft: From Fighters to Battlefield Helicopters. Hong Kong: Hennerwood Publications, 1983. ISBN 978-0-86273-074-1.
  62. ^ "Head-Up Displays and Optical Systems." 7 March 2016 at the Wayback Machine Saab, September 2014.
  63. ^ "Sweden tests Viggen upgrade." Flight International, 24 March 1999.
  64. ^ Field 1974, pp. 709–10.
  65. ^ a b c Field 1974, p. 708.
  66. ^ Field 1974, p. 709.
  67. ^ Warwick 1980, pp. 1262–63.
  68. ^ Detailed schematic diagram of the original cockpit layout in Coombs 2005.
  69. ^ Toll, Jörgen (2012), , Saab 37 Viggen (photographs of the original cockpit may be found), Aircraft resource center, archived from the original on 3 March 2016, retrieved 23 June 2012
  70. ^ , Vector site, archived from the original on 13 October 2007, retrieved 15 September 2007
  71. ^ Riebe, J. and William C. "Low-Speed Stability Characteristics of a Cambered-Delta-Wing Model", NACA RM-L55L21a, 1956.
  72. ^ Peake, D. and Tobak M. "Three-Dimensional Interactions and Vortical Flows with Emphasis on High-Speed Vehicles", AGARD AG-252, 1980.
  73. ^ Gunston and Spick 1983, pp. 22–23.
  74. ^ Warwick 1980, pp. 1260–61.
  75. ^ Gunston and Gilchrist 1993, pp. 244–45.
  76. ^ a b Ford 1973. p. 618.
  77. ^ Stridsberg, Sven, Viggen, p. 156
  78. ^ Gunston and Gilchrist 1993, pp. 245–47.
  79. ^ Ford 1973. pp. 618–619.
  80. ^ Andersson 1989, p. 150.
  81. ^ Jackson 1993, p. 59.
  82. ^ Agrell, Wilhelm (2002). Svenska Förintelsevapen – Utveckling av kemiska och nukleära stridsmedel 1928–70 [Swedish Holocaust Weapons – Development of chemical and nuclear weapons 1928–70] (in Swedish). Falun: Historiska Media. ISBN 91-89442-49-0.
  83. ^ Jackson 1993, pp. 76–77.
  84. ^ Warwick 1980, pp. 1264–65.
  85. ^ Williams and Gustin 2004, p. 57.
  86. ^ VIGGEN Vs BLACKBIRD: HOW SWEDISH AIR FORCE JA-37 FIGHTER PILOTS WERE ABLE TO ACHIEVE RADAR LOCK ON THE LEGENDARY SR-71 MACH 3 SPY PLANE by Dario Leone 9th of January 2018
  87. ^ "In 1985, the fighter-to-fighter data link became operational, allowing the aircraft to share targeting and weapon information. Improvements continued into the 1990s, with a multi-target tracking capability becoming operational in 1990 and automatic gun aiming being introduced to the aircraft in 1992." Putnikov, M. 2013. Saab 37 Viggen Walk Around. Carrollton, TX: Squadron Signal Publications. p. 60
  88. ^ Gunston and Gilchrist 1993, p. 246.
  89. ^ Ford 1973. pp. 616–17.
  90. ^ Field 1974, p. 712.
  91. ^ Field 1974, p. 710.
  92. ^ Boyne 2002, p. 548.
  93. ^ a b "System 37 Viggen" (PDF). 2009. [permanent dead link]
  94. ^ Boyne 2002, p. 610.
  95. ^ Mach 14, vol 4, no 3, 1983, p. 5. ISSN 0280-8498.
  96. ^ Mach 25, vol 7, no 2, 1986, pp. 28–29. ISSN 0280-8498.
  97. ^ Darwal 2004, pp. 151–56.
  98. ^ Insats & Försvar [Military Intervention & Defence], vol. 6, Försvarsmakten (Swedish Armed Forces), 2005
  99. ^ Forsberg 1994, pp. 222–23.
  100. ^ [Last Tufted Duck must submit ore] (in Swedish), Svensk Flyghistorisk Förening [Swedish Aviation Historical Society], 1 July 2007, archived from the original on 24 March 2008
  101. ^ Forsberg 1994, p. 236.
  102. ^ Coram 2002, p. 305.
  103. ^ Dörfer, Ingemar. "The Selling of the F-16." Foreign affairs, 1983. Retrieved 23 April 2011.
  104. ^ Peacock 1997, pp. 13–16.
  105. ^ a b Krishnaswamy, Murali N. "Rajiv Gandhi was 'entrepreneur' for Swedish jet, U.S. cable says." The Hindu, 8 April 2013.
  106. ^ Snyder and Brown 1997, p. 150.
  107. ^ "Nuclear Stability and Arms Sales to India: Implications for US Policy", Arms Control Today, vol. 27, no. 5, 1997.
  108. ^ "WikiLeaks' Rajiv Gandhi report may lead to another Parliament logjam", Live mint, 8 April 2013
  109. ^ Smith 1994, p. 99.
  110. ^ Jackson 1993, p. 57.
  111. ^ Jackson 1993, pp. 63–66.
  112. ^ Andersson 1989, p. 148.
  113. ^ a b c d Jackson 1993, p. 82.
  114. ^ a b c Hewson 1995, p. 31.
  115. ^ Jackson 1993, pp. 70–71.
  116. ^ Andersson 1989, p. 155.
  117. ^ Jackson 1993, pp. 59, 70.
  118. ^ a b Andersson 1989, p. 152.
  119. ^ Jackson 1993, p. 70.
  120. ^ Jackson 1993, p. 78.
  121. ^ Jackson 1993, pp. 78, 80.
  122. ^ a b Andersson 1989, p. 162.
  123. ^ "Swedish Military Jet Crashes Scouting Ship | The Spokesman-Review". www.spokesman.com. Retrieved 16 August 2022.
  124. ^ Ranter, Harro. "Aviation Safety Network > ASN Aviation Safety WikiBase > ASN Aviation Safety Database results ". aviation-safety.net. Retrieved 16 August 2022.
  125. ^ "SE-DXN far stor uppmarkksamhet langt utanfor Sverige" [SE-DXN Far big up ground operations far outside Sweden], Swedish Air Force Historic Flight (in Swedish), SE, retrieved 23 June 2012
  126. ^ [Search aircraft] (in Swedish), SE: Transportstyrelsen [Transport Board], archived from the original on 1 May 2019, retrieved 9 April 2019
  127. ^ "Sk 37 Viggen flyger igen!" [Sk 37 Viggen is flying again!], Swedish Airforce (in Swedish), SE: Transportstyrelsen [Transport Board], retrieved 9 April 2019
  128. ^ Saab SK 37E Viggen (in French), Musée de l'Air
  129. ^ Lennundus muuseum, EE
  130. ^ Muzeum Lotnictwa Polskiego w Krakowie (in Polish), EU: Aviation museum, retrieved 6 March 2016
  131. ^ , Aeroseum, archived from the original on 5 April 2015
  132. ^ Museet Verksamhetsutställning, Söderhamn Flygmuseum
  133. ^ , Västerås Flygmuseum, archived from the original on 28 March 2016, retrieved 6 March 2016
  134. ^ , Flygvapenmuseum, archived from the original on 21 July 2015, retrieved 17 July 2015
  135. ^ Flygplanhallen, F 11 Museum
  136. ^ a b , Jämtlands Flyg och Lottamuseum, archived from the original on 3 September 2018, retrieved 24 May 2019
  137. ^ a b , Jämtlands Flyg och Lottamuseum, archived from the original on 3 September 2018, retrieved 24 May 2019
  138. ^ "Flygplan på väg", Sveriges Radio, SR P4, 24 February 2009, retrieved 7 January 2021
  139. ^ Wilson 2000, p. 123.
  140. ^ a b Gunston and Spick 1998, p. 148.
  141. ^ FPL JA37 1983, ch.1, sec.18, p.17

Bibliography edit

  • Andersson, Hans G. Saab Aircraft Since 1937 Smithsonian Institution Press, 1989. ISBN 0-8747-4314-1,
  • Bitzinger, Richard. Facing the future: the Swedish Air Force, 1990–2005. Rand Corporation, 1991. ISBN 0-8330-1103-0.
  • Boyne, Walter J. Air Warfare: An International Encyclopedia, Volume 1. ABC-CLIO, 2002. ISBN 1-5760-7345-9.
  • Chant, Christopher. A Compendium of Armaments and Military Hardware. London: Routledge, 2014. ISBN 1-1346-4668-2.
  • Coombes, L.F.E. Control in the Sky – The Evolution and History of the Aircraft Cockpit. Barnsley, South Yorkshire, UK: Pen and Sword Books/Leo Cooper, 2005. ISBN 1-84415-148-4.
  • Coram, Robert. Boyd: The Fighter Pilot Who Changed the Art of War. New York: Little, Brown, and Co., 2002. ISBN 0-316-88146-5.
  • Crickmore, Paul F. Lockheed Blackbird: Beyond the Secret Missions.[permanent dead link] Oxford, UK: Osprey Publishing, 2004. ISBN 1-84176-694-1.
  • Donald, David and Jon Lake, eds. Encyclopedia of World Military Aircraft (single volume ed.). London: Aerospace Publishing, 1996. ISBN 1-874023-95-6.
  • Eliasson, Gunnar. Advanced Public Procurement as Industrial Policy: The Aircraft Industry as a Technical University. Springer Science & Business Media, 2010. ISBN 1-4419-5849-5.
  • Field, Hughes. "Saab Viggen: In The Air." Flight International, 30 May 1974. pp. 707–12.
  • Fredriksen, John C. International Warbirds: An Illustrated Guide to World Military Aircraft, 1914–2000. ABC-CLIO, 2001. ISBN 1-5760-7364-5.
  • Ford, T.E. "The Viggen in Service." Flight International, 11 October 1973. pp. 616–19.
  • FPL JA37 Speciell Förarinstruktion FPL JA37 (A/C JA37 Flight Manual) , Försvarets Materielverk, M5800-370051, 1983
  • Erichs, Rolph et al. The Saab-Scania Story. Stockholm: Streiffert & Co., 1988. ISBN 91-7886-014-8.
  • Forsberg, Randall. The Arms Production Dilemma: Contraction and Restraint in the World Combat Aircraft Industry. MIT Press, 1994. ISBN 0-2625-6085-2.
  • Gunston, Bill and Mike Spick. Modern Air Combat: The Aircraft, Tactics and Weapons Employed in Aerial Warfare Today. New York: Crescent Books, 1983. ISBN 0-517-41265-9.
  • ––– and Mike Spick. Moderne Kampfflugzeuge [Modern combat aircraft] (in German). Tyskland, DE: Stocker-Schmid AG Verlag, 2001, p. 148. ISBN 3-7276-7062-2.
  • ––– and Peter Gilchrist. Jet Bombers: From the Messerschmitt Me 262 to the Stealth B-2. Osprey, 1993. ISBN 1-85532-258-7.
  • Hewson, Robert. "Briefing: Saab AJS 37 Viggen: The Flygvapen's new 'Thunderbolt'". World Air Power Journal, Volume 22, Autumn/Fall 1995, pp. 30–31. London: Aerospace Publishing. ISBN 1-874023-62-X. ISSN 0959-7050.
  • Larsson, Bengt. Martin Letell and Håkan Thörn. Transformations of the Swedish Welfare State: From Social Engineering to Governance? Springer, 2012. ISBN 0-2303-6395-4.
  • Jackson, Paul. "Saab 37 Viggen". World Air Power Journal, Volume 13, Summer 1993, pp. 46–89. London: Aerospace Publishing, ISBN 1-874023-17-4.
  • Nativi, Andrea. "Viggen, Il Caccia Venuto dal Freddo" [Viggen, The Hunting Came from the Cold] (in Italian). RID magazine, June 1993, pp. 20–36.
  • Peacock, Lindsay. On Falcon Wings: The F-16 Story. RAF Fairford, United Kingdom: The Royal Air Force Benevolent Fund Enterprises, 1997. ISBN 1-899808-01-9.
  • Roskam, Jan. Airplane Design: Layout Design of Cockpit, Fuselage, Wing and Empennage : Cutaways and Inboard Profiles. DARcorporation, 2002. ISBN 1-8848-8556-X.
  • Smith, Chris. "India's Ad Hoc Arsenal: Direction Or Drift in Defence Policy?" Oxford University Press, 1994. ISBN 0-1982-9168-X.
  • Snyder, William P. and James Brown. Defense Policy in the Reagan Administration. DIANE Publishing, 1997. ISBN 0-7881-4146-5.
  • Taylor, John W.R. "SAAB 37 Viggen (Thunderbolt)". Jane's All the World's Aircraft 1980–81. London: Jane's, 1981. ISBN 0-531-03953-6.
  • –––, ed. Jane's All the World's Aircraft, 1988–1989. London: Jane's, 1988. ISBN 0-7106-0867-5.
  • This Happens in the Swedish Air Force (brochure). Stockholm: Information Department of the Air Staff, Flygstabens informationsavdelning, Swedish Air Force, 1983.
  • Wagner, Paul J. Air Force Tac Recce Aircraft: NATO and Non-aligned Western European Air Force Tactical Reconnaissance Aircraft of the Cold War. Dorrance Publishing, 2009. ISBN 1-4349-9458-9.
  • Warwick, Graham. "Interceptor Viggen." Flight International, 27 September 1980. pp. 1260–65.
  • Williams, Antony G. and Dr. Emmanuel Gustin. Flying Guns, The Modern Era. Marlborough, Wiltshire, UK: The Crowood Press, 2004. ISBN 1-86126-655-3.
  • Wilson, Stewart. Combat Aircraft since 1945. Fyshwick, AU: Aerospace Publications, 2000. ISBN 1-875671-50-1.
  • Winchester, Jim, ed. "Saab AJ/SF/SH Viggen". Military Aircraft of the Cold War (The Aviation Factfile). London: Grange Books, 2006. ISBN 1-84013-929-3.

External links edit

 
Wikimedia Commons has media related to Saab 37 Viggen.
  • Interview with Viggen pilot, Milavia.
  • , SE: Passagen.
  • Saab 37 Viggen, SE: Canit.
  • (detailed photos of cockpit and weapons), Aircraft resource center, archived from the original on 3 March 2016, retrieved 8 August 2005.
  • (information in the public domain), Vector site, archived from the original on 13 October 2007, retrieved 15 September 2007.
  • Saab 37 Viggen webpage 16 April 2003 at the Wayback Machine (in Dutch)
  • (in German)

January 01, 1970
saab, viggen, viggen, saab, viggen, redirect, here, saab, saab, viggen, tufted, duck, ambiguous, with, thunderbolt, single, seat, single, engine, multirole, combat, aircraft, designed, produced, swedish, aircraft, manufacturer, saab, first, canard, equipped, a. Viggen and Saab Viggen redirect here For the car see Saab 9 3 Saab 9 3 Viggen The Saab 37 Viggen The Tufted Duck ambiguous with The Thunderbolt 3 is a single seat single engine multirole combat aircraft designed and produced by the Swedish aircraft manufacturer Saab 1 It was the first canard equipped aircraft to be produced in quantity 4 and the first to carry an airborne digital central computer with integrated circuits for its avionics arguably making it the most modern advanced combat aircraft in Europe at the time of introduction The digital central computer was the first of its kind in the world automating and taking over tasks previously requiring a navigator copilot facilitating handling in tactical situations where among other things high speeds and short decision times determined whether attacks would be successful or not a system not surpassed until the introduction of the Panavia Tornado into operational service in 1981 5 Saab 37 Viggen A SK 37 Viggen in flight Role Multirole combat aircraft 1 AJ 37 Fighter bomber SF 37 Photo reconnaissance SH 37 Maritime patrol JA 37 Strike fighter National origin Sweden Manufacturer Saab AB First flight 8 February 1967 Introduction 21 June 1971 AJ 37 Retired 26 June 2007 SK 37E Primary user Swedish Air Force Produced 1970 1990 2 Number built 329 2 Development work begun during the early 1950s to develop a successor to the Saab 32 Lansen in the attack role as well as to the Saab 35 Draken as a fighter Saab s design team opted for a relatively radical delta wing configuration as well as to produce the aircraft as a integrated weapon system that operated in conjunction with Sweden s STRIL 6 national electronic air defense system It was also designed to be operated from runways as short as 500 meters Work was aided by the 37 annex under which Sweden could access advanced U S aeronautical technology to accelerate both design and production 6 The aircraft s aerodynamic design was finalised in 1963 The prototype performed its maiden flight on 8 February 1967 and the following year the Swedish government ordered an initial batch of 175 Viggens The first of these entered service with the Swedish Air Force on 21 June 1971 Even as the initial AJ 37 model entered service Saab was actively working on further variants of the Viggen Accordingly several distinct variants of the Viggen would be produced to perform the roles of fighter bomber strike fighter AJ 37 aerial reconnaissance SF 37 maritime patrol anti surface SH 37 and a two seat trainer Sk 37 During the late 1970s the all weather interceptor strike fighter JA 37 variant was introduced Attempts to export the Viggen to other nations were made but ultimately proved unsuccessful In November 2005 the last Viggens were withdrawn from service by the Swedish Air Force its only operator by this point it had been replaced by the newer and more advanced Saab JAS 39 Gripen Contents 1 Name 2 Development 2 1 Origins 2 2 Project launch 2 3 Further development 3 Design 3 1 Propulsion 3 2 Avionics 3 3 Cockpit 3 4 Wings and airframe 3 5 Armament 3 5 1 AJ 37 3 5 2 JA 37 4 Operational history 4 1 Retirement 4 2 Overseas sales efforts 5 Variants 6 Operators 6 1 Operational units 7 Accident and incidents 8 Surviving aircraft 9 Specifications JA 37 Viggen 10 See also 11 Notes 11 1 References 11 2 Bibliography 12 External linksName editViggen is the definite form of the Swedish word vigg which has two meanings According to Saab the aircraft s name alluded to both The first meaning refers to the Swedish name for the tufted duck a small diving duck common in Sweden In this sense it serves as a reference to the aircraft s canard configuration as canard is French for duck Vigg is also askvigg or thunderbolt thunder wedge stemming from the thunderstones of Nordic folklore called askviggar said to come from the lightning strikes of Norse god Thor when he hunted giants with his war hammer Mjolnir 7 Development editOrigins edit The Viggen was initially developed as an intended replacement for the Saab 32 Lansen in the attack role and later the Saab 35 Draken as a fighter 8 9 In 1955 as Saab s prototype Draken the most aerodynamically advanced fighter in the world at that point performed its first flight the Swedish Air Force was already forming a series of requirements for the next generation of combat aircraft due to the challenging nature of these requirements a lengthy development time was anticipated with the first flight intended to be no earlier than the middle of the next decade 10 11 Between 1952 and 1957 the first studies towards what would become the Viggen were carried out involving the Finnish aircraft designer Aarne Lakomaa Over 100 different concepts were examined in these studies involving both single and twin engine configurations both traditional and double delta wings and canard wings Even VTOL designs were considered with separate lift engines but were soon identified as being unacceptable 8 11 12 From the onset the Viggen was planned as an integrated weapon system to be operated in conjunction with the newest revision of Sweden s national electronic air defense system STRIL 60 It was used as the nation s standard platform capable of being efficiently adapted to perform all tactical mission roles 10 Other requirements included supersonic ability at low level Mach 2 performance at altitude and the ability to make short landings at low angles of attack to avoid damaging improvised runways The aircraft was also designed from the beginning to be easy to repair and service even for personnel without much training 13 14 One radical requirement of the proposed aircraft was the ability for it to be operated from relatively short runways only 500 meters long this was part of the Bas 60 air base system that had been introduced by the Swedish Air Force in the late 1950s Bas 60 revolved around force dispersal of aircraft across many wartime air bases including road runways acting as backup runways 15 16 17 Utilizing partially destroyed runways was another factor that motivated STOL capability Bas 60 was developed into Bas 90 in the 1970s and 1980s and included short runways only 800 meters in length 18 Enabling such operations imposed several critical demands upon the design including a modest landing speed no flare touchdown powerful post landing deceleration accurate steering even in crosswinds on icy surfaces and high acceleration on take off 10 In 1960 the U S National Security Council led by President Eisenhower formulated a security guarantee for Sweden promising U S military help in the event of a Soviet attack against Sweden both countries signed a military technology agreement In what was known as the 37 annex Sweden was allowed access to advanced U S aeronautical technology that made it possible to design and produce the Viggen much faster and more cheaply than would otherwise have been possible 6 According to research by Nils Bruzelius at the Swedish National Defence College the reason for this officially unexplained U S support was to protect U S Polaris submarines deployed just outside the Swedish east coast against the threat of Soviet anti submarine aircraft 6 However Bruzelius theory has been discredited by Simon Moores and Jerker Widen 19 The connection also appears doubtful due to the time scale the Viggen s strike version only became operational in 1971 and the fighter version in 1978 by which time Polaris had already been retired citation needed Project launch edit In December 1961 the Swedish government gave its approval for the development of Aircraft System 37 which would ultimately become the Viggen 9 By 1962 all elements for the project either existed or were close to fully developed these included the aircraft itself the powerplant ejector seat armaments reconnaissance systems ground servicing equipment and training equipment such as simulators 10 In February 1962 approval of the overall configuration was given and was followed by a development contract in October 1962 11 According to aviation authors Bill Gunston and Peter Gilchrist the project was by far the largest industrial development task ever attempted in Sweden 20 During the 1960s the Viggen accounted for 10 per cent of all Swedish R amp D funding 21 In 1963 Saab finalized the aerodynamic design of the aircraft the aerodynamic configuration was radical it combined an aft mounted double delta wing with a small high set canard foreplane equipped with powered trailing flaps mounted ahead of and slightly above the main wing this would be judged to be the best means to satisfy the conflicting demands for STOL performance supersonic speed low turbulence sensitivity at low level flight and efficient lift for subsonic flight 9 22 Canard aircraft have since become common in fighter aircraft notably with the Eurofighter Typhoon Dassault Rafale Saab JAS 39 Gripen and the IAI Kfir but principally for the purposes of providing agility during flight rather than for its STOL capabilities 12 23 Further aerodynamic refinements during the later stage of development included the addition of dog tooth patterns upon the main wing to generate vortices allowing for the elimination of blown flaps from the canard The use of a thrust reverser enabled the sought short landing performance 22 24 nbsp AJS 37 Viggen on display at the Swedish Air Force Museum Linkoping During development Saab had opted to power the type using a single large turbofan engine Originally the British Rolls Royce Medway engine had been selected to power the Viggen which was then considered to be ideal for the basis for a supersonic engine equipped with a fully modulated afterburner however development of the Medway engine was cancelled due to the intended launch aircraft the de Havilland Trident being downsized during development 22 In place of the Medway Saab chose to adopt a licence production version of the American Pratt amp Whitney JT8D engine the Volvo RM8 instead The RM8 was heavily redesigned using new materials to accommodate flight at Mach 2 speeds a Swedish built afterburner and a fully variable nozzle 22 During 1964 construction of the first prototype aircraft commenced on 8 February 1967 the first of an eventual seven prototypes conducted its maiden flight which had occurred as per the established development schedule 25 26 27 This first flight which lasted for 43 minutes was flown by Erik Dahlstrom Saab s chief test pilot who reported the prototype to have been easy to handle throughout Writing at the time aerospace publication Flight International described the flight as having been Sweden s astonishing unilateral stand in the front rank of advanced aircraft building nations 26 Each of the seven prototypes were assigned different roles although the initial aircraft were focused on supporting the development of the initial production variant the AJ37 28 In 1967 the Swedish Government concluded that the in development AJ 37 Viggen would be both cheaper than and superior to the McDonnell Douglas F 4 Phantom II 29 In April 1968 the Swedish government formally issued the authorization for manufacturing of the Viggen to proceed issuing an order for 175 Viggens that year 30 31 Also in 1968 Saab began work on the Viggen s maritime reconnaissance and photo reconnaissance variants 31 In May 1969 the Viggen made its first public appearance outside of Sweden at the Paris Air Show 32 On 23 February 1971 the first production aircraft an AJ37 model conducted its first flight 2 In July 1971 the first production aircraft was delivered to the Swedish Air Force 30 33 Further development edit nbsp An SF 37 Viggen in flight 1977 As the initial AJ 37 Viggen was being introduced to service further variants of the Viggen proceeded to complete development and enter production 34 In 1972 the first SK 37 an operational trainer variant with a staggered second canopy for an instructor was delivered to the Swedish Air Force 4 35 On 21 May 1973 the first prototype of SF 37 Viggen a tactical reconnaissance variant featuring a modified nose to accommodate seven sensors conducted its first flight 36 While other variants entered production during the 1960s Saab continued the development of the more capable all weather interceptor version of the aircraft the JA 37 In 1970 Sweden s air defenses had been closely inspected and it was determined that the prospective JA 37 Viggen was highly suited to the role 29 In 1972 the Swedish government authorized the development of the fighter interceptor variant to proceed which was followed by several major contracts for the JA 37 s further development 31 A total of five prototypes would be produced four of which being modified AJ 37s and one being a sole pre production JA 37 model to test the control systems engine avionics and armaments respectively 29 In June 1974 the first of these prototypes conducted its maiden flight later that year an initial order for 30 JA 37s was issued by the Swedish government 29 The JA 37 Viggen featured various changes from its predecessor including revisions to the design of the airframe the use of the more powerful RM8B powerplant a new generation of electronics being adopted and a revised armament configuration employed the principal externally visible changes from most earlier variants were a taller tailfin and the underfuselage gunpack arrangement 4 12 37 The JA 37 in addition to its principal aerial combat mission also retained a secondary ground attack capability and was better suited to low level operations 29 38 In November 1977 the first production JA 37 Viggen conducted its maiden flight 39 Operational trials for the new variant were conducted between January and December 1979 which resulted in the type being introduced to operational service that year 39 40 According to Flight International at the time of the JA 37 s introduction it was the most advanced European fighter then in service 12 nbsp JA 37 Viggen at the Royal International Air Tattoo 1993 In April 1964 the Swedish government revealed its budget proposal for the Swedish Air Force in which it had been envisioned that 800 or more Viggens would be produced which was in turn intended to allow all other combat aircraft then in service with the Swedish Air Force to be replaced with this single type 41 However a combination of inflation and other factors eventually reduced the total number of aircraft manufactured to 329 2 By 1980 up to 149 JA 37 Viggens were projected to be built and the line to be closed within the decade as the Swedish aerospace industry changed focus to the impending Saab JAS 39 Gripen the Viggen s eventual replacement 12 Over time advances in computing such as the microprocessor had enabled greater flexibility than the physical configuration of the Viggen so further development of the Viggen platform was not viewed as cost effective 42 In 1990 production of the Viggen ceased and the final aircraft was delivered 43 44 In May 1991 a SEK 300 million program to upgrade 11 AJ37 SF37 and SH37 Viggens to a common multirole variant designated AJS37 was announced Amongst the changes involved interchangeable armaments and sensor payloads were implemented in addition to the adoption of new mission planning and threat analysis computer systems The onboard ECM systems were also improved 2 Specifically the implementation of a new stores management system and MIL STD 1553 serial data bus similar to that used on the newer JAS 39 Gripen allowed for the integration of the AIM 120 AMRAAM air to air missile an upgraded Ericsson PS 46A radar was installed and a new tactical radio On 4 June 1996 the first upgraded prototype JA37 Viggen performed its first flight 45 In 1996 according to Swedish air force material department chief General Steffan Nasstrom the various upgrades performed to the Viggen since its introduction had doubled the effectiveness of the overall system 45 Design editPropulsion edit nbsp Closeup view of the cockpit and air intake of a JA 37 Viggen The Viggen was powered by a single Volvo RM8 turbofan This was essentially a heavily modified licence built variant of the Pratt amp Whitney JT8D engine that powered commercial airliners of the 1960s with an afterburner added for the Viggen The airframe also incorporated a thrust reverser to use during landings and land manoeuvres which combined with the aircraft having flight capabilities approaching a limited STOL like performance enabled operations from 500 m airstrips with minimal support 22 The thrust reverser could be pre selected in the air to engage when the nose wheel strut was compressed after touchdown via a pneumatic trigger 29 46 The requirements from the Swedish Air Force dictated Mach 2 capability at high altitude and Mach 1 at low altitude At the same time short field take off and landing performance was also required Since the Viggen was developed initially as an attack aircraft instead of an interceptor the Saab 35 Draken fulfilled this role some emphasis was given to low fuel consumption at high subsonic speeds at low level for good range With turbofan engines just emerging and indicating better fuel economy for cruise than turbojet engines the former was favoured since the latter were mainly limited by metallurgy development resulting from limitations in turbine temperature citation needed Mechanical simplicity was also favoured so the air intakes were simple D section types with boundary layer splitter plates while the fixed inlet had no adjustable geometry for improved pressure recovery The disadvantage was that the required engine would be very large 22 In fact at the time of introduction it was the second largest fighter engine with a length of 6 1 m and 1 35 m diameter only the Tumansky R 15 was bigger citation needed nbsp Volvo RM8 on display 2014 Saab had originally wanted the Rolls Royce Medway as the Viggen s powerplant 22 Owing to the cancellation of the Medway the JT8D was instead chosen as the basis for modification The RM8 became the second operational afterburning turbofan in the world and also the first equipped with a thrust reverser According to aviation author Christopher Chant the RM8 has the distinction of being the first engine to be fitted with both an afterburner and a thrust reverser 38 It had a bypass ratio of around 1 07 1 in the RM8A which reduced to 0 97 1 in the RM8B 47 page needed The RM8A was the most powerful fighter engine in the late 1960s 12 The AJ SF SH and SK 37 models of the Viggen had the first version of the RM8A engine with uprated internal components from the JT8D that it was based on Thrust was 65 6 kN dry and 115 6 kN with afterburner 48 For the JA 37 the RM8A was developed into the RM8B achieved by adding a third low pressure compressor stage over the preceding model increasing the turbine inlet temperature and fuel diffusion within the combustion chamber 49 Thrust is 72 1 kN dry and 125 0 kN with afterburner 48 Owing to the increased length and weight of the RM8B engine over its predecessor the airframe of the JA 37 was stretched in order to accommodate it 49 Onboard electrical power was provided by a 60 kVA generator In the event of an in flight engine failure emergency power was provided by an automatically deploying ram air turbine RAT capable of generating 6 kVA 28 Avionics edit nbsp The CK 37 computer In the early 1960s it was decided that the Viggen should be a single seat aircraft Saab having recognized that advanced avionics such as a digital central computer and a head up display could perform the workload of a human navigator and entirely replace the need for a second crew member 22 A use of a digital computer would reduce or entirely replace analogue systems which had proven to be expensive to maintain and alter as had been the case of the earlier Draken in addition to accuracy issues 50 The computer called CK 37 sv short for Centralkalkylator 37 central calculator 37 was the world s first airborne computer to use integrated circuits Developed by Datasaab the CK 37 was the integrating unit for all electronic equipment to support the pilot performing functions such as navigation flight control and weapon aiming calculations 28 50 51 In practice the CK 37 proved to be more reliable than predicted 50 On later variants of the Viggen from the JA37 onwards it was decided to adopt a newer and more powerful Singer Kearfott SKC 2037 digital central processor license manufactured and further developed by Saab as the CD 107 50 52 53 The computing techniques and concepts such as distributed computing went beyond use of the Viggen in addition to civil orientated derivatives it directly contributed to the computers used on board the Viggen s replacement the Saab JAS 39 Gripen 50 54 Various electronic countermeasures ECM were installed upon the Viggen these were typically provided by Satt Elektronik 28 The ECM systems consisted of a Satt Elektronik radar warning receiver system in the wings and the tail 55 an optional Ericsson Erijammer pod and BOZ 100 chaff flare pod Infrared warning receivers were also later installed In total the electronics weighed 600 kg a substantial amount for a single engine fighter of the era 28 The aircraft s principal sensor was an Ericsson PS 37 X band monopulse radar which used a mechanically steered parabolic reflector housed in a radome 28 This radar performed several functions including air to ground and air to air telemetry search track terrain avoidance and cartography 31 On the JA 37 fighter interceptor model the PS 37 radar was replaced by the more capable Ericsson PS 46 X band pulse repetition frequency which had an all weather look down shoot down capability reportedly in excess of 50 kilometers and continuous wave illumination for the Skyflash missiles as well as the ability to track two targets while scanning 29 According to Ericsson it had a 50 per cent chance of spotting a low flying McDonnell Douglas F 4 Phantom II within a single scan and possessed a high level of resistance to interference from ECM 29 Saab and Honeywell co developed an automatic digital flight control system for the JA 37 Viggen which has been claimed to be the first such system in a production aircraft 29 To assist low altitude flight a Honeywell radar altimeter with transmitter and receiver in the canard wings was used 28 The aircraft was also fitted with a Decca Type 72 Doppler navigation radar TILS Tactical Instrument Landing System a landing aid system made by Cutler Hammer AIL improved landing accuracy to 30 m from the threshold on the short highway airbase system 56 In order to effectively enforce Sweden s air space the Viggen was integrated with STRIL 60 national defence system 10 The JA 37 Viggen was also equipped with a Garrett AiResearch digital Central Air Data Computer modified from the unit used upon the Grumman F 14 Tomcat 29 Initially only a single reconnaissance S variant was considered but fitting cameras as well as a radar proved to be impossible The SH 37 maritime strike and reconnaissance variant was very similar to the AJ 37 and differed mainly in a maritime optimized PS 371 A radar with longer range a cockpit air data camera and tape recorder for mission analysis Red Baron and a SKa 24D 600 mm LOROP camera pods were usually carried on the fuselage pylons 38 The centreline fuel tank was converted for a short period of time to a camera pod with two Recon Optical CA 200 1676 mm cameras In addition to the reconnaissance equipment the SH 37 could also use all weapons for the AJ 37 citation needed For the photographic SF version the radar in the nose was omitted in favour of four SKa 24C 120 mm and two SKa 31 570 mm photographic cameras as well as one 57 mm VKa 702 Infrared linescan camera and air data camera all of which were integrated with and controlled by the aircraft s central computer 38 Additional equipment such as more camera pods fuel tanks ECM pods and self defense air to air missiles could also be carried upon the fuselage pylons 38 The fighter interceptor version of the Viggen the JA 37 featured various avionics changes including the extensive use of digital electronics alongside mechanical technology 57 In 1985 the fighter link went into service permitting encrypted data communication between four fighters this enabled one fighter to paint an airborne enemy with guidance radar for the Skyflash missiles of the three other fighters in a group while they had their search and guidance radar switched off This system was operational ten years before any other country s 58 The autopilot was also slaved to the radar control to obtain better precision firing the cannon 59 Once in service the Viggen s software was regularly updated every 18 months 60 In 1983 the mean time between failures MTBF was reported as 100 hours a very high reliability level for the generation of avionics systems involved 61 page needed Cockpit edit nbsp Cockpit of an AJSF 37 Viggen The displays in the original cockpit were all of the traditional analogue mechanical type with the exception of an electronic head up display HUD which Saab has claimed makes the Viggen easier to fly especially at low altitudes during air to ground strike missions 62 Unusually for a 1970s fighter the JA 37 variant of the Viggen featured three multi purpose cathode ray tube CRT display screens were fitted within the cockpit in a system called AP 12 developed by Saab and Ericsson 47 These displays would be used to display processed radar information computer generated maps flight and weapons data along with steering cues during precision landings 40 nbsp A two seat SK 37 Viggen on display Between 1989 and 1992 the AP 12 display system was subject to a substantial upgrade In 1999 a new tactical liquid crystal display LCD system derived from the Saab JAS 39 Gripen which replaced the CRT based AP 12 system began flight tests with the Swedish Air Force 63 On the twin seat SK 37 trainer the rear cockpit used by the instructor is only fitted with conventional instrumentation and lacks a HUD computer controls and other features 64 The ejection seat was the Raketstol 37 literally Rocket chair 37 and was the last Saab designed seat in service A derivative of the Saab 105 trainer seat the seat was optimized for low altitude high speed ejections 28 Once activated by the pilot via triggers built into the armrests on twin seat models the occupant of the forward cockpit position is able to initiate the ejection of both seats the ejection sequence is automated including the removal of the canopy in the event of a malfunction a reserve trigger can be activated 65 A combined parachute and seat harness is used which features a barometric interlock to appropriately release the occupant and harness from the seat during the ejection sequence a manual override handle is also provided for this function 65 There were dedicated warning caption panels each side of the pilot s legs On the right console panel were numerous dedicated controls and indicators including weapons and missile controls nav panel oxygen on off windshield de fogging IFF control lighting controls Situated on the left console panel were radar controls canopy handle landing gear handle radio controls and the cabin pressure indicator 66 67 As per then standard practice within the Swedish Air Force all cockpit instrumentation and labeling were in Swedish 65 68 page needed 69 Wings and airframe edit With the performance requirements to a large extent dictating the choice of the engine the airframe turned out to be quite bulky compared to contemporary slimmer designs with turbojet engines The first prototypes had a straight midsection fuselage that was later improved with a hump on the dorsal spine for reduced drag according to the area rule 70 The wing had the shape of a double delta with a dogtooth added to improve longitudinal stability at high incidence angles 71 page needed nbsp Vertical stabilizer A consequence of a tailless delta design such as in the Viggen is that the elevons which replace more conventional control surfaces operate with a small effective moment arm their use adds substantial weight to the aircraft at takeoff and landing Hinged leading edge surfaces can help counteract this but an even more effective tool is the canard The canard surfaces were positioned behind the inlets and placed slightly higher than the main wing with a higher stall angle than the wing and were equipped with flaps The lifting canard surfaces act as a vortex generator for the main wing and therefore provide more lift An added benefit was that they also improved roll stability in the transonic region 72 The canard flaps were deployed in conjunction with the landing gear to provide even more lift for takeoff and landing 22 73 To withstand the stresses of no flare landings Saab made extensive use of aluminium in the airframe of the Viggen which was constructed using a bonded metal honeycomb structure the entire rear section of the fuselage downstream of the engine nozzle formed a heat resistant ring composed of titanium 28 74 The main landing gear manufactured by Motala Verkstad was highly strengthened as well each leg held two small wheels fitted with anti skid brakes placed in a tandem arrangement The design requirements imposed by the large anti ship missiles employed upon the Viggen necessitated that both the undercarriage and vertical stabilizer be quite tall 29 To accommodate this and to allow the main landing gear to be stowed outside of the wing root the undercarriage legs shortened during retraction 28 The vertical stabilizer could also be folded via an actuator in order that the aircraft could be stored in smaller hangars hardened aircraft shelters and underground hangars the latter of which were employed by the Swedish military to limit the damage of preemptive attacks 28 The six tanks in the fuselage and wings held approximately 5 000 litres of fuel with an additional 1 500 litres in an external drop tank The specific fuel consumption was only 0 63 for cruise speeds 28 47 page needed fuel consumption was rated 18 mg Ns dry and 71 with afterburner 47 page needed The Viggen s consumption was around 15 kg s at maximum afterburner 47 page needed A pair of inlets placed alongside the cockpit feed air to the engine simple fixed geometry inlets were adopted similar to the Draken except for being larger and standing clear of the fuselage 75 Armament edit nbsp Underside of a Viggen 1985 The empty weapons pylons are visible A weapons load of up to 7 000 kg could be accommodated on nine hardpoints one centreline pylon two fuselage pylons two inner and two outer wing pylons and two pylons behind the wing landing gear The centreline pylon was the only pylon plumbed for carrying an external fuel tank and was usually so occupied A pair of air to air missiles were intended to be placed on the outboard wing pylons which were more lightweight than the other attachment points 76 The pylons behind the landing gear were not used until the JA 37D modification when BOL countermeasure dispensers were fitted to them 77 Ground crew would enter the munitions fitted into the aircraft s central computer using a load selector panel which would automatically choose the correct values for fire control fuel consumption and other calculations 76 AJ 37 edit The AJ 37 was typically equipped with a total of seven hardpoints three underneath the fuselage and two under each wing a further two wing mounted hardpoints could be optionally fitted but this facility was rarely used Various munitions could be carried such as several types of rockets the 135 mm M56GP 4 kg armour piercing the M56B with 6 9 kg of high explosives and the M70 with a 4 7 kg HEAT warhead 47 page needed 78 The AJ 37 was designed to carry two RB 04E anti ship missiles on the inboard wing pylons with an optional third missile on the centreline pylon 79 The RB 04 was a relatively simple cruise missile that was further developed to become the more capable RBS 15 also integrated on the Viggen 2 An optional load consisted of two RB 05 air to surface missiles on the fuselage pylons The RB 05 was later replaced by AGM 65 Maverick Swedish designation RB 75 television guided missiles In a ground attack role a combination of unguided 135 mm rockets in sextuple pods and 120 kg fragmentation bombs on quadruple mounts could be used Other armaments include explosive mines and 30 mm ADEN cannon pods 80 with 150 rounds of ammunition on the inboard wing pylons 2 81 Self defence measures included various ECM systems as well as either the AIM 4 Falcon Swedish designation RB 28 or AIM 9 Sidewinder Swedish designation RB 24 air to air missiles 2 At one point the AJ 37 Viggen was under consideration as a carrier of both a Swedish nuclear weapon and chemical weapons although no nuclear or chemical weapons were ultimately adopted by Sweden 82 JA 37 edit The JA 37 fighter interceptor introduced in 1979 featured the Ericsson PS 46 A radar which was capable of guiding the medium range semi active radar homing RB 71 Skyflash air to air missiles Both the RB 71 and the PS 46 A radar were designed to provide the Viggen with a look down shoot down capability and to engage targets at beyond visual range distances 49 The JA 37 could carry up to two RB 71s on the inner wing pylons in a typical air defense loadout these would typically have been combined with four RB 24J air to air missiles a more capable and newer version of the Sidewinder missile than employed on earlier Viggen variants 49 Following the evaluation of several alternative cannons including the British ADEN cannon the American M61 Vulcan and French DEFA cannon an Oerlikon KCA 30mm cannon was selected for the JA 37 The KCA was carried along with 126 rounds of ammunition in a conformal pod under the fuselage 49 The firing rate of the cannon was selectable at 22 or 11 rounds per second It fired the same cartridge as the GAU 8 reportedly 50 heavier shells at a higher velocity than the ADEN cannon resulting in six and a half times the kinetic energy on impact and was effective up to 2 000 meters 83 84 This in conjunction with the fire control system allowed air to air engagements at longer range than other fighters 40 85 Perhaps the most important improvement was the expanded STRIL datalink which entered service in 1982 1985 It allowed not only ground control aircraft communication but also between up to four aircraft simultaneously regardless if airborne or on the ground Datalink information was displayed on the Horizontal Situation Display and a tactical display the latter using link symbology that could be overlaid with an electronic map on a multifunction display 86 87 Operational history edit nbsp The first production JA 37 Viggen at the Swedish Air Force Museum nbsp This AJS 37 was painted red in 1999 for the last years of Viggen sorties at F 10 Angelholm In July 1971 the first production AJ 37 Viggen was delivered to the Swedish Air Force 30 The Skaraborg Wing F 7 became the first wing to receive deliveries of both the single seat AJ 37 attack model and the twin seat SK 37 training model of the Viggen where upon the type began to replace their existing Lansen aircraft 88 Conversion training to pilot the Viggen involved a minimum of 450 flight hours performed on an initial mixture of the Saab 105 the Lansen and finally the Viggen itself dedicated Viggen simulators were also used the latter of which was seen as a decisive factor in the ease of conversion to the type 11 89 In October 1973 Skaraborg Wing was reportedly close to achieving full operational effectiveness 35 by May 1974 the Swedish Air Force had two operational squadrons using the Viggen along with a third squadron in the final process of achieving that status 11 By 1974 the safety and reliability levels of the Viggen were reportedly above expectations despite the overall complexity and relative newness of the aircraft 90 In practice one of the most significant issues encountered with the Viggen during low level flight as extensively performed during a typical attack mission profile was the threat posed by birds as such the Swedish Air Force paid close attention to their migratory patterns 91 During the later half of the 1970s and into the 1980s the introduction of various variants of the Viggen proceeded these included the SK 37 a two seat operational conversion trainer introduced in 1972 the SF 37 an overland reconnaissance model introduced in 1977 and the SH 37 a maritime reconnaissance version introduced in 1975 4 38 By September 1980 the JA 37 fighter interceptor model of the Viggen was introduced Bravalla Wing F 13 being the first wing of the Swedish Air Force to convert to the new type 12 The Viggen went on to become Sweden s primary air defense platform for many years 92 The Viggen was designed to be simple to maintain even by conscripted flight line mechanics with limited technical training 93 A single Viggen could be maintained by a team of five conscripts under the supervision of a single chief mechanic 40 94 Standard turnaround including refueling and rearming took less than ten minutes to perform while an engine replacement took four hours Over the long term the Viggen required 22 man hours per flight hour of maintenance work at the depot level and nine man hours per flight hour at the front line 40 By the mid 1980s Swedish Viggen fighter pilots using the predictable patterns of Lockheed SR 71 Blackbird routine flights over the Baltic Sea had managed to achieve radar lock on with radar on the SR 71 on numerous occasions Despite heavy jamming from the SR 71 target illumination was maintained by feeding target location from ground based radars to the fire control computer in the Viggen The most common site for the lock on to occur was the thin stretch of international airspace between Oland and Gotland that the SR 71 used on the return flight 95 96 97 The Viggen is the only aircraft to get an acknowledged radar lock on the SR 71 98 Retirement edit By 1994 the replacement of the Viggen by the later and more advanced Saab JAS 39 Gripen was in progress the type being progressively phased out as greater numbers of Gripen aircraft were delivered 4 99 On 25 November 2005 the last front line Viggen was formally retired by the Swedish Air Force 93 A few aircraft were kept in an operational condition for electronic warfare training against the Gripen at F 17M in Linkoping the last of these Viggen flights took place in June 2007 100 Overseas sales efforts edit Although Saab offered the Viggen for sale worldwide and was the subject of a heavy marketing campaign in both European and developing countries during the 1970s ultimately no export sales were made 101 During the 1970s Saab proposed a new variant of the Viggen designated the Saab 37E Eurofighter unrelated to the later Eurofighter Typhoon for the United States Air Force Air Combat Fighter competition to find a replacement for the Lockheed F 104 Starfighter The 37E Eurofighter competed against Dassault Breguet s proposed Mirage F1M 53 the SEPECAT Jaguar Northrop s P 530 Cobra on which the YF 17 was based and General Dynamics s YF 16 102 103 on 13 January 1975 United States Secretary of the Air Force John L McLucas announced the YF 16 had been selected as the winner of the ACF competition 104 In 1978 the United States blocked a major prospective sale to India which would have involved selling a number of Swedish built Viggens in addition to a licensed production agreement under which the Viggen would also have been built in India by not issuing an export license for the RM8 JT8D engine and other American technologies used 105 106 India later opted to procure the SEPECAT Jaguar in its place 107 According to leaked United States diplomatic cables India s interest in the Viggen was reported to be entirely due to Rajiv Gandhi s influence and had alleged have been without any input from the Indian Air Force 105 108 According to author Chris Smith the Viggen had been the favoured candidate for the Indian Air Force prior to the deal being blocked by the US 109 Variants editThis article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Saab 37 Viggen news newspapers books scholar JSTOR May 2016 Learn how and when to remove this message AJ 37 Primarily a single seat ground attack fighter aircraft AJ Attack Jakt with a secondary fighter role 110 RM8A powerplant PS 37A radar 111 First delivery in mid 1971 112 108 built with serial numbers 37001 37108 113 48 airframes upgraded to AJS 37 114 Partially decommissioned in 1998 SK 37 Two seat trainer aircraft Sk Skol with no radar and reduced fuel 115 First flight on 2 July 1970 116 17 built with delivery from June 1972 serial numbers 37801 37817 113 Decommissioned in 2003 10 airframes converted to SK 37E SF 37 Single seat photographic reconnaissance aircraft SF Spaning Foto with radar replaced by battery of cameras in nose with provision for additional reconnaissance pods 117 It made its first flight on 21 May 1973 118 28 built with deliveries from April 1977 serial numbers 37950 37977 113 25 airframes upgraded to AJSF 37 114 Partially decommissioned in 1998 SH 37 SH Spaning Hav reconnaissance sea Single seat maritime reconnaissance and strike aircraft 118 equipped with PS 371A radar 119 27 built with delivery from June 1975 serial numbers 37901 37927 113 25 airframes upgraded to AJSH 37 114 Partially decommissioned in 1998 Saab 37E Eurofighter Proposed NATO replacement of F 104 Starfighter in 1975 none built 120 Saab 37X Proposed export version offered to Norway in 1967 68 none built 121 JA 37 Primarily a single seat all weather interceptor fighter with a secondary attack role Its first flight was on 27 September 1974 122 with the first deliveries starting in 1979 122 serial numbers 37301 37449 A 10 cm 4 in stretch in the shape of a wedge wider at the bottom than on the top of AJ 37 fuselage between canard and main wing PS 46A LD SD radar Partially decommissioned in 1998 some upgraded to JA 37D AJS AJSF AJSH 37 Upgrade of some AJ SF SH 37 between 1993 and 1998 Avionics and software upgrade 48 AJ 37 airframes modified 25 SH 37 airframes modified 25 SF 37 airframes modified Decommissioned in 2005 JA 37C Upgrade of older JA 37 avionics and software upgrade as well as the integration of countermeasures JA 37D Upgrade of older JA 37 between 1993 and 1998 avionics and software upgrade Rb99 air to air missile AIM 120 in Swedish service integrated 35 airframes modified JA 37DI JA 37D with avionics and software modified for international duties Instruments labeled in English and feet knots instead of meter kmh 20 airframes modified SK 37E Electronic warfare trainer conversion of 10 obsolete SK 37 trainers from 1998 to 2000 serial numbers 37807 37811 amp 37813 37817 decommissioned in 2007 Operators edit nbsp Saab 37 Viggen being serviced on the ground April 1982 nbsp Viggen landing at Prestwick Scotland 2015 External videos nbsp Swedish documentary on the Viggen nbsp Viggen display flight at an air show nbsp Multiple Viggens performing a mock dogfight nbsp Sweden Swedish Air Force Operational units edit F 4 Froson 2 squadrons JA 37 1983 2003 1 squadron SK 37 1999 2003 1 squadron SK 37E 1999 2003 F 6 Karlsborg 2 squadrons AJ 37 1978 1993 F 7 Satenas 3 squadrons AJ 37 1972 1998 1 squadron SK 37 1972 1974 F 10 Angelholm 1 squadron AJ SF SH 37 combined 1993 2001 F 13 Norrkoping 1 squadron SF SH 37 combined 1977 1993 1 squadron JA 37 1980 1993 F 15 Soderhamn 2 squadrons AJ 37 1974 1998 1 squadron SK 37 1974 1998 F 16 Uppsala 2 squadrons JA 37 1986 2003 F 17 Kallinge 1 squadron JA 37 1981 2002 1 squadron SF SH 37 combined 1979 1993 1 squadron JA 37 1993 2002 F 21 Lulea 2 squadrons JA 37 1983 2004 1 squadron SF SH 37 1979 2002 1 squadron SK 37E combined 2003 2007Accident and incidents editVery little is publicized about Sweden s military air accidents and incidents however an incident resulting in a fatality of a Saab 37 pilot during a reconnaissance fly by of Russian nuclear powered battlecruiser Pyotr Velikiy occurred on 16 October 1996 123 and is the last known operational fatality of 19 total known fatalities in over 50 accidents involving the Saab 37 Viggen in its almost 40 years operational history 124 Surviving aircraft edit nbsp Viggen 37098 landing after displaying at Leuchars 2013 An AJS 37 Viggen s n 37098 with the code F 7 52 has been retained and went through a long period of restoration and maintenance to be airworthy again This Viggen was built in 1977 and served all its active duty in F 15 Wing at Soderhamn It was transferred into civil registry with the registration number SE DXN It undertook its maiden flight after having been approved by the authorities on 27 March 2012 from the F 7 Wing at Satenas 125 The Viggen is unpainted to represent the first delivered Viggens as they looked in the early 1970s 126 An SK 37 Viggen two seat trainer s n 37809 with the code F 15 61 has been retained and went through a period of restoration and maintenance to be airworthy again This Viggen was built in 1973 and served its first activities in F 7 Wing at Satenas later in F 15 Wing at Soderhamn and finally in FMV Prov at Linkoping until 2007 It was transferred into civil registry with the registration number SE DXO It undertook its maiden flight 15 May 2018 from the F 7 Wing at Satenas after having been approved by the authorities on 21 March 2018 127 The Viggen is painted in the unique four colour camouflage as all Viggens were painted from the late 1970s An SK 37E Viggen s n 37898 is preserved at the Musee de l air et de l espace located at the former Paris Le Bourget Airport in France 128 An JA 37 Viggen sn 37429 is preserved at Estonian Aviation Museum near Tartu Estonia The aircraft was obtained from Swedish Air Force Museum and flew from Sweden to Tartu in 2004 129 A AJSF 37 Viggen s n 37954 is on display of Polish Aviation Museum in Krakow 130 Two Viggens as well as the nose parts of some JA 37s can be found at the Aeroseum near Gothenburg An AJ 37 s n 37094 57 and an AJSH 37 s n 37911 55 131 Two Viggens can be found at Soderhamn Aviation Museum at the former F 15 wing in Soderhamn Sweden One is an AJS 37 and the other is an SK 37 trainer aircraft 132 An AJ 37 Viggen is on display at the Vasteras Aviation Museum in Vasteras Sweden 133 An AJS 37 Viggen is on display at the Swedish Airforce Museum in Linkoping Sweden 134 An AJSH 37 Viggen s n 373918 is on display at Newark Air Museum Newark Nottinghamshire UK The front section of an SF 37 Viggen is on display at the Swedish Aerial Reconnaissance Museum located at the old F 11 wing in Nykoping Sweden 135 An AJSF 37 Viggen is on display at Prague Aviation Museum Kbely Czech Republic s n 37957 c n 56 21 An AJSH 37 Viggen s n 37901 is on display at the Aviodrome museum at Lelystad Airport in the Netherlands An AJSF 37 Viggen s n 374974 is on display at the Flugausstellung Hermeskeil museum in Hermeskeil Germany Five Ja 37 Viggens of which one is JA37Di standard preserved at Jamtlands Flyg och Lottamuseum Jamtland Sweden 136 One AJ 37 Viggen preserved at Jamtlands Flyg och Lottamuseum Jamtland Sweden 136 Front half of one AJS 37 Viggen preserved at Jamtlands Flyg och Lottamuseum Jamtland Sweden 137 One SK 37 Viggen preserved at Jamtlands Flyg och Lottamuseum Jamtland Sweden 137 One AJ 37 Viggen is on display in Lulea Norrbotten Sweden 138 Specifications JA 37 Viggen edit nbsp Saab JA 37 Viggen 3 view drawings Data from Combat Aircraft since 1945 139 General characteristicsCrew 1 Length 16 4 m 53 ft 10 in Wingspan 10 6 m 34 ft 9 in Height 5 9 m 19 ft 4 in Wing area 46 m2 500 sq ft Empty weight 9 500 kg 20 944 lb Gross weight 16 439 kg 36 242 lb AJ37 17 000 kg 37 479 lb 140 Max takeoff weight 19 274 kg 42 492 lb Powerplant 1 Volvo RM8B afterburning turbofan 72 1 kN 16 200 lbf thrust dry 125 kN 28 000 lbf with afterburner Performance Maximum speed 2 231 km h 1 386 mph 1 205 kn at 36 100 ft 11 003 m Maximum speed Mach 2 1 Ferry range 1 820 km 1 130 mi 980 nmi internal fuel only Service ceiling 18 000 m 59 000 ft Rate of climb 203 m s 40 000 ft min 140 Armament Guns 1 30 mm Oerlikon KCA cannon with 125 rounds 141 Hardpoints 9 three hardpoints under fuselage and three under each wing with a capacity of 7 000 kg 15 000 lb with provisions to carry combinations of Missiles 4 x RB99 AMRAAM JA 37D 2 x RB71 Skyflash only JA37 6 x AIM 9 Sidewinder 4 rocket pods 135 mm 5 4 in U95 ECM pod JA 37D 2 x RB 04 2 x RBS 15 2 x Rb 05See also edit nbsp Aviation portal nbsp Sweden portal Saab 9 3 Viggen automobile Aircraft of comparable role configuration and era Dassault Mirage F1 McDonnell Douglas F 4 Phantom II Mikoyan Gurevich MiG 23 Mikoyan MiG 27 SEPECAT Jaguar Shenyang J 8 Related lists List of fighter aircraft List of military aircraft of SwedenNotes editReferences edit a b iggen ryggraden i det svenska flygvapnet under tre decennier saab com Saab AB Retrieved 8 March 2023 a b c d e f g h Gunston and Gilchrist 1993 p 247 Nilsson Axel 13 January 2012 JAS 39 Gripen Milestones Projects Swedish Defence Materiel Administration Archived from the original on 22 February 2014 Retrieved 12 February 2014 Swedish naming of aircraft a b c d e Fredriksen 2001 p 279 Zorro Mario H 8 May 2016 Saab S37 Viggen Plane Encyclopedia a b c Hemliga atomubatar gav Sverige sakerhetsgaranti Secret nuclear submarines gave Sweden security guarantee PDF Framsyn in Swedish no 1 SE The Swedish Defence Research Agency 2005 permanent dead link Saab history Saab 37 Viggen history saab com 13 October 2020 Archived from the original on 24 September 2020 Retrieved 13 October 2020 a b Karling Krister 2002 Saab 37 Viggen utvecklingen av ett Nytt Enhetsflygplan for det Svenska Flygvapnet 1952 1971 Sett ur en Aerodynamikers Perspektiv Saab 37 Viggen Development of a New Unitary aircraft for the Swedish Air Force 1952 1971 From an Aerodynamicist s View Smaskrift in Swedish Stockholm Svenska mekanisters riksforen ISBN 91 631 2395 9 ISSN 1652 3563 a b c 1960s Company History Saab Retrieved 6 March 2016 a b c d e Gunston and Gilchrist 1993 p 243 a b c d e Field 1974 p 707 a b c d e f g Warwick 1980 p 1260 Nowotny Anders Ekedahl Sten Viggen walkaround Aircraft resource center archived from the original on 20 February 2007 retrieved 23 April 2007 Bitzinger 1991 p 18 Rystedt Jorgen 1 October 2005 Flygbassystem 60 PDF FHT NU Archived PDF from the original on 24 September 2015 Tornell Bernt 5 February 2007 Svenska militara flygbaser PDF Forsvarsmakten SE Archived PDF from the original on 3 June 2017 Andersson Lennart 23 November 2006 Svenska reservvagbaser PDF Forsvarsmakten SE Archived PDF from the original on 4 June 2017 Rystedt Jorgen 20 April 2009 Flygbassystem 90 PDF FHT NU Archived PDF from the original on 14 May 2016 En djarv tes utan empiriskt stod A bold claim without empirical support PDF KKrVAHT in Swedish 4 SE 2007 archived PDF from the original on 21 March 2012 Gunston and Gilchrist 1993 pp 243 44 Larsson Letell and Thorn 2012 p 47 a b c d e f g h i Gunston and Gilchrist 1993 p 244 Roskam 2002 p 206 Roskam 2002 p 376 Donald 1996 p 366 a b The Viggen Airborne Flight International 16 February 1967 p 270 Eliasson 2010 pp 81 82 a b c d e f g h i j k l Gunston and Gilchrist 1993 p 245 a b c d e f g h i j k Warwick 1980 p 1261 a b c 1970s Company history Saab Retrieved 6 March 2016 a b c d Ford 1973 p 617 Paris Airshow Flight International 29 May 1969 p 880 Eliasson 2010 p 87 Wagner 2009 p 125 a b Ford 1973 p 616 Wagner 2009 pp 125 26 Chant 2014 pp 458 59 a b c d e f Chant 2014 p 458 a b Chant 2014 p 459 a b c d e Warwick 1980 p 1265 World News Over 800 Viggens Flight International 23 April 1964 p 630 Eliasson 2010 pp 87 229 Forsberg 1994 p 220 Eliasson 2010 p 82 a b Jeziorski Andrzej Saab flies upgraded Viggen fighter Flight International 19 June 1996 Ahren B Viggen Thrust Reverser AIAA Journal of Aircraft vol 18 no 5 1981 a b c d e f Nativi 1993 a b Taylor 1988 p 702 a b c d e Warwick 1980 p 1264 a b c d e Central Computer for aircraft Saab 37 Viggen ViggenCK37 with photos PDF Sweden Data Saab archived from the original PDF on 30 October 2008 retrieved 1 December 2007 INDUSTRY International Flight International 13 February 1969 p 262 Goebel Greg 1 December 2021 SAAB 37 Viggen Retrieved 26 June 2023 The rest of the JA 37 s avionics suite included a more powerful Singer Kearfott SKC 2037 digital central processor built by SAAB as the CD 107 Saab 37 Viggen Global Aircraft Retrieved 26 June 2023 The avionics suite of the JA was a major improvement over the other variants designed a decade earlier The onboard computer was a Singer Kearfott SKC 2037 built under license by Saab as CD 107 Eliasson 2010 p 38 ECM contract for MSDS PDF Flight International Flight global p 762 1 November 1973 Satt Elektronik in Sweden provides active and passive equipment for the Saab 105XT Viggen and Lansen Battle EH et al Some Early Achievements in Landing Guidance using Mechanically Scanned Pulse encoded Beams IEEE Transactions on Aerospace and Electronic Systems Vol 25 no 5 1989 pp 775 81 Eliasson 2010 p 115 Viggen PDF SE Militar tekniska April 2001 archived from the original PDF on 26 September 2007 Forsling G and Jarmark B Optimal Fuselage Aiming AIAA Paper 85 1961 Eliasson 2010 p 125 Gunston Bill Modern Combat Aircraft From Fighters to Battlefield Helicopters Hong Kong Hennerwood Publications 1983 ISBN 978 0 86273 074 1 Head Up Displays and Optical Systems Archived 7 March 2016 at the Wayback Machine Saab September 2014 Sweden tests Viggen upgrade Flight International 24 March 1999 Field 1974 pp 709 10 a b c Field 1974 p 708 Field 1974 p 709 Warwick 1980 pp 1262 63 Detailed schematic diagram of the original cockpit layout in Coombs 2005 Toll Jorgen 2012 part 1 Saab 37 Viggen photographs of the original cockpit may be found Aircraft resource center archived from the original on 3 March 2016 retrieved 23 June 2012 The Saab 37 Viggen Vector site archived from the original on 13 October 2007 retrieved 15 September 2007 Riebe J and William C Low Speed Stability Characteristics of a Cambered Delta Wing Model NACA RM L55L21a 1956 Peake D and Tobak M Three Dimensional Interactions and Vortical Flows with Emphasis on High Speed Vehicles AGARD AG 252 1980 Gunston and Spick 1983 pp 22 23 Warwick 1980 pp 1260 61 Gunston and Gilchrist 1993 pp 244 45 a b Ford 1973 p 618 Stridsberg Sven Viggen p 156 Gunston and Gilchrist 1993 pp 245 47 Ford 1973 pp 618 619 Andersson 1989 p 150 Jackson 1993 p 59 Agrell Wilhelm 2002 Svenska Forintelsevapen Utveckling av kemiska och nukleara stridsmedel 1928 70 Swedish Holocaust Weapons Development of chemical and nuclear weapons 1928 70 in Swedish Falun Historiska Media ISBN 91 89442 49 0 Jackson 1993 pp 76 77 Warwick 1980 pp 1264 65 Williams and Gustin 2004 p 57 VIGGEN Vs BLACKBIRD HOW SWEDISH AIR FORCE JA 37 FIGHTER PILOTS WERE ABLE TO ACHIEVE RADAR LOCK ON THE LEGENDARY SR 71 MACH 3 SPY PLANE by Dario Leone 9th of January 2018 In 1985 the fighter to fighter data link became operational allowing the aircraft to share targeting and weapon information Improvements continued into the 1990s with a multi target tracking capability becoming operational in 1990 and automatic gun aiming being introduced to the aircraft in 1992 Putnikov M 2013 Saab 37 Viggen Walk Around Carrollton TX Squadron Signal Publications p 60 Gunston and Gilchrist 1993 p 246 Ford 1973 pp 616 17 Field 1974 p 712 Field 1974 p 710 Boyne 2002 p 548 a b System 37 Viggen PDF 2009 permanent dead link Boyne 2002 p 610 Mach 14 vol 4 no 3 1983 p 5 ISSN 0280 8498 Mach 25 vol 7 no 2 1986 pp 28 29 ISSN 0280 8498 Darwal 2004 pp 151 56 Insats amp Forsvar Military Intervention amp Defence vol 6 Forsvarsmakten Swedish Armed Forces 2005 Forsberg 1994 pp 222 23 Sista Viggarna lamnar Malmen Last Tufted Duck must submit ore in Swedish Svensk Flyghistorisk Forening Swedish Aviation Historical Society 1 July 2007 archived from the original on 24 March 2008 Forsberg 1994 p 236 Coram 2002 p 305 Dorfer Ingemar The Selling of the F 16 Foreign affairs 1983 Retrieved 23 April 2011 Peacock 1997 pp 13 16 a b Krishnaswamy Murali N Rajiv Gandhi was entrepreneur for Swedish jet U S cable says The Hindu 8 April 2013 Snyder and Brown 1997 p 150 Nuclear Stability and Arms Sales to India Implications for US Policy Arms Control Today vol 27 no 5 1997 WikiLeaks Rajiv Gandhi report may lead to another Parliament logjam Live mint 8 April 2013 Smith 1994 p 99 Jackson 1993 p 57 Jackson 1993 pp 63 66 Andersson 1989 p 148 a b c d Jackson 1993 p 82 a b c Hewson 1995 p 31 Jackson 1993 pp 70 71 Andersson 1989 p 155 Jackson 1993 pp 59 70 a b Andersson 1989 p 152 Jackson 1993 p 70 Jackson 1993 p 78 Jackson 1993 pp 78 80 a b Andersson 1989 p 162 Swedish Military Jet Crashes Scouting Ship The Spokesman Review www spokesman com Retrieved 16 August 2022 Ranter Harro Aviation Safety Network gt ASN Aviation Safety WikiBase gt ASN Aviation Safety Database results aviation safety net Retrieved 16 August 2022 SE DXN far stor uppmarkksamhet langt utanfor Sverige SE DXN Far big up ground operations far outside Sweden Swedish Air Force Historic Flight in Swedish SE retrieved 23 June 2012 Sok luftfartyg Search aircraft in Swedish SE Transportstyrelsen Transport Board archived from the original on 1 May 2019 retrieved 9 April 2019 Sk 37 Viggen flyger igen Sk 37 Viggen is flying again Swedish Airforce in Swedish SE Transportstyrelsen Transport Board retrieved 9 April 2019 Saab SK 37E Viggen in French Musee de l Air Lennundus muuseum EE Muzeum Lotnictwa Polskiego w Krakowie in Polish EU Aviation museum retrieved 6 March 2016 Aircraft at the Aeroseum Aeroseum archived from the original on 5 April 2015 Museet Verksamhetsutstallning Soderhamn Flygmuseum Saab 37 Viggen Vasteras Flygmuseum archived from the original on 28 March 2016 retrieved 6 March 2016 Saab 37 Viggen Flygvapenmuseum archived from the original on 21 July 2015 retrieved 17 July 2015 Flygplanhallen F 11 Museum a b Vara flygplan och ovriga foremal Jamtlands Flyg och Lottamuseum archived from the original on 3 September 2018 retrieved 24 May 2019 a b Vara flygplan och ovriga foremal Jamtlands Flyg och Lottamuseum archived from the original on 3 September 2018 retrieved 24 May 2019 Flygplan pa vag Sveriges Radio SR P4 24 February 2009 retrieved 7 January 2021 Wilson 2000 p 123 a b Gunston and Spick 1998 p 148 FPL JA37 1983 ch 1 sec 18 p 17 Bibliography edit Andersson Hans G Saab Aircraft Since 1937 Smithsonian Institution Press 1989 ISBN 0 8747 4314 1 Bitzinger Richard Facing the future the Swedish Air Force 1990 2005 Rand Corporation 1991 ISBN 0 8330 1103 0 Boyne Walter J Air Warfare An International Encyclopedia Volume 1 ABC CLIO 2002 ISBN 1 5760 7345 9 Chant Christopher A Compendium of Armaments and Military Hardware London Routledge 2014 ISBN 1 1346 4668 2 Coombes L F E Control in the Sky The Evolution and History of the Aircraft Cockpit Barnsley South Yorkshire UK Pen and Sword Books Leo Cooper 2005 ISBN 1 84415 148 4 Coram Robert Boyd The Fighter Pilot Who Changed the Art of War New York Little Brown and Co 2002 ISBN 0 316 88146 5 Crickmore Paul F Lockheed Blackbird Beyond the Secret Missions permanent dead link Oxford UK Osprey Publishing 2004 ISBN 1 84176 694 1 Donald David and Jon Lake eds Encyclopedia of World Military Aircraft single volume ed London Aerospace Publishing 1996 ISBN 1 874023 95 6 Eliasson Gunnar Advanced Public Procurement as Industrial Policy The Aircraft Industry as a Technical University Springer Science amp Business Media 2010 ISBN 1 4419 5849 5 Field Hughes Saab Viggen In The Air Flight International 30 May 1974 pp 707 12 Fredriksen John C International Warbirds An Illustrated Guide to World Military Aircraft 1914 2000 ABC CLIO 2001 ISBN 1 5760 7364 5 Ford T E The Viggen in Service Flight International 11 October 1973 pp 616 19 FPL JA37 Speciell Forarinstruktion FPL JA37 A C JA37 Flight Manual Forsvarets Materielverk M5800 370051 1983 Erichs Rolph et al The Saab Scania Story Stockholm Streiffert amp Co 1988 ISBN 91 7886 014 8 Forsberg Randall The Arms Production Dilemma Contraction and Restraint in the World Combat Aircraft Industry MIT Press 1994 ISBN 0 2625 6085 2 Gunston Bill and Mike Spick Modern Air Combat The Aircraft Tactics and Weapons Employed in Aerial Warfare Today New York Crescent Books 1983 ISBN 0 517 41265 9 and Mike Spick Moderne Kampfflugzeuge Modern combat aircraft in German Tyskland DE Stocker Schmid AG Verlag 2001 p 148 ISBN 3 7276 7062 2 and Peter Gilchrist Jet Bombers From the Messerschmitt Me 262 to the Stealth B 2 Osprey 1993 ISBN 1 85532 258 7 Hewson Robert Briefing Saab AJS 37 Viggen The Flygvapen s new Thunderbolt World Air Power Journal Volume 22 Autumn Fall 1995 pp 30 31 London Aerospace Publishing ISBN 1 874023 62 X ISSN 0959 7050 Larsson Bengt Martin Letell and Hakan Thorn Transformations of the Swedish Welfare State From Social Engineering to Governance Springer 2012 ISBN 0 2303 6395 4 Jackson Paul Saab 37 Viggen World Air Power Journal Volume 13 Summer 1993 pp 46 89 London Aerospace Publishing ISBN 1 874023 17 4 Nativi Andrea Viggen Il Caccia Venuto dal Freddo Viggen The Hunting Came from the Cold in Italian RID magazine June 1993 pp 20 36 Peacock Lindsay On Falcon Wings The F 16 Story RAF Fairford United Kingdom The Royal Air Force Benevolent Fund Enterprises 1997 ISBN 1 899808 01 9 Roskam Jan Airplane Design Layout Design of Cockpit Fuselage Wing and Empennage Cutaways and Inboard Profiles DARcorporation 2002 ISBN 1 8848 8556 X Smith Chris India s Ad Hoc Arsenal Direction Or Drift in Defence Policy Oxford University Press 1994 ISBN 0 1982 9168 X Snyder William P and James Brown Defense Policy in the Reagan Administration DIANE Publishing 1997 ISBN 0 7881 4146 5 Taylor John W R SAAB 37 Viggen Thunderbolt Jane s All the World s Aircraft 1980 81 London Jane s 1981 ISBN 0 531 03953 6 ed Jane s All the World s Aircraft 1988 1989 London Jane s 1988 ISBN 0 7106 0867 5 This Happens in the Swedish Air Force brochure Stockholm Information Department of the Air Staff Flygstabens informationsavdelning Swedish Air Force 1983 Wagner Paul J Air Force Tac Recce Aircraft NATO and Non aligned Western European Air Force Tactical Reconnaissance Aircraft of the Cold War Dorrance Publishing 2009 ISBN 1 4349 9458 9 Warwick Graham Interceptor Viggen Flight International 27 September 1980 pp 1260 65 Williams Antony G and Dr Emmanuel Gustin Flying Guns The Modern Era Marlborough Wiltshire UK The Crowood Press 2004 ISBN 1 86126 655 3 Wilson Stewart Combat Aircraft since 1945 Fyshwick AU Aerospace Publications 2000 ISBN 1 875671 50 1 Winchester Jim ed Saab AJ SF SH Viggen Military Aircraft of the Cold War The Aviation Factfile London Grange Books 2006 ISBN 1 84013 929 3 External links edit nbsp Wikimedia Commons has media related to Saab 37 Viggen Interview with Viggen pilot Milavia Saab 37 Viggen SE Passagen Saab 37 Viggen SE Canit Viggen detailed photos of cockpit and weapons Aircraft resource center archived from the original on 3 March 2016 retrieved 8 August 2005 Viggen information in the public domain Vector site archived from the original on 13 October 2007 retrieved 15 September 2007 Saab 37 Viggen webpage Archived 16 April 2003 at the Wayback Machine in Dutch Flug Revue test flight report in German Retrieved from https en wikipedia org w index php title Saab 37 Viggen amp oldid 1224485343, wikipedia, wiki, book, books, library,

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