SEEDCORE
See us at Seoul ADEX 2025 · Booth: 10K5
Based on World-class technologies in the defense industry, we design and integrate
embedded systems capable of operating in harsh environments, contributing to the
enhancement of national competitiveness.
Daejeon , Daejeon, South Korea
Aerospace
Co-exhibitors
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Products & Services
SC-SBCRTM-V2
SeedCore
The SC-SBCRTM-V2 is a Rear Transition Module (RTM) designed to extend the I/O functionality of the SBC6511 single-board computer.
Mounted on the rear side of the main VPX backplane, this module provides additional I/O expansion through Micro-D and D-sub connectors for synchronization signals, two Ethernet ports, two Mini-DisplayPort video outputs, two USB interfaces, and MMCX connectors.
It enhances system flexibility and connectivity for embedded and radar signal-processing applications.
Mounted on the rear side of the main VPX backplane, this module provides additional I/O expansion through Micro-D and D-sub connectors for synchronization signals, two Ethernet ports, two Mini-DisplayPort video outputs, two USB interfaces, and MMCX connectors.
It enhances system flexibility and connectivity for embedded and radar signal-processing applications.
SCFAN-CTRL-10U
SeedCore
The SCFAN-CTRL-10U is an internal fan control module installed inside the chassis to provide advanced cooling control and system thermal management.
It integrates with FAN trays and operates through Kontron’s Power Supply Control Module (PSCM), supporting up to two 12V @ 3.5A fans and seven 12V @ 2.5A fans.
This module ensures stable cooling performance and system reliability for high-density VPX-based embedded systems.
It is deployed in the M-SAM-II multi-function radar system, where it provides precise and efficient cooling control for mission-critical radar operations.
It integrates with FAN trays and operates through Kontron’s Power Supply Control Module (PSCM), supporting up to two 12V @ 3.5A fans and seven 12V @ 2.5A fans.
This module ensures stable cooling performance and system reliability for high-density VPX-based embedded systems.
It is deployed in the M-SAM-II multi-function radar system, where it provides precise and efficient cooling control for mission-critical radar operations.
SC-DSPRTM
SeedCore
The SC-DSPRTM, a Seedcore Co., Ltd representative product, is a backplane transmission module that performs the I/O function of the DSP282A.
When the DSP282A board is plugged into the motherboard(Backplane) in front of the Chassis,
you can extend the I/O function of the board by plugging the SC-DSPRTM board into the back of the Backplane.
The DSP282A board consists of two computing nodes.
To support this, Ethernet, USB, MMCX, and mini-HDMI ports are allocated to each node, and synchronization signal input ports can also be used simultaneously on both nodes.
When the DSP282A board is plugged into the motherboard(Backplane) in front of the Chassis,
you can extend the I/O function of the board by plugging the SC-DSPRTM board into the back of the Backplane.
The DSP282A board consists of two computing nodes.
To support this, Ethernet, USB, MMCX, and mini-HDMI ports are allocated to each node, and synchronization signal input ports can also be used simultaneously on both nodes.
Multi-Function Radar Signal Processing System Housing (SC-LSKH-001, SC-LSKH-002, SC-LSKH-003, SC-LSK
SeedCore
Seedcore’s VPX Chassis Housing Assembly is designed as a structural platform for Multi-function radar signal processing systems.
Featuring a robust 8U 2×5 slot VPX configuration, precision-machined aluminum construction, and excellent thermal management, it ensures high mechanical stability and optimal heat dissipation in demanding defense environments.
This chassis housing is deployed in Korea’s key air defense radar systems, including the L-SAM, M-SAM, and LAMD programs, supporting mission-critical radar signal processing architectures.
Featuring a robust 8U 2×5 slot VPX configuration, precision-machined aluminum construction, and excellent thermal management, it ensures high mechanical stability and optimal heat dissipation in demanding defense environments.
This chassis housing is deployed in Korea’s key air defense radar systems, including the L-SAM, M-SAM, and LAMD programs, supporting mission-critical radar signal processing architectures.
SC-SSGMRTM
SeedCore
The SC-SSGMRTM, a Seedcore Co., Ltd representative product, is a backplane transmission module that performs the I/O function of the SSGM(Synchronous Signal Generation Module).
When the SSGM(Synchronous Signal Generation Module) board is plugged into the motherboard(Backplane) in front of the Chassis,
you can extend the I/O function of the board by plugging the SC-SSGMRTM board into the back of the Backplane.
Three 37-pin Micro D-sub ports are used to send synchronization signals generated by SC-SSGM to the outside or to receive external synchronization signals,
Three separate MMCX output ports are prepared to support test equipment such as oscilloscopes, and you can convert them to various signals and output them.
When the SSGM(Synchronous Signal Generation Module) board is plugged into the motherboard(Backplane) in front of the Chassis,
you can extend the I/O function of the board by plugging the SC-SSGMRTM board into the back of the Backplane.
Three 37-pin Micro D-sub ports are used to send synchronization signals generated by SC-SSGM to the outside or to receive external synchronization signals,
Three separate MMCX output ports are prepared to support test equipment such as oscilloscopes, and you can convert them to various signals and output them.
SCXMC-HDLC(High-level Data Link Control)
SeedCore
The SCXMC-HDLC card operates through the XMC interface of the SBC and provides real-time communication for control and status data based on synchronization signals.
It supports serial communication via the SBCRTM’s Micro D-sub 37-pin connector using a standard D-sub 9-pin interface, allowing long-distance transmission through LVDS signaling.
With four transmit/receive channels, it achieves 1–8 Mbps per channel and delivers low-latency performance of less than 40 µs for real-time operations.
A device driver program is required for operation, and the Linux driver can be downloaded from Seedcore’s product page.
Drivers for other operating systems can be developed upon request.
This module is deployed in the L-SAM multi-function radar system, enabling fast and reliable control data communication across mission-critical components.
It supports serial communication via the SBCRTM’s Micro D-sub 37-pin connector using a standard D-sub 9-pin interface, allowing long-distance transmission through LVDS signaling.
With four transmit/receive channels, it achieves 1–8 Mbps per channel and delivers low-latency performance of less than 40 µs for real-time operations.
A device driver program is required for operation, and the Linux driver can be downloaded from Seedcore’s product page.
Drivers for other operating systems can be developed upon request.
This module is deployed in the L-SAM multi-function radar system, enabling fast and reliable control data communication across mission-critical components.
SCVPX-SSGM(Synchronous Signal Generation Module)
SeedCore
The SCVPX-SSGM (Synchronous Signal Generation Module) generates synchronization signals to coordinate the operation and timing of various radar system components.
It can generate synchronization signals using an internal clock, receive an external clock, or regenerate synchronization signals from external sources to maintain precise timing cycles.
A device driver program is required for configuration and operation, and the Linux driver can be downloaded from Seedcore’s product page.
Drivers for other operating systems can be developed upon request.
This module is deployed in the L-SAM multi-function radar system, providing precise timing synchronization across mission-critical subsystems.
It can generate synchronization signals using an internal clock, receive an external clock, or regenerate synchronization signals from external sources to maintain precise timing cycles.
A device driver program is required for configuration and operation, and the Linux driver can be downloaded from Seedcore’s product page.
Drivers for other operating systems can be developed upon request.
This module is deployed in the L-SAM multi-function radar system, providing precise timing synchronization across mission-critical subsystems.
SC-SBCRTM
SeedCore
The SC-SBCRTM, a Seedcore Co., Ltd representative product, is a backplane transmission module that performs the I/O function of the SBC627.
When the SBC627 board is plugged into the motherboard(Backplane) in front of the Chassis,
you can extend the I/O function of the board by plugging the SC-SBCRTM board into the back of the Backplane.
When the SBC627 board is plugged into the motherboard(Backplane) in front of the Chassis,
you can extend the I/O function of the board by plugging the SC-SBCRTM board into the back of the Backplane.
SCFAN-CTRL-5U
SeedCore
The SCFAN-CTRL-5U is an internal fan control module installed inside the chassis to manage cooling performance.
It integrates with FAN trays and operates through Kontron’s Power Supply Control Module (PSCM) to control up to one 12V @ 3.5A fan and seven 12V @ 2.5A fans.
This module ensures efficient thermal management and stable system operation in high-performance VPX-based embedded systems.
It is deployed in the M-SAM-II multi-function radar system, providing reliable and optimized cooling control for mission-critical environments.
It integrates with FAN trays and operates through Kontron’s Power Supply Control Module (PSCM) to control up to one 12V @ 3.5A fan and seven 12V @ 2.5A fans.
This module ensures efficient thermal management and stable system operation in high-performance VPX-based embedded systems.
It is deployed in the M-SAM-II multi-function radar system, providing reliable and optimized cooling control for mission-critical environments.
SC-HPCRTM
SeedCore
The SC-HPCRTM is a Rear Transition Module (RTM) designed to extend the I/O functionality of the HPC2812 high-performance computing board.
It can be mounted on the rear side of the VPX backplane to enhance system connectivity and I/O flexibility.
Since the HPC2812 board consists of two computing nodes, the SC-HPCRTM provides dedicated interfaces for each node, including Ethernet, USB, MMCX, and Mini-HDMI ports, ensuring optimal data communication and display output performance in mission-critical embedded systems.
It can be mounted on the rear side of the VPX backplane to enhance system connectivity and I/O flexibility.
Since the HPC2812 board consists of two computing nodes, the SC-HPCRTM provides dedicated interfaces for each node, including Ethernet, USB, MMCX, and Mini-HDMI ports, ensuring optimal data communication and display output performance in mission-critical embedded systems.
SCXMC-SFPDP(Serial Front Panel Data Port)
SeedCore
The SCXMC-SFPDP is a high-speed optical communication card that operates through the XMC interface of the SBC.
It is designed to transmit and receive large volumes of data between the SBC and other devices in real time.
Unlike Ethernet, which can be difficult to synchronize, the SCXMC-SFPDP uses optical communication with synchronization signals, enabling precise and high-speed data transfer.
It offers low response latency (<40 µs) and supports four transmit/receive channels at 3.125 Gbps per channel.
A device driver program is required for operation, and the Linux driver can be downloaded from Seedcore’s product page.
Drivers for other operating systems can be developed upon request.
This module is deployed in the L-SAM multi-function radar system to ensure reliable real-time data transmission between mission-critical subsystems.
It is designed to transmit and receive large volumes of data between the SBC and other devices in real time.
Unlike Ethernet, which can be difficult to synchronize, the SCXMC-SFPDP uses optical communication with synchronization signals, enabling precise and high-speed data transfer.
It offers low response latency (<40 µs) and supports four transmit/receive channels at 3.125 Gbps per channel.
A device driver program is required for operation, and the Linux driver can be downloaded from Seedcore’s product page.
Drivers for other operating systems can be developed upon request.
This module is deployed in the L-SAM multi-function radar system to ensure reliable real-time data transmission between mission-critical subsystems.
SCXMC-AURORA
SeedCore
The SCXMC-AURORA is one of Seedcore’s flagship products, designed for high-speed optical data communication through an XMC interface.
Utilizing the Xilinx Aurora 64B/66B protocol, it supports four transmit/receive channels, each operating at 10.3125 Gbps via integrated optical transceivers.
A device driver program is required for operation, and the Linux driver can be downloaded from the product information page on Seedcore’s website.
This module is deployed in the M-SAM air defense system, providing reliable and high-speed data transfer between mission-critical embedded components.
Utilizing the Xilinx Aurora 64B/66B protocol, it supports four transmit/receive channels, each operating at 10.3125 Gbps via integrated optical transceivers.
A device driver program is required for operation, and the Linux driver can be downloaded from the product information page on Seedcore’s website.
This module is deployed in the M-SAM air defense system, providing reliable and high-speed data transfer between mission-critical embedded components.
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About
Seedcore is a leading provider of embedded electronic systems and test equipment for advanced defense applications.
Leveraging world-class technologies in the defense industry, we design and integrate high-reliability embedded systems that operate flawlessly in extreme environments, contributing to the enhancement of national defense capabilities.
Guided by a philosophy that values life, innovation, and customer trust, Seedcore has achieved significant growth not only in guided weapon systems but also in next-generation radar signal processing—one of the core technologies driving Korea’s defense modernization.
Our product portfolio includes electronic control units, launcher test sets, and integrated test equipment for air-to-surface missiles, multiple launch rocket systems, and surface-to-surface missile systems.
In addition, Seedcore develops multi-function radar (MFR) signal processing and communication equipment for Korea’s key air defense systems, including the L-SAM, M-SAM, and LAMD programs.
Through continuous innovation and technical excellence, Seedcore is committed to becoming a trusted global partner in the next generation of defense technology.
Leveraging world-class technologies in the defense industry, we design and integrate high-reliability embedded systems that operate flawlessly in extreme environments, contributing to the enhancement of national defense capabilities.
Guided by a philosophy that values life, innovation, and customer trust, Seedcore has achieved significant growth not only in guided weapon systems but also in next-generation radar signal processing—one of the core technologies driving Korea’s defense modernization.
Our product portfolio includes electronic control units, launcher test sets, and integrated test equipment for air-to-surface missiles, multiple launch rocket systems, and surface-to-surface missile systems.
In addition, Seedcore develops multi-function radar (MFR) signal processing and communication equipment for Korea’s key air defense systems, including the L-SAM, M-SAM, and LAMD programs.
Through continuous innovation and technical excellence, Seedcore is committed to becoming a trusted global partner in the next generation of defense technology.
