Aerospace Research - Shanghai Royuen Measurement & Control Technology Co., Ltd.

Solutions Overview

Aerospace Research: Stable and Reliable Measurement & Control Solutions

In aerospace propulsion system test rigs, structural mechanics validation, and material fatigue experiments, measurement and control (M&C) systems face demanding engineering challenges, including high-frequency vibration, wide temperature variations, and complex electromagnetic environments. The primary goal of such research is to obtain high-confidence data and maintain stable closed-loop control under dynamic conditions, ensuring results are repeatable and traceable.
Royuen Measurement & Control draws on extensive experience in precision signal chains and real-time control technologies to provide an engineered product suite covering displacement sensing, signal conditioning, and edge control. Components can be deployed independently or integrated into a unified test platform, providing a reliable hardware foundation for rigorous research.

1. Structural Displacement and Mechanical Feedback Measurement
Hardware Configuration: LVDT Sensors + DAIL100 Signal Conditioner
Engineering Implementation: The sensor uses non-contact measurement to eliminate mechanical wear, ensuring stable long-term displacement feedback. The signal conditioner converts weak sensor signals into a low-noise, stable output suitable for complex experimental environments.
Research Value:

Provides reliable data for static load, fatigue, and wind tunnel displacement measurements.
Supports precise control of servo closed-loop systems, enhancing dynamic tracking performance.

2. Fluid System Health Monitoring and Wear Analysis
Core Equipment: SYAD100 Metal Particle Detection Platform
Engineering Implementation: Simulates lubricant flow under high-temperature and high-vibration conditions, enabling online monitoring of fine metallic debris. This validates sensor performance and tracks wear trends accurately.
Research Value:

Supplies continuous wear data to support tribology and fluid system reliability studies.
Provides essential data for predictive maintenance of experimental test rigs.

3. Multi-Parameter Synchronous Acquisition and Drive Control
Core Equipment: IPC-725 Industrial Process Controller
Engineering Implementation: Centralizes synchronous acquisition of temperature, pressure, strain, and velocity signals, providing stable closed-loop control while adapting to complex test conditions.
Research Value:

Simplifies wiring and integration in multi-sensor experimental systems.
Delivers reliable, deterministic control logic, allowing researchers to focus on experimental design and control strategies.

System Advantages

Modular and Flexible Deployment: Components can operate independently or be integrated into comprehensive test platforms.
Unified Engineering Standards: EMI/EMC mitigation, temperature compensation, and electrical protection adhere to industrial standards, reducing integration uncertainty.
Data Reliability: Hardware stability and deterministic control logic ensure repeatable, traceable results.

We provide robust engineering design and dependable technology, establishing a stable and rigorous measurement and control foundation for aerospace research and supporting high-standard experimental workflows.

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Our team of technical experts stands ready to provide you with professional technical support and consulting services, helping you find the most suitable solution.