With the vigorous development of the lithium battery industry, the National Standard for Lithium Ion Battery Coding Rules approved and issued by the State Administration for Market Regulation (Standardization Administration) will be officially implemented on November 1, 2025. This will inject strong momentum into the safety and quality management of the entire lifecycle of lithium ion batteries. As a key link in the back - end of battery production, formation and formation equipment will also undergo many changes.
Traditionally, formation and formation equipment mainly serves as a production tool, but the new standard may prompt the equipment to transform towards intelligent testing. The equipment needs to collect and correlate battery codes with formation and formation data in real - time, such as current and voltage, to form a database. This not only requires the equipment to have data collection and transmission functions but also to be equipped with advanced sensors and automation systems to ensure the accuracy and integrity of the data, thereby providing support for quality analysis and process optimization.
Formation and formation equipment is an important support for quality control. The implementation of the coding rules enables enterprises to manage the batteries after formation and formation more accurately. The equipment needs to have precise monitoring and feedback functions. When abnormalities occur in the battery during the formation and formation process, enterprises can quickly trace the production information of the battery through the code, analyze whether problems in the production link lead to poor formation and formation effects, and timely adjust production parameters and processes to ensure the quality consistency of the batteries after formation and formation and effectively improve the overall qualification rate of products.
Formation and formation equipment helps make process optimization more targeted. Based on the formation and formation data collected by the equipment, enterprises can more accurately evaluate the impact of different formation and formation processes on battery performance. By comparing the formation and formation results of batteries under different conditions such as temperature, current, and voltage, enterprises can determine the best process conditions, improve battery performance and quality, and reduce production costs.
Formation and formation equipment needs to have a more efficient equipment management system. By associating battery codes with formation and formation equipment, the operation status of the equipment during the formation and formation process can be monitored in real - time, and equipment failures or abnormal conditions can be detected in a timely manner for preventive maintenance and repair. This not only reduces equipment downtime, improves equipment service life and production efficiency but also ensures the smooth progress of the formation and formation process.
In short, the National Standard for Lithium Ion Battery Coding Rules will gradually promote the transformation of formation and formation equipment from traditional production tools to intelligent testing equipment. This transformation not only enhances the functions and performance of the equipment but also promotes the high - quality, safe, and sustainable development of the lithium ion battery industry, bringing new opportunities and challenges to the industry.
The National Standard for Lithium Ion Battery Coding Rules will be implemented on November 1, 2025, and will promote the upgrading and transformation of Equipment For Lithium-Ion Cell Formation. Traditional formation equipment, as a production tool, will transform towards intelligent testing, and needs to collect battery codes and formation data (such as current and voltage) in real - time to form a database. This requires the equipment to be equipped with advanced sensors and automation systems and have data collection and transmission functions, which also makes Lithium Battery Testing Equipment more intelligent. At the same time, as a support for quality control, the equipment can manage batteries accurately, trace abnormal production information to adjust processes, and improve the qualification rate; it helps with targeted process optimization and evaluates the impact of different processes on battery performance; it also needs a more efficient equipment management system to associate battery codes with equipment, monitor the operation status, and reduce downtime. This transformation will promote the high - quality development of the lithium battery industry, and the Battery Testing System will also be upgraded accordingly.
