In Korea, only Hanwha Systems can provide both EOIR and SAR payloads
We provides electro-optical modules and SAR modules for military satellites that monitor the Korean Peninsula and neighboring countries on near-real time basis, maximizing the effects of joint operations of Army, Navy and Air Force. It also provides network controllers and various terminals for military satellite networks. Based on its unrivalled capabilities in satellite area, particularly for electro-optics, SAR radar, communications and small satellite systems along with its large pool of in-house satellite experts, we are undertaking the tasks of developing military satellite SAR and EO/IR payloads and is also leading the small satellite development to be aligned with New Space Paradigm.
Going forward, we will further upgrade satellite mission designs and system development technologies by targeting small satellite constellation operations in accordance with New Space Paradigm, which will help us to secure the leading position in satellite business.

  • High resolution optronics payload for
    mid-to-large sized satellites
  • High resolution SAR payloads for mid-
    to-large sized satellites to acquire areas
    of interest images under all weather
  • Development of small satellite systems
    and payloads at the global top tier level
초소형 SAR 위성 1:1 Scale


    IR Sensor

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    KOMPSAT(Multi-Purpose Satellite) 3A IR Sensor

    다목적실용위성 3A호 IR 센서 제품
    KOMPSAT 3A is a satellite equipped with both sub-meter level optics camera and infra-red sensor providing day/night imaging. For KOMPSAT 3A, Hanwha Systems successfully developed the world’s top-notch level infra-red sensor payload, which also marked Korea’s first success in that category.
    At present, KOMPSAT 3A is still in operation with its mission lifetime extended by 4 more years. We are currently developing its follow-on models, KOMPSAT 7 and KOMPSAT 7A, that are the world’s most advanced type of satellites with super resolution imaging payloads.
    As a company specialized in electro-optics payload system for KOMPSAT, after completing its development tasks for KOMPSAT 3A successfully, we are now working on the development of its follow-on models, KOMPSAT 7 and 7A. We expect that we will secure the highly sophisticated satellite technologies on a par with those of the world’s most advanced satellite developers.
  • Compact Advanced
    Satellite I & II
    EO Payload

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    Compact Advanced Satellite I & II Electro-Optics Payload

    차세대 중형위성 1,2호 EO 탑재체 제품
    Hanwha Systems became the first Koran company to participate in the electro-optics payload development for Compact Advanced Satellite(weighing about 500 kg) Project. The Project was intended to develop Korea’s indigenous satellite technology and more effectively respond to the public needs for national territory and resource management, weather and environment observation and disaster management by using satellites. Following the Korean government’s space industry promotion policy, we collaborated with KARI(Korea Aerospace Research Institute) to develop 0.5m level electro-optics payload and secured payload system integration technology thru technology transfer. Thanks to the success of this R&D effort, we laid the foundation to lead electro-optics payload development for Compact Advanced Satellite Program.
  • KOMPSAT 7 & 7A
    EO Payload

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    KOMPSAT(Multi-Purpose Satellite) 7 & 7A Electro-Optics Payload

    다목적실용위성 7호, 7A호 EO·IR 탑재체 제품
    By utilizing IR sensor technology applied to KOMPSAT 3A, Hanwha Systems is developing the key modules for super resolution camera payloads and day/night infared imaging payloads to be mounted on KOMPSAT 7 & 7A, the world’s most technologically advanced satellites.
  • Military Reconnaissance
    Satellite SAR Payload

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    Military Reconnaissance Satellite Project SAR Payload

    군 정찰위성 SAR 탑재체 제품
    Hanwha Systems is working on SAR imaging radar, one of the key modules for military reconnaissance satellite, which can provide image information taken from space under all weather conditions concerning the mission area. By leveraging its R&D capabilities in AESA radar for air platforms, we have been collaborating with the global top players for SAR satellite and SAR payloads developments, thus acquiring technology base for SAR core modules and successfully performing SAR Program.
    In addition, We are developing key modules for high resolution camera and day/night infrared imaging sensor payloads to be mounted on military reconnaissance satellites.
  • Small SAR Satellite
    System & Payload

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    Small SAR Satellite System and Payload Development

    초소형 SAR 위성 체계·탑재체 제품
    SAR payload with electronic beam steering capability of the global top tier level.
    In order to effectively respond to the future security environment and build the foundation for Korea’s indigenous development of small SAR constellation satellite systems, Small SAR Satellite EQM(Engineering & Qualification Model) Project is underway as one of the Future Technology Challenge Initiative Program, in which Hanwha Systems is actively participating.
    Small constellation satellite brings such advantages as low cost, short development period, quick orbit reaching, etc. compared with the existing mid-to-large sized satellites. In particular, small constellation satellite has very short revisit time cycles, which allow for expedient mission performance and express data acquisition.
    Unlike the designs for existing satellites, innovative designs per New Space Paradigm are applied to SAR constellation satellite, which include integrated SAR antenna-main unit structure as well as functional integration. This makes the system lighter and simplifies satellite’s electrical interfaces. Thru these design innovations, SAR satellites have secured economic feasibility while accelerating development schedules.
    In particular, our SAR payload, currently being developed based on Korea’s indigenous technology, applies active array elements for electronic beam steering, which makes it possible to acquire high resolution (1m-level) images for a wider scope. We will develop this technology to be also applicable to BUS(Basic Unit System) and payload-separated type satellites in the future.