10kN Electrodynamic Vibration Test System for Sine-on-Sine Testing

R&D Lab Vibration Test Machine for Sine-on-Sine Vibration Testing

Our R&D Lab Vibration Test Machine is a specialized and powerful solution for advanced research and development, specifically engineered for Sine-on-Sine Vibration Testing. This sophisticated system allows you to subject prototypes and components to complex, multi-frequency sine waveforms, accurately simulating operational environments where multiple discrete frequencies exist simultaneously. By providing precise control over primary and secondary sine tones, our equipment is an indispensable tool for uncovering hidden resonances, evaluating structural integrity, and accelerating the design validation process in your lab.

Key Features

• Advanced Sine-on-Sine Capability: Generates a complex vibration profile that combines a primary sine tone with one or more secondary sine tones. This accurately mimics real-world scenarios where multiple rotating machines or components produce distinct frequencies simultaneously.

• Lab-Grade Precision & Control: Utilizes advanced electrodynamic shaker technology and a high-fidelity digital control system to provide exceptionally accurate, repeatable, and stable sine waveforms.

• High-Precision Digital Control System: The powerful, intuitive controller allows for precise programming and execution of complex sine-on-sine profiles, with independent control over the frequency, amplitude, and phase of each tone.

• Wide Frequency Range: Capable of simulating a broad spectrum of vibrational environments, from low-frequency operational stresses to high-frequency component resonances.

• Comprehensive Data Acquisition: Continuously monitors and records critical test parameters (acceleration, displacement, frequency response), providing detailed insights for in-depth analysis and design optimization.

• Compact & Lab-Friendly Footprint: Designed with an optimized size and minimal noise output, making it suitable for laboratory and R&D environments without compromising on performance.

• Robust & Durable Construction: Built with high-quality components for longevity and reliable performance under continuous, demanding test cycles.

• Customizable Test Fixtures: Our engineering team can design and manufacture application-specific fixtures to securely mount diverse prototypes and components, ensuring proper vibration transmission and test integrity.

Applications

• Aerospace & Defense: Simulating the combined vibrations from multiple engines, gyros, or other rotating machinery on avionics and structural components.

• Automotive R&D: Evaluating the durability of automotive electronics and powertrain components under the combined vibrations of an engine and drivetrain.

• Structural Dynamics Analysis: Conducting advanced resonance searches and fatigue analysis to understand how a structure responds to multiple frequencies simultaneously.

• Electronics & Semiconductors: Testing the integrity of PCBs, connectors, and sensitive components in environments with multiple vibrational sources.

• Failure Analysis: Pinpointing the exact frequencies that cause product failure, even in the presence of other frequencies, to inform robust design changes.

• Research & Development: Fundamental studies on material behavior and product performance under complex, multi-frequency vibrational inputs.

Benefits

• Realistic Environmental Simulation: Provides a far more accurate and comprehensive assessment of product performance by simulating synergistic stresses, revealing potential failure modes that single-sine tests might miss.

• Accelerated R&D: Dramatically reduces the development cycle by quickly and accurately validating new designs against complex, worst-case scenarios.

• Enhanced Product Durability: Ensures that your prototypes and products maintain their performance and integrity in real-world multi-frequency environments, reducing costly field failures.

• Unmatched Data Insights: Generates rich, synchronized data to help engineers pinpoint critical resonance points and inform superior design optimization.

• Flexible & Customizable: Our systems can be tailored to meet your unique R&D needs, from a specific frequency range to a desired force level.