Yongpeng Sun-Tastaufen
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The Infrared Search and Track Capability (IRST) of
earlier Flankers has been enhanced with a new
OLS series design, with almost full hemispherical
coverage, and TV/laser channels.
Electronic warfare capabilities are also more
extensive than in earlier Flankers. A comprehensive
internal ESM/RWR system is fitted. Wingtip KNIRTI
SAP-518 series phased array EWSP jamming pods
are the baseline, with 5 to 18 GHz coverage
against SAM engagement radars, SAM seekers
and fighter radars. A large centerline SAP-14 pod
can be carried for support jamming, this 1 to 4 GHz
design being analogous to US ALQ-99 pods on the
EA-18G Growler, but using electronic rather than
mechanical beam steering. A Missile Approach
Warning System (MAWS) and expendables are
carried. To enhance the potency of the EWSP suite,
extensive treatment with radar absorbent materials
has been applied, following the model used in the
F/A-18E/F and F-15SE, with Russian claims of a
thirty fold reduction in frontal X-band signature. In
practice, external stores will impair signature gains
much as in the Boeing fighters.
The avionic suite is fully digital but details of its
integration have yet to appear in Russian language
publication
https://www.ausairpower.net/SP/DT-Su-35S-Flanker-March-2010.pdf
Su-35 countermeasures
The aircraft’s electronic warfare suite includes a radar warning system, radar jammer, co-operative radar jamming system, missile approach warner, laser warner and chaff and flare dispenser.
Radar warning system
Missile Defense System (Sensors)
Electro-optical reconnaissance Оптико-электронная разведка
Detector attacking missiles (SAR)
The system of optical-electronic reconnaissance (SOER)
Purpose:
• continuous review of the formation of spherical mnemo- and surroundings video?;
• automatic detection in the infrared airborne targets (VTs) and missile;
• recognition and support of the Computing Center and missiles;
• formation of signs of threat. <
Detector of attacking missiles (UAR)
Solves the following tasks:
• continuous spherical review of the environment;
• detection of objects representing a threat, determination of their angular coordinates;
• formation of signs of threat.
Detector of laser irradiation (OLO)
OLT module
Solves the following tasks:
• continuous spherical review of the environment;
• automatic detection of laser radiation sources (OR);
• formation of signs of threat.
Translated by google – Source npk-spp.ru
L-265V Khibiny-MV
The Russian Air Force Khibiny is an advanced aircraft-mounted electronic warfare (EW) system capable of jamming state-of-the-art radar-based weapon systems. It consists of a small torpedo-shaped wingtip pod that covers the aircraft with radio-electronic protective hood once a missile attack has been detected. The protective hood prevents the missile from reaching the target and makes it deviate from the course. According to KRET corporation the Khibiny increases the aircraft’s survivability by 25-30 times. This pod development is the result of the lessons learned during the conflict with Georgia in 2008 where all the aircraft lost were not fitted with an EW system which is the main cause of them being shot down. The Khibiny jamming system was tested successfully for some time on the ground in Buryatia, Russian Federation. The Russian Air Force plans call for the installation of the Khibiny jammer on all its advanced jets such as Su-30SM, Su-30M2, Su-34 and Su-35 (Khibiny-10V). Source deagel.com
General data:
Type: ESM Altitude Max: 0 m
Range Max: 222.2 km Altitude Min: 0 m
Range Min: 0 km Generation: Late 2000s
Sensors / EW:
L-265V Khibiny-MV – (Su-35S) ESM
Role: RWR, Radar Warning Receiver
Max Range: 222.2 km
L-265V Khibiny-MV data cmano-db.com
Stealth
As mentioned earlier, Sukhoi learned that a large RCS does not help the plane, as such, to the refinement of the lines, Sukhoi allied other Stealth measures:
_ Use of RAM layers throughout the structure.
_ Treatment of the air inlets with a RAM layer with a thickness between 0.7 and 1.4 mm.
_ Treatment of the face of the engine with RAM material
_Treatment of the canopy with electro conductive materials that prevent reflection of radar waves.
These measures mean a RCS between 0.7 and 1 m2.
In terms of the thermal signature Sukhoi should have used ceramic materials in parts that reach higher temperatures, such as in the exhaust of the engine.
Source sukhoitributeenglish.blogspot.com
The Su-35S’ MAWS can detect the launch of a man-portable air-defense system (MANPADS) from 10 km away (6.2 miles) as well as SAM and AAM launches at 30 km (19 miles).[17] Very little information on the Su-35S’ MAWS exists among English language sources, but the system should in principle give VKS pilots greater reaction against missile threats. MAWS are particularly useful in defending against IR and other types of passive guided AAMs which will avoid detection on the aircraft’s RWR.
https://manglermuldoon.blogspot.com/search?updated-max=2016-12-19T12:16:00-08:00&max-results=100
earlier Flankers has been enhanced with a new
OLS series design, with almost full hemispherical
coverage, and TV/laser channels.
Electronic warfare capabilities are also more
extensive than in earlier Flankers. A comprehensive
internal ESM/RWR system is fitted. Wingtip KNIRTI
SAP-518 series phased array EWSP jamming pods
are the baseline, with 5 to 18 GHz coverage
against SAM engagement radars, SAM seekers
and fighter radars. A large centerline SAP-14 pod
can be carried for support jamming, this 1 to 4 GHz
design being analogous to US ALQ-99 pods on the
EA-18G Growler, but using electronic rather than
mechanical beam steering. A Missile Approach
Warning System (MAWS) and expendables are
carried. To enhance the potency of the EWSP suite,
extensive treatment with radar absorbent materials
has been applied, following the model used in the
F/A-18E/F and F-15SE, with Russian claims of a
thirty fold reduction in frontal X-band signature. In
practice, external stores will impair signature gains
much as in the Boeing fighters.
The avionic suite is fully digital but details of its
integration have yet to appear in Russian language
publication
https://www.ausairpower.net/SP/DT-Su-35S-Flanker-March-2010.pdf
Su-35 countermeasures
The aircraft’s electronic warfare suite includes a radar warning system, radar jammer, co-operative radar jamming system, missile approach warner, laser warner and chaff and flare dispenser.
Radar warning system
Missile Defense System (Sensors)
Electro-optical reconnaissance Оптико-электронная разведка
The system of optical-electronic reconnaissance (SOER)
Purpose:
• continuous review of the formation of spherical mnemo- and surroundings video?;
• automatic detection in the infrared airborne targets (VTs) and missile;
• recognition and support of the Computing Center and missiles;
• formation of signs of threat. <
Detector of attacking missiles (UAR)
Solves the following tasks:
• continuous spherical review of the environment;
• detection of objects representing a threat, determination of their angular coordinates;
• formation of signs of threat.
Detector of laser irradiation (OLO)
Solves the following tasks:
• continuous spherical review of the environment;
• automatic detection of laser radiation sources (OR);
• formation of signs of threat.
Translated by google – Source npk-spp.ru
L-265V Khibiny-MV
The Russian Air Force Khibiny is an advanced aircraft-mounted electronic warfare (EW) system capable of jamming state-of-the-art radar-based weapon systems. It consists of a small torpedo-shaped wingtip pod that covers the aircraft with radio-electronic protective hood once a missile attack has been detected. The protective hood prevents the missile from reaching the target and makes it deviate from the course. According to KRET corporation the Khibiny increases the aircraft’s survivability by 25-30 times. This pod development is the result of the lessons learned during the conflict with Georgia in 2008 where all the aircraft lost were not fitted with an EW system which is the main cause of them being shot down. The Khibiny jamming system was tested successfully for some time on the ground in Buryatia, Russian Federation. The Russian Air Force plans call for the installation of the Khibiny jammer on all its advanced jets such as Su-30SM, Su-30M2, Su-34 and Su-35 (Khibiny-10V). Source deagel.com
General data:
Type: ESM Altitude Max: 0 m
Range Max: 222.2 km Altitude Min: 0 m
Range Min: 0 km Generation: Late 2000s
Sensors / EW:
L-265V Khibiny-MV – (Su-35S) ESM
Role: RWR, Radar Warning Receiver
Max Range: 222.2 km
L-265V Khibiny-MV data cmano-db.com
Stealth
As mentioned earlier, Sukhoi learned that a large RCS does not help the plane, as such, to the refinement of the lines, Sukhoi allied other Stealth measures:
_ Use of RAM layers throughout the structure.
_ Treatment of the air inlets with a RAM layer with a thickness between 0.7 and 1.4 mm.
_ Treatment of the face of the engine with RAM material
_Treatment of the canopy with electro conductive materials that prevent reflection of radar waves.
These measures mean a RCS between 0.7 and 1 m2.
In terms of the thermal signature Sukhoi should have used ceramic materials in parts that reach higher temperatures, such as in the exhaust of the engine.
Source sukhoitributeenglish.blogspot.com
The Su-35S’ MAWS can detect the launch of a man-portable air-defense system (MANPADS) from 10 km away (6.2 miles) as well as SAM and AAM launches at 30 km (19 miles).[17] Very little information on the Su-35S’ MAWS exists among English language sources, but the system should in principle give VKS pilots greater reaction against missile threats. MAWS are particularly useful in defending against IR and other types of passive guided AAMs which will avoid detection on the aircraft’s RWR.
https://manglermuldoon.blogspot.com/search?updated-max=2016-12-19T12:16:00-08:00&max-results=100
Last edited:
