Battery test chamber ETH series

climaticthermostatictemperature

1.Battery-Specific Thermal Management: •Dual-compressor cascade cooling (-40°C stability) and ceramic heaters for rapid high-temperature recovery. 2.Precision Electrochemical Control: •Integrated battery cyclers with CAN/Modbus protocols, supporting SOP (State of Power), SOH (State of Health), and DCR (Direct Current Resistance) monitoring. 3.Safety-Centric Design-meet Hazard level: • chambers are designed with Fire-resistant stainless steel interior, fire suppression,nitrogen purge system, and emergency power cutoff for thermal runaway prevention . 4.Data Acquisition & AI Analytics: •Real-time logging of voltage, current, temperature, and pressure via LabVIEW/Python APIs. AI-driven anomaly detection reduces test cycles by 30%. 5.Energy Efficiency and Energy storage: •Heat recovery during discharge cycles cuts energy use by 25% (ISO 50001 compliant). 1.EV Battery tests Development: •Cycle life testing (e.g., 1,000+ cycles at -30°C), calendar aging, and thermal runaway propagation studies (GB 38031-2024). 2.Consumer Electronics: •Fast-charge validation for smartphones, drones, and wearables under extreme climates (e.g., 45°C/95% RH chamber for battery). 3.Energy Storage Systems (ESS): •Grid-scale battery stability tests (UL 9540A) and low-temperature performance (-40°C) for Arctic deployments. 4.Aerospace & Defense: •Qualification of aviation batteries(included batter cell and test lithium ion) (DO-311A) and soldier-portable power systems in desert/humid conditions. 5.R&D & Certification: •UN 38.3 compliance for transport safety, IEC 62660-2 for reliability, and custom profiles mimicking real-world load fluctuations.