Videndum Production Solutions Inc. (20240291053). APPARATUS AND A METHOD FOR MANAGEMENT OF SODIUM-BASED RECHARGEABLE BATTERIES simplified abstract
Contents
APPARATUS AND A METHOD FOR MANAGEMENT OF SODIUM-BASED RECHARGEABLE BATTERIES
Organization Name
Videndum Production Solutions Inc.
Inventor(s)
David Pasko of Middlebury CT (US)
Andrew Hutton of Dunstable (GB)
APPARATUS AND A METHOD FOR MANAGEMENT OF SODIUM-BASED RECHARGEABLE BATTERIES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240291053 titled 'APPARATUS AND A METHOD FOR MANAGEMENT OF SODIUM-BASED RECHARGEABLE BATTERIES
The abstract describes an audio/visual environment with a sodium-based battery assembly. The assembly includes a sodium-based cell array, a battery connector, an interface, protection circuitry, at least one sensor, and at least one processor. The sodium-based cell array utilizes sodium ions as charge carriers during charge and discharge. The battery connector connects the cell array with external devices, while the protection circuitry safeguards the assembly from electrical faults. Sensors measure status information, which the processor identifies and transmits to external devices.
- Sodium-based battery assembly for audio/visual environments
- Utilizes sodium ions as charge carriers for efficient operation
- Includes protection circuitry to prevent electrical faults
- Sensors measure status information of the cell array
- Processor identifies and transmits status information to external devices
Potential Applications: - Renewable energy storage systems - Electric vehicles - Portable electronic devices
Problems Solved: - Efficient energy storage and utilization - Enhanced safety features with protection circuitry - Real-time monitoring of battery status
Benefits: - Longer battery life - Improved safety - Enhanced performance in audio/visual applications
Commercial Applications: Title: Sodium-Based Battery Assembly for Audio/Visual Environments This technology can be used in various industries such as renewable energy, automotive, and consumer electronics. The market implications include increased efficiency and safety in energy storage solutions.
Prior Art: Researchers can explore existing patents related to sodium-based batteries, audio/visual environments, and energy storage systems to understand the background of this innovation.
Frequently Updated Research: Stay updated on advancements in sodium-based battery technology, sensor technology, and energy storage systems to enhance the performance and applications of this technology.
Questions about Sodium-Based Battery Assembly for Audio/Visual Environments: 1. How does the sodium-based cell array differ from traditional lithium-ion batteries? 2. What are the potential environmental impacts of using sodium-based batteries in audio/visual environments?
Original Abstract Submitted
an audio/visual environment includes a sodium-based battery assembly. the battery assembly includes a sodium-based cell array, a battery connector, an interface, protection circuitry, at least one sensor, and at least one processor. the cell array includes at least one sodium-based cell that is configured to utilize sodium ions as charge carriers during charge and discharge. the battery connector is configured to electrically connect the cell array with external devices. the protection circuitry electrically couples the battery connector to the cell array and is configured to electrically decouple the cell array from the battery connector in response to an electrical fault. the at least one sensor is configured to measure status information of the cell array and/or the battery assembly. the at least one processor is configured to identify, utilizing the at least one sensor, the status information, and transmit, utilizing the interface, the status information to an external device.