S37-32-150A Power
Battery Formation Cabinet – Advanced Testing Solution for Lithium-Ion Battery Development and Production This high-performance battery formation and grading system is engineered for precision testing in the lithium-ion battery lifecycle—from research and development to mass production and quality assurance. Designed with a robust 32-channel architecture, each channel operates independently with programmable constant current and constant voltage control, ensuring stable, accurate, and safe battery testing without cross-channel interference. Whether used for cell sorting, capacity verification, or performance validation, this industrial-grade tester delivers reliable results while minimizing human intervention through intuitive software integration. Key Features: - High Accuracy: Voltage and current measurement precision of ±(0.5‰ reading + 0.5‰ full scale) ensures consistent data integrity across thousands of test cycles. - Intelligent Data Handling: Real-time monitoring and storage of voltage, current, time, and capacity curves—ideal for long-term analysis and compliance reporting. - Energy Recovery Technology: During discharge, the bidirectional power module converts DC energy back into AC and feeds it directly into the facility’s electrical grid, reducing operational costs significantly. - Safety-Centric Design: Automatic fault detection triggers immediate channel shutdown and visual alerts via status indicators—minimizing risk during extended testing sessions. - Flexible Operation Modes: Supports both automated computer-based control and manual override functions, accommodating diverse lab environments and user preferences. Detailed Description: The S37-32-150A cabinet stands out as a versatile tool for battery engineers, R&D teams, and manufacturing facilities seeking to optimize lithium-ion battery performance. Its modular design allows simultaneous formation and grading of up to 32 individual cells, streamlining workflows in
Battery Assembly lines. Each channel features dedicated power regulation, enabling precise charge/discharge profiles tailored to specific chemistries such as NMC, LFP, or NCA. The graphical interface uses color-coded indicators—green for normal operation, red for faults—to enhance situational awareness at a glance. Test logs are automatically saved, including waveform graphs and metadata, which can be exported for further evaluation or shared within team networks. With built-in protection against overvoltage, overcurrent, overheating, and short circuits, the unit offers peace of mind during intensive use. Application Scenarios: In R&D labs, this equipment supports advanced electrochemical characterization by enabling multi-step cycling protocols, helping researchers evaluate degradation patterns, thermal behavior, and cycle life expectancy under controlled conditions. For production environments, the ability to grade batteries based on real-world performance metrics reduces waste, improves yield consistency, and accelerates time-to-market for new battery products. Quality inspection departments benefit from detailed historical data logging, allowing root cause analysis when anomalies arise—critical for warranty claims and customer satisfaction. Additionally, remote monitoring capabilities make it suitable for distributed testing setups where centralized oversight is required. User Feedback: Operators across Europe, North America, and Southeast Asia have praised the unit for its reliability, ease of integration with existing test systems, and significant reduction in manual labor. One engineer noted, “It has cut our formation time by nearly 40% while improving classification accuracy.” Another remarked, “The energy feedback feature alone pays for itself within a year in our facility.” Frequently Asked Questions: How does the energy recovery system work? During discharge, the system converts excess battery energy into AC power and returns it to the facility’s main distribution panel, effectively lowering electricity consumption. Is the device compatible with different battery types? Yes—it supports various lithium-ion chemistries, including but not limited to NMC, LFP, and cobalt-based cells, thanks to adjustable voltage and current parameters. Can multiple users access the same test data remotely? Yes, the system includes network-ready functionality for remote viewing, data retrieval, and configuration adjustments from any authorized workstation. Does the unit support custom test sequences? Absolutely—the software allows users to define complex step-based charging and discharging profiles, making it ideal for simulating real-world usage scenarios like EV driving cycles or grid storage applications.
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