Video Source: Defense Acquisition Program Administration
A FTB (Flying Test Bed) equipped with the AESA radar, the core equipment of the first Korean fighter KF-21, was unveiled for the first time.
The aircraft's Radome is equipped with KF-21's AESA radar, and a unique type of test aircraft that protrudes like a duck's snout arrived at Incheon International Airport early last month and is on a test flight.
The KF-21 AESA radar test aircraft was adapted from the Boeing 737-500, a civilian airliner introduced from South Africa (Republic of South Africa), and equipped with AESA radar and various test equipment. The AESA radar of the KF-21 fighter jet, which will be developed by 2026, will be mounted on the test aircraft to conduct pre-test in various environments. It is also the first time that a test aircraft has been operated in Korea's aircraft development process. Radome, which looks like a duck's snout, is equipped with KF-21's AESA radar, and this radome is the same shape as KF-21's radome.
Test aircraft are used to develop various avionics equipment and software such as radar, and technologically advanced countries such as the United States and Europe have often used this method in the process of aircraft development. Lockheed Martin of the U.S. tested the technology of the F-35 with a CATBird, an experimental aircraft that modified the Boeing 737 to develop the F-35 stealth aircraft. The CATBird is equipped with radar and aeronautical equipment mounted on the F-35 fighter jet, and the radome's part protrudes like a duck's snout, much like the KF-21 radar test aircraft.
View attachment 42422
The first prototype of the KF-21 AESA radar released on August 7, 2020. Fire control, multi-function radar mounted on the cutting-edge fighter jets. The radar is capable of detecting, tracking enemy aircrafts, ground and sea targets. It can also control guided missiles.
This AESA Radar will be the key device for the
KF-21 Boramae, which is compared to the eyes of the aircraft. AESA radar emits multiple frequency beams at the same time to detect enemy targets. It can drastically reduce the possibilities of aircrafts being attacked as opposed to the single frequency beam radar. By detecting and tracking targets, AESA radar acquires the information including the distance to target, target’s azimuth, elevation, speed, etc. In the case of KF-21 AESA radar program, it marks Korea’s first AESA radar development efforts. KF-21 AESA radar is one of the most essential avionics sensors, which performs various missions such as surveillance, detection of air and ground targets and generation of their video images.
Key components of AESA radar including antenna, semiconductor transmit/receive modules can be reused 100% for MFR radar with the same frequency band. So, AESA radar is easily scalable to other new businesses in the future.
The antennas of the existing mechanical radar move up and down to detect and track targets, but the antennas of the AESA radar used in stealth fighters are detected and tracked by more than 1,000 fixed transmission and reception modules shooting electron beams.
Compared to conventional mechanical radars, the advantage is that they can perform combat missions while detecting and tracking a number of targets. It can also detect ground and sea targets while carrying out air-to-air combat missions.
Video Source: Defense Acquisition Program Administration
Currently, KF-21's EASA radar development process is underway with four projects.
AESA Radar Research and Development Project-I
2014 ~ 2019
AESA Radar Research and Development Project-II
2017 ~ 2021
Hardware Demonstration Prototype Development Project
2016 ~ 2019
Completed Prototype Development Project
2016 ~ 2026
AESA radar is a detection and tracking device operated not only on aircraft but also on ground combat vehicles and warships, and is a high-tech device that advanced weapons countries are reluctant to transfer technology. Since it is highly sophisticated technology and thus is very difficult to develop, only a small group of advanced countries like the
United States,
United Kingdom,
France,
Sweden and
Israel are holding AESA radar’s source technology.
In 2014,
Lockheed Martin, which promised to transfer the technology of AESA radar, EO TGP, ISRT, and RF Jammer during the development of KF-21, refused to transfer the technology. Since then, the
Agency for Defense Development (ADD) and
Hanwha Systems have developed the KF-21 AESA radar prototype and are currently testing it through test aircraft.
The test aircraft was decided to renovate the Boeing 737-500 in South Africa through competitive bidding, and the work was completed by the end of last year. Before the test aircraft entered Korea, a total of 10 flight tests were conducted in South Africa from November to December last year to complete basic radar function and performance tests, including the maximum detection distance, which is the core performance.
An official from the Agency for Defense Development who participated in the test aircraft project said, "The project to build a test aircraft cost more than 10 billion won, and due to the COVID-19 situation, it was quite difficult to renovate it in South Africa."
A total of 50 flight tests will be conducted until April, and a total of 62 items will be evaluated and tested. The detection and tracking functions of air-to-air mode are mainly tested, but detection functions and electronic warfare capabilities for land and sea are also tested.
Through this process, development software will be optimized while minimizing risks in the process of developing KF-21 AESA radar. Once taken off from Incheon International Airport, it flies in the air combat training area of the Air Force in the West Sea for about three hours and conducts detection and tracking tests on test targets.