ASM-16 Cetán
ASM-16 Cetán | |
---|---|
Type | Anti-Ship Missile (AShM) |
Place of origin | Inyursta |
Service history | |
In service | 2016-present |
Used by | Inyurstan Air Force |
Production history | |
Designer | Navayelle Systems |
Designed | 2012 |
Manufacturer | Navayelle Systems |
Produced | 2016-present |
Specifications | |
Weight | 5,480kg |
Length | 11.2m |
Diameter | 78cm |
Detonation mechanism | Impact |
Blast yield | 640kg Multiple-EFP Warhead |
Engine | Liquid Fuel Rocket |
Wingspan | 1.62m |
Operational range | 720km |
Flight ceiling | 25km |
Speed | Mach 4.7 |
Guidance system | GPS/SACTOSAT with terminal active radar homing |
Accuracy | ~10m CEP |
The ASM-16 Cetán, previously known as the ASM-1M3X, is a long-range anti-ship missile in service with the Inyurstan Air Force. Along with the SS-9D Yacún-Borão, it is one of two high-altitude, high-speed missiles dubbed "carrier-killers" in the Inyurstan arsenal.
It is named for the Cetán, a gruesome heavyweight sea monster of Inyurstan lore.
Development
In 2012, Navayelle Systems Inc. was contracted to revive the earlier ASM-1 project. With a renewed understanding of high-supersonic flight dynamics and improved rocket engineering capabilities, the ASM-16 program was successful and entered service with a speed significantly higher and range almost twice that of its forefather.
Weighing on the decision to revive the idea of a high-altitude, high-speed, high-impact anti-ship missile was the fact of subsequent upgrades and improvements on the BM-37E2 Pythón supersonic bomber and fighter-screen capabilities which increased the survivability of a high-altitude attack on an enemy carrier group.
Capabilities
An increased service ceiling allows the missile to complicate (if not outright bypass) the interception by most air-defense systems until it's terminal descent at Mach 4.7. Pseudo-random maneuvering until it's terminal phase also mitigate the use of high-altitude anti-ballistic missile defenses against the Cetán.
As a "carrier-killer", the 640kg warhead is designed to explode on impact, sending multiple large-diameter EFP metal jet streams expanding outward into the ship below decks. While the warhead could ideally sink even a super-carrier in a single hit, the effect of such a blast is likely to destroy vital systems, cause secondary internal fires and paralyze operations in the off-chance the target ship somehow survives.
Speed, RCS returns and flight pattern can be sucessfully mimicked by the DU-109 target drone.