17953040. BATTERY CHARGING PROCESS PREDICTION METHOD AND APPARATUS simplified abstract (Huawei Technologies Co., Ltd.)
BATTERY CHARGING PROCESS PREDICTION METHOD AND APPARATUS
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BATTERY CHARGING PROCESS PREDICTION METHOD AND APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 17953040 titled 'BATTERY CHARGING PROCESS PREDICTION METHOD AND APPARATUS
Simplified Explanation
The patent application describes a method and apparatus for predicting the progress of battery charging.
- The method involves receiving a request message from a first or second terminal, which includes information about the battery model and its initial state of charge (SOC).
- Based on the request message, the charging progress information of the battery is determined.
- A response message is then sent back to the terminal, containing the calculated charging progress information.
Potential Applications
This technology can have various applications in industries that rely on battery-powered devices, such as:
- Electric vehicles: Predicting the battery charging progress can help optimize charging times and improve the overall efficiency of electric vehicles.
- Consumer electronics: This method can be used in smartphones, laptops, and other portable devices to provide accurate information about the battery charging progress.
- Renewable energy systems: Predicting the charging progress of batteries used in solar or wind energy systems can help optimize energy storage and utilization.
Problems Solved
The technology addresses the following problems:
- Lack of accurate information: By predicting the battery charging progress, users can have real-time information about the remaining charging time, allowing them to plan their activities accordingly.
- Optimization of charging: The method helps optimize the charging process by providing insights into the battery's current state and expected progress, reducing unnecessary charging time.
- Efficiency improvement: By accurately predicting the charging progress, energy wastage can be minimized, leading to improved overall efficiency of battery-powered devices.
Benefits
The technology offers several benefits:
- Enhanced user experience: Users can have a better understanding of the battery charging progress, enabling them to make informed decisions about device usage.
- Time optimization: By knowing the expected charging time, users can plan their activities accordingly, ensuring that their devices are ready when needed.
- Energy efficiency: Optimizing the charging process reduces energy wastage, leading to improved energy efficiency and reduced environmental impact.
Original Abstract Submitted
A battery charging progress prediction method and apparatus are provided. One example method includes: receiving a request message from a first terminal or a second terminal, where the request message includes a battery model of a battery of the first terminal and a first state of charge (SOC); determining charging progress information of the battery of the first terminal based on the request message; and sending a response message to the first terminal or the second terminal, where the response message includes the charging progress information.