01 | Optical Remote Sensing Satellite Thruster Structure Modal and Micro-vibration Analysis
- Core Technology: Precision micro-vibration analysis of thrusters.
- Solution: Through rigorous vibration testing and analysis response correlation, we ensure the analytical model precisely aligns with real-world physical behavior. This provides high-fidelity structural verification and guarantees the safety of the satellite propulsion system.
02 | LEO Communication Satellite Bus Vibration Analysis and Response Control
- Core Technology: Low Earth Orbit (LEO) satellite bus structural vibration analysis.
- Solution: We conduct in-depth response analysis and control for avionics, communication components, and main payloads. By precisely evaluating the severe mechanical environments encountered during the rocket launch phase, we ensure the absolute safety of both the satellite structure and its payload assemblies.
03 | Ultra-High Resolution Optical Remote Sensing Satellite Bus Vibration Analysis and Optical Payload Modal Separation
- Core Technology: High-precision optical satellite structural analysis.
- Solution: Focusing on the extreme vibration sensitivity of optical components, we implement response control for the main optical payload through advanced satellite structural design. By simulating dynamic loads during launch, we ensure the satellite successfully executes its ultra-high resolution imaging missions in orbit.
04 | SAR Satellite Component Bracket and Structure Reliability Planning
- Core Technology: Component bracket structural planning and analysis.
- Solution: Utilizing modal separation technology, we optimize bracket designs to achieve superior vibration reduction. This approach significantly enhances the reliability of critical components in harsh vibration environments, strictly preventing resonance with the satellite body.
