The Leonardo's Praetorian DASS is an integral part of Eurofighter Typhoon defensive Aid Sub-System (DASS) providing threat assessment, aircraft protection and support measures in extremely hostile and severe environments. As the DASS is fully integrated, it doesn’t require additional pods that take up weapon stations or would influence the aircraft’s aerodynamic performance. In addition the modular nature of the DASS simplifies future upgrades and allows each partner nation or export customer the option to tailor the DASS to their individual needs.
The DASS for the Eurofighter Typhoon was intended to be a collaborative effort between the UK, Germany, Spain and Italy. However, integration of the system turned out to be very expensive, so much so that in November 1991, Germany left the programme and initiate its own defense system to equip its Typhoons. In February 1992, before signing the £1.5 billion contract for the DASS, Spain also had doubts about the financial viability and withdrew. This left only the UK and Italy in the consortium, now named EuroDASS (European Defensive Aids Sub-System), to be awarded an initial contract of £200M ($340M) with the work shares split 60% to GEC-Marconi (now BAE Systems) and 40% Elettronica. By 1995, Spain had decided to rejoined the EuroDASS consortium and a contract was signed with Elettronica to allow INDRA to participate.
In May 1996, Germany had found their national system being developed by DASA was too expensive. In 1997, DASA looked to join the EuroDASS consortium proposing to use the towed radar decoy (TRD) it had developed. These discussions failed as GEC-Marconi had already developed their TRD, known as the Ariel, that had been tested up to mach 2 and was operational with the RAF while the DASA's TRD had only been tested up to mach 1.4 and was not integrated into the Defensive Aids Computer (DAC).
The Praetorian system is a modular system consisting of antennas for electronic countermeasures (ECM), electronic support measures (ESM), missile approach warning systems (MAW), laser warning receivers (LWR) and Towed radar decoy (TRD). The system is divided into 20 major line replaceable units (LRU) with all the components controlled by a Teldix GmbH Defensive Aids Computer (DAC) on MIL-STD-1553 databus. The DAC is connected via fiber optic cables to STANAG 3910 in the avionics, with the entire DAC system controlled by five Radstone PowerPC-4 processors, that have a tenfold increase in computing power compared to the original five Motorola 68020 CPUs. It is fully automatic, which greatly relieves the workload for the pilot in combat but the pilot can manually override.
The DASS includes electronic support measures (ESM) and equipped with radar-warning-receivers (RWR). The RWR is designed to detect threat radars using super heterodyne, digital receiver antennas which are located into the wing tip pods giving full 360° coverage with an accuracy better than 1° in azimuth. These passive antennas can identify radio frequencies of 100 MHz up to 10 GHz, which is sufficient to detect nearly types of radar systems and even to detect other RF sources such as radios or datalink systems. The data is compared with the database of radar signatures stored in the Electronic Support Measures suite (ESM). Using this information the ESM allows the identification of the radar and thus the platform its deployed and presents it on a moving map or multifunction display producing a 360° threat picture around the aircraft including identifying targets and even their zones of lethality. This allows the pilot to fly around these zones to avoid detection or being engaged. Thus the system not only warns a pilot but it helps him to look out for potential targets.
Laser Warning Receiver (LWR)Edit
To counter the threat of laser guided weapons a Laser Warning Receiver, LWR, are installed on UK and Saudi typhoons. These LWRs are optimized for low false alarm rates and can detect lasers pointing at the aircraft and find the direction of the laser source. There are four LWRs on the eurofighter capable of detecting any incoming laser radiation and determine its bearing fuselage, two are located in front of the canards on the front fuselage and the remaining two at the rear behind the wing.
The Eurofighter Typhoon features an internal electronic countermeasures system (ECM) that uses a digital radio frequency memory (DRFM) and a digital frequency techniques generator to jam multiple airborne and ground based radar systems at the same time and at long ranges. Each transmitter and receiver modules (T/R) consists of Vivaldi antennas that can passively locate emitters. The antennas are located in front of the wing tip pods, and another at the rear end of the left pod thus ensuring a 360 ° coverage. The T/R modules of AESAS are GaAs-MMIC based and operating in the 6–18 GHz frequency range. The output per module is 27 dBm (0.5 W), before being amplified by 20 dB (100 times), resulting in 50 Watt radiation performance. It is possible that the Cross Eye (X-Eye) system developed by Elettronica will be retrofitted by inserting a second antenna in the right-wing pod. As part of the Phase 1 Enhancement (P1E), Typhoons received new antennas, extending the frequency range and increasing the power and improved DRFM- and ECM techniques.
Missile Approach Warner (MAW)Edit
To track missiles launched at the typhoon, the DASS incorporates three Missile Approach Warners (MAW), one each in the both wing roots and one in the tail to provide a full 360° azimuth coverage around the aircraft. In 1991, GEC-Plessey Avionics received the order to develop the missile approach warner derived from their PVS2000 MAW and utilises an active, millimeter-wave Ka-band (32–38 GHz) pulse-doppler radar for detection. Since the units are active they are able to detect not only radar guided ordnance but also passive weapons such as infra red guided short range missiles. They can detect multiple missiles launched towards the aircraft in all weather conditions and even after the rocket motor’s burnout phase. Once a missile is detected it will identified according to whether radar or IR guided and its location displayed on the MFDs. The MAW can automatically activate the chaff/flare dispensers as required.
Countermeasure Dispenser SystemsEdit
The Eurofighter includes four chaff/flare launchers mounted under the wings. Two Saab BOL-510 dispensers and two Cobham plc / Elettronica Aster 55mm flare dispensers. These countermeasures are controlled automatically by the DAC and, in response to an immediate threat, by the Missile Approach Warner's or manually by the pilot.
The two Saab BOL-510 dispensers are located at the end of LAU-7 launch rails near the outer wing tips ensures a good distribution of the decoys in the wake vortices, in addition small air intakes at the end of each dispenser generate more vortices. Each dispenser can be loaded with 160 packets of chaff/flares giving the Eurofighter a total of 320 chaff/flare cartridges (total weight 7–9 kg), consisting of the following decoys:
The two 55 mm flare dispensers contain 16 decoy rounds each, giving a total capacity of 32 flares per aircraft, and are located into the actuators housing of the inner trailing edge flaperons. The decoys will be automatically deployed in intelligent pre-programmed sequences when a missile is launched. There are two types of ammunition available:
- Cartridge Countermeasure 55mm Typhoon IR Decoy. Formerly known as Typhoon IR Decoy No1 Mk1 they were specifically developed for the Typhoon by Chemring Group. Each decoy weighs 0.725 kg and are automatically deployed in intelligent preprogrammed sequences.
- BriteCloud Expendable Active Decoy. The DRFM-based active RF countermeasure is up to 375 mm long, 0.7 to 0.85 kg in weight and has a shelf life of about five years. The transmitter produces active emissions for at least 10 seconds. Other Platforms that can be equipped include the Saab Gripen and Panavia Tornado.
Towed Radar Decoy (TRD)Edit
In addition to the onboard ECM, another active countermeasure is the Towed Radar Decoy or TRD. Either one or two Ariel Mk II TRD from SELEX Galileo will be carried in the rear of starboard wingtip pod, and deployed from the pod on a 100 m long Kevlar cable containing a FibreOptic link and a separate power line. The Ariel Mk II is a development of BAE Systems Ariel system which has already been successfully deployed on RAF Tornado's and Nimrod's but is physical smaller to enable carriage in the Typhoon's pods. The TRD can tolerate speeds of up to Mach 2 and loads of + 9 / -3g and will be capable of being recovered or jettisoned as the situation requires. The TRDs are effective against a variety of different radar systems like monopulse, TWS or COLS (Command Line Off Sight) radars. As the TRD is an offboard jammer, radar systems featuring a home on jam mode (HOJ) will not be able to directly lock on to the aircraft itself. The effectiveness is further enhanced by the release of Chaff clouds making the decoy a more attractive target for the missile.
- ↑ "aviation force - control stick - air force - 1991 - 2875 - Flight Archive". https://www.flightglobal.com/pdfarchive/view/1991/1991%20-%202875.html. Retrieved 2016-11-06.
- ↑ "active skyflash - air force - common dass - 1992 - 0231 - Flight Archive". http://www.flightglobal.com/pdfarchive/view/1992/1992%20-%200231.html. Retrieved 2016-11-06.
- ↑ 3.0 3.1 "mcdonnell douglas - 1992 - 0181 - Flight Archive". http://www.flightglobal.com/pdfarchive/view/1992/1992%20-%200181.html. Retrieved 2016-11-06.
- ↑ "Spain to consider re-joining DASS" (PDF). http://www.flightglobal.com/FlightPDFArchive/1993/1993%20-%200328.PDF. Retrieved 2016-11-06.
- ↑ "DASA develops a towed radar decoy for Transall". 8 May 1996. https://www.flightglobal.com/news/articles/dasa-develops-a-towed-radar-decoy-for-transall-17062/. Retrieved 2016-11-06.
- ↑ "Germany buys off-the-shelf DASS". 22 May 1996. http://www.flightglobal.com/news/articles/germany-buys-off-the-shelf-dass-12865/. Retrieved 2016-11-06.
- ↑ "DASA and GEC aim to settle DASS dilemma" (PDF). http://www.flightglobal.com/FlightPDFArchive/1996/1996%20-%201375.PDF. Retrieved 2016-11-06.
- ↑ "...as GEC test-flies new towed-decoy". 24 July 1996. http://www.flightglobal.com/news/articles/as-gec-test-flies-new-towed-decoy-12364/. Retrieved 2016-11-06.
- ↑ "lockheed martin - 1997 - 2200 - Flight Archive". http://www.flightglobal.com/pdfarchive/view/1997/1997%20-%202200.html. Retrieved 2016-11-06.
- ↑ "Eurofighter carries out first supersonic tests with decoy". 25 February 1998. http://www.flightglobal.com/news/articles/eurofighter-carries-out-first-supersonic-tests-with-33233/. Retrieved 2016-11-06.
- ↑ "Raising the tempo". 16 April 1997. https://www.flightglobal.com/news/articles/raising-the-tempo-632/. Retrieved 2016-11-06.
- ↑ "1998 - 1124 - Flight Archive". http://www.flightglobal.com/pdfarchive/view/1998/1998%20-%201124.html. Retrieved 2016-11-06.
- ↑ "Shared experience". 16 June 1999. http://www.flightglobal.com/news/articles/shared-experience-52562/. Retrieved 2016-11-06.
- ↑ "Praetorian DASS (Defensive Aids Sub-System) - DETAIL - Leonardo - Finmeccanica". http://www.leonardocompany.com/en/-/praetorian-2. Retrieved 2016-11-06.
- ↑ "Paris 2011: Selex sets itself apart in Europe’s electronic warfare stakes". http://www.ainonline.com/aviation-news/2011-06-20/paris-2011-selex-sets-itself-apart-europes-electronic-warfare-stakes. Retrieved 2016-11-06.
- ↑ "Eurofighter Typhoon - Benefits to Industry". https://www.eurofighter.com/news-and-events/2005/06/benefits-to-industry. Retrieved 2016-11-06.
- ↑ "Eurofihter Typhoon - Staying Ahead" (PDF). http://www.geautomation.com/sites/geautomation/files/userfiles/historical/Eurofighter_Casetudy.pdf. Retrieved 2016-11-06.
- ↑ "Re Contract - Radstone Technology (RST) - RNS Company Announcements - Equities - FE Trustnet". https://www.trustnet.com/Investments/Article.aspx?id=200105080702012027D. Retrieved 2016-11-06.
- ↑ "Aircraft Self-Protection" (PDF). http://armadainternational.com/assets/images/pdf/Aircraft_Self-Protection.pdf. Retrieved 2016-11-06.
- ↑ 20.0 20.1 "Microsoft PowerPoint - Bacchelli" (PDF). https://www.myaoc.org/eweb/images/aoc_library/Events/2002/102802_CONV/02CONV_Proceedings/Day2/Track2/Bacchelli.pdf. Retrieved 2016-11-06.
- ↑ 21.0 21.1 "Modern radar and EW Systems Call for the large scale use of GaAs MIC and MMIC" (PDF). http://amsacta.unibo.it/1846/1/GAAS_94_058.pdf. Retrieved 2016-11-06.
- ↑ "Eurofighter World : Eurofighter Typhoon" (PDF). https://web.archive.org/web/20121007103306/http://www.eurofighter.com/fileadmin/web_data/downloads/efworld/efworld0202012.pdf. Retrieved 2016-11-06.
- ↑ "Avionics Magazine :: Typhoon: Europe’s Finest". http://www.aviationtoday.com/av/military/Typhoon-Europes-Finest_917.html. Retrieved 2016-11-06.
- ↑ "Eurofighter Review Issue 01/2006" (PDF). http://www.defense-aerospace.com/dae/sponsors/sponsor_eurofighter/pdf/EFReview01screen.pdf. Retrieved 2016-11-06.
- ↑ "Microsoft PowerPoint - Komiak WFD-7_IMS_Workshop [Read-Only]" (PDF). http://web.njit.edu/~ieeenj/archived_slides/2005-04-14_EDSCASMTT.pdf. Retrieved 2016-11-06.
- ↑ operatore. "Technical Solution". http://www.elt-roma.com/index.php/en/technical-solution-2. Retrieved 2016-11-06.
- ↑ Gardner, Nick. "Cobham plc :: Mission Systems". http://www.cobham.com/about-cobham/mission-systems/about-us/mission-equipment/auxiliary-mission-equipment/products-and-services/military-aircraft-countermeasures.aspx. Retrieved 2016-11-06.
- ↑ http://saab.com/globalassets/commercial/air/electronic-warfare/counter-measure-dispenser-systems/bol-advanced-countermeasure-dispenser/bol-pdf/bol-product-sheet.pdf
- ↑ 29.0 29.1 "Other". http://www.chemringcm.com/Products/AirProducts/Chaff/Other/ChaffPackBOLCCM184/. Retrieved 2016-11-06.
- ↑ "Countermeasures" (PDF). http://www.chemring.co.uk/~/media/Files/C/Chemring-V2/PDFs/Sector%20Brochure_Countermeasures_low%20res.pdf. Retrieved 2016-11-06.
- ↑ "BriteCloud : Expendable Active Decoy" (PDF). http://www.leonardocompany.com/documents/63265270/65041723/mm08222_BriteCloud_LQ_1.pdf?download_file. Retrieved 2016-11-06.
- ↑ "Ariel : Fibre Optic Towed RF Decoy" (PDF). http://www.leonardocompany.com/documents/63265270/65034214/mm07735_Ariel_LQ_.pdf?download_file. Retrieved 2016-11-06.
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