Our Automated Thermal Shock Systems are engineered to provide highly efficient and precise temperature cycling for the rigorous testing of products, particularly critical for Energy Storage Systems (ESS) components. Designed for fully programmable cycles and continuous operation, these systems allow for automated, rapid, and extreme temperature changes, uncovering hidden weaknesses and ensuring the long-term reliability and safety of your ESS batteries, modules, and other sensitive components.

• Fully Programmable Cycles: Advanced control software allows for intuitive programming of complex multi-step thermal shock profiles.
• Two-Zone (or Multi-Zone) Design: Physically separated hot and cold chambers with automated mechanical lift for precise sample transfer.
• Rapid Temperature Change Rates: Capable of achieving extremely fast temperature transitions between extreme hot and cold zones.
• Optimized for ESS Testing: Specifically designed to meet the demanding thermal cycling requirements for battery cells and modules.
• Precise Temperature Control: Advanced airflow systems ensure excellent temperature uniformity and stability.
• Comprehensive Data Logging: Integrated systems continuously record temperature profiles and test cycles.
• Robust Construction: Built with high-quality stainless steel for long-term reliability.
• User-Friendly HMI: Intuitive touchscreen controls simplify test setup and monitoring.
• Enhanced Safety Protocols: Multiple interlocks, emergency stops, and specialized battery testing features.

• ESS Component Testing: Thermal shock validation for battery cells, modules, and power electronics.
• Automotive Batteries (EV/HEV): Accelerated thermal cycling for automotive battery packs.
• Renewable Energy Systems: Reliability testing of inverters and control units.
• Electronics & Semiconductors: Identifying solder joint failures and material fatigue.
• Aerospace & Defense: Qualification of components for extreme operational temperatures.
• Research & Development: Accelerating the discovery of material degradation.

• Accelerated ESS Validation: Rapidly uncovers thermal-related design flaws.
• Enhanced ESS Reliability: Guarantees robust performance under extreme thermal stress.
• Automated Efficiency: Minimizes manual intervention, optimizing test throughput.
• Precise & Repeatable Results: Delivers accurate data for design optimization and compliance.
• Reduced Field Failures: Proactive identification prevents costly warranty claims.