- Joined
- Jun 17, 2011
- Messages
- 1,273
- Likes
- 1,376
please note if any one having problem viewing pics then save it to ur computer & then zoom it for better view.(regards)
1.AESA RADAR
RAFALE :Thales RBE2
RBE2 is officially said to be able to track up to 40 aircraft and to engage 8 of them
T/R MODULES :ACTUAL VALUE IS 898 BUT CLAIMED 1,000 gallium-arsenide T/R modules
radar ranges RBE-2 AESA (Rafale F4, post-2012) (F-16.net)
For RCS 0.0001 m2 class target: 11~13 km+
For RCS 0.001 m2 class target: 20~23 km+
For RCS 0.1 m2 class target: 62~73 km+
For RCS 1.0 m2 class target: 110~130 km+
For RCS 5.0 m2 class target: 165~195 km+
For RCS 10.0 m2 class target: 195~230 km+
TYPHOON: CAPTOR-E
Its diameter is "slightly larger" than the mechanically scanned antenna that is now on Captor.
T/R MODULES: 1000 - 2000T/R MODULES
radar ranges CAESAR AESA (EF-2000 Tranch3, post-2015 with 1,500 T/Rs)
For RCS 0.0001 m2 class target: 18~21 km+
For RCS 0.001 m2 class target: 32~38 km+
For RCS 0.1 m2 class target: 104~122 km+
For RCS 1.0 m2 class target: 185~216 km+
For RCS 5.0 m2 class target: 278~324 km+
For RCS 10.0 m2 class target: 330~385 km+
so typhoon has larger & more powerful aesa radar than rafale
2.SUPERCRUISE CAPABILITY
RAFALE :
The present M88-2 that churns out 76kN (x 2 engines) of thrust can make the Rafale supercruise at Mach 1.2 .The M88-3 that produces 90kN (x 2) of thrust will power the Rafale starting 2007 and is said to be able to make the Rafale supercruise at 1.4 Mach .
The Dassault Rafale can supercruise, in dry power, even with four missiles and a 1,250-liter belly drop tank and even in the naval version (Rafale M)
TYPHOON:
According to the German Luftwaffe the Typhoon can cruise at about Mach 1.2 without afterburner. The manufacturer claims that the maximum level speed possible without reheat is Mach 1.5. A EF T1 DA (Development Aircraft trainer version) demonstrate supercuise (1,21M) with 2 SRAAM, 4 MRAAM and drop tank (plus one tonne flight test equipment, plus 700 kg more weight for the trainer version) during the Singapore evaluation.
so typhoon can supercruise at more speed than rafale
3.COCKPIT
RAFALE :
The cockpit includes a wide-angle holographic head-up display (HUD), two head-down flat-panel colour multi-function displays (MFDs) and a center collimated display. Display interaction is by means of touch input for which the pilot wears silk-lined leather gloves. In addition, in full development, the pilot will have a head-mounted display (HMD).The pilot flies the aircraft with a side-stick controller mounted on his right and a throttle on his left. These incorporate multiple hands-on-throttle-and-stick (HOTAS) controls.
TYPHOON:
The Eurofighter Typhoon features a glass cockpit without any conventional instruments. It includes: three full colour multi-function head-down displays (MHDDs) (the formats on which are manipulated by means of softkeys, XY cursor, and voice (DVI) command), a wide angle head-up display (HUD) with forward-looking infrared (FLIR), voice and hands-on throttle and stick (Voice+HOTAS), Helmet Mounted Symbology System (HMSS), Multifunctional Information Distribution System (MIDS), a manual data-entry facility (MDEF) located on the left glareshield and a fully integrated aircraft warning system with a dedicated warnings panel (DWP). Reversionary flying instruments, lit by LEDs, are located under a hinged right glareshield.
Well definitely typhoon 's cockpit is more advanced & had some more features than rafale ,but rafale's cockpit has a smooth & user friendly cockpit
4.HMD (HELMET MOUNTED DISPLAY)
RAFALE :TOPSIGHT
TopSight is a helmet-mounted sight/display system developed by Thales Group for the French Air Force Rafale next generation multi-role aircraft. It was designed to provide Rafale's pilots with situational awareness and flight information as well as automatic target designation, tracking and acquisition. The TopSight helmet-mounted display system is coupled to the IR sensor mounted at the frontal section of Rafale's fuselage.
TYPHOON:HELMET MOUNTED SYMBOLOGY SYSTEM (HMSS)
The helmet can enable a pilot to lock-on target and shoot by voice command, merely after looking at the target."Using the new helmet system, the pilot can now look at multiple targets, lock-on to them, and then, by voice-command, prioritize them. It's a lightning-fast system to let the pilot look, lock-on, and fire," said BAE Systems of the system,
SO Typhoon HMD sytem is more advanced than rafale's HMD system as it lacks voice command feature as in typhoon
5.SUPERMANUVERABILITY
RAFALE :
The Rafale features a delta wing combined with active integrated (close-coupled) canard to maximize maneuverability, while withstanding 9 g or -3 g) and maintaining stability in flight.According to internal sources (Les essais en vol du Rafale) low speed limit is 100 knots (190 km/h; 120 mph) but 80 knots (150 km/h; 92 mph) is sometimes demonstrated during airshows by pilots willing to underline low speed qualities of the aircraft." "A minimum of 15 kt have been reached during simulated combat vs a Mirage 2000 by an aggressive pilot.
TYPHOON:
The Eurofighter consortium claims their fighter has a larger sustained subsonic turn rate, sustained supersonic turn rate, and faster acceleration at Mach 0.9 at 20,000 feet (6,100 m) than the Grumman F-14 Tomcat, F-15 Eagle, F-16 Fighting Falcon, McDonnell Douglas F/A-18 Hornet, Dassault Mirage 2000, Dassault Rafale, the Sukhoi Su-27, and the Mikoyan MiG-29.
EJ200 TO HAVE 3DTVC
Eurofighter, EuroJet and a number of consortium nations and other companies have indicated a desire to include the nozzle (if possible) in Tranche-3 aircraft (due from 2010).The are several real benefits to employing thrust vectoring, for example; decreased take-off and landing distances, higher achievable angles of attack, improved control at low speeds/altitudes, reduction in size and number of control surfaces and reduced supersonic drag (by using the vectoring equipment to adjust trim rather than the control surfaces)
According to Eurojet, a Typhoon equipped with thrust vectoring nozzles (TVN) could reduce fuel burn on a typical mission by up to 5%, while increasing available thrust in supersonic cruise by up to 7%. Typhoon is already capable of performing 'super-cruise' (flying supersonically without afterburner) and the proposed modification will further increase this capability. Other cost saving aspects of thrust vectoring include the potential to extend engine life by reducing operating temperatures at a given power setting. It could also be used to reduce take-off and landing distances and approach speed. Beside the operational cost savings, TVN enhances the aircraft maneuvering as it becomes a 'virtual control surface' when coupled with the aircraft flight-control system. Another aspect is improving the aircraft ability to carry an asymmetric weapons load.
SO Typhoon with 3D TVC would definitely be more manuverable than rafale without TVC ,but rafale has better manuverabilty at low altitude & low speed
6.STRUCUTURAL MATERIAL COMPOSITION
RAFALE :
Lightweight materials used on the Rafale include aluminum-lithium, titanium, and carbon composites. Over 50% of the airframe
by structural weight is made of these materials, with less than 20% carbonfiber.
TYPHOON:
The airframe surface area is made of 70% Carbon Fibre Composites (CFCs), 15% lightweight alloys and titanium, 12% Glass Reinforced Plastics (GRP) and 3% other materials. In other words, metals make up only 15% of the materials used in building a Eurofighter Typhoon.
In tandem with the aerodynamically unstable design, these strong but lightweight materials mean that the weight and size of the airframe and engine are 10 - 20% smaller and 30% lighter, than they would otherwise have been. This not only means that the aircraft has a reduced radar signature but is also stealthy.
The radome is comprised of a complex layered Glass Fibre Reinforced Plastic (GFRP) structure manufactured using very high tolerance automated processes.BASE, British Aerospace Systems and Equipment who supply the radome structure have developed various Frequency Sselective Surface (FSS) materials which have been subsequently put to use in the Typhoon's radome. FSS materials are composed of a precisely defined array of metallic elements contained within a conducting frame. The use of these materials (when laid up in the correct fashion) results in a reduction in the transmission of all out of band frequencies. Therefore the radome can be designed to be transparent only to those frequencies and polarisation's used by the aircraft's own radar. This of course should lead to a reduction in the aircraft's radar cross section, from all frontal aspects at least.
sO TYPHOON definitely has a edge on rafale through stealthy radome made up of (GFRP) structure & (FSS) materials.But rest all
material compostion is almost same
7.AVIONICS
RAFALE :
(i)"Front Sector Optronics" - FSO Infra Red Search & Track (IRST)
Operating in the optronic wavelengths, it is immune to radar jamming and it provides covert long-range detection and identification, high resolution multi-target angular tracking and laser range-finding for air, sea and ground targets.
(ii)DAMOCLES - Laser designation pod
The DAMOCLES laser designator pod designed by THALES, brings full day and night laser designation capability to the RAFALE, with metric precision. It permits laser-guided weapons to be delivered at stand-off range and altitude.
(iii)AREOS - Recce pod - with real-time transmission
This high-tech, day and night equipment can be used in a wide range of scenarios, from stand-off distance at high altitude down to high speed and extremely low-level. The outstanding performance of AREOS in stand-off reconnaissance makes it a sensor with a true pre-strategic value.
(iv)RBE2 radar
The RBE2 will give the Rafale the capability to track all targets in the radar field of view, irrespective of the relative location between targets and host aircraft.
TYPHOON:
(i)PIRATE Infra Red Search & Track (IRST)
Passive Air-to-Air target detection and tracking performance in the IRST mode provides totally covert-tracking capabilities.
PIRATE also fully supports Air-to-Surface operations in the Forward Looking Infra-Red (FLIR) mode, with ground and target imagery as required during missions where passive operations are also needed.
(ii)LITENING targeting pod
LITENING is a targeting pod integrated and mounted externally to the aircraft. The targeting pod contains a high-resolution, forward-looking infrared (FLIR) sensor that displays an infrared image of the target to the aircrew; it has a wide field of view search capability and a narrow field of view acquisition/targeting capability of battlefield-sized targets. The pod also contains a CCD camera used to obtain target imagery in the visible portion of the electromagnetic spectrum. An on-gimbal inertial navigation sensor has established line-of-sight and automatic boresighting capability.
(iii) CAPTOR E Radar
The conversion to AESA will give the Eurofighter a low probability of intercept radar with much better jam resistance. These include an innovative design with a gimbal to meet RAF requirements for a wider scan field than a fixed AESA.
The coverage of a fixed AESA is limited to 120° in azimuth and elevation.
SO RAFALE has a slight advantage over typhoon in avionics despite having an inferior radar to typhoon
8.ELECTRONIC COUNTERMEASURES
RAFALE : SPECTRA - internal Electronic Warfare suite
Jointly developed by THALES and MBDA, the SPECTRA internal "Electronic Warfare" (EW) system is the cornerstone of the RAFALE's outstanding survivability against the latest airborne and ground threats.
It is fully integrated with other systems in the aircraft, and it provides a multi-spectral threat warning capability against hostile radars, missiles and lasers.
The SPECTRA system carries out reliable long-range detection, identification and localisation of threats, allowing the pilot to instantly select the most effective defensive measures based on combinations of radar jamming, infrared or radar decoying and evasive manoeuvres.
The angular localisation performance of the SPECTRA sensors makes it possible to accurately locate ground threats in order to avoid them, or to target them for destruction with precision.
It sports an integrated electronic survival system named "SPECTRA", which embodies a software-based virtual stealth technology. The SPECTRA electronic warfare system protects the aircraft against airborne and ground threats.
SPECTRA also has ELINT functions, for recording and analysing the characteristics of hostile emitters and their locations.
Thales Group and Dassault Aviation have mentioned stealthy jamming modes for the SPECTRA system, to reduce the aircraft's apparent radar signature. Active cancellation is supposed to work by sampling and analysing incoming radar and feeding it back to the hostile emitter out of phase thus cancelling out the returning radar echo.
TYPHOON: Defensive Aids Sub System (DASS)/Praetorian
The aircraft employs a sophisticated and highly integrated Defensive Aids Sub-System named Praetorian (formerly called EuroDASS).
The DASS monitors and responds to the outside world. It is internally housed and provides the pilot with an all-round prioritised assessment of Air-to-Air and Air-to-Surface threats, with fully automatic response to single or multiple threats; manual override is available.
The DASS includes:
Laser warner
Flare dispenser
Chaff dispenser
Missile warners
Wing tip ESM/ECM pods
Towed decoy
SO Rafale spectra system is definitely better than Typhoon's Defensive Aids Sub System (DASS) ,but it is comparable to spectra
1.AESA RADAR
RAFALE :Thales RBE2
RBE2 is officially said to be able to track up to 40 aircraft and to engage 8 of them
T/R MODULES :ACTUAL VALUE IS 898 BUT CLAIMED 1,000 gallium-arsenide T/R modules
radar ranges RBE-2 AESA (Rafale F4, post-2012) (F-16.net)
For RCS 0.0001 m2 class target: 11~13 km+
For RCS 0.001 m2 class target: 20~23 km+
For RCS 0.1 m2 class target: 62~73 km+
For RCS 1.0 m2 class target: 110~130 km+
For RCS 5.0 m2 class target: 165~195 km+
For RCS 10.0 m2 class target: 195~230 km+
TYPHOON: CAPTOR-E
Its diameter is "slightly larger" than the mechanically scanned antenna that is now on Captor.
T/R MODULES: 1000 - 2000T/R MODULES
radar ranges CAESAR AESA (EF-2000 Tranch3, post-2015 with 1,500 T/Rs)
For RCS 0.0001 m2 class target: 18~21 km+
For RCS 0.001 m2 class target: 32~38 km+
For RCS 0.1 m2 class target: 104~122 km+
For RCS 1.0 m2 class target: 185~216 km+
For RCS 5.0 m2 class target: 278~324 km+
For RCS 10.0 m2 class target: 330~385 km+
so typhoon has larger & more powerful aesa radar than rafale
2.SUPERCRUISE CAPABILITY
RAFALE :
The present M88-2 that churns out 76kN (x 2 engines) of thrust can make the Rafale supercruise at Mach 1.2 .The M88-3 that produces 90kN (x 2) of thrust will power the Rafale starting 2007 and is said to be able to make the Rafale supercruise at 1.4 Mach .
The Dassault Rafale can supercruise, in dry power, even with four missiles and a 1,250-liter belly drop tank and even in the naval version (Rafale M)
TYPHOON:
According to the German Luftwaffe the Typhoon can cruise at about Mach 1.2 without afterburner. The manufacturer claims that the maximum level speed possible without reheat is Mach 1.5. A EF T1 DA (Development Aircraft trainer version) demonstrate supercuise (1,21M) with 2 SRAAM, 4 MRAAM and drop tank (plus one tonne flight test equipment, plus 700 kg more weight for the trainer version) during the Singapore evaluation.
so typhoon can supercruise at more speed than rafale
3.COCKPIT
RAFALE :
The cockpit includes a wide-angle holographic head-up display (HUD), two head-down flat-panel colour multi-function displays (MFDs) and a center collimated display. Display interaction is by means of touch input for which the pilot wears silk-lined leather gloves. In addition, in full development, the pilot will have a head-mounted display (HMD).The pilot flies the aircraft with a side-stick controller mounted on his right and a throttle on his left. These incorporate multiple hands-on-throttle-and-stick (HOTAS) controls.
TYPHOON:
The Eurofighter Typhoon features a glass cockpit without any conventional instruments. It includes: three full colour multi-function head-down displays (MHDDs) (the formats on which are manipulated by means of softkeys, XY cursor, and voice (DVI) command), a wide angle head-up display (HUD) with forward-looking infrared (FLIR), voice and hands-on throttle and stick (Voice+HOTAS), Helmet Mounted Symbology System (HMSS), Multifunctional Information Distribution System (MIDS), a manual data-entry facility (MDEF) located on the left glareshield and a fully integrated aircraft warning system with a dedicated warnings panel (DWP). Reversionary flying instruments, lit by LEDs, are located under a hinged right glareshield.
Well definitely typhoon 's cockpit is more advanced & had some more features than rafale ,but rafale's cockpit has a smooth & user friendly cockpit
4.HMD (HELMET MOUNTED DISPLAY)
RAFALE :TOPSIGHT
TopSight is a helmet-mounted sight/display system developed by Thales Group for the French Air Force Rafale next generation multi-role aircraft. It was designed to provide Rafale's pilots with situational awareness and flight information as well as automatic target designation, tracking and acquisition. The TopSight helmet-mounted display system is coupled to the IR sensor mounted at the frontal section of Rafale's fuselage.
TYPHOON:HELMET MOUNTED SYMBOLOGY SYSTEM (HMSS)
The helmet can enable a pilot to lock-on target and shoot by voice command, merely after looking at the target."Using the new helmet system, the pilot can now look at multiple targets, lock-on to them, and then, by voice-command, prioritize them. It's a lightning-fast system to let the pilot look, lock-on, and fire," said BAE Systems of the system,
SO Typhoon HMD sytem is more advanced than rafale's HMD system as it lacks voice command feature as in typhoon
5.SUPERMANUVERABILITY
RAFALE :
The Rafale features a delta wing combined with active integrated (close-coupled) canard to maximize maneuverability, while withstanding 9 g or -3 g) and maintaining stability in flight.According to internal sources (Les essais en vol du Rafale) low speed limit is 100 knots (190 km/h; 120 mph) but 80 knots (150 km/h; 92 mph) is sometimes demonstrated during airshows by pilots willing to underline low speed qualities of the aircraft." "A minimum of 15 kt have been reached during simulated combat vs a Mirage 2000 by an aggressive pilot.
TYPHOON:
The Eurofighter consortium claims their fighter has a larger sustained subsonic turn rate, sustained supersonic turn rate, and faster acceleration at Mach 0.9 at 20,000 feet (6,100 m) than the Grumman F-14 Tomcat, F-15 Eagle, F-16 Fighting Falcon, McDonnell Douglas F/A-18 Hornet, Dassault Mirage 2000, Dassault Rafale, the Sukhoi Su-27, and the Mikoyan MiG-29.
EJ200 TO HAVE 3DTVC
Eurofighter, EuroJet and a number of consortium nations and other companies have indicated a desire to include the nozzle (if possible) in Tranche-3 aircraft (due from 2010).The are several real benefits to employing thrust vectoring, for example; decreased take-off and landing distances, higher achievable angles of attack, improved control at low speeds/altitudes, reduction in size and number of control surfaces and reduced supersonic drag (by using the vectoring equipment to adjust trim rather than the control surfaces)
According to Eurojet, a Typhoon equipped with thrust vectoring nozzles (TVN) could reduce fuel burn on a typical mission by up to 5%, while increasing available thrust in supersonic cruise by up to 7%. Typhoon is already capable of performing 'super-cruise' (flying supersonically without afterburner) and the proposed modification will further increase this capability. Other cost saving aspects of thrust vectoring include the potential to extend engine life by reducing operating temperatures at a given power setting. It could also be used to reduce take-off and landing distances and approach speed. Beside the operational cost savings, TVN enhances the aircraft maneuvering as it becomes a 'virtual control surface' when coupled with the aircraft flight-control system. Another aspect is improving the aircraft ability to carry an asymmetric weapons load.
SO Typhoon with 3D TVC would definitely be more manuverable than rafale without TVC ,but rafale has better manuverabilty at low altitude & low speed
6.STRUCUTURAL MATERIAL COMPOSITION
RAFALE :
Lightweight materials used on the Rafale include aluminum-lithium, titanium, and carbon composites. Over 50% of the airframe
by structural weight is made of these materials, with less than 20% carbonfiber.
TYPHOON:
The airframe surface area is made of 70% Carbon Fibre Composites (CFCs), 15% lightweight alloys and titanium, 12% Glass Reinforced Plastics (GRP) and 3% other materials. In other words, metals make up only 15% of the materials used in building a Eurofighter Typhoon.
In tandem with the aerodynamically unstable design, these strong but lightweight materials mean that the weight and size of the airframe and engine are 10 - 20% smaller and 30% lighter, than they would otherwise have been. This not only means that the aircraft has a reduced radar signature but is also stealthy.
The radome is comprised of a complex layered Glass Fibre Reinforced Plastic (GFRP) structure manufactured using very high tolerance automated processes.BASE, British Aerospace Systems and Equipment who supply the radome structure have developed various Frequency Sselective Surface (FSS) materials which have been subsequently put to use in the Typhoon's radome. FSS materials are composed of a precisely defined array of metallic elements contained within a conducting frame. The use of these materials (when laid up in the correct fashion) results in a reduction in the transmission of all out of band frequencies. Therefore the radome can be designed to be transparent only to those frequencies and polarisation's used by the aircraft's own radar. This of course should lead to a reduction in the aircraft's radar cross section, from all frontal aspects at least.
sO TYPHOON definitely has a edge on rafale through stealthy radome made up of (GFRP) structure & (FSS) materials.But rest all
material compostion is almost same
7.AVIONICS
RAFALE :
(i)"Front Sector Optronics" - FSO Infra Red Search & Track (IRST)
Operating in the optronic wavelengths, it is immune to radar jamming and it provides covert long-range detection and identification, high resolution multi-target angular tracking and laser range-finding for air, sea and ground targets.
(ii)DAMOCLES - Laser designation pod
The DAMOCLES laser designator pod designed by THALES, brings full day and night laser designation capability to the RAFALE, with metric precision. It permits laser-guided weapons to be delivered at stand-off range and altitude.
(iii)AREOS - Recce pod - with real-time transmission
This high-tech, day and night equipment can be used in a wide range of scenarios, from stand-off distance at high altitude down to high speed and extremely low-level. The outstanding performance of AREOS in stand-off reconnaissance makes it a sensor with a true pre-strategic value.
(iv)RBE2 radar
The RBE2 will give the Rafale the capability to track all targets in the radar field of view, irrespective of the relative location between targets and host aircraft.
TYPHOON:
(i)PIRATE Infra Red Search & Track (IRST)
Passive Air-to-Air target detection and tracking performance in the IRST mode provides totally covert-tracking capabilities.
PIRATE also fully supports Air-to-Surface operations in the Forward Looking Infra-Red (FLIR) mode, with ground and target imagery as required during missions where passive operations are also needed.
(ii)LITENING targeting pod
LITENING is a targeting pod integrated and mounted externally to the aircraft. The targeting pod contains a high-resolution, forward-looking infrared (FLIR) sensor that displays an infrared image of the target to the aircrew; it has a wide field of view search capability and a narrow field of view acquisition/targeting capability of battlefield-sized targets. The pod also contains a CCD camera used to obtain target imagery in the visible portion of the electromagnetic spectrum. An on-gimbal inertial navigation sensor has established line-of-sight and automatic boresighting capability.
(iii) CAPTOR E Radar
The conversion to AESA will give the Eurofighter a low probability of intercept radar with much better jam resistance. These include an innovative design with a gimbal to meet RAF requirements for a wider scan field than a fixed AESA.
The coverage of a fixed AESA is limited to 120° in azimuth and elevation.
SO RAFALE has a slight advantage over typhoon in avionics despite having an inferior radar to typhoon
8.ELECTRONIC COUNTERMEASURES
RAFALE : SPECTRA - internal Electronic Warfare suite
Jointly developed by THALES and MBDA, the SPECTRA internal "Electronic Warfare" (EW) system is the cornerstone of the RAFALE's outstanding survivability against the latest airborne and ground threats.
It is fully integrated with other systems in the aircraft, and it provides a multi-spectral threat warning capability against hostile radars, missiles and lasers.
The SPECTRA system carries out reliable long-range detection, identification and localisation of threats, allowing the pilot to instantly select the most effective defensive measures based on combinations of radar jamming, infrared or radar decoying and evasive manoeuvres.
The angular localisation performance of the SPECTRA sensors makes it possible to accurately locate ground threats in order to avoid them, or to target them for destruction with precision.
It sports an integrated electronic survival system named "SPECTRA", which embodies a software-based virtual stealth technology. The SPECTRA electronic warfare system protects the aircraft against airborne and ground threats.
SPECTRA also has ELINT functions, for recording and analysing the characteristics of hostile emitters and their locations.
Thales Group and Dassault Aviation have mentioned stealthy jamming modes for the SPECTRA system, to reduce the aircraft's apparent radar signature. Active cancellation is supposed to work by sampling and analysing incoming radar and feeding it back to the hostile emitter out of phase thus cancelling out the returning radar echo.
TYPHOON: Defensive Aids Sub System (DASS)/Praetorian
The aircraft employs a sophisticated and highly integrated Defensive Aids Sub-System named Praetorian (formerly called EuroDASS).
The DASS monitors and responds to the outside world. It is internally housed and provides the pilot with an all-round prioritised assessment of Air-to-Air and Air-to-Surface threats, with fully automatic response to single or multiple threats; manual override is available.
The DASS includes:
Laser warner
Flare dispenser
Chaff dispenser
Missile warners
Wing tip ESM/ECM pods
Towed decoy
SO Rafale spectra system is definitely better than Typhoon's Defensive Aids Sub System (DASS) ,but it is comparable to spectra
Last edited: