The ODM-S30-4-150V100A Energy-Efficient Feedback Aging Cabinet is a high-performance, multi-channel
Battery Testing System engineered for precision life cycle evaluation and quality assurance of lithium-ion and lead-acid batteries. Designed with advanced energy feedback technology, this aging cabinet delivers up to 90% energy savings during charging and 88% efficiency in discharging—making it an environmentally responsible solution for modern battery R&D and manufacturing facilities worldwide. This industrial-grade equipment supports four independent channels, each capable of delivering up to 15 kW of power, resulting in a total output capacity of 60 kW. With input voltage compatibility at AC 380V±10%, 50/60Hz, the system ensures stable operation across diverse global electrical standards. Its four-wire connection design enables precise voltage and current monitoring, while the dual-loop architecture allows seamless transitions from constant current to constant voltage modes without risking battery damage—a critical feature for maintaining cell integrity over extended test durations. Key features include real-time temperature sensing via NTC sensors, closed-loop control integration for voltage, current, and thermal parameters, and ultra-high accuracy calibration using Agilent instruments, guaranteeing measurement precision within ±0.5‰. The system supports complex programming with up to 2000 steps and nested cycles of up to 65,535, enabling sophisticated battery performance analysis such as charge/discharge efficiency, capacity retention, overcharge tolerance, and internal resistance calculation—all essential for battery grading and lifecycle prediction. Engineered for durability and safety, the unit incorporates forced-air cooling through an optimized airflow duct system that minimizes heat buildup, ensuring consistent performance even under continuous load conditions. Additionally, robust hardware protection mechanisms and TCP/IP-based software communication ensure reliable data transmission and secure operational control. Data can be linked to barcode-scanned identifiers for traceability, allowing automated database storage and export in multiple formats—including CSV, Excel, and JSON—for streamlined reporting and compliance tracking. Ideal for battery manufacturers, EV component suppliers, and research laboratories, this aging cabinet excels in conducting comprehensive tests such as cycle life endurance, capacity degradation studies, charge retention assessments, and electrochemical performance validation. Whether evaluating individual cells or full battery packs, the system provides actionable insights into battery health, consistency, and longevity—supporting both product development and mass production quality control. Users report exceptional reliability, ease of integration into existing workflows, and significant reductions in energy costs compared to traditional non-feedback systems. Many appreciate the intuitive interface, detailed logging capabilities, and flexibility in customizing test profiles based on specific battery chemistries or industry standards like IEC 61965 or UN38.3. Common questions often revolve around setup complexity, but most users find the initial configuration straightforward thanks to clear documentation and built-in diagnostics. Another frequent inquiry involves compatibility with various battery types; the system’s modular design and programmable voltage/current ranges make it suitable for LiFePO4, NMC, LCO, ternary, and lead-acid configurations alike. For those seeking sustainable, scalable, and accurate battery testing solutions, the ODM-S30-4-150V100A stands out as a globally trusted choice for battery aging, grading, and performance validation.
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