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RFID technology empowers the production and traceability of lithium batteries

With the rapid expansion of power batteries used in new energy vehicles, higher requirements have been put forward for the development of lithium batteries with high safety, high consistency, high qualification rate, and low manufacturing costs. RFID technology is widely used in the lithium battery industry, providing great convenience for the production, management, and traceability management of lithium batteries, improving production efficiency, product quality, and logistics efficiency, while achieving product traceability.

In the raw material management process, RFID UHF long range readers and UHF passive on-metal tags have been configured to accurately manage various raw materials. With the help of RFID technology, detailed information about battery raw materials, such as storage locations and inbound and outbound dynamics, can be obtained in real-time. This not only enables us to comprehensively track raw material inventory, but also enables real-time monitoring of its usage.

In the production process, RFID UHF readers use tags to mark electrode plates, diaphragms, etc. in the form of unique identification codes, RFID tags chip data, etc., recording their production status, production parameters, and production quality, providing comprehensive tracking and monitoring for the production process, optimizing production processes, and improving production efficiency.

In the logistics process, RFID UHF readers and UHF passive tags can monitor and track the entire process of battery production and supply chain, including the positioning of materials and products in production, emergency alarms, optimization of distribution routes, etc. It can effectively reduce logistics costs, prevent resource waste and loss, and improve the efficiency and efficiency of logistics operations.

In the traceability process, RFID UHF readers and UHF passive tags can be used to record important data throughout the production process of lithium batteries, including production dates, production process parameters, quality testing results, factory batches, etc., in order to achieve comprehensive traceability and backtracking, and to correct potential quality issues and improve production efficiency.

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