Radar Technologies

AURA 200-G Radar is designed and developed by ASELSAN for homeland security needs to detect, track, and automatically classify mini/micro UAVs, helicopters, aircraft, and weapon targets that enter its field of view, under all weather conditions, both day and night. AURA 200-G is also capable of detecting ballistic munitions and calculating impact/landing locations to protect base areas.

ASELSAN Air Traffic Control Radar System HTRS 100 ensures the precise detection and tracking of all airborne targets in the vicinity of airports. The system integrates cutting-edge technologies to guarantee maximum reliability and performance.

SERDAR 100-Co Coastal Surveillance Radar is a fully solid-state, X-Band,FMCW Radar system designed and developed by ASELSAN for automatic detection and tracking of above water naval targets and low flying airborne targets. The radar can be installed on a stationary ground platform and can be controlled by a remote Command Control Station.
SERDAR 100-Co Coastal Surveillance Radar Family has two configurations to be used for different surveillance requirements.

AKREP 100-NI, integrated into the Fire Control Radar, is a CW (Continuous Wave) X-Band illumination radar capable of generating the illumination signal required for Evolved Sea Sparrow Missile (ESSM) guidance. The modular architecture of the AKREP 100-NI, Illumination Radar, which provides graceful degradation and high MTBF by reducing individual error sources, provides ease of maintenance, as well as a scalable structure, providing ease of design to meet different power requirements.

ASELSAN AKREP 300-N, incorporating modern technology, advanced digital signal processing capabilities, and advanced electronic protection techniques, utilize solid-state power amplifiers which allows them to continue operating with graceful degradation.

ALPER 100-N, is a low probability of intercept navigation radar system for detecting surface targets in all whether conditions and sea states, while not been detested by hosti¬le ESM systems, featuring extremely low power and special frequency-waveform regime.

ALPER 200-N, is a low probability of intercept navigation radar system for detecting surface targets in all whether conditions and sea states, while not been detested by hostile ESM systems, featuring low power and special frequency-wave-form regime.

ALPER 210-N, which can be integrated on various submarine masts, is a low probability of intercept navigation radar sys¬tem for detecting surface targets in all whether conditions and sea states, while not been detested by hostile ESM sys¬tems, featuring low power and special frequency-waveform regime.

CENK 200-N multi-beam 3D naval search radar, produced by ASELSAN, is a radar system capable of performing air and surface target detection & tracking from short to medium range.
It is a radar system that is modular, lightweight, and has lower power consumption thanks to its active phased array antenna structure and solid-state RF power amplifiers.

CENK 300-N is a 2D AESA naval radar system with GaN based solid-state transmit/receive modules. With its modern and innovative architecture, CENK 300-N incorporates advanced digital signal processing, pulse compression capability, simultaneous multiple target tracking, electronic beam stabilization, short response time, and advanced electronic protection techniques.

CENK 400-N is a 2D AESA naval radar system with GaN based solid-state transmit/receive modules. With its modern and innovative architecture, CENK 400-N incorporates advanced digital signal processing, pulse compression capability, simultaneous multiple target tracking, electronic beam stabilization, short response time, and advanced electronic protection techniques.

Multi-Functional Radar Systems Suite are GaN based, 2D AESA radar systems that combines innovative solutions with cutting-edge technology. They feature solid-state transmit/receive modules, advanced digital signal processing architecture, pulse compression capability, simultaneous multiple target tacking with high accuracy, electronic beam stabilization, short response time, and advanced electronic protection techniques.

SMART-S Mk2, produced by ASELSAN, is a multi-beam 3D naval radar. Having effective performance from medium to long range, SMART-S Mk2 is capable of simultaneously detecting and tracking both surface and air targets.

ASELSAN’s STR 400-G radar system has been designed by ASELSAN for the purpose of detecting and tracking mortar, artillery and rocket shells to determine the point of origin and the point of impact. With its AESA antenna, the radar covers the 360° in azimuth. In addition to the prior feature of detecting and tracking ballistic targets, STR 400-G can also make detection, tracking and classification of UAVs simultaneously.
STR 400-G has a very modular design, so that it can be used on a tripod, placed on a building or on a vehicle with an extendable mast.

ASELSAN Weapon Locating Radar detects enemy mortars, artilleries and rockets. System accurately calculates point of impact and point of origin of these threats by using state of the art technology.
The location of the enemy weapon is transferred to the Command and Control Center in order to aid elimination of enemy troops. System is also capable of tracking friendly fire, calculating the impact point and providing automatic correction parameters for more precise firing.

ALP 110-G is a multifunction AESA Air Surveillance Radar System that can be used not only as the main search radar for the ground based air defense systems but also as a gap filler radar to cover the areas which cannot be covered by other long range radar systems.

ALP 300-G, is a new generation S-Band radar developed for long range early warning, with its AESA and digital beamforming antenna architecture. ALP 300-G has the ability to detect and track air breathing targets, ballistic missiles, anti-radiation missiles and stealth/low RCS targets from very long ranges.

ALP 500-G, the longest-range search radar in ASELSAN’s scalable S-Band early warning radar family to be installed in a fixed radar site, is a new generation radar with multi-function AESA technology and digital beamforming antenna architecture.
ALP 500-G has the ability to detect, track and classify the airbreathing, rocket/mortar munition and stealth/low RCS targets from very long ranges.

KALKAN 050-G Radar is a cutting-edge air defense radar system specifically designed for Short and Medium-Range Air Defense Systems. This radar provides advanced surveillance capabilities for both air and ground targets, ensuring effective protection for military assets and bases.

KALKAN 200-G can be used as a primary search radar in various air defense command and control systems, as well as standalone.

KALKAN-I is a mobile X band phased array 3D search and track radar for point and area defense of critical military and civilian assets. KALKAN offers an instrumented range of 100 km and can track multiple targets accurately, adding classification and identification information to each target track.

KALKAN II is a mobile X band phased array 3D search and track radar for point and area defense of critical military and civilian assets.

FULMAR 200-A SAR Pod System is a state-of-the-art, lightweight and compact synthetic aperture radar system designed and developed by ASELSAN for the purpose of surveillance and reconnaissance missions of manned and unmanned aerial vehicles.

FULMAR 500-A, abbreviated for “Frontier UAV Long-Range Multi- Mission AESA (Active Electronially Scaned Array) Radar” is ASELSAN’s airborne radar system designed for fixed wing UAVs or manned Maritime Patrol Aircraft in order to support Armed Forces in naval/ ground/air surveillance and reconnisance domains.

MURAD 110-A is designed to meet all operational needs of both a surveillance and a fire control radar providing situationa awareness, identification, prioritization and engagement of threats, missile guidance. Both air-to-air and air-to-ground functions can be operated simultaneously thanks to its agile beam steering capability. It minimizes the effect of transceive/recive module failure by using many solid state T/R modules within the array ensuring high operational availability in the battlefield.