Sine-on-Random Electrodynamic Vibration Shaker Combined with Lab
Climatic ChamberOur Sine-on-Random Vibration Shaker combined with a Lab Climatic
Chamber offers a sophisticated and highly realistic solution for
environmental stress testing. This integrated system allows you to
simultaneously subject products to complex sine-on-random (SOR) vibration profiles alongside precisely controlled temperature and humidity conditions. Ideal for advanced R&D, aerospace, defense, and automotive
applications, this setup accurately simulates combined, real-world
operational environments that often feature both resonant
frequencies and broadband random vibrations, uncovering critical
weaknesses and ensuring robust product performance. Key Features Advanced Sine-on-Random (SOR) Capability: Generates complex vibration profiles that combine a broadband
random background with one or more discrete sine tones. This
accurately mimics real-world scenarios like engine vibrations
(sine) over road noise (random) or missile launch vibrations (sine)
during flight turbulence (random). Integrated Lab Climatic Chamber: Seamlessly combines the vibration system with a high-performance
environmental chamber, allowing for simultaneous control of
temperature (e.g., from -70°C to +180°C) and humidity (e.g., 20% to
98% RH). High-Precision Electrodynamic Shaker: Utilizes advanced electrodynamic technology for accurate,
repeatable, and controlled generation of intricate SOR, sine,
random, and shock profiles. Wide Frequency Range: Capable of simulating a broad spectrum of frequencies, from
low-end transport vibrations to high-frequency operational
stresses. Advanced Integrated Control System: A powerful, intuitive controller synchronizes SOR vibration,
temperature, and humidity cycles. It enables precise programming
and execution of complex, multi-variable test sequences, often
including industry-specific profiles. Comprehensive Data Acquisition: Continuously monitors and records all environmental parameters
(temp, humidity) and vibration data (acceleration, PSD,
displacement), providing detailed insights and auditable data for
analysis. Robust & Lab-Friendly Construction: Built with high-quality components and an optimized footprint
suitable for laboratory environments, ensuring longevity and
reliable performance under continuous combined-stress operation. Customizable Test Fixtures: Our engineering team designs and manufactures application-specific
fixtures to securely mount diverse products, optimizing stress
transmission and ensuring test integrity. Enhanced Safety Protocols: Incorporates multiple safety interlocks, emergency stops, and
protection mechanisms to safeguard both the equipment and valuable
test articles.
Applications Aerospace & Defense: Qualification of avionics, missile components, and ruggedized
systems exposed to engine vibrations, gunfire, or flight turbulence
in varying climates. Automotive Components: Simulating combined engine/road vibrations with extreme
temperatures and humidity for ECUs, sensors, battery modules, and
structural components. Advanced Electronics: Durability testing of complex electronic assemblies, communication
equipment, and sensitive devices under combined, realistic
environmental and dynamic stresses. Energy Storage Systems (ESS): Comprehensive reliability and safety validation for battery cells
and modules under complex operational vibrations and climatic
extremes. Material Fatigue Analysis: Studying the long-term behavior and degradation of materials when
exposed to synergistic thermal, humidity, and complex vibrational
stresses. Research & Development: Accelerating the development cycles for new products by
understanding their precise behavior in multi-stress, real-world
environments.
Benefits Unrivaled Test Realism: Provides the most accurate and comprehensive assessment of product
performance by simulating synergistic stresses, revealing failure
modes missed by simpler tests. Accelerated Development: Significantly reduces overall test time by performing multiple,
complex stresses simultaneously, speeding up product validation and
time-to-market. Enhanced Product Reliability: Proactively identifies critical design flaws and weaknesses
related to combined thermal, humidity, and complex vibration
stresses, preventing costly field failures. Streamlined Testing: Integrates multiple test capabilities into one system, simplifying
operations and optimizing lab space. Comprehensive Data Insights: Generates rich, synchronized data for in-depth analysis,
contributing to superior design optimization and robust validation
reports. Guaranteed Compliance: Helps meet stringent industry and customer-specific standards that
demand complex combined environmental stress testing.
Technical Specifications Shaker | Rated Sine/ Random/ Shock Force | 1,100 kgf/1,100 kgf/2.200 kgf | Armature Mass | 11kg | | Frequency Range | 5-3.000 Hz | Inserts Size (Standard) | M8 | | Max./Continuous Displacement p-p | 51 mm/ 51 mm | Load Attachment Points (Standard) | 17 | | Max. Velocity | 2.0 m/s | Natural Frequency-Thrust Axis | <3Hz | | Max.Sine/ Random Acceleration | 100/60g | Mac Vertical Load Support | 300 kg | | Armature Diameter | 235 mm | Stray field @ 152 mm above table | ≤1mT (10 gauss) | | Fundamental Resonance frequency | 2,500 Hz (nom.) ± 5% | Dimension LxWxH | 940 mmx715 mmx780 mm | | Allowable Armature Overturning Moment | 300 Nm | Weight (Uncrated) | 1.000 kg |
| Chamber | Dimensions (mm) | | Capacity | 512L | | Inner Chamber Dimensions | 800×800×800mm (W width × D depth × H height mm) | | Temperature Range | -40℃~+150℃ | | Cooling Rate | +20℃~-40℃ Average throughout the range: 2℃/min | | Humidity Range | 20%RH~98%RH | | Overall Dimensions | 1200×2500×1500 (W width × D depth × H height mm) excluding lifting
table dimensions | | Weight | 1500kg |
Ready to push the boundaries of product testing with the most
realistic and comprehensive environmental simulations? Contact our
experts today to discuss your requirements for a Sine-on-Random Vibration Shaker Combined with a Lab Climatic
Chamber. |
