Space Systems – Oak Defense

Space Systems Engineering

Advanced Electronics for Space Missions

Oak Defense Ltd delivers advanced Space Systems Engineering solutions designed to support satellite platforms, spacecraft subsystems, and mission-critical space applications. Our space systems are engineered to meet the stringent performance, reliability, and environmental requirements of space missions.

The portfolio includes avionics interface units, bio-monitoring systems, magnetic torquers, solar sun sensors, GNSS receivers, telecommand decoders, and automatic test equipment (ATE) for C-band transmitters. Each solution is developed using space-grade components and validated through rigorous testing to ensure reliable operation in extreme space environments.

Space systems are engineered with a strong focus on precision, redundancy, and long-term operational stability, supporting functions such as attitude control, navigation, health monitoring, command execution, and system verification. Modular architectures and standards-compliant designs enable seamless integration into diverse satellite and spacecraft platforms.

Through disciplined engineering practices, certified facilities, and quality-driven development, Space Systems Engineering solutions are built to deliver mission readiness, performance assurance, and long-term reliability, supporting both indigenous and strategic space programs.

Astronaut’s Bio-Vest and Avionics Interface Units

Astronaut’s Bio-Vest systems designed to monitor and support astronaut health and safety during space missions. These systems integrate advanced sensors for vital signs monitoring, environmental sensing, and reliable data communication, enabling continuous health assessment and mission awareness.

Avionics Interface Units provide robust connectivity and control interfaces for spacecraft avionics systems, ensuring reliable communication, signal management, and seamless interaction between onboard subsystems. Engineered for space-grade reliability, these units support stable operation in demanding space environments.

Magnetic Torquers

Magnetic torquers designed for spacecraft attitude control, providing precise and efficient magnetic field interactions to adjust, stabilize, and maintain spacecraft orientation. Engineered for space-grade reliability, these components support accurate attitude determination and control across satellite and spacecraft missions.

Solar Sun Sensors

Solar sun sensors designed to provide accurate measurement of solar angles and spacecraft orientation. These sensors support navigation, attitude determination, and power management, enabling reliable solar alignment and stable operation across satellite and spacecraft missions.

GNSS Receivers

GNSS receivers designed to deliver precise positioning, navigation, and timing (PNT) capabilities for spacecraft and satellite platforms. Engineered for space-grade reliability, these receivers enhance mission accuracy, navigation stability, and operational confidence across diverse space missions.

Telecommand Decoders

Telecommand decoders designed to receive, process, and interpret command signals transmitted to spacecraft. These systems ensure accurate command execution, secure communication, and reliable control of mission-critical spacecraft operations.

Automatic Test Equipment (ATE) for C-Band Transmitters

Automatic Test Equipment designed to provide comprehensive testing, verification, and validation of C-band transmitter systems. Engineered to ensure optimal performance, reliability, and compliance, this ATE supports accurate evaluation of transmitter functionality for space and satellite applications.