LIDACS ECM Suite: Difference between revisions

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Due to the improved state of built-in RWR antennae found in the [[AC-88 Taipan|AC-88E Taipan]], the LIDACS-II offers both improved ATD2 and better near-360<sup>o</sup> coverage of the aircraft. Threat detection is improved to relative radar bandwith (i.e. low-frequency vs high-frequency vs VHF/UHF), which helps discriminate between likely sources of active radar missiles versus passive radar missiles.  
Due to the improved state of built-in RWR antennae found in the [[AC-88 Taipan|AC-88E Taipan]], the LIDACS-II offers both improved ATD2 and better near-360<sup>o</sup> coverage of the aircraft. Threat detection is improved to relative radar bandwith (i.e. low-frequency vs high-frequency vs VHF/UHF), which helps discriminate between likely sources of active radar missiles versus passive radar missiles.  
IRST/DAS nodes allow the system to "counter-predict" the trajectory of an oncoming missile.
IRST/DAS nodes allow the system to "counter-predict" the trajectory of an oncoming missile, which in turn activate the IR Dazzlers "as needed", depending on whether or not the missile is proportional-pursuit or tail-chase.


=LIDACS-III=
=LIDACS-III=

Revision as of 20:13, 18 September 2023

LIDACS
LIDACS Flares.jpg
Inyurstan UH-60YS2 fires 2F20 flares
TypeMultimode Counter-Measures Suite
Place of origin Inyursta
Service history
Used by Inyursta
Production history
DesignerNavayelle Systems

The LIDACS (INSERT ACRONYM HERE) Counter-measures suite is a multimode system of passive electronic counter-measures used on aircraft.

Counter-Infrared

Flares

  • 2F20: A universal pack of medium-sized high-heat magnesium-based flares.
    • 2F25: A universal pack of medium-sized, high-heat magnesium-based flares with parachutes attached for slower descent
  • 3F30: A cocktail of both medium-sized and large-sized

Alkyl Aluminum-based pyrophoric flare

  • 9F15: The current first-pick for low-flying attack aircraft and CAS missions, the 9F15 includes a "cocktail" of both high-heat MTV-based flares,(with and without parachutes), AA-based pyrophoric flares, and PP/HO spectrally balanced flares (with and without parachutes). The 9F15 can also semi-vertically (up to 65o) eject flares rearward.
    • 9F15ER:: A 9F15 module modified for delayed ejection where the flares are ejected at a slower pace rather than all at once to increase time in the air & distance traveled while shrouded by flares.

9F30: A similar pack to the 9F15 but adapted for higher-altitude missions. Includes a "cocktail" of both high-heat MTV-based flares,(with and without parachutes), AA-based pyrophoric flares, and a mix of both instant-ignition and delayed ignition PP/HO spectrally balanced flares (with and without parachutes). Because the AA-based pyrophoric flares require additional oxygen, they are physically larger and thus are in less quantity than the 9F15 despite constituting an equal proportion of the dispenser.

    • 9F30ER: Delayed ejection modification of 9F30.

LIDACS-I

LIDACS-II

Due to the improved state of built-in RWR antennae found in the AC-88E Taipan, the LIDACS-II offers both improved ATD2 and better near-360o coverage of the aircraft. Threat detection is improved to relative radar bandwith (i.e. low-frequency vs high-frequency vs VHF/UHF), which helps discriminate between likely sources of active radar missiles versus passive radar missiles. IRST/DAS nodes allow the system to "counter-predict" the trajectory of an oncoming missile, which in turn activate the IR Dazzlers "as needed", depending on whether or not the missile is proportional-pursuit or tail-chase.

LIDACS-III

The LIDACS-III is currently the most advanced system in the counter-measures suite.

LIDACS-IIIv2

A proposed improvement module to deal with off-boresight air-to-air missiles.

LIDACS-LAH

Host Platforms

Current:

Under Testing: