During Euronaval 2014 in Paris, Rafael is highlighting naval variant
of its newest ultra- long range, high-impact SPIKE missile. The SPIKE
Family consists of missiles suited for land, air and sea platforms,
multiple ranges and a variety of targets. The missiles in this family
have sophisticated electro-optic CCD or IIR sensors for day/night all-weather
operation, as well as a tandem warhead. Their lofted trajectories enable
the warhead to strike the target at its most vulnerable location with
pinpoint precision. |
The missiles
SPIKE's family have sophisticated electro-optic CCD or IIR sensors
for day/night all-weather operation, as well as a tandem warhead.
Their lofted trajectories enable the warhead to strike the target
at its most vulnerable location with pinpoint precision. All of the
SPIKE Family members have a low life-cycle cost, due to high reliability
and operational, logistic support and production commonality between
members.
Spike NLOS is an electro-optically guided multipurpose missile for
ranges of up to 25 km with pinpoint accuracy and midcourse navigation.
The weapon system can be launched from land, air and naval platforms.
Equipped with a variety of warheads, a wireless data link to the missile,
unique advantages of hitting non-line of sight (NLOS) targets and
the ability to switch between targets and abort missions, Spike NLOS
can be operated in both offensive and defensive scenarios. In addition
to attacking hidden targets, Spike NLOS can provide real-time tactical
intelligence and damage assessment.
Spike NLOS is designed to be integrated into the modern battle arena
and can receive target location from an embedded TAS system, external
sensors, C4I center or UAVs.
Featuring day/night all-weather target engagement capability, Spike
NLOS is the ideal solution for naval, urban, anti-armor and high-intensity
combat, as well as asymmetric conflicts and stand-off missions (small
group, remote/special operations).
With high reliability and ease of use, Spike NLOS delivers maximum
operational flexibility with minimal life-cycle cost.
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