Hellfire II locks on before or
after launch and can engage multiple targets simultaneously.
The missile uses Trajectory Shaping to enable optimal performance
in degraded weather. Operation under degraded weather conditions
are also improved with automatic target reacquisition after
loss of track in low clouds.
The digital autopilot can be reprogrammed in flight, to home
in on new targets in when employed in a Lock-On After Launch
mode. Hellfire II is also uses equipped with electro-optical
countermeasures hardening. The missile is capable of operating
with pulsed radar frequency or A-Code laser codes for those
aircraft equipped with dual code capability.
employed with the AH-64D Longbow mm radar targeting system,
the missile can also be equipped with a millimeter-radar seeker,
which enables "fire and forget" operation in adverse
weather, dust and smoke. The Longbow missiles
are fully compatible with the launchers carried on the Longbow
Apache which also carry the AGM-114K/M laser guided missiles.
Beside autonomous homing on targets designated by the Longbow
Fire Control system, the missile can also use advanced modes,
currently being upgraded to the system, which provide home-in
on active jammers that try to degrade or disable the missile.
The missile will also receive advanced countermeasures to defeat
and cancel jammers.
Hellfire II is provided with a choice of three warheads - a
tandem warhead (to defeat advanced / reactive armor), blast-fragmentation
warhead with delay fuse is used against soft, light armored
targets, small boats, brick and concrete structures and bunkers.
Modified HEAT Warhead
The Hellfire AGM-114K anti-tank version has been modified to
improve its fragmentation capability, when engaging soft targets.
The Mod-K modification, pursued by Dynetics for the Aviation
& Missiles R&D and Evaluation Center, included the installation
of a fragmentation sleeve placed around the shaped charge, optimizing
fragment lethality against a broad target set, while minimizing
degradation of shaped charge performance.
Thermobaric version of the Hellfire
Hellfire thermobaric warhead using a metal augmented explosive
charge is used primarily in urban warfare, against bunkers,
buildings caves and other concealed targets. This warhead is
designed to inflict greater damage in multi-room structures,
compared to the Hellfire's standard or blast-fragmentation warheads.
The Metal Augmented Charge or MAC (Thermobaric) Hellfire, designated
AGM-114N, has completed rapid development cycle in 2002 and
was deployed during OIF by US Marines Helicopters in Iraq. The
new warhead contains a fluorinated aluminum powder that is layered
between the warhead casing and the PBXN-112 explosive fill.
When the explosive detonates, the aluminum mixture is dispersed
and rapidly burns. The resultant sustained high pressure is
extremely effective against enemy personnel and structures.
The AGM-114N is designed for deployment from helicopters such
as the AH-1W or UAVs such as the Predator drones.
The combination of Hellfire II's precision guidance and Longbow
fire control and Hellfire's fire-and-forget millimeter-wave
seeker capability provide the battlefield commander flexibility
across a wide range of mission scenarios, permitting fast battlefield
response and high mobility not afforded by other anti-armor
weapons. The Longbow variant of the Hellfire missile is designated
Greece is seeking to add 657 AGM-114 Helfire II missiles to
equip its ground forces. The Greek armed forces are requesting
the US for 633 AGM-114K1 anti-tank missiles fitted with a tandem
HEAT warhead and 24 AGM-114M1 missiles equipped with Blast Fragmentation
warheads. The deal worth US$66 million also include Hellfire
II Training and drill missiles and technical support.
UAV Optimized Hellfire (AGM-114 P+)
SInce 2007 the U.S. Army invested over $18 million in modifying Hellfire missiles to better adapt for operating at higher altitude and wider engagement geometries, better suitable for deployement with unmanned aerial systems such as the Predator , Sky Warrior and Reaper. The required modifications include the replacement of the gyro into a MEMS-based inertial measurement unit (IMU), and introduction of software changes increasing the missiles engagement geometries and its capability to defeat a broad target set ranging from heavy armor to urban structures. The Army plans to modify the AGM-114-2K (anti-tank shaped charge) and AGM-114N (enhanced blast warhead) into the new AGM-114P+ model. The missile will also be compatible with all rotary-wing platforms.