Samsung sdi co., ltd. (20240243499). RECHARGEABLE BATTERY PACK simplified abstract
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RECHARGEABLE BATTERY PACK
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RECHARGEABLE BATTERY PACK - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240243499 titled 'RECHARGEABLE BATTERY PACK
The abstract describes a patent application for a rechargeable battery pack that includes a cell assembly with at least one battery cell, a frame portion to hold the cell assembly, a flexible printed circuit (FPC) that senses properties of the battery cell, and a dual-in-line plug (DIP) connector connected to the FPC on one side of the frame portion using an electrically conductive adhesive.
- The battery pack includes a cell assembly with at least one battery cell.
- The frame portion accommodates the cell assembly.
- A flexible printed circuit (FPC) is electrically connected to the cell assembly and senses properties of the battery cell.
- A dual-in-line plug (DIP) connector is electrically connected to the FPC on one side of the frame portion.
- The FPC and the DIP connector are connected to each other using an electrically conductive adhesive.
Potential Applications: - Rechargeable electronic devices - Portable power banks - Electric vehicles
Problems Solved: - Efficient monitoring of battery cell properties - Secure electrical connections in battery packs
Benefits: - Enhanced safety in battery packs - Improved performance monitoring - Simplified assembly process
Commercial Applications: The technology can be utilized in various consumer electronics, electric vehicles, and energy storage systems, offering enhanced safety and performance monitoring capabilities.
Questions about the technology: 1. How does the flexible printed circuit (FPC) improve the monitoring of battery cell properties? 2. What are the advantages of using a dual-in-line plug (DIP) connector in the battery pack design?
Original Abstract Submitted
a rechargeable battery pack includes a cell assembly including at least one battery cell, a frame portion accommodating the cell assembly, a flexible printed circuit (fpc) electrically connected to the cell assembly and configured to sense at least one property of the battery cell, and a dual-in-line plug (dip) connector electrically connected to the flexible printed circuit on a first side of the frame portion. the flexible printed circuit and the dip connector are electrically connected to each other by an electrically conductive adhesive.