Solutions Overview
Scientific Research & Experimental Measurement Systems
一、Precision Measurement and Reliable Control for Research Engineering
In scientific research and laboratory validation, data accuracy and system repeatability directly determine the reliability of experimental results. Whether in materials mechanics testing, powder flow studies, or sensor calibration and test rig experiments, research measurement systems frequently encounter vibration disturbances, temperature fluctuations, electromagnetic noise, and mechanical coupling. Measurement errors or unstable control can compromise experimental repeatability and data analysis integrity.
Royuen provides multi-channel data acquisition (DAQ) cards, powder rotational filling analyzers, and LVDT calibration systems as research-grade modules. Through precision signal chain design, modular control, and real-time acquisition and processing, these modules enable laboratories to build reliable, repeatable, engineering-grade measurement and control systems.
二、Multi-Channel Data Acquisition Systems
Research experiments often require simultaneous acquisition of multiple physical quantities such as force, displacement, pressure, temperature, and acceleration. Royuen DAQ systems offer high-resolution, low-noise, multi-channel synchronized sampling, supporting various sensor inputs and seamless integration with experimental test rigs.
1.Key Features:
- High-resolution ADCs for precise capture of small signals
- Synchronized multi-channel sampling to ensure cross-channel data consistency
- Compatibility with a variety of sensor types (LVDTs, strain gauges, thermocouples, pressure sensors, etc.)
- Accurate, synchronized acquisition of multi-physical experimental data
- Provides reliable data foundation for analysis and modeling
三、Powder Rotational Filling Experiments
The powder rotational filling analyzer is used to study powder flowability, filling density, and compaction mechanics, simulating the dynamic behavior of powders in industrial handling processes.
1.Key Features:
- Adjustable rotation speed and programmable loading paths
- Real-time acquisition of displacement and mechanical load data for analysis
- Software records and outputs key experimental parameters in real time
- Quantitative assessment of powder characteristics
- Supports material modeling and process optimization
- Repeatable measurements suitable for long-term studies
四、LVDT Calibration and Verification
High-precision LVDT displacement sensors are widely used in laboratory experiments, where measurement accuracy directly impacts results. The Royuen LVDT calibration system provides automated calibration, temperature compensation, and linearity verification, suitable for research experiments and test rig validation.
1.Key Features:
- High-precision reference displacement stage
- Automated multi-point calibration workflow
- Output reports on hysteresis, linearity, and thermal drift
- Ensures accurate and reliable LVDT measurements
- Supports sensor performance verification and experimental repeatability
五、System Integration and Engineering Advantages
Modules can be used independently or integrated via unified interfaces and communication protocols (EtherCAT, Modbus, TCP/IP), constructing a reliable, repeatable, and engineer-operable measurement and control system. The system supports online diagnostics and synchronized triggering, ensuring data integrity and traceability.
1.System-Level Benefits:
- Reliable acquisition of high-precision, multi-channel experimental data
- Modular and scalable architecture suitable for diverse test rigs
- Supports scientific research, material studies, and laboratory automation
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