Panavia Tornado

Tornado Gr.1 As the most advanced tactical interdictor/strike (IDS) aircraft produced in Europe, the Panavia Tornado obviates NATO's lack of weapons standardization by carrying almost every relevant air- launched armament in the inventory. It achieves this task at high subsonic speeds, masked from detection by automatic, all-weather terrain following, and protected from air and surface threats by a range of active and passive self-defense aids. Meeting a challenging specification issued in the late 1960s, the Tornado's intended roles were interdiction, counter-air operations against airfields, battlefield interdiction, close air support, reconnaissance, maritime attack and point interception. Specific reconnaissance versions are the Luftwaffe s ECR and RAF's GR1A.

The three nations commissioning the Tornado are represented in prime contractor Panavia by their national aircraft industries, currently British Aerospace, DASA (Germany) and Alenia (Italy), which have program shares of 42.5, 42.5 and 15 per cent, respectively.

Assembly lines have been established in all three countries, with manufacture for third parties being undertaken by the firm achieving the sale.

The Tornado is of modest overall dimensions and is powered by a pair of Turbo Union RB.199 reheated turbofans which are, like the majority of the avionics, a product of international collaboration. The shoulder-mounted, continuously variable-geometry wing incorporates full-span double -slotted flaperons, full-span leading-edge slats and upper surface spoilers/lift dumpers. A Krueger flap is located forward of each wing glove vane. The wing high-lift devices confer good field performance and coupled with bucket-type thrust-reversers, allow the aircraft to land on unfavorable surfaces; perhaps damaged, lengths of runway and taxiway.

Tornado F.3 The Tornado's nav/attack system comprises a Texas Instruments multi-mode forward-looking, ground-mapping, terrain-following radar, Ferranti digital INS (DINS) and combined radar/map display, Decca 72 Doppler radar system, GEC Ferranti laser rangefinder and marked target seeker in an undernose fairing (RAF aircraft only) and Alenia radio/radar altimeter. The aircraft's flight control system primarily comprises a triply redundant command stability augmentation system (CSAS)using fly-by-wire and autostabilization, and an autopilot/flight director (APFD). Coupled with the nav/ attack system, these allow the aircraft to fly with high stability and near-sonic speed at 200 ft (61 m) above ground level in all weathers. Over known flat surfaces, such as southern Iraq during the 1991 Gulf War, altitude can be further reduced by reliance on the radar altimeter alone.

With a high wing loading to minimize low-altitude gust response, the aircraft is a stable weapons platform and is both fast and comparatively comfortable for its crew when flying through the dense, low-level air. The reliable DINS, updated by periodic radar fixes, make possible a single- pass attack of pinpoint accuracy in all weathers. The Tornado was also the first combat aircraft designed with a fly-by-wire control system, but was preceded into service by the similarly-con- trolled Lockheed (GD) F-16 Fighting Falcon. Fixed armament comprises two 27-mm IWKA-Mauser cannon on each side of the lower fuselage with 180 rounds per gun. Weapons and other stores are carried on a total of seven hardpoints: one centerline pylon, two fuselage shoulder pylons and two swiveling pylons under each wing. The inboard wing pylons are fitted with mountings for self-defense missiles.

Tornado development

Design of the Tornado, initially known as the Multi-Role Combat Aircraft (MRCA), was initiated in 1968. The first of nine prototype and six pre- series Tornados flew on l4 August 1974, followed by the initial production aircraft on 10 July 1979. Six procurement batches covered by the original tri-national agreement included 640 IDS aircraft, while a further 57 were added in Batch 7, as were four pre-series examples notionally refurbished to production standard. Aircraft of Batches 1-3 have 14,840-lb st (66.0-kN) RB.199 Mk 101 powerplants; the remainder have 16,075-lb st (71.5-kN) Mk 103s, although 100 RAF Mk 101 engines have been upgraded in service. RAF Tornados also have fin fuel tanks of 121-Imp gal (551-liter) capacity, augmenting a standard capacity of 1,285 Imp gal (5842 liters), and are cleared with the F.Mk 3's 495-Imp gal (2250-liter) underwing drop tanks. Italy and Germany use only 220- or 330-Imp gal (1000- or 1500-liter) tanks, two of which can also be installed beneath the fuselage of all variants. All IDS operators have some fully combat-capable dual-control Tornados for conversion and continuation training. In RAF service these "twin-stickers" are given the (little-used) designation GR.Mk 1(T). Production batches 6 and 7 incorporate MIL- STD 1553B digital databus, upgraded radar warning equipment and active ECM, an improved missile control unit and integration of AGM-88 HARM missile.

Tornado F.3 Orders have totaled 164 standard GR.Mk 1s, 50 (plus one refurbished pre-series) dual-control air- craft, and 14 new-build GR.Mk lA reconnaissance aircraft although 16 Batch 3/5 machines were retrofitted with Mk 103 engines and recce equipment under the same designation.

In 1993-94, two squadrons (Nos 12 and 617, at RAF Lossiemouth) began to receive a maritime attack tasking with BAe Sea Eagle anti-ship missiles and "buddy" refueling pods under the designation Tornado GR.Mk 1B, to replace the RAF's ageing Buccaneers. Ten aircraft (including seven twin-stickers) were modified to accept 15 Sargent- Fletcher 28-300 pods (purchased from the Marineflieger) during the Gulf War.

A mid-life update later in the 1990s will raise air- craft to Tornado GR.Mk 4 standard. This was to have provided the Tornado with a GEC Spartan terrain-referenced navigation suite (cancelled in early 1993), new Ferranti HUD, updated weapon control system, colour head-down display, improved electronic warfare suite and a FLIR (cancelled in 1993). P15 served as a GR.Mk 4 development aircraft, flying for the first time in its new configuration in late 1993. The resulting update will provide for a digital map display, GPS navigation, pilot's MFD, improved weapons systems, new HUD, video recorder and undernose FLIR. The GR.Mk 4 will be TIALD-capable. BAe will undertake the work on 80 aircraft between l996 and 2000, with an option on a further 62 upgrades between 2000 and 2002. Service entry is slated for February 1998.

A peak of 11 squadrons was achieved in 1990 eight in RAF Germany (II, IX, 14, XV, 16, 17, 20 and 31) and three in the UK (13, 27 and 617) of which two were assigned to reconnaissance, but the 1994 position was to be eight; four in Germany (IX, 14, 17 and 31) and four in the UK, the latter com pricing two recce (II and 13) and two maritime (12 and 617) squadrons.

In Germany, the Luftwaffe acquired 212 Tornado IDS, including two refurbished and 55 dual-control; the navy acquired 112, of which 12 are "two- stick". Luftwaffe aircraft were assigned to four fighter-bomber wings and one training wing, while the Marineflieger fielded two maritime attack units. One of these naval squadrons (MFG 1) has been disbanded and its aircraft transferred to the Luftwaffe to re-equip reconnaissance units AkG 51 and 52, which were former RF-4E operators. Over the course of a year 40 aircraft were transferred to a new unit, AG 51, which has adopted the badge and traditions of AkG 52. Established in January 1994, AG 51 undertakes a Baltic reconnaissance role identical to that of MFG 1.

These aircraft will be initially equipped with (only nine) DB/Aeritalia pods housing two Zeiss cameras and a Texas Instruments RS-710 IRLS, inherited from the Marineflieger. This makes them less capable than the Phantoms which they replaced, but development of a new DASA system, to enter service in 1998, is underway. Nine remaining HARM-capable Marineflieger Tornados have joined MFG 2.

Tornado F.3 and a Tu-95 'Bear' In association with Italy, Germany is pursuing a Mid-Life Improvement plan. A step-by-step pro- gram, it will involve integrating a new main computer with software and weapons systems, with a view to adding a FLIR, GPS navigation and improved ECM capabilities in the future. Italy received 100 Tornado IDS, including one refurbished and 12 dual-control. Three squadrons formed in 1983-84 and a fourth converted in 1993. This latter unit (102o Gruppo) will have a dual reconnaissance/attack role using podded Martin- Marietta ATARS (Advanced Tactical Air Reconnaissance System), and 155o Gruppo is already equipped with a MBB/Aeritalia podded recce system. Maritime attack is the responsibility of the Kormoran-equipped 156o Grupo. Italian plans for an update program are comparable to those of Germany.

The sole IDS export contract covers 48 (including 14 dual-control and six reconnaissance) delivered to Nos 7 (replacing F-5Es) and 66 Sqns of the Royal Saudi air force from 1986. The follow-on 1993 Al- Yamamah II contract covered an additional purchase of 48 IDS-configured aircraft. Originally to be split between IDS and ADV variants, this order, confirmed in June 1993, will comprise virtually all IDS Tornados, with a small number of reconnaissance-capable examples. The final six aircraft of the initial batch were already completed to GR.Mk 1A standard.

RAF, Italian and Saudi Tornados received their combat debut in the 1991 Gulf War. One AMI and six RAF Tornados were lost in combat, the latter primarily due to AAA when employed on anti-airfield missions. The war also marked the operational debut of TIALD and ALARM. After closure of OEW the German assembly line in January 1992, the UK remained the sole manufacturing source, delivering its last aircraft (a F.M 3 in 1993. Orders totaled 697 IDS, 35 ECR and 197 ADV interceptors.

ADV Tornado

The ADV (Air defense Variant) was developed for a British requirement for a long-range interceptor to stop Soviet bombers far out over the approaches using BAe Sky Flash radar homing AAMs. Al. Mk 24 Foxhunter, a muti mode, track-while-scan, pulse -Doppler radar system was produced for the new variant but suffered from serious problems and delays. Three prototypes were built the first flying on 27th October 1979, followed by 18 interim Tornado F.Mk 2s without the Foxhunter radar. These aircraft served only with No. 229 OCU for training purposes.

The current definitive ADV version with the Foxhunter radar flew first on 20th November 1985 as the F.Mk 3 and was followed by 144 including 38 with dual controls. No. 229 OCU traded its F. Mk 2s in for the later version, while No. 29 Squ became the first operational unit with the type on 1st November 1987. It was followed by No. 5, 11, 23, 25, 43, 111 Squadrons hut the "Options for Change" cut-back saw the disbandment of No. 23 and 25 Squadrons in 1994. An update known as "Stage 1+" introduced on the production lines in 1989 and retrofitted to the fleet included a new "combat stick" featuring HOTAS controls, improved Foxhunter, avionics updates and AIM-9M Sidewinder capability. A further update concerning the Foxhunter was planned for the mid 1990s. The final Tornado F.Mk 3 was delivered on 24th March 1993.

The only export customer for the ADV was Saudi Arabia who received 24 of which six were dual stick aircraft. Delivered to Nos 29 and 34 Squadrons starting in February 1989, all were in service by early 1991. They flew with RAF examples during the Gulf War without seeing aerial combat. The delays to the Eurofighter program, the age of the F-104S Starfighter and the draw- down in RAF tighter strength conspired to let Italy became an ADV operator in early 1995 by leasing 24 existing RAF examples. They are flown from Gioia de Colle and Trapani/Bergi.

Source: "World Air Power/ Journal"