lithium battery making machine

S13-512-3A Standard Linear Format Cabinet – Advanced Lithium Battery Testing and Grading Solution for Industrial and R&D Applications This high-performance Battery Testing System is engineered for precision, efficiency, and scalability in lithium-ion battery evaluation. Designed as a multi-functional unit, the S13-512-3A serves as a comprehensive battery capacity tester, voltage-current analyzer, and automated cell grading machine—ideal for battery manufacturers, research labs, and recycling facilities worldwide. Its advanced four-wire measurement interface ensures exceptional accuracy, while intelligent software streamlines data collection, sorting, and reporting across complex testing protocols. Key Features: - Ultra-high measurement precision: ±(1‰ reading + 1‰ full scale) for both voltage and current, with 1mV resolution and 1mA sensitivity—surpassing standard lab-grade testers. - Integrated functionality: Combines discharge testing, capacity analysis, and automatic grading into one compact cabinet, reducing equipment costs and space requirements. - Smart power recovery: Automatically resumes operations after an outage, preserving test continuity without manual intervention. - Intuitive software suite: Supports barcode scanning, customizable data export formats, and real-time monitoring for efficient lab workflow management. - Versatile application support: Compatible with cylindrical cells (e.g., 18650), prismatic, and pouch configurations used in EVs, energy storage, and consumer electronics. The S13-512-3A excels in delivering reliable, repeatable results essential for quality control in battery production lines and rigorous R&D environments. With its ability to assess open circuit voltage (OCV), charge/discharge profiles, and state-of-health indicators, it enables accurate classification of lithium cells based on performance metrics—a critical step in battery reuse strategies and second-life applications. The system’s robust architecture supports long-term operation under varying load conditions, making it suitable for continuous testing cycles in industrial settings. Ideal Use Cases: Manufacturers benefit from rapid batch screening of newly produced lithium cells, significantly improving throughput and consistency. Researchers leverage the device’s detailed waveform capture and customizable test sequences to develop next-generation battery technologies, including fast-charging systems and solid-state batteries. In the growing battery recycling sector, this unit provides fast, non-destructive assessment of degraded cells, enabling value-added repurposing for stationary storage or low-power applications. Whether used for quality assurance, failure analysis, or lifecycle optimization, the S13-512-3A delivers actionable insights that drive innovation and sustainability. User Feedback: Users consistently highlight the system's reliability during extended testing sessions and ease of integration into existing lab workflows. Many appreciate how the software simplifies data handling compared to older standalone testers, particularly when managing hundreds of samples per day. One user noted, “It saved us over 40% in labor time by automating what used to be manual grading,” while another praised the power-loss recovery feature: “No more lost tests due to grid instability—we’re now confident running overnight runs.” Frequently Asked Questions: What makes this battery tester different from others? Unlike basic testers that only measure voltage or current, the S13-512-3A offers full-capacity determination and automated cell classification using OCV and discharge curves, all within a single hardware platform. Can it handle various battery chemistries? Yes—it supports lithium cobalt oxide (LCO), lithium manganese oxide (LMO), lithium nickel manganese cobalt oxide (NMC), and other common lithium-ion formulations used globally. Is the software compatible with international standards? Absolutely—the system supports ISO-compliant data logging formats and can generate reports tailored to IEC, UL, or UN transport regulations for global compliance. How does it improve battery grading accuracy? By combining high-resolution measurements with algorithm-driven sorting logic, it eliminates human error in manual grading, ensuring consistent categorization based on actual performance rather than assumptions.